Nitrate Reducing and Denitrifying Bacteria in Oil / Brine Contaminated Soils

Soil microorganisms are a fundamental part of biogeochemical cycling of nitrogen. Denitrification is an important component of nitrogen cycling, in which some microorganisms (e.g. denitrifying bacteria) use nitrate or nitrite as alternative electron acceptors. In fact, several studies have focused on various aspects of nitrogen cycling. Philippot et al. (2009) linked the distribution of the fraction of bacteria with the genetic capacity to reduce N2O to N2 to areas with low potential N2O emissions in a pasture. In addition, it was shown that a map of denitrification activity across a whole farm was reflected by maps displaying the community size and structure of a specific fraction of the denitrifyers at the site (Enwall et al., 2010). Since denitrification releases mineralized nitrogen in the soil ecosystem to the atmosphere, the balance between denitrification and N-fixation can determine the biologically available nitrogen for soils. Denitrification could be affected by soil ecosystem contaminants such as crude oil and brine as they may alter the abundance and species composition of denitrifying bacteria in predictable ways. For example, γ-Proteobacteria are known to increase in crude-oil contaminated sites and in fact, a wide diversity of γ-Proteobacteria including Pseudomonas and Vibrio species were shown to degrade hydrocarbons under nitrate reducing (NR) conditions (Rockne et al., 2000). Other studies showed that strains for several genera of γ-Proteobacteria have the ability to denitrify. In fact, it was shown that nitrate and nitrite reduction rates were increasingly inhibited at increasing NaCl concentrations when comparing treatment of fishery wastewaters. Bacterial diversity in brine-contaminated sites is expected to be less because of selection for salt-tolerant genera such as Bacillus and Pseudomonas.

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The Reducing Action of Denitrifying Bacteria

Scientific American ◽

10.1038/scientificamerican12221900-20889csupp ◽

1900 ◽

Vol 50 (1303supp) ◽

pp. 20889-20890

Author(s):

G. Ampola ◽

C. Ulpiani

Keyword(s):

Denitrifying Bacteria

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Effect of chelants on the lead and copper uptake of maize from contaminated soils

Agrokémia és Talajtan ◽

10.1556/agrokem.62.2013.2.14 ◽

2013 ◽

Vol 62 (2) ◽

pp. 373-386 ◽

Cited By ~ 1

Author(s):

György Czira ◽

László Simon ◽

György Vincze ◽

József Koncz ◽

Gyula Lakatos

Keyword(s):

Contaminated Soils ◽

Copper Uptake

Magyarországon a robbanóanyaggal és lőszerszármazékokkal szennyezett területek kármentesítése környezetvédelmi és nemzetgazdasági érdek. Egy hazai lőtérről, illetve lőszer-megsemmisítő telepről vett talajban 900 mg·kg−1 ólom- és 133 mg·kg−1 rézszennyeződést mértünk. A fitoextrakció célja, hogy a növényi szervekbe helyezzük át a nehézfémeket, lecsökkentve ezzel a mobilis, toxikus elemkészletet a szennyezett talajokban. Megvizsgáltuk, hogy egy lőszerszármazékokkal szennyezett talajba, illetve ólommal mesterségesen elszennyezett talajba kijuttatott kelátképzőszerekkel (EDTA, EGTA, citromsav) indukálható-e, megnövelhető-e a növényi szervek Pb- és Cu-akkumulációja?Tenyészedény-kísérletünkben kukoricát neveltünk a fenti ólommal és rézzel elszennyezett lőtéri talajon, illetve a közelben gyűjtött szennyezetlen talajt mesterségesen szennyeztük el 100 mg·kg-1 ólommal. Míg a kontroll (kelátképzővel nem kezelt) szennyezett talajon fejlődő kukorica gyökerében 554 μg·g−1 ólom volt mérhető, addig az EDTA hatására a gyökerekben 4611 μg·g−1-ra (több mint nyolcszorosára), a hajtásokban pedig 158-ról 302 μg·g−1-ra (91%-kal) nőtt az ólomkoncentráció. Mindkét változás statisztikailag szignifikánsnak bizonyult. Az EGTA a Cufelvételt serkentette; a kontrollkultúrák gyökerében 516 μg·g−1, a kezelt kultúrákban viszont 1063 μg·g−1 értéket mértünk (ez kétszeres szignifikáns növekmény). A hajtásokban 69%-kal, 29,9-ról 50,7 μg·g−1-ra emelkedett a réztartalom, ez azonban nem bizonyult statisztikailag szignifikánsnak. A citromsav az ólom hajtásokba történő áthelyeződését nem indukálta, rézfelvétel-serkentő hatása csak a gyökerekben volt szignifikáns.Tenyészedény-kísérleteink alapján kijelenthető, hogy elsősorban az EDTA, illetve részben az EGTA a talajba kijuttatva mobilisabbá, könnyebben felvehetővé teszi az ólmot és a rezet, elősegítve ezzel e két toxikus elem növényekben történő akkumulációját. Szabadföldi körülmények között is feltételezhető, hogy a növények betakarításával a toxikus elemek egy része eltávolítható a szennyezett talajból.

