«Жизнь Земли» — междисциплинарный научно-практический журнал

Перейти в оглавление выпуска:
Zhizn Zemli [Life of the Earth] 45, no 1

Go to the issue table of contents:
Zhizn Zemli [Life of the Earth] 45, no 1

Данные статьи

Description

DOI

10.29003/m3148.0514-7468.2023_45_1/39-53

EDN

Авторы:

Authors:

Bashkin V.N.

Ключевые слова:

Keywords:

biogeochemical engineering, disturbed and polluted soils, recultivation, microbiom, CO2 emission, biogeochemical technologies.

biogeochemical engineering; disturbed and polluted soils; recultivation; microbiom; CO2 emission; biogeochemical technologies.

Pages:
pp. 39–53

Скачать pdf статьи:

Download the article:

Ссылка для цитирования:

For citation:

Bashkin V.N., «Engineering biogeochemistry: from V.I. Vernadsky’s fundamental ideas to technological solutions», Zhizn Zemli [Life of the Earth] 45, no 1, 39–53 (2023) (in Russ., abstr. in Engl.). DOI: 10.29003/m3148.0514-7468.2023_45_1/39-53.

XML Metadata

Engineering biogeochemistry: from V.I. Vernadsky’s fundamental ideas to technological solutions

17.03.2026

At present, it is possible to identify a number of new directions for the development of biogeochemical research, at the junction of fundamental and applied studies. A novel field of research is being formed, namely, engineering biogeochemistry, within the framework of which innovative biogeochemical technologies and technological processes based on modeling and management of ecosystematic biogeochemical cycles are being developed. The application of these innovative technologies for the restoration of disturbed and polluted impact ecosystems, in particular, polar ecosystems in the zones of operation of gas-producing enterprises, is considered. Technological examples of calculations of geoecological risks, as well as microbial contamination risks are given. A pool of the developed biogeochemical technologies and their connection with other innovative technologies within the framework of gas-producing companies is shown.

