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The formation and fate of organoarsenic species in marine ecosystems: Do existing experimental approaches appropriately simulate ecosystem complexity?
Bill MAHER,
Simon FOSTER
Science
Research output
:
Contribution to journal
›
Review article
›
peer-review
13
Citations (Scopus)
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Dive into the research topics of 'The formation and fate of organoarsenic species in marine ecosystems: Do existing experimental approaches appropriately simulate ecosystem complexity?'. Together they form a unique fingerprint.
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Keyphrases
Arsenoribosides
100%
Marine Ecosystems
100%
Organoarsenicals
100%
Ecosystem Complexity
100%
Arsenobetaine
55%
Microbial Community
33%
Marine Microalgae
22%
Seawater
22%
Marine Environment
22%
Dimethylarsenate
22%
Microcosm Study
22%
Animal Tissues
11%
Microcosm
11%
Arsenic
11%
Arsenic Species
11%
Inorganic Arsenic
11%
Macroalgae
11%
Arsenate
11%
Trimethylarsine
11%
Thio
11%
Sand
11%
Marine Organisms
11%
Environmental Communities
11%
Complex Microbial Communities
11%
Laboratory-based
11%
Marine Systems
11%
Environmental Context
11%
Algal Species
11%
Community Variation
11%
Experimental Microcosms
11%
Dual Pathway
11%
Liquid Culture
11%
Degradation Pathway
11%
Environmental Relevance
11%
Added Benefit
11%
Incubation Study
11%
Pharmacology, Toxicology and Pharmaceutical Science
Arsenobetaine
100%
Macroalga
60%
Arsenic Acid
20%
Arsenate
20%
Trimethylarsine Oxide
20%
Marine Species
20%