Abstract
Introducing legumes to crop rotations could contribute toward healthy and sustainable diet transitions, but the current evidence base is fragmented across studies that evaluate specific aspects of sustainability and nutrition in isolation. Few previous studies have accounted for interactions among crops, or the aggregate nutritional output of rotations, to benchmark the efficiency of modified cropping sequences. We applied life cycle assessment to compare the environmental efficiency of ten rotations across three European climatic zones in terms of delivery of human and livestock nutrition. The introduction of grain legumes into conventional cereal and oilseed rotations delivered human nutrition at lower environmental cost for most of the 16 impact categories studied. In Scotland, the introduction of a legume crop into the typical rotation reduced external nitrogen requirements by almost half to achieve the same human nutrition potential. In terms of livestock nutrition, legume-modified rotations also delivered more digestible protein at lower environmental cost compared with conventional rotations. However, legume-modified rotations delivered less metabolisable energy for livestock per hectare-year in two out of the three zones, and at intermediate environmental cost for one zone. Our results show that choice of functional unit has an important influence on the apparent efficiency of different crop rotations, and highlight a need for more research to develop functional units representing multiple nutritional attributes of crops for livestock feed. Nonetheless, results point to an important role for increased legume cultivation in Europe to contribute to the farm and diet sustainability goals of the European Union's Farm to Fork strategy.
Highlights
Agricultural practices must evolve to deliver food security whilst reducing environmental impact
Our results show that choice of functional unit has an important influence on the apparent efficiency of different crop rotations, and highlight a need for more research to develop functional units representing multiple nutritional attributes of crops for livestock feed
The NDUP−F functional units (FU) applied here provides a unique perspective on the comparative efficiency of legume-modified rotations to deliver key components of human nutrition – factors rarely considered in farm- or rotation-level Life Cycle Assessment (LCA) studies
Summary
Agricultural practices must evolve to deliver food security whilst reducing environmental impact. There are efforts to break the current state of technological lock-in of intensive mono-cropping by promoting “agro-ecological” intensification in order to reduce high dependence on finite resources such as phosphorus fertilizers and fossil energy whilst reducing greenhouse gas (GHG) emissions, loss of reactive nitrogen and soil degradation (Rockström et al, 2020). Such agro-ecological intensification may include more biological nitrogen fixation by legumes, extended rotations, intercropping and possible introduction of livestock into crop rotations. Legumes are mainly grown for food and feed purposes (Nemecek et al, 2008; Watson et al, 2017), but they supply value chains for, inter alia, alcoholic beverages (Lienhardt et al, 2019), biorefineries (Karlsson et al, 2015) or green manures (Baddeley et al, 2017)
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