QUANTIFYING PROLINE AND TOTAL PHENOLIC CONTENT AS BIOMARKERS FOR DROUGHT RESILIENCE IN MUNGBEAN (VIGNA RADIATA L.) CULTIVARS
DOI:
https://doi.org/10.54112/bcsrj.v2024i1.1074Keywords:
Correlation, Proline, Phenolic content, RWC, MSI, Yield per plant, Leaf area, Root length, Pod lengthAbstract
Mungbean (Vigna et al.) belongs to the Fabaceae family. It has two planting seasons (spring and summer). Mungbean is a crop in arid and barren areas. These areas are more prone to water stress. The present study evaluated water stress's effect on green gram to find its resistance to drought stress. A controlled experiment was conducted under factorial CRD with three replications and two factors varieties and water levels (A set of 15 genotypes was obtained from the NIAB research institute, Faisalabad. Firstly, the total phenolic content (TPC) test analyzed these genotypes. The five varieties that showed high TPC were used for experiments such as NM-98, Abbas Mung, NM-121-25, NM-2016, and NM-92) at the experimental area of Plant Breeding and Genetics, University of Agriculture, Faisalabad, during the spring season of 2023. Three levels of water stress were applied. Data were recorded for different traits under water stress at different growth stages of mungbean. Analysis of variance was performed to see the significant difference among treatments, Tukey’s HSD test was applied for the mean comparison test using Statistix 8.1 statistical software, and correlation analysis was performed to check the relationship between different traits. An increase in root length, proline content, and total phenolic content positively affected drought tolerance. The performance of NM-121-25 was better than that of others, and the interactive values of NM-2016 were better than those of others at different drought levels. Pod length, leaf number per plant, relative water content, membrane stability index, leaf area, and proline content showed significant positive results with plant yield.
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Akram I, Tahir M, Saleem MA, Ahmad T, Naz M, Ahmad M. Seed priming effects of copper sulphate on growth characteristics of green gram (Vigna radiata L.). Journal of Global Innovations in Agriculture and Social Sciences. 2020;8(1):23-5.
Allito BB, Nana E-M, Alemneh AA. Rhizobia strain and legume genome interaction effects on nitrogen fixation and yield of grain legume: a review. Molecular Soil Biology. 2015;6.
Guo X, Li T, Tang K, Liu RH. Effect of germination on phytochemical profiles and antioxidant activity of mung bean sprouts (Vigna radiata). Journal of agricultural and food chemistry. 2012;60(44):11050-5.
Nair R, Schreinemachers P. Global status and economic importance of mungbean. The mungbean genome: Springer; 2020. p. 1-8.
Baroowa B, Gogoi N, Farooq M. Changes in physiological, biochemical and antioxidant enzyme activities of green gram (Vigna radiata L.) genotypes under drought. Acta physiologiae plantarum. 2016;38(9):1-10.
Umer Chattha M, Arif W, Khan I, Soufan W, Bilal Chattha M, Hassan MU, et al. Mitigation of cadmium induced oxidative stress by using organic amendments to improve the growth and yield of mash beans [Vigna mungo (L.)]. Agronomy. 2021;11(11):2152.
Ahmad A, Selim MM, Alderfasi A, Afzal M. Effect of drought stress on mung bean (Vigna radiata L.) under arid climatic conditions of Saudi Arabia. Ecosystems and Sustainable Development. 2015;192:185-93.
Pandey V, Shukla A. Acclimation and tolerance strategies of rice under drought stress. Rice science. 2015;22(4):147-61.
Reguera M, Peleg Z, Blumwald E. Targeting metabolic pathways for genetic engineering abiotic stress-tolerance in crops. Biochimica et Biophysica Acta (BBA)-Gene Regulatory Mechanisms. 2012;1819(2):186-94.
Hussain S, Hussain S, Qadir T, Khaliq A, Ashraf U, Parveen A, et al. Drought stress in plants: An overview on implications, tolerance mechanisms and agronomic mitigation strategies. Plant Science Today. 2019;6(4):389-402.
Abenavoli M, Leone M, Sunseri F, Bacchi M, Sorgona A. Root phenotyping for drought tolerance in bean landraces from Calabria (Italy). Journal of Agronomy and Crop Science. 2016;202(1):1-12.
Tiwari B, Kalim S, Bangar P, Kumari R, Kumar S, Gaikwad A, et al. Physiological, biochemical, and molecular responses of thermotolerance in moth bean (Vigna aconitifolia (Jacq.) Marechal). Turkish Journal of Agriculture and Forestry. 2018;42(3):176-84.
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Copyright (c) 2024 A SHAHEEN, R FARIDI, SA KHAN, S MALIK, A PARVEEN, F SALEEM, M FARZAND, A RAZA, A BIBI, S WALYAT, F SHABBIR
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