ВЛИЯНИЕ УГЛЕРОДИСТЫХ СОРБЕНТОВ, ПОЛУЧЕННЫХ ИЗ РАСТИТЕЛЬНОГО СЫРЬЯ, НА ПОДВИЖНОСТЬ ИОНОВ Zn В ПОЧВЕ:

Marina Viktorovna Burachevskaya; Tat'yana Vladimirovna Bauer; Il'ya Pavlovich Lobzenko; Andrey Vladimirovich Gorovtsov; Evgeny Mikhailovich Vechkanov; Andrey Aleksandrovich Plotnikov; Anatoliy Vadimovich Barakhov; Elena Sergeevna Fedorenko; Инна Валерьевна  Zamulina; Tatyana Mikhailovna Minkina

doi:10.14258/jcprm.20230111702

Marina Viktorovna Burachevskaya Academy of Biology and Biotechnology SFU Email: marina.0911@mail.ru
Tat'yana Vladimirovna Bauer Academy of Biology and Biotechnology SFU Email: bauertatyana@mail.ru
Il'ya Pavlovich Lobzenko Academy of Biology and Biotechnology SFU Email: bkmzyoyo@gmail.com
Andrey Vladimirovich Gorovtsov Academy of Biology and Biotechnology SFU Email: gorovtsov@gmail.com
Evgeny Mikhailovich Vechkanov Academy of Biology and Biotechnology SFU Email: emvechkanov@sfedu.ru
Andrey Aleksandrovich Plotnikov Academy of Biology and Biotechnology SFU Email: aap@mail.ru
Anatoliy Vadimovich Barakhov Academy of Biology and Biotechnology SFU Email: tolik.barakhov@mail.ru
Elena Sergeevna Fedorenko Academy of Biology and Biotechnology SFU Email: elena.fedorenko.99@mail.ru
Инна Валерьевна Zamulina Academy of Biology and Biotechnology SFU Email: ivzamulina@sfedu.ru
Tatyana Mikhailovna Minkina Academy of Biology and Biotechnology SFU Email: tminkina@mail.ru

https://doi.org/10.14258/jcprm.20230111702

Keywords: biochar, granular activated carbon, heavy metal, remediation, mobile forms, simulated pollution

Abstract

Soil pollution with heavy metals not only reduces crop yields, but also negatively affects human and animal health. Even such a biophilic element as Zn, when excessively supplied to living organisms, has a toxic effect. The introduction of sorbents into the soil makes it possible to ensure the binding of pollutants in situ, leading to a decrease in their mobility and biological availability. In the course of the work, the efficiency of application and the physicochemical characteristics of organic carbonaceous sorbents, granular activated carbon (GAC) of commercial production and biochar obtained from regional agricultural waste (rice husk) were investigated and compared, which determine their adsorption capacity with respect to Zn ions. Under the conditions of a model experiment, metal inactivation was shown in contaminated soils when using carbonaceous sorbents. Due to the high sorption properties of GAC and biochar, a decrease in the content of all mobile forms (exchange, complex and specifically sorbed) of Zn compounds in contaminated soils, was found. The most effective dose for reducing the mobility of metal ions in the soil was 5% of the soil mass for both biochar and GAC.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

Author Biographies

Marina Viktorovna Burachevskaya, Academy of Biology and Biotechnology SFU

кандидат биологических наук, ведущий научный сотрудник

Tat'yana Vladimirovna Bauer, Academy of Biology and Biotechnology SFU

кандидат биологических наук, старший научный сотрудник

Il'ya Pavlovich Lobzenko, Academy of Biology and Biotechnology SFU

младший научный сотрудник

Andrey Vladimirovich Gorovtsov, Academy of Biology and Biotechnology SFU

кандидат биологических наук, доцент

Evgeny Mikhailovich Vechkanov, Academy of Biology and Biotechnology SFU

кандидат биологических наук, доцент

Andrey Aleksandrovich Plotnikov, Academy of Biology and Biotechnology SFU

преподаватель

Anatoliy Vadimovich Barakhov, Academy of Biology and Biotechnology SFU

кандидат биологических наук, младший научный сотрудник

Elena Sergeevna Fedorenko, Academy of Biology and Biotechnology SFU

младший научный сотрудник

Инна Валерьевна Zamulina, Academy of Biology and Biotechnology SFU

ассистент

Tatyana Mikhailovna Minkina, Academy of Biology and Biotechnology SFU

доктор биологических наук, профессор, заведующая кафедрой

References

Vodyanitskiy Yu.N. Agrokhimiya, 2008, no. 9, pp. 87–94. (in Russ.).

Liu D., Li S., Islam E., Chen J.R., Wu J.S., Ye Z.Q., Peng D.L., Yan W.B., Lu K.P. Journal of Zhejiang University Science B, 2015, vol. 16, pp. 123–130. DOI: 10.1631/jzus.B1400107.

Mendez M.O., Maier R.M. Environmental Health Perspectives, 2008, vol. 116, pp. 278–283. DOI: 10.1289/ehp.10608.

Zhang X., Wang H., He L., Lu K., Sarmah A., Li J., Bolan N.S., Pei J., Huang H. Environmental Science and Pollution Research, 2013, vol. 20, pp. 8472–8483. DOI: 10.1007/s11356-013-1659-0.

Koptsik G.N. Pochvovedeniye, 2014, no. 7, pp. 851–851. DOI: 10.7868/S0032180X14070077. (in Russ.).

Pukalchik M., Mercl F., Terekhova V., Tlustos P. Chemosphere, 2018, vol. 203, pp. 228–238. DOI: 10.1016/j.chemosphere.2018.03.181.

