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Silicon-mediated heat tolerance in higher plants: A mechanistic outlook

Author Affiliations
Patuakhali Science and Technology University, Texas Tech University, Gazipur Agricultural University, Duy Tan University
Published InPlant Physiology and Biochemistry
Year2021
Citations52

Abstract

Heat stress, resulting from global warming, is considered one of the major challenges to be addressed for increasing plant survival and productivity worldwide. Although plants have a built-in defense mechanism against heat stress, such strategy seems to be insufficient to counteract heat adversities under extreme temperature regimes. Hence, increasing heat tolerance in plants for sustainable yields is one of the biggest challenges for researchers in the coming decades. Conventional plant breeding approach to enhance heat tolerance has gained some successes; however, more efforts are needed to make plants resilient to heat stress for increasing crop production during ongoing climate change. Thus, exploring 'heat stress mitigation strategies' using cost-effective and eco-friendly approaches may be quick and sustainable alternatives. The use of…
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