Influence of grazing technologies on the indices of chestnut soils in Western Kazakhstan

Beybit Nasiyev, Askhat Bekkaliyev, Ivan Manolov, Vladimir Shibaikin

Abstract


Degradation of pastures caused by anthropogenic and climatic factors leads to desertification, loss of soil fertility, reduces productivity of the pasture grass and it is a prerequisite for socio-economic problems. Pastures of Western Kazakhstan cover more than 70% of the lands under economic use and are the main fodder source for the farm animals. In the late years, degradation of pastures in Western Kazakhstan takes place due to intensive animal grazing. The aim of research is to study the impact of technology for grazing the farm animals on the pastures soil cover to prevent the processes of degradation and desertification, as well as the rational use of pasture ecosystems. Through these studies, experimental data were obtained on the current state of the pastures soil cover in Western Kazakhstan with different types of chestnut soils depending on the grazing technology. An excess intensive grazing of the farm animals has negative influence on physical and chemical factors of the chestnut soil types.


Keywords


chestnut soils, indices, degradation, grazing, technologies

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References


Conant, R.T., Paustian, K., Elliott, E.T., 2011. Grassland management and conversion into grassland: Effects on soil carbon. Ecological Applications, 11(2): 343–355.

Costas, K., Vassilis, D., Mina, K., Kate, K., Penny, V., Luca, S., 2015. Exploring Long-Term Impact of Grazing Management on Land Degradation in the Socio-Ecological System of Asteroussia Mountains, Greece. Land, 4: 541–559. DOI: 10.3390/land4030541

Cui, X.Y., Wang, Y.F., Niu, H.S., Wu, J., Wang, S.P., Schnug, E., Rogasik, J., Fleckenstein, J., Tang, Y.H., 2005. Effect of long-term grazing on soil organic carbon content in semiarid steppes in Inner Mongolia. Ecological Research, 20: 519–527.

DOI: 10.1080/09291016.2017.1386873

Dospekhov, B.A., 1985. Methods of Field Experimentation, Moscow, pp. 55–85 (in Russian).

Ferrero, A.F., 1991. Effect of compaction simulating cattle trampling on soil physical characteristics in woodland. Soil and Tillage Research, 19: 3.

Futa, B., Patkowski, K., Bielińska, E.J., Gruszecki, T., Pluta, M., Kulik, M., Chmielewski, S., 2016. Sheep and Horse Grazing in a Large-Scale Protection Area and its Positive Impact on Chemical and Biological Soil Properties. Polish Journal of Soil Science, 49(2): 111–123. DOI: 10.17951/pjss.2016.49.2.111

Gabdulov, M.A., Vyurkov, V.V., Archipkin, V.G., Turganbayev, T.A., Rakhimgaliyeva, S.J., Kushenbekova, A.K., Baymukanov, E.N., 2015. Methods of fild and laboratory research. WKATU Zhangir Khan, Uralsk, p. 41 (in Russian).

Gasanov, G.N., 2006. Ecological state and scientifi basis for increasing the fertility of saline and desertifiation-prone soils of the Western Caspian, Moscow, p. 264 (in Russian).

Holechek, J.L., 1999. Grazing studies: What we’ve learned. Rangelands, 21: 12–16.

Loris, T., Jianshuang, Wu., Roberta, M., Mauro, P., Paolo, T., 2019. Estimating soil degradation in montane grasslands of North-eastern Italian Alps. Heliyon, 5(6): 18–25. DOI: 10.1016/j.heliyon.2019.e01825

Mamontov, V.G., Gladkov, A.A., Kuzelev, M.M., 2012. Practical guide to soil chemistry. Manual, Moscow, p. 75 (in Russian).

Manley, W.A., 1997. Vegetation, cattle, and economic responses to grazing strategies and pressures. Journal of Range Management, 6: 638–646.

