初级生产
农业
人均
生态系统服务
碳足迹
虚拟水
环境科学
自然资源经济学
业务
农业经济学
生态系统
生态足迹
温室气体
农林复合经营
持续性
环境保护
农业生产力
经济
地理
缺水
生态学
人口学
考古
社会学
生物
人口
作者
Jan Weinzettel,Dava Vačkářů,Helena Medková
摘要
Abstract Agriculture is one of the most important sources of biomass for human society but increasingly contributes to anthropogenic degradation of ecosystems through negative impacts on biodiversity, ecosystem integrity, climate change, and ecosystem services. Here we estimate NPP pot agricultural footprint, that is, the level of appropriation of potential net primary production (NPP pot ) by global cropland and human‐made pastures from the consumer responsibility (footprint) perspective and reveal the role of international trade. To quantify the NPP pot agricultural footprint, we utilize environmentally extended multi‐regional input–output analysis to attribute the terrestrial potential NPP altered by global cropland and human‐made pastures to the final consumers responsible for pulling the supply chains. We identify the NPP pot of geographically specific cropland area of 186 agricultural crops in 236 countries and we track each of those crops through the global web of international trade and supply chains to the point of final consumption. We show that human society appropriates 20% (13 petagrams of carbon per year) of global potential net primary production by the transformation of natural ecosystems into cropland and human‐made pastures. International trade accounts for 23% of global NPP pot footprint of agriculture. While the two and half billion people living in China and India (the two countries with lowest NPP pot agricultural footprint per capita) appropriate about 16% of the global NPP pot agricultural footprint of cropland and human‐made pastures, the same share is appropriated by only 360 million people living in countries with the highest per capita footprint.
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