Botan‪ical Sciences (Aug 2022)

Salicylic acid mediated physiological and biochemical alterations to confer drought stress tolerance in <em>Zinnia</em> (<em>Z. elegans</em>)

  • Gulzar Akhtar,
  • Fahim Nawaz,
  • Muhammad Amin,
  • Muhammad Asif Shehzad,
  • Kashif Razzaq,
  • Nazar Faried,
  • Yasar Sajjad,
  • Amjad Farooq,
  • Ahsan Akram,
  • Sami Ullah

DOI
https://doi.org/10.17129/botsci.2966
Journal volume & issue
Vol. 100, no. 4

Abstract

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Background: Protective role of salicylic acid against drought has been widely reported, but its effects on Zinnia elegansremain unknown. Hypotheses: Foliar salicylic acid (SA) improves water status, pigments, and antioxidant systems of Zinnia plants under drought stress. Studied species: Z. elegans (cv. Dreamland) were purchased from Chanan Seeds Store Lahore, Pakistan. Study site and dates: MNS University of Agriculture, Multan, Punjab, Pakistan; March-May, 2018. Methods: After two weeks of transplanting, one set of seedlings was exposed to drought stress (60 % field capacity, FC) while other control set was maintained at 100 % FC. Foliar SA (100 mg L-1) was applied to plants at drought initiation. Results: Foliar SA treatment to water stressed plants (60 % FC) increased the leaf area (46.89 cm2), shoot and root lengths (25 cm and 26.67 cm, respectively), leaf relative water content (75.98 %); chlorophyll a (0.68 mg g-1), chlorophyll b (0.38 mg g-1) and carotenoid concentrations (1.10 mg g-1); and catalase (116.67 U min-1 mg-1 protein), guaiacol peroxide (72 U min-1 mg-1 protein) and superoxide dismutase (93 U min-1 mg-1 protein) activities. Conclusions: Foliar SA could be used to minimize impacts of water stress in Zinnia plants.

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