Frontiers in Plant Science (Mar 2023)

Transgenerational impact of climatic changes on cotton production

  • Muhammad Awais Farooq,
  • Muhammad Awais Farooq,
  • Muhammad Awais Farooq,
  • Waqas Shafqat Chattha,
  • Muhammad Sohaib Shafique,
  • Muhammad Sohaib Shafique,
  • Umer Karamat,
  • Umer Karamat,
  • Javaria Tabusam,
  • Javaria Tabusam,
  • Sumer Zulfiqar,
  • Sumer Zulfiqar,
  • Amir Shakeel

DOI
https://doi.org/10.3389/fpls.2023.987514
Journal volume & issue
Vol. 14

Abstract

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Changing climatic conditions are an increasing threat to cotton production worldwide. There is a need to develop multiple stress-tolerant cotton germplasms that can adapt to a wide range of environments. For this purpose, 30 cotton genotypes were evaluated for two years under drought (D), heat (H), and drought + heat stresses (DH) under field conditions. Results indicated that plant height, number of bolls, boll weight, seed cotton yield, fiber fineness, fiber strength, fiber length, K+, K+/Na+, relative water contents (RWC), chlorophyll a and b, carotenoids, and total soluble proteins got reduced under D and H and were lowest under DH, whereas superoxidase dismutase (SOD), H2O2, Na+, GOT%, total phenolic contents, ascorbate, and flavonoids got increased for consecutive years. Correlation studies indicated that there was a positive correlation between most of the traits, but a negative correlation with H2O2 and Na+ ions. PCA and clustering analysis indicated that MNH-786, KAHKSHAN, CEMB-33, MS-71, FH-142, NIAB-820, CRS-2007, and FH-312 consistently performed better than other genotypes for most traits under stress conditions. Identified genotypes can be utilized in the future cotton breeding program to develop high-yielding, climate change-resilient cotton.

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