Diversification practices reduce organic to conventional yield gap

农业生态学 产量差距 有机农业 多元化(营销策略) 农业多样化 农业 种植 产量(工程) 绿色革命 环境科学 作物产量 人口 农业经济学 农学 自然资源经济学 经济 业务 生态学 生物 社会学 人口学 营销 冶金 材料科学
作者
Lauren C. Ponisio,Leithen K. M’Gonigle,Kevi Mace,Jenny Palomino,Perry de Valpine,Claire Kremen
出处
期刊:Proceedings of The Royal Society B: Biological Sciences [Royal Society]
卷期号:282 (1799): 20141396-20141396 被引量:740
标识
DOI:10.1098/rspb.2014.1396
摘要

Agriculture today places great strains on biodiversity, soils, water and the atmosphere, and these strains will be exacerbated if current trends in population growth, meat and energy consumption, and food waste continue. Thus, farming systems that are both highly productive and minimize environmental harms are critically needed. How organic agriculture may contribute to world food production has been subject to vigorous debate over the past decade. Here, we revisit this topic comparing organic and conventional yields with a new meta-dataset three times larger than previously used (115 studies containing more than 1000 observations) and a new hierarchical analytical framework that can better account for the heterogeneity and structure in the data. We find organic yields are only 19.2% (±3.7%) lower than conventional yields, a smaller yield gap than previous estimates. More importantly, we find entirely different effects of crop types and management practices on the yield gap compared with previous studies. For example, we found no significant differences in yields for leguminous versus non-leguminous crops, perennials versus annuals or developed versus developing countries. Instead, we found the novel result that two agricultural diversification practices, multi-cropping and crop rotations, substantially reduce the yield gap (to 9 ± 4% and 8 ± 5%, respectively) when the methods were applied in only organic systems. These promising results, based on robust analysis of a larger meta-dataset, suggest that appropriate investment in agroecological research to improve organic management systems could greatly reduce or eliminate the yield gap for some crops or regions.

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