Remediation of agro-sod-podzolic soil contaminated with nickel

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The results of many years field experiment on the remediation of agro-sod-podzolic loamy soil (albeluvisoils) contaminated with nickel are analyzed. Various doses of ameliorants and fertilizers were studied as ameliorative additives: limestone and phosphorite flour, superphosphate, sodium sulfide, peat and zeolite. Studies have shown that the introduction of all studied reclamation additives into contaminated soil significantly reduced the content of mobile forms of nickel in it. The highest efficiency during the entire observation period was shown by limestone flour at a dose of 12 t/ha; it reduced the degree of its mobility by 48-69%. Nickel pollution had a strong toxic effect on plants, which led to a sharp decrease in their productivity (by 76-87%) and increased accumulation of nickel in the grain. The introduction of the studied ameliorants and fertilizers significantly improved these indicators, but they still did not reach the control (without pollution), which indicates the presence of a very serious problem of crop production on land contaminated with nickel.

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作者简介

A. Lednev

Udmurt Federal research center of the Ural branch of the Russian Academy of Sciences

编辑信件的主要联系方式.
Email: agrohim@izhgsha.ru

Doctor of Agricultural Sciences

俄罗斯联邦, Izhevsk

A. Lozhkin

Udmurt Federal research center of the Ural branch of the Russian Academy of Sciences

Email: agrohim@izhgsha.ru

candidate of agricultural sciences

俄罗斯联邦, Izhevsk

G. Pozdeev

Izhevsk state agricultural Academy

Email: agrohim@izhgsha.ru

Postgraduate student

俄罗斯联邦, Izhevsk

参考

  1. Montanarella L., Eds. R.J.A. Jones The EU Thematic Strategy on Soil Protection // 1st European Summer School on Soil Survery, S.-K. Selvaradjou. Ispra: ESB, IES,JRC-EU, 2003. – P. 275-288.
  2. Леднев А.В., Ложкин А.В., Безносов А.И. Тяжелые металлы в почвах Удмуртской Республики и приемы, снижающие их миграцию в системе почва-растение. – Ижевск: Ижевская ГСХА, 2016. – 175 с.
  3. Копцик Г.Н. Современные подходы к ремедиации почв, загрязненных тяжелыми металлами // Почвоведение. – 2014. – № 7. – С. 851–868.
  4. Водяницкий Ю.Н. Природные и техногенные соединения тяжелых металлов в почвах // Почвоведение. – 2014. – № 4. – С. 420–422.
  5. Методические указания по определению тяжелых металлов в почвах сельхозугодий и продукции растениеводства. – М.: ЦИНАО, 1992. – 31 с.
  6. Лурье Ю.Ю. Справочник по аналитической химии. – М.: Наука, 1979. С. 92-101.
  7. Adriano D.C., Wenzel W.W., Vangronsveld J., Bolan N.S. Role of assisted natural remediation in environmental cleanup // Geoderma. – 2004. – V. 122. – P. 121-142.
  8. Bolan N.S., Duraisamy V.P. Role of inorganic and organic soil amend-ments on immobilization and phytoavailability of heavy metals: a review involving specific case studies // Aust. J. Soil Res. – 2003. – V. 41. - P. 533-555.
  9. Окороков В. В. Поглощающий комплекс и механизм известкования кислых почв: монография. – Владимир: Изд-во ВООО ВОИ, 2004. – 181 с.
  10. Yuebing S., Guohong S., Yingming X., Weitao L., Xuefeng L., Lin W. Evaluation of the effectiveness of sepiolite, bentonite, and phosphate amendments on the stabilization remediation of cadmium- contaminated soils // Journal of Environmental Management. – 2015. – V. 166. – Р. 204-210.
  11. Понизовский А. А., Димоянис Д. Д., Тсадилас К. Д. Использование цеолита для детоксикации загрязненных свинцом почв // Почвоведение. – 2003. – № 4. – С. 487–492.
  12. Добровольский В. В. Основы биогеохимии. – М.:Изд-во Академия, 2003. – 342 с.
  13. Небольсин А.Н., Небольсина З.П. Теоретические основы известкования почв. – СПб.: ЛНИИСХ, 2005. – 252 с.
  14. Романов Г.А. Цеолиты: эффективность и применение в сельском хозяйстве. – М., 2000. – 144 с.
  15. Lednev A.V. Non-traditional ameliorants // Fertilizers. Components, Uses in Agriculture Environmental Impacts. – New York © Nova Science Publishers, Inc., 2014. – Р. 199-211.

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