Heavy Metals in the Soil-Water-Plant System

AbstractEmissions of toxic substances such as oxides of carbon, nitrogen, sulphur, and, in addition, aromatic hydrocarbons, aldehydes and heavy metals are the most serious problem of road traffic affecting landscape. Platinum group elements (PGE), which are the main component of the catalyst, are one of the main sources of heavy metals in the environment. Here, we review the way by which emissions and forms of the emitted PGE end up in the environment especially to the soil-water-plant-animal system. The major points discussed are the following: 1) the main sources of PGE emission are automobile exhaust catalysts; 2) hospitals, where platinum is widely used to treat malignant neoplasm, and urban waste water belonging to other important sources of PGE in the environment; 3) soil is one of the most important components of the environment that may be contaminated with platinum metals; 4) phytotoxicity of PGE depends on the following conditions: the concentration of metals in the soil, time of exposure, the chemical form of metal, the chemical composition of exposed soil and plant species; 5) animals are also endangered by the increasing concentration of PGE in the environment. Moreover, we pay our attention to thiol-based mechanisms of how an organism protects itself against platinum group elements.

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Distribution and pollution evaluation of fluoride in a soil–water–plant system in Shihezi, Xinjiang, China

Human and Ecological Risk Assessment An International Journal ◽

10.1080/10807039.2017.1385386 ◽

2017 ◽

Vol 24 (2) ◽

pp. 445-455 ◽

Cited By ~ 1

Author(s):

Li Yu ◽

Jianjian Zhang ◽

Chunfeng Du ◽

Hongbing Yang ◽

Bang-Ce Ye

Keyword(s):

Soil Water ◽

Plant System ◽

Water Plant ◽

Pollution Evaluation

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Pollution and Probabilistic Human Health Risk Assessment of Potentially Toxic Elements in the Soil-water-plant System in the Bolkar Mining District, Niğde, South-central Turkey

10.21203/rs.3.rs-456493/v1 ◽

2021 ◽

Author(s):

Abdurrahman Lermi ◽

Emmanuel Daanoba Sunkari

Keyword(s):

Human Health ◽

Soil Water ◽

Human Health Risk ◽

Potentially Toxic Elements ◽

Contaminated Water ◽

Mining District ◽

Plant System ◽

South Central ◽

Water Plant ◽

Central Turkey

Abstract Globally, potentially toxic elements (PTEs) are regarded as an important group of pollutants for the wider environment because of their intrinsic toxicity and probable accumulation in the soil-water-plant system. In this regard, this study assessed the pollution levels and probable human health risks of PTEs in the soil-water-plant system in the Bolkar mining district of the Niğde Province in south-central Turkey. Pollution assessment using contamination factor, enrichment factor, index of geoaccumulation, and soil pollution index reveals moderate to extremely high pollution of PTEs in the soil, exposing the soils to extreme toxicity levels. The areas that fall under the toxic to extremely toxic categories are in proximity to the ore slags and agricultural lands towards the central and southern domains of the study area. The water hazard index (WHI) values indicate that 100% of the samples collected in both winter and fall seasons are of extreme toxicity (WHI > 15). Arsenic is the dominant contaminant among the PTEs in the soil and water samples. The bioconcentration factor values of the PTEs in most of the fruit plants are > 1, indicating very high levels of element transfer from the soil and water to the plants. The probabilistic human health risk assessment involved exposure to arsenic in groundwater (a major pathway to humans) since it is the only carcinogenic element in this study. The estimated daily intake of arsenic-contaminated water exceeds the safe limit of 5 × 10− 8 mg/kg/day. About 33.3% and 55.6% of the groundwater samples have higher hazard quotient and carcinogenic risk values of arsenic in the winter and fall seasons, respectively. This implies that the people are more exposed to the carcinogenic effects of drinking arsenic-contaminated water.

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Soil-Water-Plant Relations

Sprinkle and Trickle Irrigation ◽

10.1007/978-1-4757-1425-8_3 ◽

1990 ◽

pp. 28-41 ◽

Cited By ~ 2

Author(s):

Jack Keller ◽

Ron D. Bliesner

Keyword(s):

Soil Water ◽

Water Plant

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Numerical modelling of soil water plant interaction

Unsaturated Soils for Asia ◽

10.1201/9781003078616-32 ◽

2020 ◽

pp. 207-210

Author(s):

M.K. Trivedi ◽

K.S. Hariprasad ◽

A. Gairola ◽

D. Kashyap

Keyword(s):

Numerical Modelling ◽

Soil Water ◽

Plant Interaction ◽

Water Plant

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Environmental remediation of soils polluted mainly cadmium, zinc, and copper

Fundamental and Applied Soil Science ◽

10.15421/041404 ◽

2014 ◽

Vol 15 (1-2) ◽

pp. 42-52

Author(s):

V. L. Samokhvalova ◽

Y. A. Pogromskaya ◽

A. I. Fateev ◽

S. G. Zuza ◽

V. A. Zuza

Keyword(s):

Heavy Metals ◽

Contaminated Soils ◽

Natural Soil ◽

Technical Solution ◽

Chemical Fixation ◽

Plant System ◽

Metals Pollution ◽

Environmental Rehabilitation ◽

Heavy Metals Pollution ◽

Physical And Chemical

The method of remediation of soil technogenic polyelemental contaminated mainly Cd, Zn and Cu, where due to the use as a sorbent - ameliorants compounds of iron (II) and phosphate fertilizers in a certain ratio in accordance with the level of contamination of soils, increase in the efficiency of their environmental rehabilitation and recovery 's natural buffer properties, through influence on the processes of different hazard classes heavy metals migration and trophic regime in the soil, and of the plants productivity with higher rates of ecological safety. The technical result of the elaboration method is to accelerate the processes of heavy metals physical and chemical fixation by making joint structuring improver of inorganic type together with mineral substrates that are effectively reduce toxicity of pollutants, optimization and restoration of the environmental state of the soil-plant system, its resistance to pollution by heavy metals. The elaboration of the method involved the improvement of the known method, accelerated of the of physical-chemical fixation processes of heavy metals different hazard classes by application of soil improver of inorganic type compatible with the type of inorganic mineral substrates, which enables for effective impact on expanding the range of heavy metals different hazard classes unable to migration into adjacent soil environment and on their mobility, to provide optimization and restoration of the soil-plant system ecological state, its resistance to heavy metals pollution. Distinctive features and benefits of the proposed technical solution, compared with known techniques and approaches are the following: ensuring the effective reduction of the heavy metals toxicity of danger various classes with optimal conditions of physical and chemical adsorption mainly Cd, Zn and Cu by simultaneous restoration of natural soil properties (elemental composition, physical and chemical properties for the improvement of organic matter and soil trophic mode) and an allowance of the soil nutrients; resource costs reduce complexity and implementation procedures for environmental rehabilitation of contaminated soils at different levels of heavy metals pollution in areas of impact sustainable sources influence of technogenic emissions due to the accuracy of the determining the ratio of soil improvers inorganic type doses and fertilizers, effective impact of the proposed composition of the first year of application and prolongation of validity up to 5 years.

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