explorers: habitat-loss

This data as json

slug	isPublished	config	createdAt	updatedAt
habitat-loss	1	{ "tab": "map", "blocks": [ { "args": [ "https://raw.githubusercontent.com/owid/owid-datasets/master/datasets/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021)/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021).csv", "habitat" ], "type": "table", "block": null }, { "args": [], "type": "graphers", "block": [ { "type": "DiscreteBar", "title": "Projected habitat loss for all species in 2050: Business-as-usual", "ySlugs": "bau_habitat_loss_all", "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Business-as-usual", "Species Group Radio": "All vertebrates", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss for all species in 2050: Combined interventions", "ySlugs": "combined_habitat_loss_all", "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Combined interventions", "Species Group Radio": "All vertebrates", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss for all species in 2050: Adoption of healthy diets", "ySlugs": "diets_habitat_loss_all", "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Adoption of healthy diets", "Species Group Radio": "All vertebrates", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss for all species in 2050: Halve food waste", "ySlugs": "waste_habitat_loss_all", "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Halve food waste", "Species Group Radio": "All vertebrates", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss for all species in 2050: Close yield gaps", "ySlugs": "yields_habitat_loss_all", "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential\u00a0by 2050. Increasing yields above 80% is rarely achieved over large areas.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Close yield gaps", "Species Group Radio": "All vertebrates", "Projected change by 2050 Radio": "Species habitat loss" }, { "note": "The goal of this scenario is to estimate the impact on biodiversity of land-use planning across international borders, avoiding expansion in the most at-risk countries. This scenario would be in conflict with food security and sovereignty, especially in countries where agriculture is a large source of income.", "type": "DiscreteBar", "title": "Projected habitat loss for all species in 2050: Optimize trade", "ySlugs": "trade_habitat_loss_all", "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Optimise trade", "Species Group Radio": "All vertebrates", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of mammals in 2050: Business-as-usual", "ySlugs": "bau_habitat_loss_mammals", "subtitle": "Projected habitat loss for mammal species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Business-as-usual", "Species Group Radio": "Mammals", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of mammals in 2050: Combined interventions", "ySlugs": "combined_habitat_loss_mammals", "subtitle": "Projected habitat loss for mammal species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Combined interventions", "Species Group Radio": "Mammals", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of mammals in 2050: Adoption of healthy diets", "ySlugs": "diets_habitat_loss_mammals", "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Adoption of healthy diets", "Species Group Radio": "Mammals", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of mammals in 2050: Halve food waste", "ySlugs": "waste_habitat_loss_mammals", "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Halve food waste", "Species Group Radio": "Mammals", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of mammals in 2050: Close yield gaps", "ySlugs": "yields_habitat_loss_mammals", "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Close yield gaps", "Species Group Radio": "Mammals", "Projected change by 2050 Radio": "Species habitat loss" }, { "note": "The goal of this scenario is to estimate the impact on biodiversity of land-use planning across international borders, avoiding expansion in the most at-risk countries. This scenario would be in conflict with food security and sovereignty, especially in countries where agriculture is a large source of income.", "type": "DiscreteBar", "title": "Projected habitat loss of mammals in 2050: Optimize trade", "ySlugs": "trade_habitat_loss_mammals", "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Optimise trade", "Species Group Radio": "Mammals", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of birds in 2050: Business-as-usual", "ySlugs": "bau_habitat_loss_birds", "subtitle": "Projected habitat loss for bird species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Business-as-usual", "Species Group Radio": "Birds", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of birds in 2050: Combined interventions", "ySlugs": "combined_habitat_loss_birds", "subtitle": "Projected habitat loss for bird species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Combined interventions", "Species Group Radio": "Birds", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of birds in 2050: Adoption of healthy diets", "ySlugs": "diets_habitat_loss_birds", "subtitle": "Projected habitat loss for bird species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Adoption of healthy diets", "Species Group Radio": "Birds", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of birds in 2050: Halve food waste", "ySlugs": "waste_habitat_loss_birds", "subtitle": "Projected habitat loss for bird species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Halve food waste", "Species Group Radio": "Birds", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of birds in 2050: Close yield gaps", "ySlugs": "yields_habitat_loss_birds", "subtitle": "Projected habitat loss for bird species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Close yield gaps", "Species Group Radio": "Birds", "Projected change by 2050 