Abstract
As you know, soil fertility and the content of organic substances in the soil are closely related. Current climate change conditions have an impact on soil fertility, organic matter content, especially organic carbon content due to global climate change. The work touches on one of the most pressing issues, since there are no studies in this direction in the conditions of Kyrgyzstan. The article shows the features of the accumulation of organic substances in some basic soils common in the territory of the Kyrgyz Republic, their special importance in the formation of fertility, the concentration of organic carbon in soils, their impact on climate change conditions. The article may also be of interest because of its connection with the problem of food security of the country
Keywords
References
[1] Arinushkina, E.V. (1961). Guide to chemical analysis of soils. Textbook for universities. Moscow: MSU Publishing.
[2] Kelsey, K.C., Wickland, K.P., Striegl, R.G., & Neff, J.C. (2012). Variation in soil carbon dioxide efflux at two spatial scales in a topographically complex boreal forest. Arctic, Antarctic and Alpine Research, 44(4), 457-468.
[3] Larionov, Yu.S. (2012). Bio-agriculture and the law of soil fertility. Omsk: SGGA, OmGAU.
[4] Larionov, Yu.S., et al. (2016). Bio-agriculture: A new paradigm for agricultural production and soil fertility enhancement (Vols. 1-2). Novosibirsk: SGUGiT.
[5] Larionov, Yu.S., Zharnikov, V.B., Stukanov, A.A., & Koneva, A.V. (2018). Innovative approaches to the development of the agro-industrial complex based on bio-agriculture and the law of soil fertility. In Information technologies, systems, and devices in the agro-industrial complex: Proceedings of the 7th International scientific-practical conference "AGROINFO-2018" (pp. 542-547). Novosibirsk.
[6] Masyutenko, N.P., Chuyan, N.A., & Bakhirev, G.I. (2011). System of indicators for assessing the ecological capacity of agrolandscapes to form ecologically sustainable agrolandscapes. Kursk: VNIIZiZPE RAS.
[7] National Voluntary Review of the Achievement of the Sustainable Development Goals in the Kyrgyz Republic. (2020). Retrieved from https://sustainabledevelopment.un.org/content/documents/26372VNR_2020_Kyrgyzstan_Report_Russian.pdf.
[8] Naumov, A.V. (2009). Soil respiration: Components, ecological functions, geographical patterns. Novosibirsk: SB RAS Publishing.
[9] Resource-saving agriculture. (2021). Specialized Agricultural Journal, 51(03), 4-62. Samara.
[10] Safonov, A.F. (2011). Reproduction of soil fertility in agrolandscapes. Moscow: RGAU-MSHA named after K.A. Timiryazev Publishing.
[11] Semenov, V.M., & Semenova, N.A. (2015). The problem of organic carbon in sustainable agriculture: Agrochemical aspects. In Collection of materials dedicated to the 150th anniversary of D.N. Pryanishnikov (Vols. 1-2). Novosibirsk.
[12] Varney, R.M., Chadburn, S.E., Friedlingstein, P., Burke, E.J., Koven, C.D., Hugelius, G., & Cox, P.M. (2020). A spatial emergent constraint on the sensitivity of soil carbon turnover to global warming. Nature Communications, 11, article number 5544. doi: 10.1038/s41467-020-19208-8.