References

Список литературы

Список литературы

  1. Abdusamatov, H.I., “Lunar observatory for climate research in the era of deep cooling”, Solar and solar-terrestrial physics – 2017. Proc. of the XXI All-Russian Annual Conference on Solar Physics (Saint Petersburg, 2017. P. 3–6) (in Russian).
  2. Arno, O.B., Arabsky, A.K., Bashkin, V.N., “Innovative development of Gazprom Dobycha Yamburg LLC. Similarity and difference in the methods for preventing potential disasters”, Gas industry 184, no 1, 26–34 (2021) (in Russian).
  3. Bashkin, V.N., “Engineering biogeochemistry and biogeochemical technologies”, Innovatika i expertiza 23, no 2, 140–144 (in Russian).
  4. Bashkin, V.N., Priputina, I.V., Environmental risk management in the emission of pollutants (Moscow: Gazprom–VNIIGAZ, 2010) (in Russian).
  5. Bashkin, V.N., Arno, A.B., Arabsky, A.K., Barsukov, P.A., Priputina, I.V., Galiulin, R.V., Retrospective and forecast of the geoecological situation at the gas condensate fields of the Far North (Moscow: Gazprom–VNIIGAZ, 2012) (in Russian).
  6. Bashkin, V.N., Galiulin, R.V., “Geoecological problems in gas production in Western Siberia: solutions”, Zhizn Zemli [Life of the Earth] 41, no 3, 264– 271 (2019). DOI: 10.29003/m669.0514-7468.2019_41_3/264-271 (in Russian).
  7. Blagodatskaya, E.V., Semenov, M.V., Yakushev, A.V., Activity and biomass of soil microorganisms in changing environmental conditions (Moscow: Association of Scientific Publications of the CMC, 2016) (in Russian).
  8. Bogdanov, V.D., Golovatin, M.G., “Ecological-socio-economic aspect of reindeer epizootics in the Yamalo-Nenets Autonomous Okrug (on the example of anthrax)”, Sci Bull. of the Yamalo-Nenets Autonomous Okrug 94, no 1, 4–10 (2017) (in Russian).
  9. Bobrovitskaya, N.N., Current state of the climate and consequences of its change (on the example of the territory of the Russian Federation and in relation to the Yamal Peninsula). Tech. Document (Saint Petersburg: GU “GGI”, 2007) (in Russian).
  10. Vernadsky, V.I., Problems of biogeochemistry. Is. 2. (Moscow–Leningrad: Publishing House of the USSR Academy of Sciences, 1939) (in Russian).
  11. Ermakov, V.V., Karpova, E.A., Korzh, V.D., Ostroumov, S.A., Innovative aspects of biogeochemistry (Moscow: GEOHI RAS, 2012) (in Russian).
  12. Efimov, V.I., “Reality of the carbon footprint in global climate change”, Zhizn Zemli [Life of the Earth] 43, no 3, 328–335 (2021). DOI: 10.29003/ m2437.0514-7468.2020_43_3/328-335 (in Russian).
  13. Zakharova, M.I., “Assessment of the potential risk of gas leakage in the aboveground sections of the gas pipeline, taking into account abnormal weather conditions of the North”, Problems of risk analysis 19, no 6, 62–69 (2022). https://doi.org/10.32686/1812-5220-2022-19-6-62-69 (in Russian).
  14. Zvyagintsev, D.G., Aseeva, I.V., Babyeva, I.P., Mirchink, T.G., Methods of soil microbiology and biochemistry (Moscow: Publishing House of Moscow Univ., 1980) (in Russian).
  15. Pomazkina, L.V., Kotova, L.G., Lubnina, E.V., Biogeochemical monitoring and evaluation of the modes of functioning of agroecosystems on technogenically polluted soils (Novosibirsk: Nauka, 1999) (in Russian).
  16. Popova, A.Yu., Demina, Yu.V., Yezhlova, E.B., Kulichenko, A.N., Ryazanova, A.G., Maleev, V.V., Ploskireva, A.A., Dyatlov, I.A., Timofeev, V.S., Nechepurenko, L.A., Kharkiv, V.V., “Anthrax outbreak in the Yamalo-Nenets Autonomous Okrug in 2016, epidemiological features”, Problems of especially dangerous infections 4, 42–46 (2016) (in Russian).
  17. Snakin, V.V., “Instability of natural processes: global climate”, Use and protection of natural resources of Russia 3 (111), 3–12 (2022) (in Russian).
  18. Shestakova, I.V., “Anthrax does not forgive mistakes: assessment of information after the outbreak in the Yamal in the summer of 2016”, J. of Infectology 8 (3), 5–27 (2016) (in Russian).
  19. Bashkin, V.N., “Biogeochemical technologies for managing pollution in polar ecosystems”, Environmental Pollution 26 (Springer: Switzerland, 2016).
  20. Bashkin, V.N., Ecological and biogeochemical cycling in impacted polar ecosystems (NOVA Publishers, 2017).
  21. Bashkin, V.N., “Biogeochemical Engineering: Technologies for Managing Environmental Risks”, Adv. Environ. Eng. Res. 3, no 4, 040 (2022). DOI:10.21926/aeer.2204040.
  22. Bashkin, V.N., Galiulin, R.V., “Geoecological Risk Management in Polar Areas”, Environmental Pollution 28 (Springer, Switzerland, 2019). https://doi.org/10.1007/978-3-030-04441-1.
  23. Leith, Y., “Modelling the primary productivity of the World. (Eds H. Leith & R.H. Whittaker) Priming productivity of the biosphere”, Ecological Studies 14 (NY: Springer-Verlag, 1975).
  24. Zhao, Dan-dan, Zhang, Peng-bo, Bocharnikova, E.A., Matichenkov, V.V., Khomiakov, D.M., Pakhnenko, E.P., “The evaluation of the carbon sequestration by rice roots under silicon fertilization”, Herald of Moscow state university. Soil Science ser. 3, 17–22 (2019).