Radio": "Species habitat loss" }, { "note": "The goal of this scenario is to estimate the impact on biodiversity of land-use planning across international borders, avoiding expansion in the most at-risk countries. This scenario would be in conflict with food security and sovereignty, especially in countries where agriculture is a large source of income.", "type": "DiscreteBar", "title": "Projected habitat loss of birds in 2050: Optimize trade", "ySlugs": "trade_habitat_loss_birds", "subtitle": "Projected habitat loss for bird species by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Optimise trade", "Species Group Radio": "Birds", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of amphibians in 2050: Business-as-usual", "ySlugs": "bau_habitat_loss_amphibians", "subtitle": "Projected habitat loss for amphibian species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Business-as-usual", "Species Group Radio": "Amphibians", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of amphibians in 2050: Combined interventions", "ySlugs": "combined_habitat_loss_amphibians", "subtitle": "Projected habitat loss for amphibian species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Combined interventions", "Species Group Radio": "Amphibians", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of amphibians in 2050: Adoption of healthy diets", "ySlugs": "diets_habitat_loss_amphibians", "subtitle": "Projected habitat loss for amphibian species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Adoption of healthy diets", "Species Group Radio": "Amphibians", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of amphibians in 2050: Halve food waste", "ySlugs": "waste_habitat_loss_amphibians", "subtitle": "Projected habitat loss for amphibian species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Halve food waste", "Species Group Radio": "Amphibians", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected habitat loss of amphibians in 2050: Close yield gaps", "ySlugs": "yields_habitat_loss_amphibians", "subtitle": "Projected habitat loss for amphibian species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Close yield gaps", "Species Group Radio": "Amphibians", "Projected change by 2050 Radio": "Species habitat loss" }, { "type": "DiscreteBar", "title": "Projected change in cropland area: Business-as-usual", "ySlugs": "bau_change_pct", "subtitle": "Projected change in cropland area by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Business-as-usual", "Projected change by 2050 Radio": "Cropland area" }, { "type": "DiscreteBar", "title": "Projected change in cropland area: Combined interventions", "ySlugs": "combined_change_pct", "subtitle": "Projected change in cropland area by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Combined interventions", "Projected change by 2050 Radio": "Cropland area" }, { "type": "DiscreteBar", "title": "Projected change in cropland area: Adoption of healthy diets", "ySlugs": "diets_change_pct", "subtitle": "Projected change in cropland area by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Adoption of healthy diets", "Projected change by 2050 Radio": "Cropland area" }, { "type": "DiscreteBar", "title": "Projected change in cropland area: Halve food waste", "ySlugs": "waste_change_pct", "subtitle": "Projected change in cropland area by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Halve food waste", "Projected change by 2050 Radio": "Cropland area" }, { "type": "DiscreteBar", "title": "Projected change in cropland area: Close yield gaps", "ySlugs": "yields_change_pct", "subtitle": "Projected change in cropland area by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Close yield gaps", "Projected change by 2050 Radio": "Cropland area" }, { "type": "DiscreteBar", "title": "Projected change in cropland area: Optimize trade", "ySlugs": "trade_change_pct", "subtitle": "Projected change in cropland area by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.", "hasMapTab": "true", "tableSlug": "habitat", "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "yScaleToggle": "false", "baseColorScheme": "owid-distinct", "Scenario Dropdown": "Optimise trade", "Projected change by 2050 Radio": "Cropland area" } ] }, { "args": [ "habitat" ], "type": "columns", "block": [ { "name": "Business-as-usual (All)", "slug": "bau_habitat_loss_all", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Combined (All)", "slug": "combined_habitat_loss_all", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Diets (All)", "slug": "diets_habitat_loss_all", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Waste (All)", "slug": "waste_habitat_loss_all", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Trade (All)", "slug": "trade_habitat_loss_all", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Yields (All)", "slug": "yields_habitat_loss_all", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Business-as-usual (Mammals)", "slug": "bau_habitat_loss_mammals", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Combined (Mammals)", "slug": "combined_habitat_loss_mammals", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Diets (Mammals)", "slug": "diets_habitat_loss_mammals", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Waste (Mammals)", "slug": "waste_habitat_loss_mammals", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Yields (Mammals)", "slug": "yields_habitat_loss_mammals", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Trade (Mammals)", "slug": "trade_habitat_loss_mammals", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Business-as-usual (Birds)", "slug": "bau_habitat_loss_birds", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Combined (Birds)", "slug": "combined_habitat_loss_birds", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Diets (Birds)", "slug": "diets_habitat_loss_birds", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Waste (Birds)", "slug": "waste_habitat_loss_birds", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Yields (Birds)", "slug": "yields_habitat_loss_birds", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Trade (Birds)", "slug": "trade_habitat_loss_birds", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Business-as-usual (Amphibians)", "slug": "bau_habitat_loss_amphibians", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Combined (Amphibians)", "slug": "combined_habitat_loss_amphibians", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Diets (Amphibians)", "slug": "diets_habitat_loss_amphibians", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Waste (Amphibians)", "slug": "waste_habitat_loss_amphibians", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Yields (Amphibians)", "slug": "yields_habitat_loss_amphibians", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Trade (Amphibians)", "slug": "trade_habitat_loss_amphibians", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "YlOrRd", "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-20" }, { "name": "Number of species (All)", "slug": "all_species_number", "type": "Integer", "unit": "species", "shortUnit": "species", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Blues", "colorScaleNumericBins": "250,,;500,,;1000,,;2500,,;5000,,", "colorScaleEqualSizeBins": "true" }, { "name": "Number of species (Mammals)", "slug": "mammal_species_number", "type": "Integer", "unit": "species", "shortUnit": "species", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "YlGnBu", "colorScaleNumericBins": "50,,;100,,;250,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Number of species (Birds)", "slug": "bird_species_number", "type": "Integer", "unit": "species", "shortUnit": "species", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "BuPu", "colorScaleNumericBins": "250,,;500,,;750,,;1000,,;2500", "colorScaleEqualSizeBins": "true" }, { "name": "Number of species (Amphibians)", "slug": "amphibian_species_number", "type": "Integer", "unit": "species", "shortUnit": "species", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Greens", "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Business-as-usual (cropland, km2)", "slug": "bau_change_km2", "type": "Integer", "unit": "km2", "shortUnit": "km2", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Greens", "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Combined (cropland, km2)", "slug": "combined_change_km2", "type": "Integer", "unit": "km2", "shortUnit": "km2", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Greens", "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Diets (cropland, km2)", "slug": "diets_change_km2", "type": "Integer", "unit": "km2", "shortUnit": "km2", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Greens", "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Yields (cropland, km2)", "slug": "yields_change_km2", "type": "Integer", "unit": "km2", "shortUnit": "km2", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Greens", "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Waste (cropland, km2)", "slug": "waste_change_km2", "type": "Integer", "unit": "km2", "shortUnit": "km2", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Greens", "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Trade (cropland, km2)", "slug": "trade_change_km2", "type": "Integer", "unit": "km2", "shortUnit": "km2", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "false", "colorScaleScheme": "Greens", "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000", "colorScaleEqualSizeBins": "true" }, { "name": "Business-as-usual (cropland, %)", "slug": "bau_change_pct", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "RdYlBu", "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-250" }, { "name": "Combined (cropland, %)", "slug": "combined_change_pct", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "RdYlBu", "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-250" }, { "name": "Diets (cropland, %)", "slug": "diets_change_pct", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "RdYlBu", "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-250" }, { "name": "Yields (cropland, %)", "slug": "yields_change_pct", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "RdYlBu", "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-250" }, { "name": "Waste (cropland, %)", "slug": "waste_change_pct", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "RdYlBu", "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-250" }, { "name": "Trade (cropland, %)", "slug": "trade_change_pct", "type": "Numeric", "unit": "%", "shortUnit": "%", "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5", "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.", "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.", "colorScaleInvert": "true", "colorScaleScheme": "RdYlBu", "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250", "colorScaleEqualSizeBins": "true", "colorScaleNumericMinValue": "-250" } ] } ], "_version": 1, "subNavId": "explorers", "yAxisMin": null, "hasMapTab": "true", "selection": [ "World", "Sub-Saharan Africa", "South and East Asia", "Europe", "North America", "Latin America", "North Africa", "Oceania" ], "googleSheet": "https://docs.google.com/spreadsheets/d/1x12v5seRx-lf_nCmLI_RxhCd33brqcMAMVbi1vKKXTM/edit#gid=0", "explorerTitle": "Species Habitat Availability", "hideAlertBanner": "true", "subNavCurrentId": "habitat-loss", "downloadDataLink": "https://raw.githubusercontent.com/owid/owid-datasets/master/datasets/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021)/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021).csv", "explorerSubtitle": "Explore future projections of species' habitats under different agricultural interventions.", "hideAnnotationFieldsInTitle": [ "true" ] }	2023-06-01 19:11:29	2024-02-16 16:46:38

