PHYTOMELIORATIVE RECOVERY IN REDUCTION OF MULTI-ELEMENT ANOMALIES’ INFLUENCE OF DEVASTATED LANDSCAPES

V.V. Popovich

Abstract


Formation of soil anomalies in the operation area and the mine waste dumps results in an accumulation of heavy metals in plants, particularly if the physic-chemical properties of soil to facilitate the transition elements available to form them. We have proved that the individual organs of plants have a high capacity for accumulation of heavy metals, which allows us to recommend them for landscaping of dumps and heaps like plants, is actively contributing to the stabilization of technologically impaired environment under conditions of significant contamination.

It should be noted that an embodiment of the ecological stabilization of anthropogenic disturbed territory, on which the landfills and waste dumps of coal mines, is the introduction of individual plant micro associations that will be investigated in more detail in our further work on the technologically impaired phytomelioration territory.

Despite the fact that the overgrowth of dumps and heaps helps to improve the environmental situation, the number of pollutants, including heavy metals, hydrosphere and lithosphere remains high. This is due to the fact that the soil is able to deposit the contaminants and can be long-term source of secondary pollution.

We proved that that dumps and heaps of coal mines led to an increase of industrial hazard in the region based on the research of background radiation, heavy metals contamination in edaphotopes and vegetation. We also studied the species diversity, the stage of overgrowing, distribution of individuals in the vegetation communities in devastated landscapes. Analysis of our research results testified the necessity of protective trees shield within devastated landscapes to improve the ecological condition of industrial congested region and increasing the productivity of disturbed lands.


Keywords


landfill; waste heap; devastated landscape; human pressure; stage of overgrowing; diversity index; typology; phytomelioration

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References


Анучин Н. П. Лесная таксация. - М., 1982. - 552 с.

Башуцкая У. Б. Антропогенно-природные сукцессии растительности девастированных ландшафтов Червоноградского горнопромышленного района: автореф. дис. … канд. с.-х. наук. - Львов. - 2004. - 17 с.

Башуцкая У. Б. Озеленение терриконов Львовско-Волынского угольного бассейна // Вестник УкрДЛТУ. 2000. - Вып. 10.2. - С. 61-63.

Кучерявый В. А. Экология. – Львов, 2000. - 500 с.

Кучерявый В. А., Генык Я. В., Дыда А. П., Колодко М. М. Рекультивация и фитомелиорация. Львов, 2006. - 116 с.

Кучерявый В. А. Фитомелиорация. - Львов, 2003. - 540 с.

Методические указания по определению тяжелых металлов в почвах сельхозугодий и продукции растениеводства // ЦИНАО. - М. - 1992. - 61 с.

Панас Р. Н. Агроэкологические основы рекультивации земель. - Львов, 1989. - 158 с.

Пашковский П. С., Греков С. П., Зинченко И. Н., Головченко Е. А. Процессы образования и выделения вредных веществ при горении породных отвалов // Техногенная безопасность. Теория, практика, инновации: сб. тезисов Междунар. научно-практической. конф. - Львов. - 2008. - С. 196-198.

Попович В. В. Фитомелиорация затухающих терриконов Львовско-Волынского угольного бассейна. Монография. - Львов, 2014. - 174 с.

Пурим В. Р. Бытовые отходы. Теория горения. Обезвреживание. Топливо для энергетики - М. - 2002. - 112 с.

Работнов Т.А. Фитоценология. - М., 1992. - 352 с.

Снитынский В. В., Якобенчук В. Ф. Почвоведение с основами агрохимии и геоботаники. - Львов, 2006. - 312 с.

Старостка В. С. Эффективность некоторых приемов рекультивации угодий после горно-химических разработок в условиях Львовской области : автореф. дис. … канд. с.-х. наук. - Дубляны, 1974. - 19 с.

Уиттекер Р. Сообщества и экосистемы. - М., 1980. - 328 с.

Хлызина Н. В. Сукцессионного системы на субстратах горных пород карьерно-отвальных урочищ Кривбасса // Почвоведение. - 2008. - № 1-2, Т. 9. - С. 79-86.

Bobryk, N. (2015). Poshyrennja ta akumuljacija vazhkyh metaliv u g'runtah pryzaliznychnyh terytorij [Spreading and accumulation of heavy metals in soils of railway-side areas]. Visnyk of Dnipropetrovsk University. Biology, Ecology, 23(2), 183-189 (in Ukrainian). doi: 10.15421/011526.

