Physiology of Salt Stress in Plants. Группа авторов
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Название: Physiology of Salt Stress in Plants

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Биология

Серия:

isbn: 9781119700494

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СКАЧАТЬ to cause flooding and salt assimilation.

      3 Overdosing fertilizers: Post‐Green Revolution, the usage of chemical fertilizers, herbicides, and pesticides has abruptly increased. Overdosing often results in underutilization and accumulation.

      4 Excessive grazing: Areas with scarce soil cover often suffer the root zone saline toxicity due to overgrazing. Surface waterlogging (i.e. either due to over‐irrigation or riverbed sedimentation) in such areas can cause elevation of the water table and thereby facilitating salt migration from the deep aquifers.

      Source: Data from Mandal et al. (2018).

State Sodic soil (M ha) Saline soil (M ha) Total a (M ha)
Gujarat 0.54 1.7 2.24
Uttar Pradesh 1.35 0.02 1.37
Maharashtra 0.42 0.18 0.6
Rajasthan 0.18 0.195 0.375
Tamil Nadu 0.35 0.013 0.363

      a 0.35 M ha: Threshold limit.

      Multiple studies highlighted that abnormal abstraction of groundwater and waterlogging due to excessive irrigation often lead to desertification of fertile land. Therefore, urban local bodies (ULBs) and concerned government authorities should spread awareness among the farmers against salinization and over usage of water. Also, imposing water cess for misuse/overuse can be a productive measure to combat the typical tendency instantly, especially in the water‐scarce areas.

      Source: Adopted from Rasool et al. (2013) and Mandal et al. (2018).

      Source: Adopted from Sharma and Singh 2015.

      The figure portrays the sudden escalation in salinity footprint (i.e. up to 16.2 Mha) between 2020 and 2050 as per the prediction made by the ICAR (ICAR 2015). The prediction is highly likely with no scientific intervention. Moreover, the usage of inferior irrigation water and overconsumption, leading to negative pressure, may further accelerate the salinization process.

      Salt stress induces a diverse range of metabolic and growth‐oriented detrimental changes in plants. Furthermore, protracted exposure can also inhibit crop yield. Primarily, saline exposure incurs OS, and it ultimately leads to ionic toxicities (Bano and Fatima 2009). Induced OS negatively impacts the root absorption capacity and accelerates the stomatal evaporation loss. Saline exposure elicits hyperosmotic pressure, which causes an adverse situation like the above. Initially, OS provokes several physicochemical amendments, which include membrane disruption and disfunctionality, disproportionate nutritive levels, retarded detoxification mechanism, and impaired photosynthesis rate (Munns and James 2003). Particularly, sodicity incites ionic stress by assimilating excess sodium and chloride ions into the plant tissue. Surplus accumulation of the above ions triggers ionic inequity leading to several growths related to detrimental changes. Elevated cell СКАЧАТЬ