slug

isPublished

config

createdAt

updatedAt

habitat-loss

{
    "tab": "map",
    "blocks": [
        {
            "args": [
                "https://raw.githubusercontent.com/owid/owid-datasets/master/datasets/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021)/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021).csv",
                "habitat"
            ],
            "type": "table",
            "block": null
        },
        {
            "args": [],
            "type": "graphers",
            "block": [
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss for all species in 2050: Business-as-usual",
                    "ySlugs": "bau_habitat_loss_all",
                    "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Business-as-usual",
                    "Species Group Radio": "All vertebrates",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss for all species in 2050: Combined interventions",
                    "ySlugs": "combined_habitat_loss_all",
                    "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Combined interventions",
                    "Species Group Radio": "All vertebrates",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss for all species in 2050: Adoption of healthy diets",
                    "ySlugs": "diets_habitat_loss_all",
                    "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Adoption of healthy diets",
                    "Species Group Radio": "All vertebrates",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss for all species in 2050: Halve food waste",
                    "ySlugs": "waste_habitat_loss_all",
                    "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Halve food waste",
                    "Species Group Radio": "All vertebrates",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss for all species in 2050: Close yield gaps",
                    "ySlugs": "yields_habitat_loss_all",
                    "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential\u00a0by 2050. Increasing yields above 80% is rarely achieved over large areas.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Close yield gaps",
                    "Species Group Radio": "All vertebrates",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "note": "The goal of this scenario is to estimate the impact on biodiversity of land-use planning across international borders, avoiding expansion in the most at-risk countries. This scenario would be in conflict with food security and sovereignty, especially in countries where agriculture is a large source of income.",
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss for all species in 2050: Optimize trade",
                    "ySlugs": "trade_habitat_loss_all",
                    "subtitle": "Projected habitat loss for mammal, bird and amphibian species by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Optimise trade",
                    "Species Group Radio": "All vertebrates",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of mammals in 2050: Business-as-usual",
                    "ySlugs": "bau_habitat_loss_mammals",
                    "subtitle": "Projected habitat loss for mammal species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Business-as-usual",
                    "Species Group Radio": "Mammals",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of mammals in 2050: Combined interventions",
                    "ySlugs": "combined_habitat_loss_mammals",
                    "subtitle": "Projected habitat loss for mammal species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Combined interventions",
                    "Species Group Radio": "Mammals",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of mammals in 2050: Adoption of healthy diets",
                    "ySlugs": "diets_habitat_loss_mammals",
                    "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Adoption of healthy diets",
                    "Species Group Radio": "Mammals",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of mammals in 2050: Halve food waste",
                    "ySlugs": "waste_habitat_loss_mammals",
                    "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Halve food waste",
                    "Species Group Radio": "Mammals",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of mammals in 2050: Close yield gaps",
                    "ySlugs": "yields_habitat_loss_mammals",
                    "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Close yield gaps",
                    "Species Group Radio": "Mammals",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "note": "The goal of this scenario is to estimate the impact on biodiversity of land-use planning across international borders, avoiding expansion in the most at-risk countries. This scenario would be in conflict with food security and sovereignty, especially in countries where agriculture is a large source of income.",
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of mammals in 2050: Optimize trade",
                    "ySlugs": "trade_habitat_loss_mammals",
                    "subtitle": "Projected habitat loss for mammal species by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Optimise trade",
                    "Species Group Radio": "Mammals",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of birds in 2050: Business-as-usual",
                    "ySlugs": "bau_habitat_loss_birds",
                    "subtitle": "Projected habitat loss for bird species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Business-as-usual",
                    "Species Group Radio": "Birds",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of birds in 2050: Combined interventions",
                    "ySlugs": "combined_habitat_loss_birds",
                    "subtitle": "Projected habitat loss for bird species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Combined interventions",
                    "Species Group Radio": "Birds",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of birds in 2050: Adoption of healthy diets",
                    "ySlugs": "diets_habitat_loss_birds",
