Trophic Dynamics of Mercury in the Baltic Archipelago Sea Food Web: The Impact of Ecological and Ecophysiological Traits

We investigated trophic dynamics of Hg in the polluted Baltic Archipelago Sea using established trophic magnification (TMFs) and biomagnification factors (BMFs) on a comprehensive set of bird, fish, and invertebrate species. As different ecological and ecophysiological species traits may affect trop...

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Veröffentlicht in:	Environmental science & technology 2022-08, Vol.56 (16), p.11440-11448
Hauptverfasser:	Vainio, Riikka K., Jormalainen, Veijo, Dietz, Rune, Laaksonen, Toni, Schulz, Ralf, Sonne, Christian, Søndergaard, Jens, Zubrod, Jochen P., Eulaers, Igor
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Schlagworte:	Archipelagoes Bioaccumulation Biological magnification Birds Contaminants Contaminants in Aquatic and Terrestrial Environments Dynamics Ecological effects Food chains Food webs Mercury Mercury (metal) Prey Seafood Species
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container_title	Environmental science & technology
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creator	Vainio, Riikka K. Jormalainen, Veijo Dietz, Rune Laaksonen, Toni Schulz, Ralf Sonne, Christian Søndergaard, Jens Zubrod, Jochen P. Eulaers, Igor
description	We investigated trophic dynamics of Hg in the polluted Baltic Archipelago Sea using established trophic magnification (TMFs) and biomagnification factors (BMFs) on a comprehensive set of bird, fish, and invertebrate species. As different ecological and ecophysiological species traits may affect trophic dynamics, we explored the effect of food chain (benthic, pelagic, benthopelagic) and thermoregulatory strategy on trophic total Hg (THg) dynamics, using different approaches to accommodate benthopelagic species and normalize for trophic position (TP). We observed TMFs and most BMFs greater than 1, indicating overall THg biomagnification. We found significantly higher pelagic TMFs (3.58–4.02) compared to benthic ones (2.11–2.34) when the homeotherm bird species were excluded from models, but not when included. This difference between the benthic and pelagic TMFs remained regardless of how the TP of benthopelagic species was modeled, or whether TMFs were normalized for TP or not. TP-corrected BMFs showed a larger range (0.44–508) compared to BMFs representing predator–prey concentration ratios (0.05–82.2). Overall, the present study shows the importance of including and evaluating the effect of ecological and ecophysiological traits when investigating trophic contaminant dynamics.
doi_str_mv	10.1021/acs.est.2c03846
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Sci. Technol</addtitle><description>We investigated trophic dynamics of Hg in the polluted Baltic Archipelago Sea using established trophic magnification (TMFs) and biomagnification factors (BMFs) on a comprehensive set of bird, fish, and invertebrate species. As different ecological and ecophysiological species traits may affect trophic dynamics, we explored the effect of food chain (benthic, pelagic, benthopelagic) and thermoregulatory strategy on trophic total Hg (THg) dynamics, using different approaches to accommodate benthopelagic species and normalize for trophic position (TP). We observed TMFs and most BMFs greater than 1, indicating overall THg biomagnification. We found significantly higher pelagic TMFs (3.58–4.02) compared to benthic ones (2.11–2.34) when the homeotherm bird species were excluded from models, but not when included. This difference between the benthic and pelagic TMFs remained regardless of how the TP of benthopelagic species was modeled, or whether TMFs were normalized for TP or not. TP-corrected BMFs showed a larger range (0.44–508) compared to BMFs representing predator–prey concentration ratios (0.05–82.2). 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Sci. Technol</addtitle><date>2022-08-16</date><risdate>2022</risdate><volume>56</volume><issue>16</issue><spage>11440</spage><epage>11448</epage><pages>11440-11448</pages><issn>0013-936X</issn><eissn>1520-5851</eissn><abstract>We investigated trophic dynamics of Hg in the polluted Baltic Archipelago Sea using established trophic magnification (TMFs) and biomagnification factors (BMFs) on a comprehensive set of bird, fish, and invertebrate species. As different ecological and ecophysiological species traits may affect trophic dynamics, we explored the effect of food chain (benthic, pelagic, benthopelagic) and thermoregulatory strategy on trophic total Hg (THg) dynamics, using different approaches to accommodate benthopelagic species and normalize for trophic position (TP). We observed TMFs and most BMFs greater than 1, indicating overall THg biomagnification. We found significantly higher pelagic TMFs (3.58–4.02) compared to benthic ones (2.11–2.34) when the homeotherm bird species were excluded from models, but not when included. This difference between the benthic and pelagic TMFs remained regardless of how the TP of benthopelagic species was modeled, or whether TMFs were normalized for TP or not. TP-corrected BMFs showed a larger range (0.44–508) compared to BMFs representing predator–prey concentration ratios (0.05–82.2). Overall, the present study shows the importance of including and evaluating the effect of ecological and ecophysiological traits when investigating trophic contaminant dynamics.</abstract><cop>Easton</cop><pub>American Chemical Society</pub><pmid>35921287</pmid><doi>10.1021/acs.est.2c03846</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0003-2649-6799</orcidid><orcidid>https://orcid.org/0000-0002-6348-6971</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Archipelagoes Bioaccumulation Biological magnification Birds Contaminants Contaminants in Aquatic and Terrestrial Environments Dynamics Ecological effects Food chains Food webs Mercury Mercury (metal) Prey Seafood Species
title	Trophic Dynamics of Mercury in the Baltic Archipelago Sea Food Web: The Impact of Ecological and Ecophysiological Traits
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