Morphophysiological Traits, Biochemical Characteristic and Productivity of Wheat under Water and Nitrogen-Colimitation: Pathways to Improve Water and N Uptake

Abiotic Stress in Plants Pub Date : 2020-10-28 DOI:10.5772/intechopen.94355

N. Ali, M. Akmal

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引用次数: 2

Abstract

Drought stress is the most prominent limiting factor and abiotic stress that manipulates the physiological pathway, biochemical traits and hence negatively affects wheat crop productivity. The global nitrogen (N) recovery indicated that about two-fifths of N inputs are lost in the ecosystems through emission, denitrification, gaseous loss, leaching, surface runoff and volatilization etc. Farmers are using higher rates of N to harvest maximum yield but about 50–60% of applied N to crop field is not utilized by the plants and are lost to environment causing environmental pollution. These deleterious environmental consequences need to be reduced by efficient management of N and/or water. N-availability is often regulated by soil water; hence crop is experiencing N- and water-limitation simultaneously. There is great impetus to optimize their uptake through interconnectedness of water and N for yield determination of wheat because of the water scarcity and N losses. It is further advocate that there is need to investigate the intricate role of economizing N rate and water simultaneously for wheat crop growth, yield and backing quality may be beneficial to be investigate.

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水氮共配条件下小麦形态生理特性、生化特性及产量:提高水分和氮吸收的途径

干旱胁迫是最主要的限制因子和非生物胁迫，它操纵小麦的生理途径和生化性状，从而对小麦产量产生负面影响。全球氮(N)恢复表明，生态系统中约五分之二的氮输入通过排放、反硝化、气体损失、淋滤、地表径流和挥发等方式损失。农民使用较高的施氮量以获得最大产量，但施用于农田的约50-60%的氮素没有被植物利用，而是流失到环境中，造成环境污染。这些有害的环境后果需要通过对氮和/或水的有效管理来减少。氮的有效性通常受土壤水分的调节;因此，作物同时面临氮素和水分的限制。由于水资源短缺和氮素损失，通过水氮的相互联系来优化它们的吸收是小麦产量决定的巨大动力。进一步主张有必要研究同时节约氮肥和水分对小麦作物生长的复杂作用，研究产量和背品质可能是有益的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Abiotic Stress in Plants

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