Biological properties of extremely acidic cyanide-laced mining waste

Feketeová, Zuzana; Sládkovičová, Veronika Hulejová; Mangová, Barbara; Poganyová, Andrea; Šimkovic, Ivan; Krumpál, Miroslav

doi:10.1007/s10646-015-1580-z

Cited by 17 publications

(6 citation statements)

References 38 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Relatively low values of the basal respiration of microorganisms (up to 31 μg/g of substrate) in all our samples were definitely caused by the high contents of potentially toxic elements. Such contents of metals resulted in decreasing of carbon dioxide production by microorganisms ( Feketeová et al., 2016 ). Several authors ( Yuangen et al., 2006 , Zhang et al., 2015 ) suggest soil microbial indicators such as microbial biomass and basal respiration to be useful indicators of polluted environment.…”

Section: Resultsmentioning

confidence: 99%

Alkaline Technosol contaminated by former mining activity and its culturable autochthonous microbiota

et al. 2017

View full text Add to dashboard Cite

Technosols or technogenic substrates contaminated by potentially toxic elements as a result of iron mining causes not only contamination of the surrounding ecosystem but may also lead to changes of the extent, abundance, structure and activity of soil microbial community. Microbial biomass were significantly inhibited mainly by exceeding limits of potentially toxic metals as arsenic (in the range of 343–511 mg/kg), copper (in the range of 7980–9227 mg/kg), manganese (in the range of 2417–2670 mg/kg), alkaline and strong alkaline pH conditions and minimal contents of organic nutrients. All of the 14 bacterial isolates, belonged to 4 bacterial phyla, Actinobacteria, Firmicutes; β- and γ-Proteobacteria. Thirteen genera and 20 species of microscopic filamentous fungi were recovered. The most frequently found species belonged to genera Aspergillus (A. clavatus, A. niger, A. flavus, A. versicolor, Aspergillus sp.) with the dominating A. niger in all samples, and Penicillium (P. canescens, P. chrysogenum, P. spinulosum, Penicillium sp.). Fungal plant pathogens occurred in all surface samples. These included Bjerkandera adustata, Bionectria ochloleuca with anamorph state Clonostachys pseudochloleuca, Lewia infectoria, Phoma macrostoma and Rhizoctonia sp.

show abstract

Section: Resultsmentioning

confidence: 99%

Alkaline Technosol contaminated by former mining activity and its culturable autochthonous microbiota

et al. 2017

View full text Add to dashboard Cite

show abstract

“…These results were demonstrated by canonical correspondence analysis of the association between mite abundance and the environmental factors. Specialist studies have revealed that, in heavy metal polluted soils, the number of bacteria, Actinomycetes and fungi does not decrease, suggesting that such microorganisms may resist increased or even toxic concentrations of heavy metals, and thus constitute a food source for decomposer oribatids 27,70 . On the other hand, soil pH and humidity are correlated with vegetation cover, affecting local habitat conditions for C. bicultrata, G. obvia and L. neerlandica , as well as for Tectocepheus velatus and Diapterobates oblongus 71 .…”

Section: Discussionmentioning

confidence: 99%

“…According to the latest classification, the mites (Acari), can be divided into two superorders: Parasitiformes (with orders: Opilioacarida, Holothyrida, Ixodida and Mesostigmata) and Acariformes (with orders: Trombidiformes and Sarcoptiformes- suborder Oribatida) 21 . Mite species of the Mesostigmata (mainly predators) and Oribatida (decomposers) groups are sensitive to disturbance such as mining activities 22–27 .…”

Section: Introductionmentioning

confidence: 99%

Soil mite communities (Acari: Mesostigmata, Oribatida) as bioindicators for environmental conditions from polluted soils

Manu

Honciuc

Neagoe

et al. 2019

Sci Rep

View full text Add to dashboard Cite

An anthropic ecosystem from Romania was investigated from acarological, vegetation and chemical point of view. The community structures of two groups of mites were studied (Acari: Mesostigmata, Oribatida) from a tailing pond, using transect method, in correlation with concentrations of heavy metals (As, Cu, Pb, Ni, Mn and Zn), with abiotic factors (altitude, aspect, soil temperature, soil humidity, soil pH) and biotic factor (vegetation coverage). Taking into account the mite communities, in total, 30 mite species were identified, with 1009 individuals and 18 immatures (10 species with 59 individuals, 5 immatures of Mesostigmata and 20 species with 950 individuals, 13 immatures of Oribatida). The investigated habitats from the tailing pond were grouped in five transects, with different degree of pollution, based on total metal loads. Taking into account of the connection between mites communities, abiotic factors and heavy metals, each transect were characterized through specific relationship. Using multivariate statistical analysis, we revealed that the occurrence of some Oribatida species was strongly correlated with vegetation coverage, soil pH and soil humidity, though concentrations of Cu, As, Mn, Ni and Zn also had an influence. Pb and Zn concentrations were shown to influence the occurrence of Mesostigmata mites. The heterogeneity of mites species richness at 2 m2 scale was correlated with a metric related to the heterogeneity of heavy metals at the same scale.

