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- ISSN: 2456-8678
Dr. Jyoti Kesaria
International Journal of Rural Development, Environment and Health Research(IJREH), Vol-9,Issue-1, January - March 2025, Pages 48-49, 10.22161/ijreh.9.1.6
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Article Info: Received: 25 Feb 2025; Received in revised form: 19 Mar 2025; Accepted: 25 Mar 2025; Available online: 31 Mar 2025
Climate change profoundly affects soil microbial communities, altering their composition, diversity, and ecological functions. Rising global temperatures shifts in precipitation patterns, and elevated atmospheric CO2 levels disrupt microbial succession, impacting soil fertility, carbon sequestration, and ecosystem balance. This study examines the implications of climate change on microbial succession, focusing on mechanisms driving these shifts and their broader ecological consequences. A review of existing research highlights microbial adaptation strategies, biodiversity changes, and potential mitigation approaches. The findings underscore the necessity of preserving soil microbial health to maintain agricultural productivity and environmental sustainability.
