Agricultural Studies, Vol. 2, Issue 3, Jun  2018, Pages 123-132; DOI: 10.31058/j.as.2018.23011 10.31058/j.as.2018.23011

Agroecological Typesis of Land–Basis for the Rational Use of Agrolldships to the Non-Surface Zone

, Vol. 2, Issue 3, Jun  2018, Pages 123-132.

DOI: 10.31058/j.as.2018.23011

I. Samofalova 1* , N. Mudrykh 2

1 Department of Soil Science, Faculty of Soil Science, Agrochemistry, Ecology and Merchandising, Perm State Agro-Technological University, Perm, Russia

2 Department of Agrochemistry, Faculty of Soil Science, Agrochemistry, Ecology and Merchandising, Perm State Agro-Technological University, Perm, Russia

Received: 31 December 2017; Accepted: 15 February 2018; Published: 2 May 2018

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Abstract

The great length of the Perm region (from north to south - 600 km from west to east -400 km) contributes to the manifestation of latitudinal zonality, where the landscapes of the middle taiga landscapes give way to the southern taiga and broadleaf taiga forests. A variety of soil and land resources in the Perm region, due to significant differences in environmental conditions between the northern, central and southern provinces of the soil-ecological and within them, necessitates a differentiated approach to the integration and evaluation of modern environmentally and economically efficient condition. The purpose is to determine the resource potential of agricultural enterprises. The objects of research are the territory of the agricultural organizations «Severnyi» (the northern part of the Perm region), «Rusakovskiy» (Central), Druzhnyi» (southern part). The potential of soil and land resources is the integrated value, which includes qualitative and quantitative assessment of the state as far as possible all agriland scape elements; the closest relative influence is reflected in the soil. Low soil and land resources potential has an establishment located in the northern part of the Perm Krai due to heterogeneity of parent material, soil cover and low points of site. Companies located in the central and southern parts, despite the high degree of erosion, have a high potential of soil and land resources due to the greater magnitude of site soils and less heterogeneity of soil cover. Land use, preservation of soil fertility, and increase in the soils productive capacity is not possible without an objective assessment of their resource potential.

Keywords

Agricultural Enterprises, Environmental Conditions, Potential assessment, Soil and Land Resources

Copyright

© 2017 by the authors. Licensee International Technology and Science Press Limited. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

[1] Agroecological assessment of lands, design of adaptive-landscape systems of agriculture and agrotechnologies. Methodological guidance. Editor Academician of the RAAS V.I. Kiryushin, Academician of the Russian Academy of Agricultural Sciences, A.L. Ivanov. Moscow: FSSU Rosinformagrotekh, Russia, 2005, 784.
[2] Marinina O.A. Agroecological assessment of land and adaptive landscape agriculture with the application of the basin approach. International Research Journal, 2015, 8(39), 3, 41-45. Available online: https://research-journal.org/geo/agroekologicheskaya-ocenka-zemel-i-adaptivno-landshaftnoe-zemledelie-s-primeneniem-bassejnovogo-podxoda (accessed on 23 January 2018).
[3] Dobrotvorskaya N.I.; Radchikov A.N. Cartographic modeling in system of agro-ecological assessment of agricultural lands. INTEREXPO GEO-SIBERIA, 2017, 2(4), 131-136.
[4] Marinina O.A.; Terekhin E.A. Agroecological types of land for evaluating the potential of reproduction of soil-vegetative cover. Modern Tendencies of Agrarian Complex Development, 2016, 334-337.
[5] Chernysh A.F.; Romanova T.A.; Chervan A.N.; Kasyanchik S.A. Assessing the potential of the soil and land resources of the agricultural organizations of Belarus with the use of GIS and its use results in the optimization of land use. Proceedings of the National Academy of Sciences of Belarus, 2011, 3, 10-20.
[6] Samofalova I.A.; Lobanova Y.A. Agri-environmental typology of land as the basis for farm land. The scientific and practical software for Land Relations: Proceedings of the International Scientific and Practical Conference. 2011, 148-153.
[7] Ashkin T.; Kizilkaya R.; Yilmaz R.; Olekhov V.R.; Mudrykh N.M.; Samofalova I.A. Soil exchangeable cations: a geostatistical stady from Russia. Eurasian Journal of Soil Science, 2012, 1(2), 34-39.
[8] Samofalova I.A.; Mudrykh N.M.; Kamenskikh N.Y.; Lobanova Y.A. Agro-ecological type assignment of lands as foundation for improving crop rotation and fertilization systems. Herald of the Altai State Agrarian University, 2013, 5(103), 045-050.
[9] Kizilkaya R.; Samofalova I.; Mudrykh N.; Mikailsoy F.; Akça İ.; Sushkova S.; Minkina T. Assessing the impact of azadirachtin application to soil on urease activity and its kinetic parameters. Turkish Journal of Agriculture and Forestry, 2015, 39(6), 976-983.
[10] Samofalova I.A.; Mudrykh N.M. Agroecological assessment of organic matter in sod-podzolic soils of Perm Krai. PPC Prokrost: Perm, Russia, 2015, 154.
[11] Karchagina L.P.; Mamsirov N.I. Agroecological group of lands in an adaptive landscape farming system of the republic of Adygea mountainous part. New Technologies, 2016, 3, 105-110.
[12] Kudryavtsev A.Ye.; Volnov V.V.; Davydov A.S. The methods of agroecological evaluation of arable soil fertility to design the cropping systems on landscape basis. Bulletin of Altai State Agricultural University, 2016, 5(139), 55-60.
[13] Rybalkin B.A.; Bespalov V.A. Adaptive-landscape agriculture in economies South-Western agroecological area of the Voronezh region. Central Scientific Bulletin, 2017, 2, 22 (39), 38-41.
[14] Kiryushin V.I. Greening of agriculture and technology policy. Publishing House of the MSHA: Moscow, Russia, 2000, 473.
[15] Korotayev N.Y. The soils of the Perm region. Perm publishing house: Perm, Russia, 1962. 279.
[16] google.com › earth (date of the application: 13.07.2017).
[17] The farming system of the Severniy state farm in the Solikamsky district of the Perm region. Report of the State Institute of Project Land Management: Perm, Russia, 1985, 4-25.
[18] Soils collective farm “Druzhny. Report of the State Institute of Project Land Management: Perm, Russia, 1964, 4-28.

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