Waterlogging In Cotton: Stress, Consequences, Adaptability, Mechanisms and Measures for Mitigation of Yield Losses

U. Chaudhry
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Abstract

From many years, global cotton production suffers from waterlogging stress. Climatic variation and heavy rainfall conditions with poor internal soil drainage mechanism limits the growth and development of cotton crop due to waterlogging. It reduced the soil oxygen which causes the severe yield losses and sometimes even failure of a crop. Indeterminate growth habit of cotton plant makes it able to adapt this stress by activation of the escape, self compensation and quiescence mechanism. The reduction of biomass, development of adventitious roots and accelerated growth mechanism, all are associated with adaption and tolerance mechanisms. Waterlogging significantly affect the cellulose and sucrose content of fiber in cotton. Sodic soils also exacerbate the waterlogging stress because these soils already suffer by aeration stress. Different growth stages are effect differently but flowering and boll setting stage is more sensitive to waterlogging conditions.
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棉花涝渍:胁迫、后果、适应性、减轻产量损失的机制和措施
多年来,全球棉花生产遭受涝渍压力。涝渍影响了棉花作物的生长发育,气候变化和强降雨条件加上土壤内部排水机制不佳限制了棉花作物的生长发育。它减少了土壤中的氧气,导致严重的产量损失,有时甚至导致作物歉收。棉花植物不确定的生长习性使其能够通过激活逃逸、自我补偿和静止机制来适应这种胁迫。生物量的减少、不定根的发育和生长加速机制都与适应和耐受机制有关。涝渍显著影响棉花纤维中纤维素和蔗糖的含量。盐渍土也加剧了内涝压力,因为这些土壤已经受到了曝气压力。不同生育期对涝渍的影响不同,花铃期对涝渍更为敏感。
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