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Is Nitrogen a Key Determinant of Water Transport and Photosynthesis in Higher Plants Upon Drought Stress?

机译：氮是干旱胁迫下高等植物水分运输和光合作用的关键决定因素吗？

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摘要

Drought stress is a major global issue limiting agricultural productivity. Plants respond to drought stress through a series of physiological, cellular, and molecular changes for survival. The regulation of water transport and photosynthesis play crucial roles in improving plants’ drought tolerance. Nitrogen (N, ammonium and nitrate) is an essential macronutrient for plants, and it can affect many aspects of plant growth and metabolic pathways, including water relations and photosynthesis. This review focuses on how drought stress affects water transport and photosynthesis, including the regulation of hydraulic conductance, aquaporin expression, and photosynthesis. It also discusses the cross talk between N, water transport, and drought stress in higher plants.

机译：干旱压力是限制农业生产力的主要全球性问题。植物通过一系列生理，细胞和分子变化来响应干旱胁迫，以求生存。水分运输和光合作用的调节在提高植物的抗旱性中起着至关重要的作用。氮（氮，铵和硝酸盐）是植物必不可少的大量营养素，它可以影响植物生长和代谢途径的许多方面，包括水的关系和光合作用。这篇综述着重于干旱胁迫如何影响水的运输和光合作用，包括水力传导，水通道蛋白表达和光合作用的调节。它还讨论了高等植物中氮，水分运输和干旱胁迫之间的相互影响。

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期刊名称 other
作者
Lei Ding; Zhifeng Lu; Limin Gao; Shiwei Guo; Qirong Shen;
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作者单位

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年(卷),期 -1(9),-1
年度 -1
页码 1143
总页数 12
原文格式 PDF
正文语种
中图分类
关键词
drought stress water transport photosynthesis nitrogen aquaporin;

机译：干旱胁迫;水运输;光合作用;氮;水通道蛋白;

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专利

1. Silicon alleviates drought stress of rice plants by improving plant water status, photosynthesis and mineral nutrient absorption [J] . ChenW., YaoX., CaiK., Biological trace element research . 2011,第1期

机译：硅通过改善植物的水分状况，光合作用和吸收矿质养分来缓解水稻的干旱胁迫
2. Silicon Alleviates Drought Stress of Rice Plants by Improving Plant Water Status, Photosynthesis and Mineral Nutrient Absorption [J] . Wei Chen, Xiaoqin Yao, Kunzheng Cai, Biological Trace Element Research . 2011,第1期

机译：硅通过改善植物的水分状况，光合作用和矿质养分吸收来缓解水稻的干旱胁迫
3. Arbuscular Mycorrhizal Fungi Alter Fractal Dimension Characteristics of Robinia pseudoacacia L. Seedlings Through Regulating Plant Growth, Leaf Water Status, Photosynthesis, and Nutrient Concentration Under Drought Stress [J] . Journal of Plant Growth Regulation . 2014,第3期

机译：丛枝菌根真菌通过调节植物生长，叶水状态，光合作用和干旱胁迫下养殖浓度来改变robinia pseudoacacia L.幼苗的分形维数特征
4. Using mathematica to analyze reflectance spectra from nitrogen and water stressed plant and PIX treated plants [C] . James M. McKinion, John Read, K. Raja Reddy Beltwide Cotton Conferences . 2000

机译：使用Mathematica分析氮气和水胁迫植物的反射光谱和PIX处理植物
5. PHYSIOLOGICAL MECHANISMS OF DROUGHT TOLERANCE IN CASSAVA (MANIHOT ESCULENTA CRANTZ) (PLANT WATER RELATIONS, PHOTOSYNTHESIS, GROWTH, ARIZONA, COLOMBIA). [D] . PORTO, MARCIO CARVALHO MARQUES. 1983

机译：木薯（耐心ESCRANENTA CRANTZ）（植物水的关系，光合作用，生长，亚利桑那，哥伦比亚）的耐旱生理机制。
6. The Tonoplast-Localized Sucrose Transporter in Populus (PtaSUT4) Regulates Whole-Plant Water Relations Responses to Water Stress and Photosynthesis [O] . Christopher J. Frost, Batbayar Nyamdari, Chung-Jui Tsai, -1

机译：液泡膜本地化蔗糖转运胡杨（ptasUT4）规定了全植物水分关系应对水资源压力和光合作用
7. Water Relations of Cotton Plants under Nitrogen Deficiency: III. STOMATAL CONDUCTANCE, PHOTOSYNTHESIS, AND ABSCISIC ACID ACCUMULATION DURING DROUGHT 1 [O] . Radin, John W., Ackerson, Robert C. 1981

机译：氮缺乏条件下棉花植物的水分关系：III。干旱期间的气孔导度，光合作用和酸积累

Is Nitrogen a Key Determinant of Water Transport and Photosynthesis in Higher Plants Upon Drought Stress?

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