2020
DOI: 10.3390/plants9040528
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Selenium Interactions with Algae: Chemical Processes at Biological Uptake Sites, Bioaccumulation, and Intracellular Metabolism

Abstract: Selenium (Se) uptake by primary producers is the most variable and important step in determining Se concentrations at higher trophic levels in aquatic food webs. We gathered data available about the Se bioaccumulation at the base of aquatic food webs and analyzed its relationship with Se concentrations in water. This important dataset was separated into lotic and lentic systems to provide a reliable model to estimate Se in primary producers from aqueous exposure. We observed that lentic systems had higher orga… Show more

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Cited by 37 publications
(27 citation statements)
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“…Irrespective of time, green algae Se concentrations demonstrated an inverse relationship with corresponding dissolved Se levels (Figure S4d). This observation contrasts with the positive relationship between dissolved and particulate (broadly defined) Se concentrations reported in a recent synthesis of Se-impacted ecosystems; regardless, dissolved Se concentrations explained a similar low proportion of algal Se variability in this study as they did for the grouped particulates in the synthesis (38 vs 39%, respectively) . Taken together, these lines of evidence reinforce the consensus that dissolved Se concentrations are not consistently reflected by basal food web uptake patterns (i.e., exposure levels for subsequent trophic levels) and are therefore an insufficient basis for predicting Se concentrations in the Lower Gunnison River food web.…”
Section: Results and Discussioncontrasting
confidence: 77%
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“…Irrespective of time, green algae Se concentrations demonstrated an inverse relationship with corresponding dissolved Se levels (Figure S4d). This observation contrasts with the positive relationship between dissolved and particulate (broadly defined) Se concentrations reported in a recent synthesis of Se-impacted ecosystems; regardless, dissolved Se concentrations explained a similar low proportion of algal Se variability in this study as they did for the grouped particulates in the synthesis (38 vs 39%, respectively) . Taken together, these lines of evidence reinforce the consensus that dissolved Se concentrations are not consistently reflected by basal food web uptake patterns (i.e., exposure levels for subsequent trophic levels) and are therefore an insufficient basis for predicting Se concentrations in the Lower Gunnison River food web.…”
Section: Results and Discussioncontrasting
confidence: 77%
“…The first aim of this study was to assess temporal influences on Se partitioning to the LGRB food web and delivery to higher trophic levels. It is well established that Se is primarily bioaccumulated through the diet and that dietary exposure poses the dominant toxicological hazard. , Uptake into the food web following the release of Se to surface waters as inorganic selenate or selenite involves both Se partitioning to the particulate fraction and Se biotransformation by primary producers and herbivores to organoselenides which facilitate bioaccumulation and trophic transfer through food webs. ,, Selenium enrichment at the base of the food web involves the most substantial increase in Se concentrations among compartments with subsequent trophic transfers from primary producers and consumers being of a much lower magnitude (i.e., Se does not usually biomagnify along food chains) . Selenium partitioning is therefore considered an important indicator of potential exposure risk for higher trophic level animals. , Increases between dissolved and particulate compartmentsdefined broadly as including living and nonliving particulate fractionsare operationally defined with the partitioning coefficient ( k d ) and calculated as where C P is the Se concentration measured in the particulate fraction (μg g –1 dw) and C D is the dissolved concentration of Se in surface water (mg L –1 ).…”
Section: Results and Discussionmentioning
confidence: 99%
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“…Selenium was also found to interact with other toxic metal/metalloid and accelerate the toxic effects [32]. Many plants efficiently take up Se and could be implemented to remove Se from the contaminated areas by several phytoremediation approaches such as phytoextraction, phytovolatilization, and rhizofiltration [33,34]. For instance, owing to the high level of accumulation, Brassica napus and B. juncea have been used for the Se phytoextraction [35].…”
Section: Introductionmentioning
confidence: 99%