                    "subtitle": "Projected habitat loss for bird species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Adoption of healthy diets",
                    "Species Group Radio": "Birds",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of birds in 2050: Halve food waste",
                    "ySlugs": "waste_habitat_loss_birds",
                    "subtitle": "Projected habitat loss for bird species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Halve food waste",
                    "Species Group Radio": "Birds",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of birds in 2050: Close yield gaps",
                    "ySlugs": "yields_habitat_loss_birds",
                    "subtitle": "Projected habitat loss for bird species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Close yield gaps",
                    "Species Group Radio": "Birds",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "note": "The goal of this scenario is to estimate the impact on biodiversity of land-use planning across international borders, avoiding expansion in the most at-risk countries. This scenario would be in conflict with food security and sovereignty, especially in countries where agriculture is a large source of income.",
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of birds in 2050: Optimize trade",
                    "ySlugs": "trade_habitat_loss_birds",
                    "subtitle": "Projected habitat loss for bird species by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Optimise trade",
                    "Species Group Radio": "Birds",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of amphibians in 2050: Business-as-usual",
                    "ySlugs": "bau_habitat_loss_amphibians",
                    "subtitle": "Projected habitat loss for amphibian species by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Business-as-usual",
                    "Species Group Radio": "Amphibians",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of amphibians in 2050: Combined interventions",
                    "ySlugs": "combined_habitat_loss_amphibians",
                    "subtitle": "Projected habitat loss for amphibian species by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Combined interventions",
                    "Species Group Radio": "Amphibians",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of amphibians in 2050: Adoption of healthy diets",
                    "ySlugs": "diets_habitat_loss_amphibians",
                    "subtitle": "Projected habitat loss for amphibian species by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Adoption of healthy diets",
                    "Species Group Radio": "Amphibians",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of amphibians in 2050: Halve food waste",
                    "ySlugs": "waste_habitat_loss_amphibians",
                    "subtitle": "Projected habitat loss for amphibian species by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Halve food waste",
                    "Species Group Radio": "Amphibians",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected habitat loss of amphibians in 2050: Close yield gaps",
                    "ySlugs": "yields_habitat_loss_amphibians",
                    "subtitle": "Projected habitat loss for amphibian species by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Close yield gaps",
                    "Species Group Radio": "Amphibians",
                    "Projected change by 2050 Radio": "Species habitat loss"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected change in cropland area: Business-as-usual",
                    "ySlugs": "bau_change_pct",
                    "subtitle": "Projected change in cropland area by 2050 under a business-as-usual scenario. This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Business-as-usual",
                    "Projected change by 2050 Radio": "Cropland area"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected change in cropland area: Combined interventions",
                    "ySlugs": "combined_change_pct",
                    "subtitle": "Projected change in cropland area by 2050 if all approaches are combined: (1) closing yield gaps; (2) halving food waste; (3) global adoption of healthy diets in line with nutritional requirements; and (4) the optimisation of agricultural production to avoid the most at-risk locations for habitat loss.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Combined interventions",
                    "Projected change by 2050 Radio": "Cropland area"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected change in cropland area: Adoption of healthy diets",
                    "ySlugs": "diets_change_pct",
                    "subtitle": "Projected change in cropland area by 2050 under a scenario of global adoption of healthier diets. Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Adoption of healthy diets",
                    "Projected change by 2050 Radio": "Cropland area"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected change in cropland area: Halve food waste",
                    "ySlugs": "waste_change_pct",
                    "subtitle": "Projected change in cropland area by 2050 under a scenario where consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Halve food waste",
                    "Projected change by 2050 Radio": "Cropland area"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected change in cropland area: Close yield gaps",
                    "ySlugs": "yields_change_pct",
                    "subtitle": "Projected change in cropland area by 2050 under a scenario where crop yield gaps are closed. Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Close yield gaps",
                    "Projected change by 2050 Radio": "Cropland area"
                },
                {
                    "type": "DiscreteBar",
                    "title": "Projected change in cropland area: Optimize trade",
                    "ySlugs": "trade_change_pct",
                    "subtitle": "Projected change in cropland area by 2050 under a scenario where agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.",
