International Journal of Molecular Sciences (Oct 2021)

Adaptive Mechanisms of Halophytes and Their Potential in Improving Salinity Tolerance in Plants

  • Md. Mezanur Rahman,
  • Mohammad Golam Mostofa,
  • Sanjida Sultana Keya,
  • Md. Nurealam Siddiqui,
  • Md. Mesbah Uddin Ansary,
  • Ashim Kumar Das,
  • Md. Abiar Rahman,
  • Lam Son-Phan Tran

DOI
https://doi.org/10.3390/ijms221910733
Journal volume & issue
Vol. 22, no. 19
p. 10733

Abstract

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Soil salinization, which is aggravated by climate change and inappropriate anthropogenic activities, has emerged as a serious environmental problem, threatening sustainable agriculture and future food security. Although there has been considerable progress in developing crop varieties by introducing salt tolerance-associated traits, most crop cultivars grown in saline soils still exhibit a decline in yield, necessitating the search for alternatives. Halophytes, with their intrinsic salt tolerance characteristics, are known to have great potential in rehabilitating salt-contaminated soils to support plant growth in saline soils by employing various strategies, including phytoremediation. In addition, the recent identification and characterization of salt tolerance-related genes encoding signaling components from halophytes, which are naturally grown under high salinity, have paved the way for the development of transgenic crops with improved salt tolerance. In this review, we aim to provide a comprehensive update on salinity-induced negative effects on soils and plants, including alterations of physicochemical properties in soils, and changes in physiological and biochemical processes and ion disparities in plants. We also review the physiological and biochemical adaptation strategies that help halophytes grow and survive in salinity-affected areas. Furthermore, we illustrate the halophyte-mediated phytoremediation process in salinity-affected areas, as well as their potential impacts on soil properties. Importantly, based on the recent findings on salt tolerance mechanisms in halophytes, we also comprehensively discuss the potential of improving salt tolerance in crop plants by introducing candidate genes related to antiporters, ion transporters, antioxidants, and defense proteins from halophytes for conserving sustainable agriculture in salinity-prone areas.

Keywords