Salt stress and its impact on rice physiology with special reference to India- A review

Q4 Immunology and Microbiology

Journal of Applied and Natural Science Pub Date : 2023-09-19 DOI:10.31018/jans.v15i3.4747

Abinaya Sezhiyan, Ashok Subiramaniyan, Chandrasekaran Perumal, None Ashokkumar Natarajan, Rajeshkumar Arumugam, Kuttimani Ramalingam, Navin Kumar Chinnaraju

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引用次数: 0

Abstract

With the increasing population, by 2030, the population of India will have seen an unprecedented rise of 1.43 billion and require food grains of around 311 million tones. Of the total area, nearly 5% of the area in India is affected by soil salinity. It is said that about 10% of soil is salinized every year. At this rate, 50% of the land area will be salinized by 2050.These repercussions challenge us to expand the area under cultivation or to increase the yield per unit area to maintain food security and sustainability. In order to meet the growing demands of the increased population, two major approaches can be met. Firstly, the available area under cultivation must be increased, which can be done by the reclamation of various problematic soils and making them suitable for cultivation. The second and holistic approach is to employ various biotechnological and breeding aspects in the development of resistant varieties surviving the harsh and unfavourable environment and showing no subsequent reduction in the yield parameters. For this, one must understand the various physiological aspects of tolerance for screening the elite varieties suited for a particular ecosystem or environment. Thus, the present study vividly explains the various physiological aspects of salt stress on rice. Employing these techniques, one can screen superior genotypes resistant to various stresses, thus keeping the Malthus predictions at bay.

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盐胁迫及其对水稻生理的影响，特别以印度为例

随着人口的不断增长，到2030年，印度人口将达到前所未有的14.3亿，需要约3.11亿吨粮食。在总面积中，印度近5%的面积受到土壤盐分的影响。据说每年大约有10%的土壤盐碱化。按照这个速度，到2050年，50%的土地面积将盐碱化。这些影响促使我们扩大种植面积或提高单位面积产量，以维持粮食安全和可持续性。为了满足不断增长的人口日益增长的需求，可以采取两种主要方法。首先，必须增加可耕种的面积，这可以通过开垦各种有问题的土壤，使其适合耕种来实现。第二种全面的方法是利用各种生物技术和育种方面的方法来开发抗性品种，使其在恶劣和不利的环境中存活下来，并且在产量参数上没有后续的下降。为此，人们必须了解耐受性的各种生理方面，以便筛选适合特定生态系统或环境的优良品种。因此，本研究生动地解释了盐胁迫对水稻生理的各个方面。利用这些技术，人们可以筛选出对各种压力具有抵抗力的优良基因型，从而使马尔萨斯的预测成为可能。

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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来源期刊

Journal of Applied and Natural Science Immunology and Microbiology-Immunology and Microbiology (all)

CiteScore

0.80

自引率

0.00%

发文量

168