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Creation and application of biofertilizers based on the effective consortium destructor microorganisms for remediation of contaminated soils of the Republic of Tatarstan

Neftyanoe khozyaystvo - Oil Industry ◽

10.24887/0028-2448-2017-5-100-103 ◽

2017 ◽

pp. 100-103

Author(s):

I.A. Degtyareva ◽

◽

I.A. Yapparov ◽

A.Kh. Yapparov ◽

A.M. Ezhkova ◽

...

Keyword(s):

Contaminated Soils ◽

The Republic

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Methods of oil-contaminated soils diagnostic

Neftyanoe khozyaystvo - Oil Industry ◽

10.24887/0028-2448-2018-8-106-109 ◽

2018 ◽

pp. 106-109

Author(s):

I.А. Degtyareva ◽

◽

I.А. Shaydullina ◽

А.Ya. Davletshina ◽

T.Yu. Motina ◽

...

Keyword(s):

Contaminated Soils

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Effect of Temperature on Copper Accumulation of Brassica juncea Coss. and Zea mays L. Grown in Copper-Contaminated Soils

Environment Control in Biology ◽

10.2525/ecb1963.41.183 ◽

2003 ◽

Vol 41 (2) ◽

pp. 183-187

Author(s):

Hiromichi INOUE ◽

Kazutoshi SAEKI ◽

Jiro CHIKUSHI

Keyword(s):

Zea Mays ◽

Brassica Juncea ◽

Contaminated Soils ◽

Zea Mays L ◽

Effect Of Temperature ◽

Copper Accumulation ◽

Copper Contaminated

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Electrochemical cleaning of soils with different concentrations of oil pollution using a single source of electrical voltage

SCIENCE & TECHNOLOGIES OIL AND OIL PRODUCTS PIPELINE TRANSPORTATION ◽

10.28999/2541-9595-2020-10-6-674-680 ◽

2020 ◽

Vol 10 (6) ◽

pp. 674-680

Author(s):

Nikolay S. Shulaev ◽

◽

Valeriya V. Pryanichnikova ◽

Ramil R. Kadyrov ◽

Inna V. Ovsyannikova ◽

...

Keyword(s):

Contaminated Soils ◽

Oil Pollution ◽

Cost Effective ◽

Electrical Energy ◽

Design Parameters ◽

Technological Infrastructure ◽

Chemical Reagents ◽

Electrode Space ◽

Soil Excavation ◽

Interelectrode Resistance

The most essential scientifific and practical task in the area of ecological safety of pipelines operation is the development and improvement of methods of purifification and restoration of oil-contaminated soils. One of the most effificient and cost effective methods is electrochemical purifification, that does not require the use of expensive chemical reagents and soil excavation. However, the consideration of non-uniform contamination of various soil sections is required. The article examines the features of the organization and technological infrastructure for electrochemical purifification of non-uniformly contaminated soils when using a single electrical energy source, a method for calculating the design parameters of the corresponding installation is proposed. Effificient purifification of non-uniformly contaminated soil when using a specifified voltage is possible through the use of different-sized electrodes. For each soil type, the amount of transmitted electric charge required for soil purifification is determined by the concentration of the contaminant. Allocation of cathodes and anodes as parallel batteries and their connection using individual buses is an effective and energy-effificient solution, since an almost-uniform electric fifield is created in an inter-electrode space, thus allowing the reduction of the interelectrode resistance of the medium.

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