Journal ArticleDOI
Toxicity of heavy metals to microorganisms and microbial processes in agricultural soils: a review.
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TLDR
In this article, a hypothesis is formulated to explain how microorganisms may become affected by gradually increasing soil metal concentrations and this is discussed in relation to defining safe or critical soil metal loadings for soil protection.Abstract:
An increasing body of evidence suggests that microorganisms are far more sensitive to heavy metal stress than soil animals or plants growing on the same soils. Not surprisingly, most studies of heavy metal toxicity to soil microorganisms have concentrated on effects where loss of microbial function can be observed and yet such studies may mask underlying effects on biodiversity within microbial populations and communities. The types of evidence which are available for determining critical metal concentrations or loadings for microbial processes and populations in agricultural soil are assessed, particularly in relation to the agricultural use of sewage sludge. Much of the confusion in deriving critical toxic concentrations of heavy metals in soils arises from comparison of experimental results based on short-term laboratory ecotoxicological studies with results from monitoring of long-term exposures of microbial populations to heavy metals in field experiments. The laboratory studies in effect measure responses to immediate, acute toxicity (disturbance) whereas the monitoring of field experiments measures responses to long-term chronic toxicity (stress) which accumulates gradually. Laboratory ecotoxicological studies are the most easily conducted and by far the most numerous, but are difficult to extrapolate meaningfully to toxic effects likely to occur in the field. Using evidence primarily derived from long-term field experiments, a hypothesis is formulated to explain how microorganisms may become affected by gradually increasing soil metal concentrations and this is discussed in relation to defining “safe” or “critical” soil metal loadings for soil protection.read more
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Copper Impacts on Corn, Soil Extractability, and the Soil Bacterial Community
TL;DR: In this article, the authors measured inorganic and organic carbon, bacterial biomass and structural community diversity in southern Idaho soils having long term land use histories that supported native sagebrush vegetation (NSB), irrigated moldboard plowed crops (IMP), irrigation conservation (chisel) tilled crops (ICT), and irrigated pasture systems (IP) organic carbon in soil decreased in the order IP>ICT>NSB>IMP.
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Mycorrhizal Limonium Sinuatum (l.) Mill. Enhances Accumulation of Lead and Cadmium
TL;DR: In this article, heavy metals accumulation in soils poses a potential threat to ecosystems, which, in turn, threat human health through food chains, therefore, remediating polluted sites is important to environment.
Journal ArticleDOI
Decomposition of carbon-14-labelled wheat straw in repeatedly fumigated and non-fumigated soils with different levels of heavy metal contamination
TL;DR: In this article, the authors analyzed the decomposition of 14C-labeled straw at five different levels of heavy metal contamination (100 − 20,000 µg total Zn g − 1 soil) in non-fumigated and repeatedly fumigated soils.
Journal ArticleDOI
Impact of plants on the microbial activity in soils with high and low levels of copper
TL;DR: Results show that plants increased the microbial activity in the low Cu soil, and with the Cu-tolerant Agrostis capillaris ‘Parys’, the microbialActivity increased faster than with the other plant species, and seemed to be related to the plant health.
Journal ArticleDOI
Modeling the plant–soil interaction in presence of heavy metal pollution and acidity variations
TL;DR: Modifications are introduced to two versions of the mathematical interaction model developed to model metal uptake by plants and the effects on their growth, which considers also effects on variations of acidity in soil.
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