Abstract
AbstractHeat waves, and an increased number of warm days and nights, have become more prevalent in major agricultural regions of the world. Although well adapted to semi-arid regions, cotton is vulnerable to high temperatures, particularly during flowering and boll development. To maintain lint yield potential without compromising its quality under high-temperature stress, it is essential to understand the effects of heat stress on various stages of plant growth and development, and associated tolerance mechanisms. Despite ongoing efforts to gather data on the effects of heat stress on cotton growth and development, there remains a critical gap in understanding the distinct influence of high temperatures during the day and night on cotton yield and quality. Also, identifying mechanisms and target traits that induce greater high day and night temperature tolerance is essential for breeding climate-resilient cotton for future uncertain climates. To bridge these knowledge gaps, we embarked on a rigorous and comprehensive review of published literature, delving into the impact of heat stress on cotton yields and the consequential losses in fiber quality. This review encompasses information on the effects of heat stress on growth, physiological, and biochemical responses, fertilization, cotton yield, and quality. Additionally, we discuss management options for minimizing heat stress-induced damage, and the benefits of integrating conventional and genomics-assisted breeding for developing heat-tolerant cotton cultivars. Finally, future research areas that need to be addressed to develop heat-resilient cotton are proposed.
Publisher
Springer Science and Business Media LLC
Subject
Agricultural and Biological Sciences (miscellaneous),Biochemistry, Genetics and Molecular Biology (miscellaneous)
Reference165 articles.
1. Abbas Q, Ahmad S. Effect of different sowing times and cultivars on cotton fiber quality under stable cotton-wheat cropping system in southern Punjab, Pakistan. Pak J Life Soc Sci. 2018;16(2):77–84.
2. Abro S, Rajput MT, Khan MA, et al. Screening of cotton (Gossypium hirsutum L) genotypes for heat tolerance. Pak J Bot. 2015;47(6):2085–91.
3. Abro S, Rizwan M, Deho ZA, et al. Identification of heat tolerant cotton lines showing genetic variation in cell membrane thermostability stomata and trichome size and its effect on yield and fiber quality traits. Front Plant Sci. 2022;12:3138. https://doi.org/10.3389/fpls.2021.804315.
4. Ahmad S, Raza I, Ali H, et al. Response of cotton crop to exogenous application of glycinebetaine under sufficient and scarce water conditions. Rev Bras Bot. 2014;37(4):407–15. https://doi.org/10.1007/s40415-014-0092-z.
5. Ahmad F, Perveen A, Mohammad N, et al. Heat stress in cotton: responses and adaptive mechanisms. In: Ahmad S, Hasanuzzaman M, editors. Cotton production and uses. Singapore: Springer; 2020. p. 393–428. https://doi.org/10.1007/978-981-15-1472-2_20.
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