Global food supply: land use efficiency of livestock systems

Hannah H E Van Zanten,Corina E Van Middelaar,Cindy W Klootwijk,Imke J M De Boer,Herman Mollenhorst

doi:10.1007/s11367-015-0944-1

Hannah H E Van Zanten, Corina E Van Middelaar + Show 3 more

Open Access

https://doi.org/10.1007/s11367-015-0944-1

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Abstract

Livestock already use most global agricultural land, whereas the demand for animal-source food (ASF) is expected to increase. To address the contribution of livestock to global food supply, we need a measure for land use efficiency of livestock systems. Existing measures capture different aspects of the debate about land use efficiency of livestock systems, such as plant productivity and the efficiency of converting feed, especially human-inedible feed, into animal products. So far, the suitability of land for cultivation of food crops has not been accounted for. Our land use ratio (LUR) includes all above-mentioned aspects and yields a realistic insight into land use efficiency of livestock systems. LUR is defined as the maximum amount of human-digestible protein (HDP) derived from food crops on all land used to cultivate feed required to produce 1 kg ASF over the amount of HDP in that 1 kg ASF. We illustrated our concept for three case systems. The LUR for the case of laying hens equaled 2.08, implying that land required to produce 1 kg HDP from laying hens could directly yield 2.08 kg HDP from human food crops. For dairy cows, the LUR was 2.10 when kept on sandy soils and 0.67 when kept on peat soils. The LUR for dairy cows on peat soils was lower compared to cows on sandy soils because land used to grow grass and grass silage for cows on peats was unsuitable for direct production of food crops. A LUR <1.0 is considered efficient in terms of global food supply and implies that animals produce more HDP per square metre than crops. Values <1.0 demonstrate that livestock produce HDP more efficiently than crops. Such livestock systems (with a LUR < 1.0), therefore, do have a role in future food supply and therefore contribute to food security. Our LUR offers identification of livestock production systems that contribute to global food supply, i.e. systems that value land with low opportunity costs for arable production and/or by-products from crop cultivation or the food or energy industry.

Highlights

A growing and wealthier human population implies an increase in demand for their needs, such as housing, infrastructure, energy and food, especially animal-source food (ASF)
land use ratio (LUR) for dairy cows on peat soils was lower compared to cows on sandy soils because land used to grow grass and grass silage for cows on peats was unsuitable for direct production of food crops
Our LUR offers identification of livestock production systems that contribute to global food supply, i.e. systems that value land with low opportunity costs for arable production and/or byproducts from crop cultivation or the food or energy industry

Summary

Introduction

A growing and wealthier human population implies an increase in demand for their needs, such as housing, infrastructure, energy and food, especially animal-source food (ASF). The current livestock sector already uses about 70 % of global agricultural land (FAO 2009). The expected increase in demand for ASF, will further intensify global pressure on land. An increased pressure on land amplifies the risk of converting forests, wetlands or natural grasslands into agricultural land, resulting in emission of greenhouse gases and the loss of biodiversity and other important ecosystem services (Godfray et al 2010; Foley et al 2011). It is essential to e.g. improve land use efficiency of livestock systems. Int J Life Cycle Assess (2016) 21:747–758

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