Activity and functional diversity of microbial communities in long-term hydrocarbon and heavy metal contaminated soils

Journal title

Archives of Environmental Protection




vol. 42


No 4



polycyclic aromatic hydrocarbons ; heavy metals ; microbial activity ; functional diversity ; Community Level Physiological Profiles

Divisions of PAS

Nauki Techniczne


Polish Academy of Sciences




Artykuły / Articles


DOI: 10.1515/aep-2016-0041 ; ISSN 2083-4772 ; eISSN 2083-4810


Archives of Environmental Protection; 2016; vol. 42; No 4


Baran (2004), Enzymatic activity in an airfield soil polluted with polycyclic aromatic hydrocarbons, Geoderma, 221, ; Wu (2014), Ecological and enzymatic responses to petroleum contamination : Processes & Impacts, Environmental Science, 1501. ; Nam (2008), PAHs in background soils from Western Europe : influence of atmospheric deposition and soil organic matter, Chemosphere, 1596, ; Zhang (2010), Bacterial communities in PAH contaminated soils at an electronic - waste processing center in China, Ecotoxicology, 96, ; Antoniadis (2008), Effects of short - term pH fl uctuations on cadmium nickel lead and zinc availability to ryegrass in a sewage sludge - amended field, Chemosphere, 759, ; Klimek (2007), Zinc and copper toxicity to soil bacteria and fungi from zinc polluted and unpolluted soils : A comparative study with different types of Biolog plates of Environmental Contamination and, Bulletin Toxicology, 112, ; Achuba (2014), Effect of petroleum products on soil catalase and dehydrogenase activities of Soil, Open Journal Science, 399. ; Veses (2013), Potential risk assessment of trace elements and PAHs in sediment samples of the Ebro river basin of Environmental Contamination and, Bulletin Toxicology, 136, ; Lu (2013), Effect of pyrene and cadmium on microbial activity and community structure in soil, Chemosphere, 491, ; Rachwał (2015), Coke industry and steel metallurgy as the source of soil contamination by technogenic magnetic particles heavy metals and polycyclic aromatic hydrocarbons http dx doi org, Chemosphere, ; Bamforth (2005), Bioremediation of polycyclic aromatic hydrocarbons : current knowledge and future directions of Chemical Technology and Biotechnology, Journal, 723. ; Wang (2010), Enrichment of polycyclic aromatic hydrocarbons ( PAHs ) in mariculture sediments of Hong Kong, Environmental Pollution, 158. ; Johnsen (2007), Diffuse PAH contamination of surface soils : environmental occurrence bioavailability and microbial degradation and, Applied Microbiology Biotechnology, 533, ; Thavamani (2012), Microbial activity and diversity in long - term mixed contaminated soils with respect to polyaromatic hydrocarbons and heavy metals of Environmental, Journal Management, 10. ; Maliszewska (2009), Effects of anthropopressure and soil properties on the accumulation of polycyclic aromatic hydrocarbons in the upper layer of soils in selected regions of Poland, Applied Geochemistry, 1918, ; Lladó (2009), Microbial populations related to PAH biodegradation in an aged biostimulated creosote - contaminated soil, Biodegradation, 593, ; Gianfreda (2005), Soil enzyme activities as affected by anthropogenic alterations : intensive agricultural practices and organic pollution of the Total Environment, Science, 341. ; Azarbad (2013), Microbial community structure and functioning along metal pollution gradients and, Environmental Toxicology Chemistry, 32, 1992, ; Tang (2014), Infl uence of heavy metals and PCBs pollution on the enzyme activity and microbial community of paddy soils around an e - waste recycling workshop of Environmental Research and Public, International Journal Health, 3118. ; Irha (2003), Effect of heavy metals and PAH on soil assessed via dehydrogenase assay, Environment International, 779, ; Cai (2007), Occurrence and assessment of polycyclic aromatic hydrocarbons in soils from vegetable fields of the Pearl River Delta South China, Chemosphere, 159, ; Cébron (2013), Experimental increase in availability of a PAH complex organic contamination from an aged contaminated soil : Consequences on biodegradation, Environmental Pollution, 177. ; Palmroth (2005), Metabolic responses of microbiota to diesel fuel addition in vegetated soil, Biodegradation, 91, ; Tomkiel (2015), The effect of carfentrazone - ethyl on soil microorganisms and soil enzymes activity of Environmental Protection, Archives, 3. ; Wang (2014), Effects of low molecular - weight organic acids and dehydrogenase activity in rhizosphere sediments of mangrove plants on phytoremediation of polycyclic aromatic hydrocarbons, Chemosphere, 152, ; Vig (2003), Bioavailability and toxicity of cadmium to microorganisms and their activities in soil : a review in Environmental, Advances Research, 8, 121. ; Muckian (2007), Bacterial community structure in soils contaminated by polycyclic aromatic hydrocarbons, Chemosphere, 1535, ; Tang (2012), Aging effect of petroleum hydrocarbons in soil under different attenuation conditions Agriculture &, Ecosystems Environment, 109, ; Lu (2011), Bacteria - mediated PAH degradation in soil and sediment and, Applied Microbiology Biotechnology, 1357,

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