Assessment of soils’ reclamation quality in the location of oil- and gas-wells using microbial communities as indicator

Authors

  • M.Y. Zhuravel SVNS Intellect-Service LTD
  • O.E. Naydyonova National Scientific Center “Institute for Soil Science and Agrochemistry Research named after O.N. Sokolovsky”
  • V.V. Yaremenko Joint venture Poltava Petroleum Company

DOI:

https://doi.org/10.31073/acss86-16

Keywords:

Biological indicators; Soil microbial cenosis; Reclaimed soil; Soil enzymatic activity; Soil phytotoxic activity

Abstract

 Studies to determine the parameters of microbiological indicators of soil in the areas oil and gas wells of Rudenkivske and Ignativske field (Poltava region) which different timing of reclamation and background soils were conducted. Comparative assessment state of microbial communities of soil was conducted. It was found that most of the studied parameters of the soil borehole number 23, reclaimed more than 20 years ago were deviated from background soil characteristics in an unfavorable direction, reducing its biological activity. The violations of soil biological properties moderate degree of the borehole number 23 were identified. The studies in 2016 were found a significant decrease in the number of main groups of microorganisms and dehydrogenase and invertase activities in the newly reclaimed soil wells number 140 Ignativske field. According to these indicators a violation of the biological properties of soil moderate degree also were identified. Significant deviations of parameters reclaimed soil of wells Rudenkivske field number 103 and number 134 Ignativske field from background were not found. Therefore, we proposed to consider they state as satisfactory and recommended the next, biological reclamation stage for a full recovery of the biological properties of the soil.

References

References

Pisarenko P.V., Laslo E.A. 2009. The environmental condition of agricultural land in Poltava region. Herald of Poltava State Agrarian Academy. № 2. P. 23–25. (Ukr.).

Kolesnikova L.A. 2011. Agro-ecosystems in terms of anthropogenic impact Reshetnyakivskoye field Poltava Region. Herald of Poltava State Agrarian Academy. № 2. P. 162–168. (Ukr.).

Reclamation of land during the construction of oil and gas wells: ISTU 41-00032626-00-023-2000. K.: Ministry of Ecology and Natural Resources of Ukraine, 2000. 64 p. (Industry standard of Ukraine). (Ukr.)..

Zhuravel M.Yu., Drozd O.M., Dyadin D.V., Yaremenko V.V. 2014. Peculiarities of agrophysical state and accumulation of heavy metals in reclaimed drilling sites agroecosystems. Visnyk KhharkivNАU. N 2. P. 112–121. (Ukr.).

Zhuravel M.Yu., Drozd O.M., Yaremenko V.V. 2017. Patterns of soil processes change in the technological fields of drilling sites. Ecogeoforum 2017. Actual problems and innovations. To the 50th anniversary of Ivano-Frankivsk National Technical University of Oil and Gas: Materials of the International Scientific and Practical Conference (Ivano-Frankivsk, March 22 – 25, 2017). – Ivano-Frankivsk, 2017. P. 224–225. (Ukr.).

Huber S. Soil Monitoring in Europe. AROMIS – Assessment and reduction of heavy metal inputs into agro-ecosystems. P. 69–71. [Електронний ресурс] Режим доступу: www.azo.hr/lgs.axd?t=16&id=1255.

Zornoza R., Acosta J.A., Bastida F., Domínguez S.G., Toledo D.M., Faz A. 2015. Identification of sensitive indicators to assess the interrelationship between soil quality, management practices and human health. SOIL. 2015. 1. P. 173-185. URL: http://www.soil-journal.net/1/173/2015/soil-1-173-2015.pdf

Mele P.M., Crowley D.E. 2008. Application of self-organizing maps for assessing soil biological quality. Agr. Ecosyst. Environ. V. 126. P. 139–152.

Veum K.S., Goyne K.W., Kremer R., Miles R.J., Sudduth K.A. 2014. Biological indicators of soil quality and soil organic matter characteristics in an agricultural management continuum. Biogeochemistry. V. 117. P. 81–99.

Semenova I.N., Ilbulov G.R. 2011. Using a complex of microbiological indicators of soils during environmental monitoring technologically contaminated territories. Herald of the OSU. N 12(131). P. 352–354. (Rus.).

Pleshakova E.V., Belyakov A.Yu. 2014. The use of various methods of biotesting to assess the toxic effect on the soil of invert-emulsion drilling fluids and their dispersion media. Bulletin of Moscow University. Ser. 17. Soil Science. N. 1. P. 38–43. (Rus.).

Cavanagh J.A.E. Booth L., Stevenson B., McGill A., Campion M. 2014. Biological response of earthworms and soil microbes associated with drilling mud wastes in the Taranaki region. Landcare research. 33 p.

Ritz K., Black H.I.J., Campbell C.D., Harris J.A., Wood C. 2009. Selecting biological indicators for monitoring soils: A framework for balancing scientic and technical opinion to assist policy development. Ecological Indicators. N. 9. P. 1212–1221.

Stenberg B. 1999. Monitoring soil quality of arable land: microbiological indicators. Acta Agric. Scand., Sect. B, Soil and Plant Sci. N. 49, P. 1–24.