                    "hasMapTab": "true",
                    "tableSlug": "habitat",
                    "sourceDesc": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "yScaleToggle": "false",
                    "baseColorScheme": "owid-distinct",
                    "Scenario Dropdown": "Optimise trade",
                    "Projected change by 2050 Radio": "Cropland area"
                }
            ]
        },
        {
            "args": [
                "habitat"
            ],
            "type": "columns",
            "block": [
                {
                    "name": "Business-as-usual (All)",
                    "slug": "bau_habitat_loss_all",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Combined (All)",
                    "slug": "combined_habitat_loss_all",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Diets (All)",
                    "slug": "diets_habitat_loss_all",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Waste (All)",
                    "slug": "waste_habitat_loss_all",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Trade (All)",
                    "slug": "trade_habitat_loss_all",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Yields (All)",
                    "slug": "yields_habitat_loss_all",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Business-as-usual (Mammals)",
                    "slug": "bau_habitat_loss_mammals",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Combined (Mammals)",
                    "slug": "combined_habitat_loss_mammals",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Diets (Mammals)",
                    "slug": "diets_habitat_loss_mammals",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Waste (Mammals)",
                    "slug": "waste_habitat_loss_mammals",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Yields (Mammals)",
                    "slug": "yields_habitat_loss_mammals",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Trade (Mammals)",
                    "slug": "trade_habitat_loss_mammals",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Business-as-usual (Birds)",
                    "slug": "bau_habitat_loss_birds",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Combined (Birds)",
                    "slug": "combined_habitat_loss_birds",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Diets (Birds)",
                    "slug": "diets_habitat_loss_birds",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Waste (Birds)",
                    "slug": "waste_habitat_loss_birds",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Yields (Birds)",
                    "slug": "yields_habitat_loss_birds",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Trade (Birds)",
                    "slug": "trade_habitat_loss_birds",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Business-as-usual (Amphibians)",
                    "slug": "bau_habitat_loss_amphibians",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Combined (Amphibians)",
                    "slug": "combined_habitat_loss_amphibians",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Diets (Amphibians)",
                    "slug": "diets_habitat_loss_amphibians",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Waste (Amphibians)",
                    "slug": "waste_habitat_loss_amphibians",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Yields (Amphibians)",
                    "slug": "yields_habitat_loss_amphibians",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Trade (Amphibians)",
                    "slug": "trade_habitat_loss_amphibians",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "YlOrRd",
                    "colorScaleNumericBins": "-15,,;-10,,;-5,,;0,,;5,,",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-20"
                },
                {
                    "name": "Number of species (All)",
                    "slug": "all_species_number",
                    "type": "Integer",
                    "unit": "species",
                    "shortUnit": "species",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Blues",
                    "colorScaleNumericBins": "250,,;500,,;1000,,;2500,,;5000,,",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Number of species (Mammals)",
                    "slug": "mammal_species_number",
                    "type": "Integer",
                    "unit": "species",
                    "shortUnit": "species",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "YlGnBu",
                    "colorScaleNumericBins": "50,,;100,,;250,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Number of species (Birds)",
                    "slug": "bird_species_number",
                    "type": "Integer",
                    "unit": "species",
                    "shortUnit": "species",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "BuPu",
                    "colorScaleNumericBins": "250,,;500,,;750,,;1000,,;2500",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Number of species (Amphibians)",
                    "slug": "amphibian_species_number",
                    "type": "Integer",
                    "unit": "species",
                    "shortUnit": "species",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Greens",
                    "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Business-as-usual (cropland, km2)",
                    "slug": "bau_change_km2",
                    "type": "Integer",
                    "unit": "km2",
                    "shortUnit": "km2",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Greens",
                    "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Combined (cropland, km2)",
                    "slug": "combined_change_km2",
                    "type": "Integer",
                    "unit": "km2",
                    "shortUnit": "km2",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Greens",
                    "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Diets (cropland, km2)",
                    "slug": "diets_change_km2",
                    "type": "Integer",
