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The occurrence, distribution, speciation, and biotransformation of arsenic in aquatic environment (marine- and freshwater) have been studied extensively by several research groups during last couple of decades. However, most of those studies have been conducted in marine waters, and the results are available in a number of reviews. Speciation, bioaccumulation, and biotransformation of arsenic in freshwaters have been studied in recent years. Although inorganic arsenic (iAs) species dominates in both marine- and freshwaters, it is biotransformed to methyl- and organoarsenic species by aquatic organisms. Phytoplankton is considered as a major food source for the organisms of higher trophic levels in the aquatic food chain, and this autotrophi...
Waterborne and dietborne exposure are both important sources for the accumulation of inorganic arsen...
The toxicological effects and the environmental behaviour of arsenic are tightly linked to the chemi...
Differences in the distribution, partitioning, and bioaccumulation characteristics of arsenicals bet...
The occurrence, distribution, speciation, and biotransformation of arsenic in aquatic environment (m...
2 Abstract 23 The occurrence, distribution, speciation, and biotransformation of arsenic in aquatic ...
Arsenic is a known environmental toxicant and it occurs in the environment from natural and anthropo...
Owing to the toxicity and adverse effects of arsenic on human health, its levels in aquatic environm...
Arsenic (As) is a major hazardous metalloid in many aquatic environments. This study quantified the ...
Dietary uptake could be the primary route of arsenic (As) bioaccumulation in marine fish, but the bi...
Arsenic exists in a variety of chemical forms, and microbial metabolism results in the occurrence of...
Contamination of water and sediment with arsenic (As) in a highly industrialized area of Pohang City...
In the environment, arsenic (As) exists in a number of chemical species, and arsenite (AsIII) and ar...
Article first published online: 9 DEC 2005Relatively few studies have characterized basal content an...
Arsenic (As) is a ubiquitous toxic metalloid that is causing widespread public concern. Recent measu...
Arsenic (As) is widely distributed in aquatic environments in various forms. In natural waters, the ...
Waterborne and dietborne exposure are both important sources for the accumulation of inorganic arsen...
The toxicological effects and the environmental behaviour of arsenic are tightly linked to the chemi...
Differences in the distribution, partitioning, and bioaccumulation characteristics of arsenicals bet...
The occurrence, distribution, speciation, and biotransformation of arsenic in aquatic environment (m...
2 Abstract 23 The occurrence, distribution, speciation, and biotransformation of arsenic in aquatic ...
Arsenic is a known environmental toxicant and it occurs in the environment from natural and anthropo...
Owing to the toxicity and adverse effects of arsenic on human health, its levels in aquatic environm...
Arsenic (As) is a major hazardous metalloid in many aquatic environments. This study quantified the ...
Dietary uptake could be the primary route of arsenic (As) bioaccumulation in marine fish, but the bi...
Arsenic exists in a variety of chemical forms, and microbial metabolism results in the occurrence of...
Contamination of water and sediment with arsenic (As) in a highly industrialized area of Pohang City...
In the environment, arsenic (As) exists in a number of chemical species, and arsenite (AsIII) and ar...
Article first published online: 9 DEC 2005Relatively few studies have characterized basal content an...
Arsenic (As) is a ubiquitous toxic metalloid that is causing widespread public concern. Recent measu...
Arsenic (As) is widely distributed in aquatic environments in various forms. In natural waters, the ...
Waterborne and dietborne exposure are both important sources for the accumulation of inorganic arsen...
The toxicological effects and the environmental behaviour of arsenic are tightly linked to the chemi...
Differences in the distribution, partitioning, and bioaccumulation characteristics of arsenicals bet...
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