Steady agronomic and genetic interventions are essential for sustaining productivity in intensive rice cropping

种植 产量(工程) 栽培 农学 稻属 生产力 水稻 粮食安全 生物 持续性 种植制度 环境科学 作物产量 作物 农业 生态学 经济 基因 宏观经济学 冶金 材料科学 生物化学
作者
J. K. Ladha,Ando Mariot Radanielson,Jessica Rutkoski,R. J. Buresh,A. Dobermann,Olivyn Angeles,Irish Lorraine B. Pabuayon,Christian Santos‐Medellín,Roberto Fritsche‐Neto,Pauline Chivenge,Ajay Kohli
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:118 (45) 被引量:9
标识
DOI:10.1073/pnas.2110807118
摘要

Intensive systems with two or three rice (Oryza sativa L.) crops per year account for about 50% of the harvested area for irrigated rice in Asia. Any reduction in productivity or sustainability of these systems has serious implications for global food security. Rice yield trends in the world's longest-running long-term continuous cropping experiment (LTCCE) were evaluated to investigate consequences of intensive cropping and to draw lessons for sustaining production in Asia. Annual production was sustained at a steady level over the 50-y period in the LTCCE through continuous adjustment of management practices and regular cultivar replacement. Within each of the three annual cropping seasons (dry, early wet, and late wet), yield decline was observed during the first phase, from 1968 to 1990. Agronomic improvements in 1991 to 1995 helped to reverse this yield decline, but yield increases did not continue thereafter from 1996 to 2017. Regular genetic and agronomic improvements were sufficient to maintain yields at steady levels in dry and early wet seasons despite a reduction in the yield potential due to changing climate. Yield declines resumed in the late wet season. Slower growth in genetic gain after the first 20 y was associated with slower breeding cycle advancement as indicated by pedigree depth. Our findings demonstrate that through adjustment of management practices and regular cultivar replacement, it is possible to sustain a high level of annual production in irrigated systems under a changing climate. However, the system was unable to achieve further increases in yield required to keep pace with the growing global rice demand.

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