THE USE OF REMOTE SENSING DATA IN THE SYSTEM OF REGULATION OF LAND RELATIONS
Main Article Content
Abstract
The research conducted by the authors shows that the use of remote sensing data in the system of land relations regulation makes it possible to increase the effectiveness of monitoring and control over land use, as well as contributes to the sustainable development of agricultural and urban areas.
In general, the article represents a valuable scientific contribution to the field of application of modern remote sensing technologies to improve the system of regulation of land relations, which can be useful for specialists in the field of geoinformatics, geodesy, ecology and land management.
Article Details
Section
Land economics and policies
References
1. Nusratullin V.K., Farrahova F.F. Economic assessment of agricultural lands // AVU. 2009. No.6. URL: https://cyberleninka.ru/article/n/ekonomicheskaya-otsenka-zemel-selskohozyaystvennogo-naznacheniya.
2. Vershinin Valentin Valentinovich, Morkovkin Gennady Gennadievich METHODICAL ASPECTS OF ASSESSING SOIL FERTILITY FOR INVOLVING UNUSED ARABLE LAND IN AGRICULTURAL TURNOVER // MSH. 2023. No.4. URL: https://cyberleninka.ru/article/n/metodicheskie-aspekty-otsenki-plodorodiya-pochv-dlya-vovlecheniya-v-selskohozyaystvennyy-oborot-neispolzuemoy-pashni
3. Shagaida N.I. Potential for growth of agricultural production in Russia due to the involvement of unused agricultural land in circulation / N.I. Shagaida, N.M. Svetlov, V.Ya. Uzun, D.A. Loginova, A.V. Prishchepov. - M .: RANEPA under the President of the Russian Federation, 2018. - 70 p. Analytical Center of the Ministry of Agriculture of the Russian Federation. Official website. - URL: https://www.mcxac.ru/monitoring-zemel/state_land/.
4. Marshinin, A. V. Resource Science: a textbook for universities / A. V. Marshinin. - 2nd ed., revised. and additional. - Moscow, 2019; Tyumen: Publishing House of Tyumen State University. - 126 p. - (Higher education). - ISBN 978-5-534-12420-0 (). - ISBN 978-5-400-01467-3
5. Vershinin Valentin Valentinovich, Morkovkin Gennady Gennadievich METHODICAL ASPECTS OF ASSESSING SOIL FERTILITY FOR INVOLVING UNUSED ARABLE LAND IN AGRICULTURAL TURNOVER // Ministry of Agriculture. 2023. No. 4. URL: https://cyberleninka.ru/article/n/metodicheskie-aspekty-otsenki-plodorodiya-pochv-dlya-vovlecheniya-v-selskohozyaystvennyy-oborot-neispolzuemoy-pashni
6. Terekhov, A. G. Methodology for assessing the humus content in arable lands of Northern Kazakhstan based on satellite data / A. G. Terekhov, A. M. Kauzov // Modern problems of remote sensing. Earth from space. - 2007. - V. 4. - No. 2. - P. 358-364
7. Orlov, D. S. Influence of the qualitative composition of humus on the reflection of light by soils / D. S. Orlov, O. Ya. Biryukova // Aerospace methods in soil science. – M.: Kolos, 1989. – P. 71.
8. Ukrainsky, P. A. On the possibility of modeling the relationship between humus content and spectral reflectivity of the soil based on data from traditional agrochemical surveys and multi-spectral space images LANDSAT 8 OLI / P. A. Ukrainsky, A. G. Narozhnaya, I. S. Gagina // Agrarian scientific journal. – 2015. –№ 12. – P. 29–32.
9. Simakova, M. S. Use of aerial and space photography materials in soil mapping: development paths, status, tasks / M. S. Simakova, I. Yu. Savin // Soil science. – 1998. – № 11. – P. 1339–1347.
