References:
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2. Verbrugge B., Lanzano C., Libassi M. The cyanide revolution: Efficiency gains and exclusion in artisanal- and small-scale gold mining. Geoforum. 2021. Vol. 126. pp. 267–276. DOI: 10.1016/j.geoforum.2021.07.030
3. Moreira V. R., Lebron Y., Amaral M. Mining from wastewater: Perspectives and current practices of non-dispersive solvent extraction for metallic compounds valorization. Chemical Engineering Journal. 2021. Vol. 425. pp. 130–711. DOI:10.1016/j.cej.2021.130711
4. Singh A., Pal D.B., Mohammad A., Alhazmi A., Haque S., Yoon T., Srivastava N., Gupta VK. Biological remediation technologies for dyes and heavy metals in wastewater treatment: New insight. Bioresource Technology. 2022. Vol. 343. pp. 126–154. DOI: 10.1016/j.biortech.2021.126154
5. Turdaliyeva Kh.S., Huzhzhiev S.A., Safarov K.S. Use of Aquatic Plants in Mine Wastewater Purification. Current Journal of Applied Science and Technology. 2019. Vol. 36. Iss. 5. pp. 1–7. DOI: 10.9734/cjast/2019/v36i530251
6. Khujjiyev S.A., Yuldashov M.K., Sayfullayev A.F., Umaraliyeva G.K. Advantages of preparation and use of biofertilizers from biomass of higher aquatic plants. EPRA International Journal of Multidisciplinary Research (IJMR). 2022. Vol. 8. Iss. 1.
7. Merkulova T.N. The use of a floating aquatic plant eichornia for the efficiency of waste water treatment. Izvestiya vysshikh uchebnykh zavedeniy. Severo-Kavkazskiy region. Tekhnicheskie nauki = Bulletin of Higher Educational Institutions. North Caucasus Region. Technical Sciences. 2004. № 4. pp. 99–100. (In Russ.).
8. Mamelkina M.A., Herraiz-Carboné M., Cotillas S., Lacasa E., Sáez C., Tuunila R., Sillanpää M., Häkkinen A., Rodrigo M.A Treatment of mining wastewater polluted with cyanide by coagulation processes: A mechanistic study. Separation and Purification Technology. 2020. Vol. 237. pp. 116–345. DOI: 10.1016/j.seppur.2019.116345
9. Kulmatov R.A., Nigmatov A.N., Rasulov A.B. Modern Ecologicalproblems of Transboundary Zarafshan River. Voprosy geografii i geoekologii = Issues of Geographyand Geoecology. 2014. № 2. pp. 38–49. (In Russ.).
10. Kuluev B.R., Kruglova N.N., Zaripova A.A., Farkhutdinov R.R. Fundamentals of plant biotechnology: textbook. Ufa: RITs BashGU, 2017. pp. 244. (In Russ.).
11. Lutova L.A. Biotechnology of higher plants: textbook. Saint Petersburg: Izd-vo Sankt-Peterburgskogo universiteta, 2010. 238 p. (In Russ.).
12. Abuova G.B., Kharlamova A.E., Sardina A.S. The Effectiveness of the Use of Water Hyacinth (Eichhornia Crassipes) during the Post-Treatment of Wastewater. Inzhenerno-stroitelnyy vestnik Prikaspiya: nauchno-tekhnicheskiy zhurnal = Engineering and Construction Bulletin of the Caspian Region: scientific and technical journal. 2022. № 1 (39). pp. 33–37. (In Russ.). DOI: 10.52684/2312-3702-2022-39-1-33-37
2. Verbrugge B., Lanzano C., Libassi M. The cyanide revolution: Efficiency gains and exclusion in artisanal- and small-scale gold mining. Geoforum. 2021. Vol. 126. pp. 267–276. DOI: 10.1016/j.geoforum.2021.07.030
3. Moreira V. R., Lebron Y., Amaral M. Mining from wastewater: Perspectives and current practices of non-dispersive solvent extraction for metallic compounds valorization. Chemical Engineering Journal. 2021. Vol. 425. pp. 130–711. DOI:10.1016/j.cej.2021.130711
4. Singh A., Pal D.B., Mohammad A., Alhazmi A., Haque S., Yoon T., Srivastava N., Gupta VK. Biological remediation technologies for dyes and heavy metals in wastewater treatment: New insight. Bioresource Technology. 2022. Vol. 343. pp. 126–154. DOI: 10.1016/j.biortech.2021.126154
5. Turdaliyeva Kh.S., Huzhzhiev S.A., Safarov K.S. Use of Aquatic Plants in Mine Wastewater Purification. Current Journal of Applied Science and Technology. 2019. Vol. 36. Iss. 5. pp. 1–7. DOI: 10.9734/cjast/2019/v36i530251
6. Khujjiyev S.A., Yuldashov M.K., Sayfullayev A.F., Umaraliyeva G.K. Advantages of preparation and use of biofertilizers from biomass of higher aquatic plants. EPRA International Journal of Multidisciplinary Research (IJMR). 2022. Vol. 8. Iss. 1.
7. Merkulova T.N. The use of a floating aquatic plant eichornia for the efficiency of waste water treatment. Izvestiya vysshikh uchebnykh zavedeniy. Severo-Kavkazskiy region. Tekhnicheskie nauki = Bulletin of Higher Educational Institutions. North Caucasus Region. Technical Sciences. 2004. № 4. pp. 99–100. (In Russ.).
8. Mamelkina M.A., Herraiz-Carboné M., Cotillas S., Lacasa E., Sáez C., Tuunila R., Sillanpää M., Häkkinen A., Rodrigo M.A Treatment of mining wastewater polluted with cyanide by coagulation processes: A mechanistic study. Separation and Purification Technology. 2020. Vol. 237. pp. 116–345. DOI: 10.1016/j.seppur.2019.116345
9. Kulmatov R.A., Nigmatov A.N., Rasulov A.B. Modern Ecologicalproblems of Transboundary Zarafshan River. Voprosy geografii i geoekologii = Issues of Geographyand Geoecology. 2014. № 2. pp. 38–49. (In Russ.).
10. Kuluev B.R., Kruglova N.N., Zaripova A.A., Farkhutdinov R.R. Fundamentals of plant biotechnology: textbook. Ufa: RITs BashGU, 2017. pp. 244. (In Russ.).
11. Lutova L.A. Biotechnology of higher plants: textbook. Saint Petersburg: Izd-vo Sankt-Peterburgskogo universiteta, 2010. 238 p. (In Russ.).
12. Abuova G.B., Kharlamova A.E., Sardina A.S. The Effectiveness of the Use of Water Hyacinth (Eichhornia Crassipes) during the Post-Treatment of Wastewater. Inzhenerno-stroitelnyy vestnik Prikaspiya: nauchno-tekhnicheskiy zhurnal = Engineering and Construction Bulletin of the Caspian Region: scientific and technical journal. 2022. № 1 (39). pp. 33–37. (In Russ.). DOI: 10.52684/2312-3702-2022-39-1-33-37