show abstract

“…Мы полагаем, что обработка азотобактерией семян горчицы, как сидерального растения, может быть использована на практике для улучшения биогенности корнеобитаемой толщи санитарно-защитных насаждений. Вместе с тем, не исключена возможность формирования биогенной массы с участием почвоулучшителей, как традиционных, так и альтернативных [43,44,45]. Такие подходы позволят ускорить биологическую активность и трофические взаимоотношения в корнеобитаемом слое биоконсервантов.…”

Section: рис 2 морфометрические данные ростков овса и горчицы на отходах обогащения железных руд: адлина (в мм); б -воздушно-сухая масса unclassified

“…Несмотря на отсутствие растительного покрова на их поверхности, они не безжизненны. На отходах обогащения сульфидных руд Уральского региона развиваются железоокисляющие, серо-и пирит-окисляющие микроорганизмы, а также сульфатредуцирующие и ацидотолерантные гетеротрофные бактерии и мик-ромицеты [37], на отходах обогащения железной руды в районе Курской магнитной аномалиимикробные деструкторы органического вещества [26], на отходах цианирования в Западной Сибириазотобактерии [5], на кислых отходах цианирования в Словакиипочвенные бактерии и орибатиды-панцирные клещи [43]. На поверхности хвостов обогащения полиметаллических и железных руд Кузбасса и в биогенно неразвитых эмбриозёмах Кузбасса присутствуют несовершенные микромицетыплесневые грибы и азотобактерии, продуценты гумусоподобных веществ.…”

Section: Introductionunclassified

Problems and prospects of involving waste from polymetallic and iron ore processing in biological conservation

Artamonova¹,

Бортникова²,

Chernyy³

2021

ATN

View full text Add to dashboard Cite

Ore enrichment waste is a fine material that poses a serious environmental problem. However, the high residual content of rare and precious metals, as well as valuable metalloids, determines the preservation of technogenic formations as secondary mineral raw materials. This dictates the search for environmentally safe conservation of waste before its subsequent development. This report focuses on reducing the phytotoxicity of waste and the use of bioagumentation - the introduction of exogenous plant matter and azotobacteria into the root layer, which contributes to the optimization of the mineral nutrition of phytoconservants. The article examines the physical and chemical parameters of polymetallic ore dressing waste before and after chemical reclamation, provides information on changes in the composition of watersoluble forms of metal elements (Fe, Mn, Al, Cu, Zn, Cd, Co, Ni), a decrease in the anionic content of the sulfate ion, and the appearance of hydrocarbonates. It is experimentally established that after chemical reclamation of spent slags, their viability for seedlings of oats and white mustard increases. After reclamation, there is an increase in their morphometric indicators. Mustard reacts especially positively to the decrease in acidity and mobility of metals. The dry weight of its seedlings increases-by almost 30% compared to the control. When mustard seeds are inoculated with a suspension of a live culture of the bacterium Azotobacter chroococcum, its roots elongate and their weight increases. It is shown that the growth of mustard roots is also activated on iron ore processing waste that is subject to forest reclamation. But in such conditions, vital azotobacteria exhibit a glow, especially intense in small sand fractions. Chemolumi-nescent reactions ensure the survival of azotobacteria in the development of free radical reactions caused by the residual content of magnetic iron and lignin in the habitat. The revealed features of the growth of oat and mustard seedlings, as well as azotobacteria on ore dressing waste, should be taken into account when developing technologies to increase the biogenicity of the waste surface in vivo, to argue for the use of bioagumentation in creating technologies for environmentally safe waste conservation without involving the fertile soil layer - an irreplaceable natural resource.

show abstract

Biological properties of extremely acidic cyanide-laced mining waste

Cited by 17 publications

References 38 publications

Alkaline Technosol contaminated by former mining activity and its culturable autochthonous microbiota

Alkaline Technosol contaminated by former mining activity and its culturable autochthonous microbiota

Soil mite communities (Acari: Mesostigmata, Oribatida) as bioindicators for environmental conditions from polluted soils

Problems and prospects of involving waste from polymetallic and iron ore processing in biological conservation

Contact Info

Product

Resources

About