优化蔬菜作物的氮利用效率

Nitrogen Pub Date : 2024-02-05 DOI:10.3390/nitrogen5010008
Hector Valenzuela
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引用次数: 0

摘要

氮(N)是蔬菜作物生产中最具限制性的养分,但人为来源的氮会转化为多种活性形式并在整个环境中移动,从而带来风险。迄今为止,为提高氮利用效率(NUE)而开展的大部分氮研究都采用了还原论的因子法,重点关注单一作物下的合成氮施用率和作物生长反应。随着多样化耕作制度、有机氮源和替代管理方法的日益采用,在时间和空间上揭示氮的形态转化、移动和作物吸收动态变得更具挑战性。在此,根据对近期文献的精选综述,我们提出了一种全面的养分管理方法,以突出关键的管理和生产变量以及多层次的种植系统、遗传、环境、生态和社会经济相互作用,从而改善氮循环和氮利用效率。改善氮利用效率的最佳管理策略包括有机和无机氮比率校准研究、种质选择、作物轮作、确定养分与养分之间的相互作用以及病虫害和水管理。可改善氮利用效率的农业生态实践包括时间和空间上的植被多样化、作物-牲畜综合系统、保护性耕作、有机改良投入、豆科作物种植系统,以及养分管理的景观方法。
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Optimizing the Nitrogen Use Efficiency in Vegetable Crops
Nitrogen (N) is the most limiting nutrient for the production of vegetable crops, but anthropogenic sources pose risks due to its transformation into several reactive forms and movement throughout the environment. The bulk of the N research to date to improve Nitrogen Use Efficiency (NUE) has followed a reductionist factorial approach focused on synthetic N application rates and crop growth response, under monocultures. The increased adoption of diversified cropping systems, organic N sources, and alternative management practices makes it more challenging to unravel N form transformation, movement, and crop uptake dynamics, in time and space. Here, based on a selected review of the recent literature, we propose a holistic approach of nutrient management to highlight key management and production variables as well as multilevel cropping system, genetic, environmental, ecological, and socioeconomic interactions to improve the N cycle and NUE. The best management strategies to improve NUE include both organic and inorganic N rate calibration studies, germplasm selection, crop rotations, identification of nutrient x nutrient interactions, and pest and water management. Agroecological practices that may improve NUE include vegetational diversification in time and space, integrated crop–livestock systems, conservation tillage, organic amendment inputs, legume-based cropping systems, as well as a landscape approach to nutrient management.
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