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ENVIRONMENTAL PROTECTION
Название Geoecologic situation at site of drainage brine utilization during development of primary deposits in Yakutia
DOI 10.17580/em.2019.01.11
Автор Legostaeva Y. B., Ksenofontova M. I., Popov V. F.
Информация об авторе

Diamond and Precious Metal Geology Institute, Siberian Branch, Russian Academy of Sciences, Yakutsk, Russia:

Legostaeva Y. B., Leading Researcher, Candidate of Biological Sciences, ylego@mail.ru

 

Ammosov North-Eastern Federal University, Yakutsk, Russia:
Ksenofontova M. I., Senior Researcher of Research Institute of applied ecology, Candidate of Geographic Sciences
Popov V. F., Associate Professor of Faculty of Geologic and Survey

Реферат

Development of primary diamond deposits in Yakutia is related to involvement of significant amount of brines from subpermafrost water complexes in mine working. Safe removal of them is important for diamond production and safe geoecologic conditions of the region. Geoecologic conditions of subsurface polygons of drainage waters at the industrial site of the Udachninsky mining-and-processing facility ("ALROSA" company) are estimated, based on analysis and generalization of the results of studies of microelement composition of soil of natural landscapes, ground of technogenically transformed landscapes, bottom sediments and surface water. Purposeful changes of cryosilic-hydrogeologic conditions at subsurface polygons of drainage water disposal provide the potential for diamond extraction and they uniquely and justifiably affect subsurface cryohydrosphere. But, at the same time, complexity and dynamism of cryohydrogeologic conditions, increase of water supply into the mine working and probable excess of capacity of drainage brine storages increase ecologic risks."Perennially frozen rocks – drainage brine" system represents natural-technogenic geosystem, which instability is determined by changes of temperature, mechanic, physical-chemical and chemical values of its components. Origin of emergences of highly mineralized water is due to the faults, changes of hydrogeodynamic conditions. Abiotic components of the ecosystem reflect variations of biogeochemical parameters of natural and technogenic geochemical anomaly of the area. Spatial distribution of microelement composition of soil, bottom sediments and surface water is characterized by increased concentrations of wide variety of elements, including strontium, lithium and barium – markers of highly mineralized subsurface water impact on abiotic components of the ecosystem.

Ключевые слова Geoecology, cryolithozone, hyfrogeology, geothermal section, industrial waste, drainage water, perennially frozen rocks, highly mineralized water, ecosystem, abiotic components
Библиографический список

1. Bailey B. L., Blowes D. W., Smith L., Sego D. C. The Diavik Waste Rock Project: Geochemical and microbiological characterization of drainage from low-sulfide waste rock: Active zone field experiments. Applied Geochemistry. 2015. Vol. 62. pp. 18–34.
2. Evangelou V. P., Zhang Y. L. A review: Pyrite oxidation mechanisms and acid mine drainage prevention. Critical Reviews in Environmental Science and Technology. 1995. Vol. 25(2). pp. 141–199.
3. Sinclair S. A., Pham N., Amos R. T., Sego D. C., Smith L., Blowes D. W. Influence of f reeze–thaw dynamics on internal geochemical evolution of low sulfide waste rock. Applied Geochemistry. 2015. Vol. 61. pp. 160–174.
4. Shigley J. E., Shor R., Padua P., Breeding C. M., Shirey S. B., Ashbury D. Mining Diamonds in the Canadian Arctic: The Diavik Mine. Gems and Gemology. 2016. Vol. 52, No. 2. pp. 104–131.
5. Nikolaev M. V., Danilov Yu. G., Kurneva M. V. Problems and prospects of modern development of diamond mining industry. Eurasian Mining. 2014. Vol. 1. pp. 45–48.
6. Shepelev V. V., Tolstikhin O. N., Piguzova V. M. et al. Frosthydrogeologic conditions of the Eastern Siberia. Novosibirsk : Nauka, 1984. 191 p.
7. Drozdov A. V. Natural and technogenic reservoirs of industrial effluents in cryolitic zone (on example of Yakutia part of Siberian platform). Yakutsk : Institute of Further Training of the North-Eastern Federal University, 2011. 416 p.
8. Drozdov A. V. Assessing possibility to pump open pit and mine “Udachny” drainage brines into middle cambrian aquiferous complex. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta. 2013. No. 7(78). pp. 32–40.
9. Drozdov A. V., Melnikov A. I. Structural and geological factors at the forecast of gas dangerous zones in underworkings of Udachny mine (Yakutia). Marksheyderskiy vestnik. 2015. No. 6. pp. 6–13.
10. Atroshchenko F. G. Estimation of hydrogeological conditions for the subsurface development of Udachaya diamond pipe. Environmental Geoscience. 2012. No. 5. pp. 414–421.
11. Alekseev S. V., Alekseeva L. P., Gladkov A. S., Trifonov N. S., Serebryakov E. V. et al. Brines in deep horizons of the Udachnaya kimberlite pipe. Geodynamics and Tectonophysics. 2018. Vol. 9, No. 4. pp. 1235–1253.
12. Alekseeva L. P., Alekseev S. V. Geochemistry of ground ice, saline groundwater, and brines in the cryoartesian basins of the northeastern Siberian Platform. Geology and Geophysics. 2018. Vol. 59, Iss. 2. pp. 144–156.
13. Chistyakov G. E. Water resources of Yakutian rivers. Мoscow : Nauka, 1964. 255 p.
14. Ksenofontova M. I. Quality of water of the Sytykanskoe waterstorage basin. Nauka i obrazovanie. 2009. No. 1. pp. 74–79.
15. Protasieva M. S. (Ed.). Resources of the surface water of the USSR. Vol. 17. Lena-Indigirka region. Leningrad : Gidrometeoizdat, 1972. 649 p.
16. Lomonosov I. S. (Ed.). Role of brines in hydrochemical conditions of the Western Yakutia rivers. Nauka : Sibirskoe otdelenie, 1987. 83 p.
17. Shvartsev S. L. Fundamental mechanisms of interaction in the water-rock system and its interior geological evolution. Litosphera. 2008. No. 6. pp. 3–24.
18. Drozdov A. V., Popov V. F. Removal of drainage brines in cryolithozone subsoil during exploration of diamond deposits of Yakutia. Razvedka i okhrana nedr. 2013. No. 12. pp. 44–48.
19. Legostaeva Y. B. Ecological importance of microelement soil composition of Daldinskiy kimberlitic Field. Problemy regionalnoy ekologii. 2008. No. 2. pp. 15–20.
20. Makarov V. N., Semernya A. A., Torgovkin N. V. Impact of subsurface storage of the “Udachnaya” pipe brines on hydrochemistry of river water. Fundamental and applied problems of hydrogeology : materials of XXI Conference on Groundwater in Siberia and Far East. Yakutsk, 2015. pp. 214–216.
21. Artamonova S. Yu., Bondareva L. G., Antonov E. Yu., Kozhevnikov N. O. Geoecological model of Kristall peaceful underground nuclear explosion area (Yakutia). Environmental Geoscience. 2012. No. 2. pp. 143–158.

Полный текст статьи Geoecologic situation at site of drainage brine utilization during development of primary deposits in Yakutia
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