The environmental footprint of global food production

Feeding humanity puts enormous environmental pressure on our planet. These pressures are unequally distributed, yet we have piecemeal knowledge of how they accumulate across marine, freshwater and terrestrial systems. Here we present global geospatial analyses detailing greenhouse gas emissions, fre...

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Veröffentlicht in:	Nature sustainability 2022-12, Vol.5 (12), p.1027-1039
Hauptverfasser:	Halpern, Benjamin S., Frazier, Melanie, Verstaen, Juliette, Rayner, Paul-Eric, Clawson, Gage, Blanchard, Julia L., Cottrell, Richard S., Froehlich, Halley E., Gephart, Jessica A., Jacobsen, Nis S., Kuempel, Caitlin D., McIntyre, Peter B., Metian, Marc, Moran, Daniel, Nash, Kirsty L., Többen, Johannes, Williams, David R.
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Sprache:	eng
Schlagworte:	704/158/2458 704/172/4081 Aquatic environment Earth and Environmental Science Ecological footprint Environment Food Food production Greenhouse gases Nutrient pollution Nutrients Sustainable Development
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creator	Halpern, Benjamin S. Frazier, Melanie Verstaen, Juliette Rayner, Paul-Eric Clawson, Gage Blanchard, Julia L. Cottrell, Richard S. Froehlich, Halley E. Gephart, Jessica A. Jacobsen, Nis S. Kuempel, Caitlin D. McIntyre, Peter B. Metian, Marc Moran, Daniel Nash, Kirsty L. Többen, Johannes Williams, David R.
description	Feeding humanity puts enormous environmental pressure on our planet. These pressures are unequally distributed, yet we have piecemeal knowledge of how they accumulate across marine, freshwater and terrestrial systems. Here we present global geospatial analyses detailing greenhouse gas emissions, freshwater use, habitat disturbance and nutrient pollution generated by 99% of total reported production of aquatic and terrestrial foods in 2017. We further rescale and combine these four pressures to map the estimated cumulative pressure, or ‘footprint’, of food production. On land, we find five countries contribute nearly half of food’s cumulative footprint. Aquatic systems produce only 1.1% of food but 9.9% of the global footprint. Which pressures drive these footprints vary substantially by food and country. Importantly, the cumulative pressure per unit of food production (efficiency) varies spatially for each food type such that rankings of foods by efficiency differ sharply among countries. These disparities provide the foundation for efforts to steer consumption towards lower-impact foods and ultimately the system-wide restructuring essential for sustainably feeding humanity. Producing sufficient food to support the planet’s growing population places enormous strain on critical ecosystems. Quantifying and mapping the individual and cumulative pressures from greenhouse gases, freshwater use, habitat disturbance and nutrient pollution provides crucial insight into producing lower-impact, more sustainable foods.
doi_str_mv	10.1038/s41893-022-00965-x
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These pressures are unequally distributed, yet we have piecemeal knowledge of how they accumulate across marine, freshwater and terrestrial systems. Here we present global geospatial analyses detailing greenhouse gas emissions, freshwater use, habitat disturbance and nutrient pollution generated by 99% of total reported production of aquatic and terrestrial foods in 2017. We further rescale and combine these four pressures to map the estimated cumulative pressure, or ‘footprint’, of food production. On land, we find five countries contribute nearly half of food’s cumulative footprint. Aquatic systems produce only 1.1% of food but 9.9% of the global footprint. Which pressures drive these footprints vary substantially by food and country. Importantly, the cumulative pressure per unit of food production (efficiency) varies spatially for each food type such that rankings of foods by efficiency differ sharply among countries. 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subjects	704/158/2458 704/172/4081 Aquatic environment Earth and Environmental Science Ecological footprint Environment Food Food production Greenhouse gases Nutrient pollution Nutrients Sustainable Development
title	The environmental footprint of global food production
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