Mohammad, R.Ch., Mohsen, M.S., Arash, M., 2005. Effects of Livestock Trampling on Soil Physical Properties and Vegetation Cover (Case Study: Lar Rangeland, Iran). International Journal of Agriculture and Biology, 7(6): 904–908.

Nasiyev, B.N., Tulegenova, D., Zhanatalapov, N., Bekkaliev., Shamsutdinov, Z., 2015. Studying the Impact of Grazing on The Current State of Grassland in The Semi-desert Zone. Biosciences Biotechnology Research Asia, 12(2): 1735–1742.

Nasiyev, B.N., Gabdulov, M., Zhanatalapov, N., Makanova, G., Izbasova, G., 2015. Study of the Phenology, Abundance and Harmfulness of Locusts in the Semi-desert Zone and the Organization of Locust Control Measures. Biosciences Biotechnology Research Asia, 12(2): 1759–1766.

Nasiyev, B.N., 2016. The study of the processes, degradation factors and the selection of crops for the restoration of bioresourses capacity of the grassland of semi-desert zones. Research Journal of Pharmaceutical, Biological and Chemical Sciences, 7(3): 2637–2646.

Nasiyev, B.N., Bekkaliyev, А.K., 2019. The Impact of Pasturing Technology on the Current State of Pastures. Annals of Agri-Bio Research, 24(2): 246–254.

Nordborg, M., Röös, E., 2016. Holistic management. A critical review of Allan Savory’s grazing method. SLU, Swedish University of Agricultural Sciences & Chalmers.

O’Mara, F.P., 2012. The role of grasslands in food security and climate change. Annals of Botany, 110(6): 1263–1270. DOI: 10.1093/aob/mcs209

Order No.185 of the Minister of Agriculture of the Republic of Kazakhstan dated 27 April 2017. On approval of the Measuring method to combat the degradation and desertifiation of pastures, including arid areas (in Russian), https://tengrinews.kz/zakon/pravitelstvo_respubliki_kazahstan_premer_ministr_rk/selskoe_hozyaystvo/id-V1700015128/

Rounsevell, M., Evans, S.P., Bullock, P., 1999. Climate change and agricultural soils impacts and adaptation. Climatic Change, 43: 683–709.

Reference book, 1981. Systematic list and main diagnostic factors of plain area soils. Almaty: 263 (in Russian).

Scollan, N.D., Enser, M., Richardson, R.I., Wood, J.D., 2002. Effect of forage legumes on the fatty acid composition of beef. The Proceedings of the Nutrition Society, 61(3A): 99.

Severson, K.E., Debano, L.F., 1991. Inflence of Spanish goats on vegetation and soils in Arizona chaparral. Journal of Range Management, 44(2): 111–117.

Sun, D., Liddle, M.J., 1993. A survey of trampling effects on vegetation and soil in eight tropical and sub-tropical areas. Environmental Management, 17: 467–510.

Shamsutdinov, Z.Sh., 2012. Long-term pasture agrophytocenosis in the arid zone of Uzbekistan. FAN UzR, 6: 45–57 (in Russian).

Tesla, A.B., 2006. Structure of common black soils in High Volga region under natural pastures. Vestnik OGU, 1: 310–312 (in Russian).

Trimble, S.W., Mendel, A.C., 1995. The cow as a geomorphic agent. A critical review. Geomorphology, 13: 233–253.

Xie, Y., Wittig, R., 2004. The impact of grazing intensity on soil characteristics of Stipa grandis and Stipa bungeana steppe in northern China (autonomous region of Ningxia). Acta Oecologica, 25: 197–204.

Weber, K.T., Horst, S., 2011. Desertifiation and livestock grazing: The roles of sedentarization, mobility and rest. Pastoralism: Research, Policy and Practice, 1: 19, DOI: 10.1186/2041-7136-1-19.




DOI: http://dx.doi.org/10.17951/pjss.2020.53.1.163
Date of publication: 2020-06-22 04:38:10
Date of submission: 2019-12-05 07:59:44


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