- PII
- 10.31857/S0026365624020091-1
- DOI
- 10.31857/S0026365624020091
- Publication type
- Status
- Published
- Authors
- Volume/ Edition
- Volume 93 / Issue number 2
- Pages
- 149-153
- Abstract
- A new haloalkaliphilic member of the genus Salisediminibacterium (family Bacillaceae) with high chromate-reducing activity in a broad range of conditions was isolated. Reduction efficiency after 3 days was up to 99% at initial Cr(VI) concentrations 15 and 100 mg/L for mineral and organic media, respectively. Effect of organic matter on the rate of chromate reduction was shown. The isolate MB1000 differed from the presently described members of the genus Salisediminibacterium in its physiological characteristics.
- Keywords
- биоредукция хроматов Salisediminibacterium щелочные соленые среды
- Date of publication
- 15.03.2024
- Year of publication
- 2024
- Number of purchasers
- 0
- Views
- 41
References
- 1. Водяницкий Ю.Н. Тяжелые и сверхтяжелые металлы и металлоиды в загрязненных почвах. М.: ГНУ Почвенный институт им. В.В. Докучаева Россельхозакадемии, 2009. 95 с.
- 2. Высоцкий Э.А., Губин В.Н., Илькевич Г.И., Штефан Л.В. Геология металлических полезных ископаемых: учебное пособие для студентов вузов. Минск: ТетраСистемс, 2006. 336 с.
- 3. Лаврухина А.К., Юкина Л.В. Аналитическая химия хрома. М.: Наука, 1979. 219 с.
- 4. Николаев В.И., Казеннова А.Д., Никольская Н.Е., Сергеев Н.С., Самков В.С., Долгушин С.С., Сержантов Н.Ф. Хромитоносные провинции и месторождения хромовых руд России // Минеральное сырье. 2021. № 43. М.: ВИМС, 2021. С. 185.
- 5. Шаповалова А.А., Хижняк Т.В., Турова Т.П., Сорокин Д.Ю. Новая денитрифицирующая факультативно галоалкалофильная бактерия Halomonas chromatireducens sp. nov. из содовых солончаков, способная к аэробному восстановлению хромата // Микробиология. 2009. Т. 78. С. 117‒127.
- 6. Baesman S.M., Stolz J.F., Kulp T.R., Oremland R.S. Enrichment and isolation of Bacillus beveridgei sp. nov., a facultative anaerobic haloalkaliphile from Mono Lake, California, that respires oxyanions of tellurium, selenium, and arsenic // Extremophiles. 2009. V. 13. P. 695–705.
- 7. Barrera-Diaz C.E., Lugo-Lugo V., Bilyeu B. A review of chemical, electrochemical and biological methods for aqueous Cr(VI) reduction // J. Hazard. Mater. 2012. V. 223‒224. P. 1‒12.
- 8. Bartlett R.J. Chromium cycling in soils and water: links, gaps, and methods // Environ. Health Perspect. 1991. V. 92. P. 17‒24.
- 9. Blum J.S., Bindi A.B., Buzzelli J., Stolz J.F., Oremland R.S. Bacillus arsenicoselenatis, sp. nov., and Bacillus selenitireducens, sp. nov.: two haloalkaliphiles from Mono Lake, California that respire oxyanions of selenium and arsenic // Arch. Microbiol. 1998. V. 171. P. 19‒30.
- 10. Dhal B., Thatoi H.N., Das N.N., Pandey B.D. Chemical and microbial remediation of hexavalent chromium from contaminated soil and mining/metallurgical solid waste: a review // J. Hazard. Mater. 2013. V. 250‒251. P. 272‒291.
- 11. Gupta R.S., Patel S., Saini N., Chen S. Robust demarcation of 17 distinct Bacillus species clades, proposed as novel Bacillaceae genera, by phylogenomics and comparative genomic analyses: description of Robertmurraya kyonggiensis sp. nov. and proposal for an emended genus Bacillus limiting it only to the members of the Subtilis and Cereus clades of species // Int. J. Syst. Evol. Microbiol. 2020. V. 70. P. 5753‒5798.
- 12. Huang Y., Feng H., Lu H., Zeng Y. A thorough survey for Cr-resistant and/or — reducing bacteria identified comprehensive and pivotal taxa // In. Biodeter. Biodegr. 2017. V. 117. P. 22‒30.
- 13. Liang J., Huang X., Yan J., Li Y., Zhao Z., Liu Y., Ye J., Wei Y. A review of the formation of Cr(VI) via Cr(III) oxidation in soils and groundwater // Sci. Total Environ. 2021. V. 774. Art. 145762.
- 14. Márquez M.C., Carrasco I.J., de la Haba R.R., Jones B.E., Grant W.D., Ventosa A. Bacillus locisalis sp. nov., a new haloalkaliphilic species from hypersaline and alkaline lakes of China, Kenya and Tanzania // Syst. Appl. Microbiol. 2011. V. 34. P. 424–428.
- 15. Pushkar B., Sevak P., Parab S., Nilkanth N. Chromium pollution and its bioremediation mechanisms in bacteria: a review // J. Environ. Manage. 2021. V. 287. Art. 112279.
