Purpose: Heavy metals (HMs) are stored in plant cellular organelles and consumption of food contaminated with HMs can cause toxicity in humans. In the current study, a cadmium (Cd) sensitive mungbean cultivar (cv.) NM-28, identified through physio-biochemical attributes was used to access the efficacy of 1-amino cyclopropane-1-carboxylic acid (ACC, ethylene precursor) in modulating Cd-induced negative impacts on mungbean growth and biochemical attributes. Methods: Experiment was executed in pots filled with soil amended with 0, 5 or 10 mg kg-1 of cadmium chloride (CdCl2). Twenty days after germination, aqueous solution of ACC at 0, 10, 50 and 100 mu M were applied as foliar spray. After 30 days, plants were harvested and processed for analysis of nutrient uptake patterns, growth attributes and bio-chemical status. Results: The presence of Cd in the soil negatively affected mungbean growth by interfering with uptake and translocation of essential nutrient ions such as magnesium (Mg), calcium (Ca) etc. When foliar ACC (50 mu M) was applied under 5 mg kg-1 Cd stress, the cv. NM-28 showed improvements in shoot dry weight (36 %), root fresh weight (72 %), and root dry weight (38 %). Application of 50 mu M ACC also increased chlorophyll a (25 %), chlorophyll b (24 %), total soluble proteins (35 %), phenolics (21 %) and peroxidase (POD) activity (17 %) under 5 mg kg-1 Cd stress compared to 0 mg kg-1 Cd (control). Similarly, 50 and 100 mu M ACC enhanced nutrient uptake (Ca and K) from soil under Cd stress. However, some biochemical features were negatively impacted by 100 mu M ACC treatment. Furthermore, the negative impact induced by 10 mg kg-1 Cd was not significantly recoverable by any ACC concentration. Conclusions: Exogenous application of ACC assisted plants to maintain an optimum level of important antioxidants as well as nutrient ion concentrations, thereby improving mungbean growth despite presence of Cd. The findings of this study could be useful for better growth of legumes in Cd contaminated soil. Further experiments using molecular approaches are suggested to explore the relationships between ACC, ethylene (ET), Cd contamination, soil properties and arable crops to devise strategies for crop cultivation in HMs enriched soils and for sustainable food security programs. (c) 2025 SAAB. Published by Elsevier B.V. All rights are reserved, including those for text and data mining, AI training, and similar technologies.