Jafri N., Wong W.Y., Doshi V., Yoon L.W., Cheah K.H. Process safety and environmental protection, 2018, vol. 118, pp. 152–166. DOI: 10.1016/j.psep.2018.06.036.

Zimmerman A.R., Ouyang L. Soil Biology and Biochemistry, 2019, vol. 130, pp. 105–112. DOI: 10.1016/j.soilbio.2018.12.011.

Kuzyakov Y., Bogomolova I., Glaser B. Soil Biology and Biochemistry, 2014, vol. 70, pp. 229–236. DOI: 10.1016/j.soilbio.2013.12.021.

Vasilyeva G.K., Strijakova E.R., Nikolaeva S.N., Lebedev A.T., Shea P.J. Environmental Pollution, 2010, vol. 158, no. 3, pp. 770–777. DOI: 10.1016/j.envpol.2009.10.010.

Gilmour C.C., Riedel G.S., Riedel G., Kwon S., Landis R., Brown S.S., Menzie C.A., Ghosh U. Environmental Sci-ence and Technology, 2013, vol. 47, pp. 13001–13010. DOI: 10.1021/es4021074.

Xu S., Chen J., Peng H., Leng S., Li H., Qu W., Hu Y., Li H., Jiang S., Zhou W., Leng L. Fuel, 2021, vol. 291, article 120128. DOI: 10.1016/j.fuel.2021.120128.

Mohan D., Pittman C.U., Steele P.H. Energy Fuels, 2006, vol. 20, no. 3, pp. 848–889. DOI: 10.1021/ef0502397.

Lu K., Yang X., Gielen G., Bolan N., Ok Y.S., Niazi N.K., Xu S., Yuan G., Chen X., Zhang X., Liu D., Song Z., Liu X., Wang H. Journal of Environmental Management, 2017, vol. 186, no. 2, pp. 285–292. DOI: 10.1016/j.jenvman.2016.05.068.

Amonette J.E., Jospeh S., Biochar for Environmental Management Science and Technology. Earthscan, London, 2009, pp. 241–250.

Rizhiya Ye.YA., Buchkina N.P., Mukhina I.M., Belinets A.S., Balashov Ye.V. Pochvovedeniye, 2015, no. 2, pp. 211–220. (in Russ.).

GOST 6217-74. Ugol' aktivnyy drevesnyy droblenyy. Tekhnicheskiye usloviya. [GOST 6217-74. Coal active wood shredded. Specifications]. Moscow, 1976, 8 p. (in Russ.).

Minkina T.M., Bauer T.V., Batukaev A.A., Mandzhieva S.S., Burachevskaya M.V., Sushkova S.N., Varduni T.V., Sherstnev A.K., Kalinichenko V.P. Environmental Engineering and Management Journal, 2015, vol. 4, no. 2, pp. 481–486. DOI: 10.30638/eemj.2015.050.

Rodríguez L., Ruiz E., Alonso-Azcarate, J., Rincon J. Journal of Environmental Management, 2009, vol. 90, no. 2, pp. 1106–1116. DOI: 10.1016/j.jenvman.2008.04.007.

Huang S.H. Transactions of Nonferrous Metals Society of China, 2014, vol. 24, pp. 3324–3331. DOI: 10.1016/s1003-6326(14)63473-7.

Minkina T., Rajput V., Fedorenko G., Fedorenko A., Mandzhieva S., Sushkova S., Morin T., Yao J. Environmental Geochemistry and Health, 2020, vol. 42, pp. 45–58. DOI: 10.1007/s10653-019-00269-8.

Minkina T.M., Mandzhieva S.S., Burachevskaya M.V., Bauer T.V., Sushkova S.N. Methods X, 2018, vol. 5, pp. 217–226. DOI: 10.1016/j.mex.2018.02.007.

Voronkov M.G., Zelchan G.I., Lukevits E.Ya. Kremniy i zhizn'. Biokhimiya, toksikologiya i farmakologiya soyedineniy kremniya: izd. 2-ye, pererab. i dop. [Silicon and life. Biochemistry, toxicology and pharmacology of silicon com-pounds: ed. 2nd, revised and additional]. Riga, 1978, 588 p. (in Russ.).

Jacquat O., Voegelin A., Kretzschmar R. Geochimica et Cosmochimica Acta, 2009, vol. 73, pp. 5256–5272. DOI: 10.1016/j.gca.2009.05.066.

Bauer T., Pinskii D., Minkina T., Mandzhieva S., Burachevskaya M., Kalinitchenko V., Barakhov A. Geochemistry Exploration Environment Analysis, 2019, vol. 19, pp. 184–192. DOI: 10.1144/geochem2017-086.

Burachevskaya M., Minkina T., Mandzhieva S., Bauer T., Chaplygin V., Sushkova S., Tsitsuashvili V., Popileshko Y. Geochemistry Exploration Environment Analysis, 2019, vol. 19, pp. 93–100. DOI: 10.1144/geochem2017-079.

Piccolo A., Stevenson F.J. Geoderma, 1982, vol. 27, pp. 195–208. DOI: 10.1016/0016-7061(82)90030-1.

Mellis E.V., Casagrande J.C., Cruz, M.C.P. Conference proceedings 7th international Conference on the Biogeochem-istry of Trace Elements, 2003, vol. 5, pp. 20–21.

Manceau A., Marcus M.A., Tamura N., Proux O., Geoffroy N., Lanson B. Geochimica et Cosmochimica Acta, 2004, vol. 68, pp. 2467–2483. DOI: 10.1016/S0016-7037(03)00883-4.

INFLUENCE OF CARBONACEOUS SORBENTS OBTAINED FROM VEGETABLE RAW MATERIALS ON THE MO-BILITY OF ZN IONS IN SOIL

UDC 661.183.2, 503.53.062.4

Abstract

Downloads

Metrics

Author Biographies

References