Physiological Responses of African marigold var. Pusa Narangi Gainda to Low-Temperature Stress, Elicitors and Bioagents Across Sowing Dates
DOI:
https://doi.org/10.24154/jhs.v19i2.2916Keywords:
Arbuscular mycorrhiza, bioagents, chito oligosaccharide, elicitors, salicylic acidAbstract
The Physiological responses of African marigold var. Pusa Narangi Gainda was studied under low-temperature stress conditions using chemical elicitors (Chito Oilgosaccharide and Salicylic acid) and bioagents (Arbuscular mycorrhiza) at different sowing dates for two consecutive years (2021-22 and 2022-23) at the Centre for Protected Cultivation Technology (CPCT), ICAR-Indian Agricultural Research Institute, New Delhi. The findings revealed that marigold plants grown under low plastic tunnels performed better than those in open field conditions. Among the three sowing dates, October 15th was the most favourable. Regarding treatment efficacy, a combination of 200 ppm Chito Oligosaccharide with Arbuscular Mycorrhiza showed the best results, outperforming the control group and other treatments. This study demonstrates potential strategies for reducing the negative impact of low-temperature stress in marigold.
References
Anonymous. (2023). Area and production of horticulture crops for 2021-22 (Final), Ministry of Agriculture and Farmers’ Welfare,
Government of India, New Delhi.
Anwar, A., Yan, Y., Liu, Y., Li, Y., & Yu, X. (2018). 5-aminolevulinic acid improves nutrient uptake and endogenous hormone accumulation,
enhancing low-temperature stress tolerance in cucumbers. International Journal of Molecular Sciences, 19: 3379.
Blanchard, M., & Runkle, E. S. (2011). The influence of day and night temperature fluctuations on growth and flowering of annual bedding plants and greenhouse heating cost predictions. HortScience, 46: 599-603.
Laugier, E., Tarrago, L., Santos, V. D. C., Eymery, F., Havaux, M., & Rey, P. (2010). Arabidopsis thaliana plastidial methionine sulfoxide
reductases B, MSRBs, account for most leaf peptide MSR activity and are essential for growth under environmental constraints through
a role in the preservation of photosystem antennae. The Plant Journal, 61: 271-282.
Li, Y., Zhang, Q., Ou, L., Ji, D., Liu, T., Lan, R., Li, X., & Jin, L. (2020). Response to the cold stress signaling of the tea Plant (Camellia sinensis)
elicited by chitosan oligosaccharide. Agronomy, 10(6), 915; https://doi.org/10.3390/agronomy10060915.
Salachna, P., Pietrak, A., & Łopusiewicz, Ł. (2021). Effects of chitosan oligosaccharide lactate on growth and overwintering of evergreen fern Cyrtomium fortunei var. clivicola. Biology and Life Sciences Forum, 1.
Tan, C., Li, N., Wang, Y., Yu, X., Yang, L., Cao, R., & Ye, X. (2023). Integrated physiological and transcriptomic analyses revealed improved cold tolerance in cucumber (Cucumis sativus L.) by exogenous chitosan oligosaccharide. International Journal of Molecular Sciences,
(7), 6202.
Theocharis, A., Clément, C., & Barka, E. A. (2012). Physiological and molecular changes in plants grown at low temperatures. Planta, 235, 1091-1105.
Zhao, J., Pan, L., Zhou, M., Yang, Z., Meng, Y., & Zhang, X. (2019). Comparative physiological and transcriptomic analyses reveal mechanisms of improved osmotic stress tolerance in annual ryegrass by exogenous chitosan. Genes, 10(11), 853.
Zhou, J., Chen. Q., Zhang, Y., Fan, L., Qin, Z., Chen, Q., Qiu, Y., Jiang, L., & Zhao, L. (2018). Chitooligosaccharides enhance cold tolerance by
repairing photodamaged PS II in rice. The Journal of Agricultural Science, 156, 888–899.
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Copyright (c) 2024 R Tejaswi, P Kumar, K P Singh, M C Singh, S Panwar, R Jain, B K Tejukumar (Author)
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