INSIGHTS INTO SOIL CARBON DYNAMICS: A COMPREHENSIVE REVIEW ON CONCENTRATION AND STABILITY VARIATIONS IN TOP AND DEEP SOILS WITH VARIED AGGREGATE SIZE UNDER CLIMATE CHANGE IN SUBTROPICAL INDIA
Keywords:
Abstract
This comprehensive review delves into the intricate dynamics of soil organic carbon (SOC) under the influence of climate change in the sub-tropical context of India. Focusing on both topsoil and deep soils with varied aggregate sizes, the study employs dynamic modeling to analyze SOC concentration and stability variations. By synthesizing existing research, this review aims to provide insights into the multifaceted interactions shaping SOC dynamics in response to evolving climatic conditions. Understanding these variations is crucial for formulating effective soil management strategies and promoting sustainable agricultural practices.
Similar Articles
-
GUARDIANS OF FINANCIAL INTEGRITY: THE NEXUS OF CORPORATE GOVERNANCE, LEVERAGE, AND COMPANY SIZE
-
Issues Of Food Safety On The Basis Of Agricultural Insurance
The American Journal of Agriculture and Biomedical Engineering: No. 07 (2020) / Yadgarov Akram Akbarovich, -
DIFFERENTIAL LACTATE DEHYDROGENASE ACTIVITY ASSESSMENT IN CEREBROSPINAL FLUID ACROSS VARIOUS MENINGITIS ETIOLOGIES
-
Effect Of Sulfur Micronutrient On Symbiotic Activity Of “Orzu” Variety Of Soybean
The American Journal of Agriculture and Biomedical Engineering: No. 05 (2021) / Sardor Shamsiddin Ugli Khayrullayev, Shokhista Usmon Kizi Usmonova, -
The Effect Of Gypsum Content And Seasonal Variations On The Enzyme Activity And Respiration Properties Of Heavy Soils In Reclamation Status
The American Journal of Agriculture and Biomedical Engineering: No. 06 (2021) / Makhkamova D.Yu., -
Hypotensive Effect Of The Plant Alkaloid Digitaalisen On The Functional Activity Of Mmc Aortic Chrysallida Of Dihydroemetine On The Functional Activity Of Smc In The Aorta Of The Rat
The American Journal of Agriculture and Biomedical Engineering: No. 12 (2020) / Muazzam Bakiyeva, Shokhista Rustamova, Yodgormirza Nurmatov , -
Characteristic Of Adaptive Capacity Of Families Of Thin Fiber Cotton In The Conditions Of Tashkent And Surkhandarya Regions
The American Journal of Agriculture and Biomedical Engineering: No. 12 (2021) / Kamoladdin Khudarganov, -
PRELIMINARY INVESTIGATION OF POLYMERIC FILMS FOR FOOD PACKAGINGS
The American Journal of Agriculture and Biomedical Engineering: No. 05 (2022) / M. Ikusedun , H.B Bello , M. O. Adeosun , J. Obe , E J. Maduabuchi , S.A. Ajani , -
CHEMICAL AND NUTRITIONAL COMPARISON OF EXTRACTED PECTIN FROM DIFFERENT LOCAL BANANA CULTIVARS IN BANGLADESH
The American Journal of Agriculture and Biomedical Engineering: No. 06 (2023) / Bikash Kumer Bhadhury, Suzan Anika, -
Antifungal And Antagonistic Properties Of The Bioconservant “Imbiocon”
The American Journal of Agriculture and Biomedical Engineering: No. 11 (2021) / Kutliyeva G.Dj., Turaeva B.I., Zuhriddinova N.Yu., Kamalova Kh. F., Asrorov Kh.A.,
References
Agnelli, A., Ascher, J., Corti, G., Ceccherini, M.T., Nannipieri, P., and Pietramellara, G. 2004. Distribution of microbial communities in a forest soil profile investigated by microbial biomass, soil respiration and DGGE of total and extracellular DNA. Soil Biol Biochem 36: 859–868.
Allen, D. E., Singh, B.P., and Dalal, R.C. 2011.Soil Health Indicators under Climate Change: A Review of Current Knowledge. In: Soil Health and Climate Change (Eds. Singh, B. P.; A. L. Cowie; K. Y. Chan). Soil Biology Series, Vol. 29. Springer-Verlag Berlin Heidelberg, Chapter 2, pp: 25 – 45.
Autret, Bn., Mary, B., Chenu, C., Balabane, M., Girardin, C., Bertrand, M., Grandeau, G., and Beaudoin, N. 2016. Alternative arable cropping systems: a key to increase soil organic carbon storage? Results from a 16 year field experiment. Agric. Ecosyst. Environ. 232: 150–164
Bird, M., Santruckova, H., Lloyd, J. and Lawson, E. 2002. The isotopic composition of soil organic carbon on a north-south transect in western Canada. Eur. J. Soil Sci. 53: 393–403
Blair GJ, Lefroy RD, Lisle L.1995. Soil carbon fractions based on their degree of oxidation, and the development of a carbon management index for agricultural systems. Crop Pasture Sci. 46 (7):1459–1466.
Blume, E., Bischoff, M., Reichert, J., Moorman, T., Konopka, A., and Turco, R. 2002. Surface and subsurface microbial biomass, community structure and metabolic activity as a function of soil depth and season. Appl Soil Ecol 20: 171–181.
Chen, H., Hou, R., Gong, Y., Li, H., Fan, M., and Kuzyakov, Y. 2009. Effects of 11 years of conservation tillage on soil organic matter fractions in wheat monoculture in Loess Plateau of China. Soil Tillage Res. 106: 85–94.
Cotrufo, M.F., Wallenstein, M.D., Boot, C.M., Denef, K., and Paul, E. 2013. The Microbial Efficiency-Matrix Stabilization (MEMS) framework integrates plant litter decomposition with soil organic matter stabilization: do labile plant inputs form stable soil organic matter? Glob Change Biol. 19: 988–995.
Dameni, H., Wang, J., and Qin, L. 2010. Soil Aggregate and Organic Carbon Stability under Different Land Uses in the North China Plain. Commu Soil Sci Plant Anal, 41(9): 1144 -1157
Davidson, E.A.; Janssens, I.A. 2006. Temperature sensitivity of soil carbon decomposition and feedbacks to climate change. Nature 440: 165–173.
Dikgwatlhe, S.B., Chen, Z.D., Lal, R., Zhang, H.L., and Chen, F.2014. Changes in soil organic carbon and nitrogen as affected by tillage and residue management under wheat–maize cropping system in the North China Plain. Soil Tillage Res. 144:110–118.
Djukic, I., Zehetner, F., Tatzber, M. and Gerzabek, M. H. 2010. Soil organic-matter stocks and characteristics along an Alpine elevation gradient. J. Plant Nutr. Soil Sci. 173: 30–38.
Dou, F., Wright, A.L., and Hons, F.M. 2008. Sensitivity of labile soil organic carbon to tillage in wheat-based cropping systems. Soil Sci Soc Am J. 72: 1445–1453.
Du, Z.L., Ren, T.S., Hu, C.S., Zhang, Q.Z., and Humberto, B.C.2013. Soil aggregate stability and aggregate associated carbon under different tillage systems in the north China plain. J Integr Agric. 12:2114-23.