                    "unit": "km2",
                    "shortUnit": "km2",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Greens",
                    "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Yields (cropland, km2)",
                    "slug": "yields_change_km2",
                    "type": "Integer",
                    "unit": "km2",
                    "shortUnit": "km2",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Greens",
                    "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Waste (cropland, km2)",
                    "slug": "waste_change_km2",
                    "type": "Integer",
                    "unit": "km2",
                    "shortUnit": "km2",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Greens",
                    "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Trade (cropland, km2)",
                    "slug": "trade_change_km2",
                    "type": "Integer",
                    "unit": "km2",
                    "shortUnit": "km2",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "false",
                    "colorScaleScheme": "Greens",
                    "colorScaleNumericBins": "10,,;50,,;100,,;500,,;1000",
                    "colorScaleEqualSizeBins": "true"
                },
                {
                    "name": "Business-as-usual (cropland, %)",
                    "slug": "bau_change_pct",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "RdYlBu",
                    "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-250"
                },
                {
                    "name": "Combined (cropland, %)",
                    "slug": "combined_change_pct",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "RdYlBu",
                    "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-250"
                },
                {
                    "name": "Diets (cropland, %)",
                    "slug": "diets_change_pct",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "RdYlBu",
                    "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-250"
                },
                {
                    "name": "Yields (cropland, %)",
                    "slug": "yields_change_pct",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "RdYlBu",
                    "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-250"
                },
                {
                    "name": "Waste (cropland, %)",
                    "slug": "waste_change_pct",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "RdYlBu",
                    "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-250"
                },
                {
                    "name": "Trade (cropland, %)",
                    "slug": "trade_change_pct",
                    "type": "Numeric",
                    "unit": "%",
                    "shortUnit": "%",
                    "sourceLink": "https://www.nature.com/articles/s41893-020-00656-5",
                    "sourceName": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "additionalInfo": "Projected species' habitat loss is projected to 2050 under a business-as-usual, plus five intervention scenarios with changes to diets or agricultural production.\\n\\nBusiness-as-usual: This assumes population growth from UN medium projections; crop yield increases in line with historical rates of improvement; and dietary changes in line with projected rises in income.\\n\\nClosing yield gaps: Yields increase linearly from current yields to 80% of the estimated maximum potential by 2050. Increasing yields above 80% is rarely achieved over large areas.\\n\\nHalve food waste: consumer food waste and food losses in supply chains are reduced by 25% by 2030 and 50% by 2050.\\n\\nHealthier diets: Diets transition to the EAT-Lancet diet which is in line with healthy calorie and nutritional requirements. For richer countries this would mean a reduction (but not elimination) of meat consumption. For poorer countries, this would mean an increase.\\n\\nOptimize trade: agricultural production and trade is optimized to produce food in the locations with the least risk of habitat loss. Agricultural production shifts from the 25 countries projected to have the greatest mean losses of suitable habitat across all species to countries where less than 10% of species are threatened with extinction.\\n\\nCombined: all four interventions are combined.",
                    "dataPublishedBy": "Williams, D. R., Clark, M., Buchanan, G. M., Ficetola, G. F., Rondinini, C., & Tilman, D. (2021). Proactive conservation to prevent habitat losses to agricultural expansion. Nature Sustainability, 4(4), 314-322.",
                    "colorScaleInvert": "true",
                    "colorScaleScheme": "RdYlBu",
                    "colorScaleNumericBins": "-100,,;-75,,;-50,,;-25,,;0,,;25,,;50,,;75,,;100,,;250",
                    "colorScaleEqualSizeBins": "true",
                    "colorScaleNumericMinValue": "-250"
                }
            ]
        }
    ],
    "_version": 1,
    "subNavId": "explorers",
    "yAxisMin": null,
    "hasMapTab": "true",
    "selection": [
        "World",
        "Sub-Saharan Africa",
        "South and East Asia",
        "Europe",
        "North America",
        "Latin America",
        "North Africa",
        "Oceania"
    ],
    "googleSheet": "https://docs.google.com/spreadsheets/d/1x12v5seRx-lf_nCmLI_RxhCd33brqcMAMVbi1vKKXTM/edit#gid=0",
    "explorerTitle": "Species Habitat Availability",
    "hideAlertBanner": "true",
    "subNavCurrentId": "habitat-loss",
    "downloadDataLink": "https://raw.githubusercontent.com/owid/owid-datasets/master/datasets/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021)/Biodiversity%20habitat%20loss%20(Williams%20et%20al.%202021).csv",
    "explorerSubtitle": "Explore future projections of species' habitats under different agricultural interventions.",
    "hideAnnotationFieldsInTitle": [
        "true"
    ]
}

2023-06-01 19:11:29

2024-02-16 16:46:38

Links from other tables

0 rows from explorerSlug in explorer_charts
0 rows from explorerSlug in explorer_variables