УДК 528.952:631.95
https://doi.org/10.47148/1609-364X-2023-4-52-60
Krechetnikova E.O., Krechetnikov V.V., Kuznetsov V.K., Titov I.E.
AbstractAbout the AuthorsReferences
Agronomic GIS has been developed in the ArcGis 10.5 in order to introduce a system of adaptive landscape farming on the radioactively contaminated territory of the Tulskii NII. 3D models were built in the ArcScene 10.5 on the basis of electronic maps for the best visualization the data. The project was created using information of soil characteristics, distribution of specific activity values for artificial 137Cs radionuclide in agricultural lands; characteristics of agricultural lands. AgroGIS contains electronic maps of the location of agricultural areas; structures of crop rotations; standard productivity; agrochemical cultivation of soils; relief; bias and exposition; agrochemical indexes of soils; surface activity values of 137Cs on agricultural land; risks of obtaining contaminated products.
The electronic maps contain all the necessary information for planning agricultural production. It based on the characteristics of agrolandscapes, soils and relief. Users can edit and enter data in this project.
The electronic maps contain all the necessary information for planning agricultural production. It based on the characteristics of agrolandscapes, soils and relief. Users can edit and enter data in this project.
Evgeniya O. Krechetnikova
Junior Researcher
Russian Institute of Radiology and Agroecology of National
Research Centre «Kurchatov Institute»
1, build. 1, Kievskoe shosse, Obninsk, 249035, Russia
e-mail: evg.krechet@yandex.ru
ORCID 0000-0002-3601-2201
Junior Researcher
Russian Institute of Radiology and Agroecology of National
Research Centre «Kurchatov Institute»
1, build. 1, Kievskoe shosse, Obninsk, 249035, Russia
e-mail: evg.krechet@yandex.ru
ORCID 0000-0002-3601-2201
Victor V. Krechetnikov
Researcher
Russian Institute of Radiology and Agroecology of National
Research Centre «Kurchatov Institute»
1, build. 1, Kievskoe shosse, Obninsk, 249035, Russia
e-mail: viktor.krechetnikov@mail.ru
ORCID 0000-0002-6099-6917
Vladimir K. Kuznetsov
Doctor of Biological Sciences
Chief Researcher, Acting Head Laboratory
Russian Institute of Radiology and Agroecology
of National Research Centre «Kurchatov Institute»
1, build. 1, Kievskoe shosse, Obninsk, 249035, Russia
e-mail: vkkuzn@yandex.ru
ORCID 0000-0003-4481-9395
Igor E. Titov
Researcher
Russian Institute of Radiology and Agroecology
of National Research Centre «Kurchatov Institute»
1, build. 1, Kievskoe shosse, Obninsk, 249035, Russia
e-mail: titan13_08@mail.ru
ORCID 0000-0002-5275-3229
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3. Gigienicheskie trebovaniya bezopasnosti i pishchevoi tsennosti pishchevykh produktov. Sanitarno-epidemiologicheskie pravila i normy SanPiN 2.3.2.1078-01 [Hygienic requirements for the safety and nutritional value of food products. Sanitary and epidemiological rules and regulations SanPiN 2.3.2.1078-01]. Moscow : InerSAN, 2002. 168 p.
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6. Kiryushin V.I. Agroecological classification of lands as a basis for development of agricultural systems. Eurasian soil science. 1997;30(1):67–73.
7. Kiryushin V.I. Kontseptsiya adaptivno-landshaftnogo zemledeliya [The concept of adaptive landscape farming]. Pushchino: Pushchinskii nauchnyi tsentr; 1993. 63 p.
8. Kiryushin V.I. Teoriya adaptivno-landshaftnogo zemledeliya i proektirovanie agrolandshaftov [Theory of adaptive landscape agriculture and agricultural landscape design]. Moscow: Kolos; 2011. 442 p.
9. Kiryushin V.I. Ehkologicheskie osnovy zemledeliya [Ecological foundations of agriculture]. Moscow: Kolos; 1996. 365 p.
10. Kuznetsov V.K. Nauchnye osnovy i sistemy meropriyatii po reabilitatsii radioaktivno zagryaznennykh sel’skokhozyaistvennykh territorii v adaptivno-landshaftnom zemledelii [Scientific foundations and systems of measures for the rehabilitation of radioactively contaminated agricultural areas in adaptive landscape farming]: dissertation for the degree of the doctor of biological science: 03.01.01. Obninsk, 2014. 453 p.
11. Kulakovskaya T.N., Bogdevich I.M., Yaroshevich M.I. Metody opredeleniya optimal’nykh parametrov agrokhimicheskikh svoistv, otrazhayushchikh raznuyu stepen’ okul’turennosti i produktivnosti pochvy [Methods for determining the optimal parameters of agrochemical properties, reflecting different degrees of soil cultivation and productivity]. In: Teoreticheskie osnovy i metody opredeleniya optimal’nykh parametrov svoistv pochvy. Moscow: Pochvennyi institut im. V.V. Dokuchaeva, 1980. pp. 5–15.
12. Tul’skaya oblast’: chertezh proekta vnutrikhozyaistvennogo zemleustroistva oblastnoi opytnoi sel’skokhozyaistvennoi stantsii Plavskogo raiona Tul’skoi oblasti [Tula region: drawing of the project for on-farm land management of the regional experimental agricultural station of the Plavsk district of the Tula region]. 1 : 25 000. Plavsk: Kartfilial Roszemproekta: 1998. 1 fol.
13. Burrough P.A. Principles of geographical information systems for land resources assessment. Oxford – New York: Oxford University Press; 1986. 193 p.
14. Burrough P.A., McDonell R.A. Principles of geographical information system. Oxford – New York: Oxford University Press; 1998. 333 p.
15. Oliver M.A., Webster R. Kriging: A Method of interpolation for geographical information systems. International journal of geographic information systems. 1990;4(3):313–332. DOI: 10.1080/02693799008941549.
Key words: adaptive landscape farming, agroGIS, agricultural lands, radiation safety, agrolandscape, vector map, layer