Saadia Hina scite author profile

The ability of plants to tolerate salts is determined by multiple biochemical pathways that facilitate retention and/or acquisition of water, protect chloroplast functions and maintain ion homeostasis. Essential pathways include those that lead to synthesis of osmotically active metabolites, specific proteins and certain free radical enzymes to control ion and water flux and support scavenging of oxygen radicals. No well-defined indicators are available to facilitate the improvement in salinity tolerance of agricultural crops through breeding. If the crop shows distinctive indicators of salt tolerance at the whole plant, tissue or cellular level, selection is the most convenient and practical method. There is therefore a need to determine the underlying biochemical mechanisms of salinity tolerance so as to provide plant breeders with appropriate indicators. In this review, the possibility of using these biochemical characteristics as selection criteria for salt tolerance is discussed.

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Projected Changes in Socioeconomic Exposure to Heatwaves in South Asia Under Changing Climate

Ullah

Saleem

Iyakaremye

et al. 2022

Earth's Future

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The risk of population exposure to severe heatwaves (HWs) increases in a hot and humid environment (Im et al., 2017). The wet-bub temperature (T WB ) takes into account temperature and humidity to measure the human body's surveillance limits. Population exposure to T WB exceeding a threshold of 35°C for a few hours of a day would result in death; therefore, 35°C can be used as an upper limit on human surveillance in a natural

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Regional changes in extreme temperature records over Pakistan and their relation to Pacific variability

Saleem

Zeng

Hina

et al. 2021

Atmospheric Research

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Saadia Hina

Morphological, physiological and biochemical responses of plants to nickel stress: A review

Projected Changes in Socioeconomic Exposure to Heatwaves in South Asia Under Changing Climate

Regional changes in extreme temperature records over Pakistan and their relation to Pacific variability

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