THE USE OF MICROORGANISMS GROWTH ACTIVATORS WHEN CLEANING OF SOILS FROM HYDROCARBON POLLUTION
UDC: 579.6
DOI: 10.33285/2411-7013-2021-4(301)-5-10
Authors:
KHOKHLACHEV NIKOLAY SERGEEVICH1,
CHERVYAKOVA OLGA PETROVNA1,
LUZHKOV VIKTOR ALEKSANDROVICH1
1 Gazprom VNIIGAZ, Razvilka, Leninsky dist., Moscow region, Russian Federation
Keywords: oil pollution; microorganisms; bacteria; humus; remediation; biological product; biological technology; hydrocarbons
Annotation:
During the last decade, manufacturers developed and introduced a large number of biological products for the restoration and cleaning of lands contaminated by hydrocarbons. The lack of specific information on the developments, composition and principle of biological products action, technology of their production makes it impossible to fully reproduce the technology of a biological product use, to assess and compare the effectiveness of biological products, available in the market. It is concluded that, as proved by practice, relying on information from the developer, it is difficult, and often impossible, to achieve the declared results in cleaning soil from petroleum products (PP). The specialists of the institute carried out two series of experiments to study the efficiency of land cleaning from petroleum products with the help of modern biological products presented on the domestic market, including stimulants of soil bacteria increase.
Bibliography:
1. Безуглова О.С. Гуминовые удобрения и стимуляторы роста: учебно-метод. пособие. – Ростов н/Д: Изд-во Южного ФУ, 2009. – 53 с.
2. Зинченко В.А. Химическая защита растений: средства, технология и экологическая безопасность. – М.: КолосС, 2012. – 247 с.
3. Эффективность гуминового препарата как структурообразователя при выращивании озимой пшеницы в Ростовской области / В.А. Лыхман, Е.А. Полиенко, М.Н. Дубинина [и др.] // Изв. ОГАУ. – 2019. – № 4 (78). – С. 54–58.
4. Bronick C.J., Lal R. Soil structure and management: a review // Geoderma. – 2005. – Vol. 124, Issue 1-2. – P. 3–22. – DOI: 10.1016/j.geoderma.2004.03.005
5. A study of polysaccharide-producing organisms occurring in the root region of certain pasture grasses / D.M. Webley, R.B. Duff, J.S.D. Bacon, V.C. Farmer // European J. of Soil Science. – 1965. – Vol. 16, Issue 1. – P. 149–171. – DOI: 10.1111/j.1365-2389.1965.tb01428.x
6. Хан Д.В. Органо-минеральные соединения и структура почвы. – М.: Наука, 1969. – 142 с.
7. Soil fertility and quality assessment under tree-, crop-, and pasture-based land-use systems in a rainfed environment / K.L. Sharma, K. Ramachandra Raju, S.K. Das [et al.] // Communications in Soil Science and Plant Analysis. – 2009. – Vol. 40, Issue 9-10. – P. 1436–1461. – DOI: 10.1080/00103620902818096
8. Martin J.P., Richards S.J. Decomposition and binding action of a polysaccharide from Chromobacterium Violaceum in soil // J. of Bacteriology. – 1963. – Vol. 85, Issue 6. – P. 1288–1294. – DOI: 10.1128/jb.85.6.1288-1294.1963
9. Федорова Н.Н., Романов О.В. Влияние органических веществ на агрегатное состояние почвы // Вестн. СПбГУ. Сер. 3. Биология. – 2006. – Вып. 1. – С. 148–155.
10. Гуматы и почва: пер. с англ. / под ред. И.Н. Титова. – М.: ИЛКО, 2006. – 27 с.
11. Влияние гуминовых препаратов на содержание углеводов в структурных агрегатах и их водопрочность / В.А. Лыхман, О.С. Безуглова, Е.А. Полиенко [и др.] // Науч. журн. Российского НИИ проблем мелиорации. – 2020. – № 1 (37). – С. 154–168. – DOI: 10.31774/2222-1816-2020-1-154-168
12. Кобзев Е.Н. Биодеструкция нефти и нефтепродуктов микробными ассоциациями в модельных системах: дис. … канд. биол. наук: 03.00.23. – Пущино, 2003. – 179 с.
Back to issue