References

  1. Abdusamatov, H.I., “Lunar observatory for climate research in the era of deep cooling”, Solar and solar-terrestrial physics – 2017. Proc. of the XXI All-Russian Annual Conference on Solar Physics (Saint Petersburg, 2017. P. 3–6) (in Russian).
  2. Arno, O.B., Arabsky, A.K., Bashkin, V.N., “Innovative development of Gazprom Dobycha Yamburg LLC. Similarity and difference in the methods for preventing potential disasters”, Gas industry 184, no 1, 26–34 (2021) (in Russian).
  3. Bashkin, V.N., “Engineering biogeochemistry and biogeochemical technologies”, Innovatika i expertiza 23, no 2, 140–144 (in Russian).
  4. Bashkin, V.N., Priputina, I.V., Environmental risk management in the emission of pollutants (Moscow: Gazprom–VNIIGAZ, 2010) (in Russian).
  5. Bashkin, V.N., Arno, A.B., Arabsky, A.K., Barsukov, P.A., Priputina, I.V., Galiulin, R.V., Retrospective and forecast of the geoecological situation at the gas condensate fields of the Far North (Moscow: Gazprom–VNIIGAZ, 2012) (in Russian).
  6. Bashkin, V.N., Galiulin, R.V., “Geoecological problems in gas production in Western Siberia: solutions”, Zhizn Zemli [Life of the Earth] 41, no 3, 264– 271 (2019). DOI: 10.29003/m669.0514-7468.2019_41_3/264-271 (in Russian).
  7. Blagodatskaya, E.V., Semenov, M.V., Yakushev, A.V., Activity and biomass of soil microorganisms in changing environmental conditions (Moscow: Association of Scientific Publications of the CMC, 2016) (in Russian).
  8. Bogdanov, V.D., Golovatin, M.G., “Ecological-socio-economic aspect of reindeer epizootics in the Yamalo-Nenets Autonomous Okrug (on the example of anthrax)”, Sci Bull. of the Yamalo-Nenets Autonomous Okrug 94, no 1, 4–10 (2017) (in Russian).
  9. Bobrovitskaya, N.N., Current state of the climate and consequences of its change (on the example of the territory of the Russian Federation and in relation to the Yamal Peninsula). Tech. Document (Saint Petersburg: GU “GGI”, 2007) (in Russian).
  10. Vernadsky, V.I., Problems of biogeochemistry. Is. 2. (Moscow–Leningrad: Publishing House of the USSR Academy of Sciences, 1939) (in Russian).
  11. Ermakov, V.V., Karpova, E.A., Korzh, V.D., Ostroumov, S.A., Innovative aspects of biogeochemistry (Moscow: GEOHI RAS, 2012) (in Russian).
  12. Efimov, V.I., “Reality of the carbon footprint in global climate change”, Zhizn Zemli [Life of the Earth] 43, no 3, 328–335 (2021). DOI: 10.29003/ m2437.0514-7468.2020_43_3/328-335 (in Russian).
  13. Zakharova, M.I., “Assessment of the potential risk of gas leakage in the aboveground sections of the gas pipeline, taking into account abnormal weather conditions of the North”, Problems of risk analysis 19, no 6, 62–69 (2022). https://doi.org/10.32686/1812-5220-2022-19-6-62-69 (in Russian).
  14. Zvyagintsev, D.G., Aseeva, I.V., Babyeva, I.P., Mirchink, T.G., Methods of soil microbiology and biochemistry (Moscow: Publishing House of Moscow Univ., 1980) (in Russian).
  15. Pomazkina, L.V., Kotova, L.G., Lubnina, E.V., Biogeochemical monitoring and evaluation of the modes of functioning of agroecosystems on technogenically polluted soils (Novosibirsk: Nauka, 1999) (in Russian).
  16. Popova, A.Yu., Demina, Yu.V., Yezhlova, E.B., Kulichenko, A.N., Ryazanova, A.G., Maleev, V.V., Ploskireva, A.A., Dyatlov, I.A., Timofeev, V.S., Nechepurenko, L.A., Kharkiv, V.V., “Anthrax outbreak in the Yamalo-Nenets Autonomous Okrug in 2016, epidemiological features”, Problems of especially dangerous infections 4, 42–46 (2016) (in Russian).
  17. Snakin, V.V., “Instability of natural processes: global climate”, Use and protection of natural resources of Russia 3 (111), 3–12 (2022) (in Russian).
  18. Shestakova, I.V., “Anthrax does not forgive mistakes: assessment of information after the outbreak in the Yamal in the summer of 2016”, J. of Infectology 8 (3), 5–27 (2016) (in Russian).
  19. Bashkin, V.N., “Biogeochemical technologies for managing pollution in polar ecosystems”, Environmental Pollution 26 (Springer: Switzerland, 2016).
  20. Bashkin, V.N., Ecological and biogeochemical cycling in impacted polar ecosystems (NOVA Publishers, 2017).
  21. Bashkin, V.N., “Biogeochemical Engineering: Technologies for Managing Environmental Risks”, Adv. Environ. Eng. Res. 3, no 4, 040 (2022). DOI:10.21926/aeer.2204040.
  22. Bashkin, V.N., Galiulin, R.V., “Geoecological Risk Management in Polar Areas”, Environmental Pollution 28 (Springer, Switzerland, 2019). https://doi.org/10.1007/978-3-030-04441-1.
  23. Leith, Y., “Modelling the primary productivity of the World. (Eds H. Leith & R.H. Whittaker) Priming productivity of the biosphere”, Ecological Studies 14 (NY: Springer-Verlag, 1975).
  24. Zhao, Dan-dan, Zhang, Peng-bo, Bocharnikova, E.A., Matichenkov, V.V., Khomiakov, D.M., Pakhnenko, E.P., “The evaluation of the carbon sequestration by rice roots under silicon fertilization”, Herald of Moscow state university. Soil Science ser. 3, 17–22 (2019).