Dadenko E.V., Prudnikova M.A., Kaseev K.Sh., Kolesnikov S.I. 2013. Application of indicators of enzymatic activity in assessing the state of soils under agricultural land. Izvestiya of the Samara Scientific Center of the Russian Academy of Sciences. Vol. 15, N 3(4). P. 1274–1277. (Rus.).

Galstyan A.Sh. 1974. Enzymatic activity of soils in Armenia. Yerevan: Hayastan. 275 p. [Rus.].

Haziev F.H. 1976. Fermentative activity of soils. Moscow: Science. P. 39–40. (Rus.).

Dadenko E.V. 2004. Methodical aspects of application of enzymatic activity indices in biodeagnetics and soil biomonitoring. Ph.D. thesis Biol. Sciences. Rostov-on-Don. 158 p. (Rus.).

Stakhurlova L.D., Svistova I.D., Scheglov D.I. 2007. Biological activity as an indicator of the fertility of chernozems in various biocenoses. Pochvovedenie. N 6. P. 769–774. (Rus.).

Sinsabaugh R.L.2010. Phenol oxidase, peroxidase and organic matter dynamics of soil. Soil Biology and Biochemistry. V. 4, N 3. P. 391–404.

German D.P., Weintraub M.N., Grandy A.S., Lauber C.L., Rinkes Z.L., Allison S.D. 2011. Optimization of hydrolytic and oxidative enzyme methods for ecosystem studies. Soil Biology and Biochemistry. V. 43. P. 1387–1397.

Patyka V.P., Symochko L.Y. 2013. Microbiological monitoring of soil natural and transformed ecosystems of Transcarpathian Ukraine. Microbiological journal. Vol. 75, N 2. P. 21–31. (Ukr.).

Bastida F., Moreno J.L., Hernández T., García C. 2006. Microbiological degradation index of soils in a semiarid climate. Soil Biology and Biochemistry. Vol. 38, Is. 12, December. P. 3463–3473.

Zvyagintzev D.G., Аsееvа I.V., Babyevа I.P., Мyrchink Т.G. 1980. Methods of Soil Microbiology and Biochemistry. Ed. by D.G. Zvyagintzev. Моscow university Press. 224 p. (Rus.).

Tepper E.Z., Shilnikova V.K., Pereverzeva G.I. 1972. Workshop for Microbiology. Мoscow: Kolos. 199 p. (Rus.).

Sagy Y. 1983. Methods of Soil Microbiology. Edit. G.S. Muromtzev, translation from Hungarian by I.F. Kurennoy. Мoscow: Kolos. 296 p. (Rus.).

ISO 7847: 2015 Soil quality. Determination the number of microorganisms in soil by culture on solid medium (agar nutrient) [The standard is effective since 01.07.2016] (National Standard of Ukraine). [Ukr.].

Haziev F.H. 1976. Fermentative activity of soils. Моscow: Science, P. 39–40. (Rus.).

Karyaginа L.А., Мichaylovskaya N.А. 1986. Determination of polyphenol oxidase and peroxidase activity in the soil. News of АS BSSR, series agricultural sciences. Міnsk. № 2. P. 40–41. (Rus.).

Naydyonova O.E. 2010. Biological degradation of chernozems under irrigation: Abstract of the Ph.D. thesis; speciality 03.00.18 – Soil Science. National Scientific Center “Institute for Soil Science and Agrochemistry Research named after O.N. Sokolovsky”. Kharkiv. 21 p. (Rus.).

Kolesnikov S.I., Kaseev K.Sh., Valkov V.F. 2001. Bioecological principles of monitoring and regulation of soil contamination (on the example of heavy metals). Rostov-on-Done. Publishing house TSVVR. 64 p. (Rus.).

Kolesnikov S.I., Kaseev K.Sh., Denisova T.V., Dadenko E.V., Mazanko M.S., Rotina E.N. 2013. Methods of assessing the appropriateness and effectiveness of the remediation of soils contaminated with oil and oil products using biological indicators. Engineering Bulletin of Don. № 3. [Electronic resource] URL: http://www.ivdon.ru/magazine/archive/n3y2013/1791. (Rus.).

Аndreyuk K.І., Iutinskaya G.A., Antypchuk А.F., Valagurova E.V., Kozyritska V.E., Ponomarenko S.P. 2001. Functioning of soil microbial communities under anthropogenic pressure. Оberegy, Kyiv. 240 p. (Ukr.).

Zhuravel M.Y., Lezhenina I.P., Polchaninova N.Y., Yaremenko V.V. 2017. Application of zoological diagnostic for assessment of chernozemic soil in the territory of gas and oil fields. Ecogeoforum 2017. Current problems and innovations. On the 50th anniversary of Ivano-Frankivsk National Technical University of Oil and Gas: Proceedings of the International scientific and practical conference (Ivano-Frankivsk, 22 – 25 March 2017). Ivano-Frankivsk, P. 127–128. (Ukr.).

Published

2017-12-05

How to Cite

Zhuravel, M., Naydyonova, O., & Yaremenko, V. (2017). Assessment of soils’ reclamation quality in the location of oil- and gas-wells using microbial communities as indicator. AgroChemistry and Soil Science, 86, 107-115. https://doi.org/10.31073/acss86-16