Humic Acid and Selenium Supplementation Modulate the Growth and Antioxidant Potential of Chili under Cadmium Stress
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Date
2023-10
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
MDPI AG
Series Info
Agronomy;2023, 13, 2554.
Scientific Journal Rankings
Abstract
Maximizing food production under adverse conditions is a major challenge to food security
and sustainability in the face of population growth and climatic change. The use of amendments
applied as a supplement under adverse conditions may play a significant role in the mitigation of
biotic and abiotic stress. This study aimed to explore the morpho-physio-biochemical changes in
chili in response to cadmium (Cd) stress. The present study investigated the effects of foliar-applied
selenium (Na2SeO4
) (3 µM) and soil-applied humic acid (250 mg kg−1 w/w soil) in the sole and
synergistic form under varying levels of cadmium stress (0, 2, and 4 mM using CdCl2
) in chili. Results
revealed that a linear decrease was noticed in the growth, biomass, and phenological attributes
of chili plants by increasing the Cd stress. More reduction was noticed at the higher levels of Cd
stress as compared to control due lowering plant dry weight (18.15 and 39.67%), relative water
content (RWC) (10.73 and 24.17%), total chlorophyll concentrations (16.01 and 31.44%) and increased
electrolyte leakage (49.44 and 129.35%) and malonaldehyde contents (MDA) (68.41 and 104.04%). Dry
biomass significantly increased with humic acid and selenium treatments, regardless of cadmium
level. The reduced enzymatic activities associated with reactive oxygen species (ROS) detoxification,
underscores the pivotal role of Se and humic acid in maintaining redox homeostasis. The combined
effect of selenium and humic acid proved better results as compared to the sole application in
minimizing Cd uptake in roots and fruit. This study demonstrates that the application of humic acid
and selenium activates physio-biochemical defense responses against cadmium stress in chili plants
and provides significant pavement for the cultivation of chili in cadmium-containing soils with a
target of high-yielding and quality.
Description
Keywords
cadmium accumulation; chili; combined; enzymatic activities; reactive oxygen species