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ENVIRONMENTAL PROTECTION
Название Remote monitoring of ecological state of disturbed lands in the area of Trojanovo open pit coal mine in Bulgaria
DOI 10.17580/em.2017.01.10
Автор Zenkov I. V., Yuronen Yu. P., Nefedov B. N., Zayats V. V.
Информация об авторе

Reshetnev Siberian State University of Science and Technology, Krasnoyarsk, Russia:

Zenkov I. V., Professor, Doctor of Engineering Sciences, Honored Ecologist of the Russian Federation, zenkoviv@mail.ru
Yuronen Yu. P., Candidate of Engineering Sciences, Associate Professor

 

Institute of Computational Technologies, Siberian Branch, Russian Academy of Sciences, Novosibirsk, Russia:
Nefedov B. N., Candidate of Engineering Sciences
Zayats V. V., Researcher Engineer

Реферат

Trojanovo Open Pit Mine, Bulgaria is a known coal producer being among the top largest open pit coal mines in Europe. Started its history in the early 1960s, the open pit coal mine is now the only Bulgarian open pit mine that meets its own needs for power-generating coal. For the whole period of operation of the mine, the area of disturbed lands has made 15 thousand hectares. Mining has inflicted a large-scale damage to the natural landscape. In this connection, it has become of the theoretical and practical concern to carry out long-term monitoring of the disturbed land reclamation in the area of the open pit mine. In recent years, the issues of the mining ecology become in spotlight for researchers on every continent. At the same time, as the review of the scientific literature shows, the open pit mining ecology issues have never been studied using resources of the remote sensing of different duration. The article presents the results of the analysis of the disturbed land reclamation dynamics in the area of Trojanovo open pit mine using the freely accessible information resources of the remote sensing of the Earth.

Ключевые слова Open pit coal mine, mining ecology, disturbed land reclamation, overburden dumps, recovered ecosystems
Библиографический список

1. Naeth M. A., Wilkinson S. R. Establishment of Restoration Trajectories for Upland Tundra Communities on Diamond Mine Wastes in the Canadian Arctic. Restoration Ecology. 2014. Vol. 22(4). pp. 534–543.
2. Sena K., Barton C., Hall S., Angel P., Agouridis C., Warner R. Influence of spoil type on afforestation success and natural vegetative recolonization on a surface coal mine in Appalachia, United States. Restoration Ecology. 2015. Vol. 23(2). pp. 131–138.
3. Gilland K. E., McCarthy B. C. Microtopography Influences Early Successional Plant Communities on Experimental Coal Surface Mine Land Reclamation. Restoration Ecology. 2014. Vol. 22(2). pp. 232–239.
4. Ngugi M. R., Neldner V. J., Doley D., Kusy B., Moore D., Richter C. Soil moisture dynamics and restoration of self-sustaining native vegetation ecosystem on an open-cut coal mine. Restoration Ecology. 2015. Vol. 23(5). pp. 615–624.
5. Hao Zh., Xueying Zh., Chu L. M. Plant Recruitment in Early Development Stages on Rehabilitated Quarries in Hong Kong. Restoration Ecology. 2013. Vol. 21(2). pp. 166–173.
6. Knapp S., Gerth A., Stefan K. Sustainable recultivation and wastewater treatment in Vietnamese coal mining. World of Mining – Surface & Underground. 2012. Vol. 64 (4). pp. 253–263.
7. Laarmann D., Korjus H., Sims A., Kangur A., Kiviste A., Stanturf J. A. Evaluation of afforestation development and natural colonization on a reclaimed mine site. Restoration Ecology. 2015. Vol. 23(3). pp. 301–309.
8. Prach K., Karešová P., Jírová A., Dvoková H., Konvalinková P., ehounková K. Do not neglect surroundings in restoration of disturbed sites. Restoration Ecology. 2015. Vol. 23(3). pp. 310–314.
9. Mahieu S., Soussou S., Cleyet-Marel J.-C., Brunel B., Mauré L., Lefèbvre C., Escarré J. Local Adaptation of Metallicolous and Non-Metallicolous Anthyllis vulneraria Populations: Their Utilization in Soil Restoration. Restoration Ecology. 2013. Vol. 21(5). pp. 551–559.
10. Ontiveros D., Márquez-Ferrando R., Fernández-Cardenete J. R., Santos X., Caro J., Pleguezuelos J. M. Recovery of the Bird Community after a Mine Spill and Landscape Restoration of a Mediterranean River. Restoration Ecology. 2013. Vol. 21(2). pp. 193–199.
11. Zenkov I. V., Yuronen Yu. P., Nefedov B. N., Baradulin I. M. Remote sensing in estimation of forest ecosystem generation at crushed stone quarries in Siberia. Eurasian mining. 2016. Vol. 1. pp. 50–54. DOI: 10.17580/em.2016.01.09
12. Zenkov I. V., Baradulin I. M. Ultimate pit limit substantiation for the purpose of forestry reclamation of lands at ballast quarries in Siberia. Gornyi Zhurnal. 2016. No. 3. pp. 85-88. DOI: 10.17580/gzh.2016.03.18
13. Available at: https://www.google.com/earth/.
14. Available at: https://earthexplorer.usgs.gov/.
15. Available at: https://www.meteoprog.ua/ru/news/51621/.
16. Chin Le Khung, Zenkov I. V., Anishchenko Yu. A., Ragozina M. A., Fedorov V. A. Remote Sensing Techniques for Soil Moisture Monitoring Using Landsat Data in Thach Ha District with Open Mining Operation in Vietnam. Ekologiya i promyshlennost Rossii. 2017. Vol. 21. pp. 42–47.
17. Im S. T., Kharuk V. I. Water mass dynamics in permafrost from Central Siberia based on GRACE gravity data. Geofizicheskie protsessy i biosfera. 2015. Vol. 14, No. 1. pp. 53–69.
18. Pavlova E. V., Makhrova M. L., Yamskikh G. Yu. GIS project environmental framework for the territory of South-Minusinsk basin as a tool for the organization of rational use of nature and landscape protection. Zhurnal Sibirskogo federalnogo universiteta. Seriya: tekhnika i tekhnologii. 2015. Vol. 8, No. 6. pp. 706–714.

Полный текст статьи Remote monitoring of ecological state of disturbed lands in the area of Trojanovo open pit coal mine in Bulgaria
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