Notulae Botanicae Horti Agrobotanici Cluj-Napoca (Sep 2024)

Biochar improves morpho-physiological growth, osmolyte accumulation, nutrients balance, anti-oxidative defense and oil productivity of Brassica under flooding stress

  • Jinhua SHAO,
  • Fugang BI,
  • Mingquan LI,
  • Rizwan MUNIR,
  • Fahd RASUL,
  • Wei TANG,
  • Xinyue LIANG,
  • Muhammad AAMER,
  • Naeem AHMAD,
  • Asad ULLAH,
  • Sulaiman A. ALHARBI,
  • Saleh ALFARRAJ

DOI
https://doi.org/10.15835/nbha52313835
Journal volume & issue
Vol. 52, no. 3

Abstract

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Soil flooding is a serious abiotic stress that can repress plant growth and yield. The intensity of flooding stress is continuously increasing owing to rapid climate change and changes in rain intensity and frequency. Biochar (BC) emerges as an important soil amendment to mitigate adverse impacts of abiotic stress. The role of BC against different stresses is well reported, however, its role under flooding stress is not determined yet. Thus, this experiment was conducted to determine the role of BC on the performance of brassica crops under flooding stress. The experiment was comprised of well-watered (WW) and flooding stress (FS) conditions and biochar application: control, 1% biochar, and 2.5% biochar. The results indicated that flooding stress stunted the plant growth and impaired the photosynthetic pigments, leaf water status, osmolytes yield and yield traits, and oil concentration and increased the electrolyte leakage (EL), hydrogen peroxide (H2O2) and malondialdehyde (MDA) concentration. The application of BC at the rate of 2.5% mitigated the adverse impacts of salinity and upgraded the antioxidant activities (~50-120%), reduced the oxidative stress markets (~70-300%), and increased the leaf water status, photosynthetic pigments, osmolyte accumulation, nutrient uptake, yield traits, and oil contents. In conclusion, BC application can improve the productivity and oil yield of brassica under drought stress by improving plant physiological and biochemical functioning. However, more in depth studies are direly needed to explore the mechanism of BC to induce flood tolerance.

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