Importance of food-demand management for climate mitigation

Bajželj, B 
Richards, KS 
Allwood, JM 
Smith, P 
Dennis, JS 

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Recent studies show that current trends in yield improvement will not be sufficient to meet projected global food demand in 2050, and suggest that a further expansion of agricultural area will be required. However, agriculture is the main driver of losses of biodiversity and a major contributor to climate change and pollution, and so further expansion is undesirable. The usual proposed alternative - intensification with increased resource use - also has negative effects. It is therefore imperative to find ways to achieve global food security without expanding crop or pastureland and without increasing greenhouse gas emissions. Some authors have emphasised a role for sustainable intensification in closing global 'yield gaps' between the currently realised and potentially achievable yields. However, in this paper we use a transparent, data-driven model, to show that even if yield gaps are closed, the projected demand will drive further agricultural expansion. There are, however, options for reduction on the demand side that are rarely considered. In the second part of this paper we quantify the potential for demand-side mitigation options, and show that improved diets and decreases in food waste are essential to deliver emissions reductions, and to provide global food security in 2050.

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30 Agricultural, Veterinary and Food Sciences, 4104 Environmental Management, 41 Environmental Sciences, 3002 Agriculture, Land and Farm Management, 3004 Crop and Pasture Production, 2 Zero Hunger, 13 Climate Action
Journal Title
Nature Climate Change
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Springer Science and Business Media LLC
Engineering and Physical Sciences Research Council (EP/K039326/1)
This work was funded by a grant to the University of Cambridge from BP as part of their Energy Sustainability Challenge.