Kuzmishyna, S. V., Hnatush, S. O., & Halushka, A. A. (2015). Mikrobiota porodnyh vidvaliv vugil'nyh shaht Chervonograds'kogo girnychopromyslovogo rajonu za vnesennja zoly [Microbiota of coal pit waste heaps of Chervonograd Mining Region after coal ash application]. Visnyk of Dnipropetrovsk University. Biology, Ecology, 23(1), 33-38 (in Ukrainian). doi: 10.15421/011506.

REFERENCES

Anuchin, N.P. (1982). Lesnaja taksacija. Moscow. (in Russian).

Bashuckaja, U.B. (2000). Ozelenenie terrikonov L'vovsko-Volynskogo ugol'nogo bassejna. Vestnik UkrDLTU. 10(2), 61-63. (in Russian).

Bashuckaja, U.B. (2004). Antropogenno-prirodnye sukcessii rastitel'nosti devastirovannyh landshaftov Chervonogradskogo gornopromyshlennogo rajona. Thesis of Doctoral Dissertation. L'vov. (in Russian).

Bobryk, N. (2015). Poshyrennja ta akumuljacija vazhkyh metaliv u g'runtah pryzaliznychnyh terytorij [Spreading and accumulation of heavy metals in soils of railway-side areas]. Visnyk of Dnipropetrovsk University. Biology, Ecology, 23(2), 183-189 (in Ukrainian). doi: 10.15421/011526.

Hlyzina, N.V. (2008). Sukcessionnogo sistemy na substratah gornyh porod kar'erno-otval'nyh urochishh Krivbassa. Pochvovedenie. 1-2 (9), 79-86. (in Russian).

Kucherjavyj, V.A. (2000). Ecology. L'vov. (in Ukrainian)

Kucherjavyj, V.A. (2003). Fitomelioracija. L'vov. (in Ukrainian)

Kucherjavyj, V.A., Genyk, Ja.V., Dyda, A.P., Kolodko, M.M. (2006). Rekul'tivacija i fitomelioracija. L'vov.

Metodicheskie ukazanija po opredeleniju tjazhelyh metallov v pochvah sel'hozugodij i produkcii rastenievodstva. (1992). Moscow. CINAO. (in Russian).

Kuzmishyna, S. V., Hnatush, S. O., & Halushka, A. A. (2015). Mikrobiota porodnyh vidvaliv vugil'nyh shaht Chervonograds'kogo girnychopromyslovogo rajonu za vnesennja zoly [Microbiota of coal pit waste heaps of Chervonograd Mining Region after coal ash application]. Visnyk of Dnipropetrovsk University. Biology, Ecology, 23(1), 33-38 (in Ukrainian). doi: 10.15421/011506.

Panas, R.N. (1989). Agrojekologicheskie osnovy rekul'tivacii zemel'. L'vov. (in Russian).

Pashkovskij, P.S., Grekov, S.P., Zinchenko, I.N., Golovchenko, E.A. (2008). Processy obrazovanija i vydelenija vrednyh veshhestv pri gorenii porodnyh otvalov. Tehnogennaja bezopasnost'. Teorija, praktika, innovacii. Proceed. Intern. Conf. L'vov. (in Russian).

Popovich, V.V. (2014). Fitomelioracija zatuhajushhih terrikonov L'vovsko-Volynskogo ugol'nogo bassejna. Monografija. L'vov. (in Russian).

Purim, V.R. (2002). Bytovye othody. Teorija gorenija. Obezvrezhivanie. Toplivo dlja jenergetiki. Moscow.

Rabotnov, T.A. (1992). Fitocenologija. Moscow. (in Russian).

Snitynskij, V.V., Jakobenchuk, V.F. (2006). Pochvovedenie s osnovami agrohimii i geobotaniki. L'vov. (in Russian).

Starostka, V.S. (1974). Jeffektivnost' nekotoryh priemov rekul'tivacii ugodij posle gorno-himicheskih razrabotok v uslovijah L'vovskoj oblasti. Thesis of Doctoral Dissertation. Dubliany. (in Russian).

Whittaker, R. (1980). Soobshhestva i jekosistemy. Moscow. (in Russian).




DOI: http://dx.doi.org/10.15421/201606

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