ENVIRONMENTAL POLLUTION, SOIL RECLAMATION AND RESTORATION OF BIOLOGICAL PROPERTIES IN SALINE SOILS AND UNDER THE INFLUENCE OF VARIOUS SOURCES
Keywords:
oil hydrocarbons, ammonifier bacteria, pollution, plants.
Abstract
The article was based on recultivation work using phytoremidiative-specific plants, oil-shattering bacterial strains, comparing contaminated soils and post-recultivation cases. According to the results, ammonifier bacteria are found in soils around the oil field from 3.1×106 to 1.3×108 cells/g.up to the amount of soil, 8.2×106 to 5.8×108 cells/g in soils derived from the surroundings of the oil storage reservoir.it has been found to increase after recultivation up to the amount of soil.
References
1. Khan M.A.I., Biswas B., Smith E., Naidu R., Megharaj M. Toxicity assessment of fresh and weathered petroleum hydrocarbons in contaminated soil- a review//Chemosphere 212. 2018. R 755-767.
2. Song Y., Fanga G., Zhua Ch., Zhua F., Wua S., Chena N., Wua T., Wanga Y., Gao J., Zhou D. Zero-valent iron activated persulfate remediation of polycyclic aromatic hydrocarbon-contaminated soils: An in situ pilot-scale study// Chemical Engineering Journal 355. 2019. R.65–75.
3. Dada E.O., Njoku K.L., Osuntoki A.A., Akinola M.O. A review of current techniques of in situ physico-chemical and biological remediation of heavy metals polluted soil//Ethiopian Journal of Environmental Studies and Management Vol. 8 no. 5, 2015. R.606-615.
4. Gaur V.K., Gautam K., Sharma P., Gupta P., Dwivedi Sh., Srivastava J.K., Varjani S., Ngo H.H., Kim S.H., Chang J.Sh.., Bui X.Th., Taherzadeh M.J., Parra-Saldívar R. Sustainable strategies for combating hydrocarbon pollution: Special emphasis on mobil oil bioremediation// Science of the Total Environment. 2022. P.2-12.
5. Fatima K., Afzal M., Imran A., Khan Q.M.. Bacterial rhizosphere and endosphere populations associated with grasses and trees to be used for phytoremediation of crude oil contaminated soil. Bull. Environ. Contam. Toxicol. 94. 2015. P.314–320.
6. Adipah, S., Introduction of petroleum hydrocarbons contaminants and its human effects. J. Environ. Sci. Public Health 3 (1), 2019. P.1–9.
7. Jabbarov Z.A., Abdraxmanov T., Nomozov U.M. Neft bilan ifloslangan tuproqlar rekultivatsiyasining iqtisodiy sarf xarajatlari// Xorazm Ma’mun akademiyasi axborotnomasi №3.2021. S. 43-49.
8. Jabbarov Z.A., Nomozov U.M. Baxranova M.F., Abdukarimov J.J. Изменение ферментативной активности нефтезагрязненных почв//Научное обозрение, Биологические науки. 2023. №1. С. 18-23.
9. ГОСТ 17.4.3.01-83. Охрана природы. Почвы. Общие требования к отбору проб (устанавливает требования к отбору проб почвы при общих и локальных загрязнениях // Москва. Стандарты информ, 2004. - 6 с.
10. ГОСТ. 17.5.3.04-83 Охрана природы. Земли. Общие требования к рекультивации земель. Общие требования к рекултивации земель // Москва. 1984 й.
11. Джувеликян Х.А., Щеглов Д.И., Горбунова Н.С. Загрязнение почв тяжелыми металлами способы контроля и нормирования загрязненных почв. - Воронеж: Воронежского государственного университета, 2009. - 22 с.
2. Song Y., Fanga G., Zhua Ch., Zhua F., Wua S., Chena N., Wua T., Wanga Y., Gao J., Zhou D. Zero-valent iron activated persulfate remediation of polycyclic aromatic hydrocarbon-contaminated soils: An in situ pilot-scale study// Chemical Engineering Journal 355. 2019. R.65–75.
3. Dada E.O., Njoku K.L., Osuntoki A.A., Akinola M.O. A review of current techniques of in situ physico-chemical and biological remediation of heavy metals polluted soil//Ethiopian Journal of Environmental Studies and Management Vol. 8 no. 5, 2015. R.606-615.
4. Gaur V.K., Gautam K., Sharma P., Gupta P., Dwivedi Sh., Srivastava J.K., Varjani S., Ngo H.H., Kim S.H., Chang J.Sh.., Bui X.Th., Taherzadeh M.J., Parra-Saldívar R. Sustainable strategies for combating hydrocarbon pollution: Special emphasis on mobil oil bioremediation// Science of the Total Environment. 2022. P.2-12.
5. Fatima K., Afzal M., Imran A., Khan Q.M.. Bacterial rhizosphere and endosphere populations associated with grasses and trees to be used for phytoremediation of crude oil contaminated soil. Bull. Environ. Contam. Toxicol. 94. 2015. P.314–320.
6. Adipah, S., Introduction of petroleum hydrocarbons contaminants and its human effects. J. Environ. Sci. Public Health 3 (1), 2019. P.1–9.
7. Jabbarov Z.A., Abdraxmanov T., Nomozov U.M. Neft bilan ifloslangan tuproqlar rekultivatsiyasining iqtisodiy sarf xarajatlari// Xorazm Ma’mun akademiyasi axborotnomasi №3.2021. S. 43-49.
8. Jabbarov Z.A., Nomozov U.M. Baxranova M.F., Abdukarimov J.J. Изменение ферментативной активности нефтезагрязненных почв//Научное обозрение, Биологические науки. 2023. №1. С. 18-23.
9. ГОСТ 17.4.3.01-83. Охрана природы. Почвы. Общие требования к отбору проб (устанавливает требования к отбору проб почвы при общих и локальных загрязнениях // Москва. Стандарты информ, 2004. - 6 с.
10. ГОСТ. 17.5.3.04-83 Охрана природы. Земли. Общие требования к рекультивации земель. Общие требования к рекултивации земель // Москва. 1984 й.
11. Джувеликян Х.А., Щеглов Д.И., Горбунова Н.С. Загрязнение почв тяжелыми металлами способы контроля и нормирования загрязненных почв. - Воронеж: Воронежского государственного университета, 2009. - 22 с.
Published
2024-03-30
How to Cite
Urol NOMOZOV. (2024). ENVIRONMENTAL POLLUTION, SOIL RECLAMATION AND RESTORATION OF BIOLOGICAL PROPERTIES IN SALINE SOILS AND UNDER THE INFLUENCE OF VARIOUS SOURCES. News of the NUUz, 3(3.1), 91-94. https://doi.org/10.69617/uzmu.v3i3.1.1720
Section
Articles
.jpg)
1.png)
This work is licensed under a 