ВЛИЯНИЕ БИОЧАРА НА ФРАКЦИОННО-ГРУППОВОЙ СОСТАВ МЕДИ В ЗАГРЯЗНЕННЫХ ПОЧВАХ
https://doi.org/10.20914/2304-4691-2020-3-418-421
Об авторах
Т. В. Бауэр
Федеральный исследовательский центр Южный научный центр РАН
Россия
Россия
Т. М. Минкина
Федеральный исследовательский центр Южный научный центр РАН
Россия
Россия
С. С. Манджиева
Федеральный исследовательский центр Южный научный центр РАН
Россия
Россия
А. Г. Федоренко
Федеральный исследовательский центр Южный научный центр РАН
Россия
Россия
Список литературы
1. Kabata-Pendias A. (2011). Trace Elements in Soil and Plants. CRC Press, Boca Raton, 548 p.
2. Schloter M., Nannipieri P., Sorensen S.J., Elsas J.D.V. Microbial indicators for soil quality. Biology and Fertility of Soils. 2017. Vol. 54. P. 1-10.
3. Wang Y., Wang R., Fan L., Chen T., Bai Y., Yu Q., Liu Y. Assessment of multiple exposure to chemical elements and health risks among residents near Huodehong lead-zincmining area in Yunnan, Southwest China. Chemosphere. 2017. Vol.
4. Wood J.L., Tang C., Franks A.E. Microbial associated plant growth and heavy metal accumulation to improve phytoextraction of contaminated soils. Soil Biology and Biochemistry. 2016. Vol. 103. P. 131-137.
5. Shen F., Liao R., Ali A., Mahar A., Guo D., Li R., Sun X., Awasthi M.K., Wang Q., Zhang Z. Spatial distribution and risk assessment of heavy metals in soil near a Pb/Zn smelter in Feng county, China. Ecotoxicology and Environmental Safety. 2017. Vol. 139. P. 254-262.
6. Zota A.R., Willis R., Jim R., Norris G.A., Shine J.P., Duvall R.M., Schaider L.A., Spengler J.D. Impact of mine waste on airborne respirable particulates in Northeastern Oklahoma, United States. Journal of the Air Waste Management Association. 2009. Vol. 59 (11). P. 1347-1357.
7. Violante A., Cozzolino V., Perelomov L., Caporale A.G., Pigna M. Mobility and bioavailability of heavy metals and metalloids in soil environments. Journal of Soil Science and Plant Nutrition. 2010. Vol. 10. P. 268-292.
8. Ju W.L., Liu L.Q., Fang L.C., Cui Y.X., Duan C.J., Wu H. Impact of co-inoculation with plant-growth-promoting rhizobacteria and rhizobium on the biochemical responses of alfalfa-soil system in copper contaminated soil. Ecotoxicology and Environmental Safety. 2019. Vol. 167. P. 218-226.
9. Ahmad M., Usman A.R.A., Al-Faraj A.S., Ahmad M., Sallam A., Al-Wabel M.I. Phosphorus-loaded biochar changes soil heavy metals availability and uptake potential of maize (Zea mays L.) plants. Chemosphere. 2018. Vol. 194. P. 327-339.
10. Houben D., Evrard L., Sonnet P. Beneficial effects of biochar application to contaminated soils on the bioavailability of Cd, Pb and Zn and the biomass production of rapeseed (Brassica napus L.) Biomass Bioenergy. 2013. Vol. 57. P. 196-204.
11. Wang H-T., Ding J., Chi Q. -Q., Li G., Pu Q., Xiao Z-F., Xue X-M. The effect of biochar on soil-plant-earthworm-bacteria system in metal(loid) contaminated soil. Environmental Pollution. 2020. Vol. 263, Part B, 114610.
12. Ahmad M., Rajapaksha A.U., Lim J.E., Zhang M., Bolan N., Mohan D., Vithanage M., Lee S.S., Ok Y.S. Biochar as a sorbent for contaminant management in soil and water: a review, Chemosphere. 2014. Vol. 99. P. 19-33.
13. Huggins T.M., Haeger A., Biffinger J.C., Ren Z.J. Granular biochar compared with activated carbon for wastewater treatment and resource recovery. Water research. 2016. Vol. 94. P. 225-232.
14. Cao X., Harris W. Properties of dairy-manure-derived biochar pertinent to its potential use in remediation. Bioresource Technology. 2010. Vol. 101. P. 5222-5228.
15. Rees F., Simonnot M.O., Morel J.L. Short-term effects of biochar on soil heavy metal mobility are controlled by intra- particle diffusion and soil pH increase. European Journal of Soil Science. 2014. Vol. 65. P. 149-161.
16. Lomaglio T., Hattab-Hambli N., Miard F., Lebrun M., Nandillon R., Trupiano D., Scippa G.S., Gauthier A., Motelica-Heino M., Bourgerie S., Morabito D. Cd, Pb, and Zn mobility and (bio) availability in contaminated soils from a former smelting site amended with biochar Environ. Environmental Science and Pollution Research. 2017. Vol. 25. P. 25744-25756.
17. R.V. Poucke, J. Ainsworth, M. Maeseele, Y.S. Ok, E. Meers, F.M.G. Tack Chemical stabilization of Cd-contaminated soil using biochar. Applied Geochemistry. 2018. Vol.
18. Warnock D.D., Lehmann J., Kuyper T.W., Rillig M.C. Mycorrhizal responses to biochar in soil -concepts and mechanisms. Plant and Soil. 2007. Vol. 300. P. 9-20.
19. Laird D.A., Fleming P., Davis D.D., Horton R., Wang B., Karlen D.L. Impact of biochar amendments on the quality of a typical Midwestern agricultural soil, Geoderma 158 (2010) 443-449.
20. ГН 2.1.7.2511-09 Ориентировочно допустимые концентрации химических веществ в почве, утвержденные Главным государственным санитарным врачом Российской Федерации 18 мая 2009 года
21. ГОСТ 7657-84 Уголь древесный. Технические условия. -М.: Изд-во Стандартов, 1976. -7 с.
22. Минкина Т.М., Мотузова Г.В., Манджиева С.С., Назаренко О.Г., Бурачевская М.В., Антоненко Е.М. Фракционно- групповой состав Mn, Cr, Ni и Cd в почвах техногенных ландшафтов (район Новочеркасской ГРЭС). Почвоведение. 2013. №. 4. С. 414-425.
23. Tessier A., Campbell P.G.C., Bisson M. Sequential extraction procedure for the speciation of particulate trace metals. Analytical Chemistry. 1979. Vol. 51(7). P. 844-850.
24. Minkina T.M., Mandzhieva S.S., Burachevskaya M.V., Bauer T.V., Sushkova S.N. Method of determining loosely bound compounds of heavy metals in the soil // MethodsX. 2018. Vol.
25. O'Connor D., Peng T., Zhang J., Tsang D.S.W., Alessi D.S., Shen Z., Bolan N.S., Hou D. Biochar application for the remediation of heavy metal polluted land: A review of in situ field trials. Science of The Total Environment. 2018. Vol. 619. P. 815-826.
Рецензия
Для цитирования:
Бауэр Т.В., Минкина Т.М., Манджиева С.С., Федоренко А.Г. ВЛИЯНИЕ БИОЧАРА НА ФРАКЦИОННО-ГРУППОВОЙ СОСТАВ МЕДИ В ЗАГРЯЗНЕННЫХ ПОЧВАХ. Актуальная биотехнология. 2020;(3):418-421. https://doi.org/10.20914/2304-4691-2020-3-418-421
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