10. Estimating soil organic carbon from soil reflectance: a review / M. Ladoni, H. A. Bahrami, S. K. Alavipanah, A. A. Norouzi // Precision Agriculture. – 2010. – Vol. 11. – No. 1. – pp. 82–99.
11. Mapping soil organic carbon concentration for multiple fields with image similarity analysis / F. Chen, D.E. Kissel, L.T. West, W. Adkins, D. Rickman, J.C. Luvall // Soil Science Society of America Journal. – 2008. – Vol. 72. –P. 186–193.
2. Vershinin Valentin Valentinovich, Morkovkin Gennady Gennadievich METHODICAL ASPECTS OF ASSESSING SOIL FERTILITY FOR INVOLVING UNUSED ARABLE LAND IN AGRICULTURAL TURNOVER // MSH. 2023. No.4. URL: https://cyberleninka.ru/article/n/metodicheskie-aspekty-otsenki-plodorodiya-pochv-dlya-vovlecheniya-v-selskohozyaystvennyy-oborot-neispolzuemoy-pashni
3. Shagaida N.I. Potential for growth of agricultural production in Russia due to the involvement of unused agricultural land in circulation / N.I. Shagaida, N.M. Svetlov, V.Ya. Uzun, D.A. Loginova, A.V. Prishchepov. - M .: RANEPA under the President of the Russian Federation, 2018. - 70 p. Analytical Center of the Ministry of Agriculture of the Russian Federation. Official website. - URL: https://www.mcxac.ru/monitoring-zemel/state_land/.
4. Marshinin, A. V. Resource Science: a textbook for universities / A. V. Marshinin. - 2nd ed., revised. and additional. - Moscow, 2019; Tyumen: Publishing House of Tyumen State University. - 126 p. - (Higher education). - ISBN 978-5-534-12420-0 (). - ISBN 978-5-400-01467-3
5. Vershinin Valentin Valentinovich, Morkovkin Gennady Gennadievich METHODICAL ASPECTS OF ASSESSING SOIL FERTILITY FOR INVOLVING UNUSED ARABLE LAND IN AGRICULTURAL TURNOVER // Ministry of Agriculture. 2023. No. 4. URL: https://cyberleninka.ru/article/n/metodicheskie-aspekty-otsenki-plodorodiya-pochv-dlya-vovlecheniya-v-selskohozyaystvennyy-oborot-neispolzuemoy-pashni
6. Terekhov, A. G. Methodology for assessing the humus content in arable lands of Northern Kazakhstan based on satellite data / A. G. Terekhov, A. M. Kauzov // Modern problems of remote sensing. Earth from space. - 2007. - V. 4. - No. 2. - P. 358-364
7. Orlov, D. S. Influence of the qualitative composition of humus on the reflection of light by soils / D. S. Orlov, O. Ya. Biryukova // Aerospace methods in soil science. – M.: Kolos, 1989. – P. 71.
8. Ukrainsky, P. A. On the possibility of modeling the relationship between humus content and spectral reflectivity of the soil based on data from traditional agrochemical surveys and multi-spectral space images LANDSAT 8 OLI / P. A. Ukrainsky, A. G. Narozhnaya, I. S. Gagina // Agrarian scientific journal. – 2015. –№ 12. – P. 29–32.
9. Simakova, M. S. Use of aerial and space photography materials in soil mapping: development paths, status, tasks / M. S. Simakova, I. Yu. Savin // Soil science. – 1998. – № 11. – P. 1339–1347.
10. Estimating soil organic carbon from soil reflectance: a review / M. Ladoni, H. A. Bahrami, S. K. Alavipanah, A. A. Norouzi // Precision Agriculture. – 2010. – Vol. 11. – No. 1. – pp. 82–99.
11. Mapping soil organic carbon concentration for multiple fields with image similarity analysis / F. Chen, D.E. Kissel, L.T. West, W. Adkins, D. Rickman, J.C. Luvall // Soil Science Society of America Journal. – 2008. – Vol. 72. –P. 186–193.