Mercury Trophic Transfer in a Eutrophic Lake: The Importance of Habitat-Specific Foraging

Mercury (Hg) trophic transfer and bioaccumulation in fish from a mineimpacted, eutrophic lake were examined in relation to foraging habitat, trophic position, and size. Diet analysis indicated that there were clear ontogenetic shifts in foraging habitats and trophic position. Pelagic diet decreased...

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Veröffentlicht in:	Ecological applications 2008-12, Vol.18 (8), p.A196-A212
Hauptverfasser:	Eagles-Smith, Collin A., Suchanek, Thomas H., Colwell, Arthur E., Anderson, Norman L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Bioaccumulation California Clear Lake Diet diet analysis Eutrophication Feeding Behavior - physiology Fish Fishes - physiology Food Chain Food webs Foraging foraging habitat Fresh Water - chemistry Freshwater Freshwater bass Freshwater fishes Lakes Lepomis macrochirus mercury Mercury - chemistry Mercury - metabolism Micropterus salmoides Mining Sculpin stable isotopes Sulphur Bank Mercury Mine trophic transfer USA Water Pollutants, Chemical - chemistry Water Pollutants, Chemical - metabolism Wildlife habitats
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creator	Eagles-Smith, Collin A. Suchanek, Thomas H. Colwell, Arthur E. Anderson, Norman L.
description	Mercury (Hg) trophic transfer and bioaccumulation in fish from a mineimpacted, eutrophic lake were examined in relation to foraging habitat, trophic position, and size. Diet analysis indicated that there were clear ontogenetic shifts in foraging habitats and trophic position. Pelagic diet decreased and benthic diet increased with increasing fish length in bluegill, black crappie, inland silverside, and largemouth bass, whereas there was no shift for prickly sculpin or threadfin shad. Stable carbon isotope values (δ13C) were inversely related to the proportion of pelagic prey items in the diet, but there was no clear relationship with benthic foraging. There were distinct differences between pelagic and benthic prey basal δ13C values, with a range of approximately -28‰ in pelagic zooplankton to approximately -20‰. in benthic caddisflies. Profundal prey such as chironomid larvae had intermediate δ13C values of approximately -24‰, reflecting the influence of pelagic detrital subsidies and suppressing the propagation of the benthic carbon isotope signal up the food chain. Fish total mercury (TotHg) concentrations varied with habitat-specific foraging, trophic position, and size; however, the relationships differed among species and ages. When controlling for the effects of species, length, and trophic position, TotHg and δ13C were positively correlated, indicating that Hg trophic transfer is linked to benthic foraging. When examined on a species-specific basis, TotHg was positively correlated with δ13C only for bluegill, largemouth bass, and threadfin shad. However, diet-based multiple regression analyses suggested that TotHg also increased with benthic foraging for inland silverside and black crappie. In both species, benthic prey items were dominated by chironomid larvae, explaining the discrepancy with δ13C. These results illustrate the importance of foraging habitat to Hg bioaccumulation and indicate that pelagic carbon can strongly subsidize the basal energy sources of benthic organisms.
doi_str_mv	10.1890/06-1476.1
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Diet analysis indicated that there were clear ontogenetic shifts in foraging habitats and trophic position. Pelagic diet decreased and benthic diet increased with increasing fish length in bluegill, black crappie, inland silverside, and largemouth bass, whereas there was no shift for prickly sculpin or threadfin shad. Stable carbon isotope values (δ13C) were inversely related to the proportion of pelagic prey items in the diet, but there was no clear relationship with benthic foraging. There were distinct differences between pelagic and benthic prey basal δ13C values, with a range of approximately -28‰ in pelagic zooplankton to approximately -20‰. in benthic caddisflies. Profundal prey such as chironomid larvae had intermediate δ13C values of approximately -24‰, reflecting the influence of pelagic detrital subsidies and suppressing the propagation of the benthic carbon isotope signal up the food chain. Fish total mercury (TotHg) concentrations varied with habitat-specific foraging, trophic position, and size; however, the relationships differed among species and ages. When controlling for the effects of species, length, and trophic position, TotHg and δ13C were positively correlated, indicating that Hg trophic transfer is linked to benthic foraging. When examined on a species-specific basis, TotHg was positively correlated with δ13C only for bluegill, largemouth bass, and threadfin shad. However, diet-based multiple regression analyses suggested that TotHg also increased with benthic foraging for inland silverside and black crappie. In both species, benthic prey items were dominated by chironomid larvae, explaining the discrepancy with δ13C. 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Diet analysis indicated that there were clear ontogenetic shifts in foraging habitats and trophic position. Pelagic diet decreased and benthic diet increased with increasing fish length in bluegill, black crappie, inland silverside, and largemouth bass, whereas there was no shift for prickly sculpin or threadfin shad. Stable carbon isotope values (δ13C) were inversely related to the proportion of pelagic prey items in the diet, but there was no clear relationship with benthic foraging. There were distinct differences between pelagic and benthic prey basal δ13C values, with a range of approximately -28‰ in pelagic zooplankton to approximately -20‰. in benthic caddisflies. Profundal prey such as chironomid larvae had intermediate δ13C values of approximately -24‰, reflecting the influence of pelagic detrital subsidies and suppressing the propagation of the benthic carbon isotope signal up the food chain. Fish total mercury (TotHg) concentrations varied with habitat-specific foraging, trophic position, and size; however, the relationships differed among species and ages. When controlling for the effects of species, length, and trophic position, TotHg and δ13C were positively correlated, indicating that Hg trophic transfer is linked to benthic foraging. When examined on a species-specific basis, TotHg was positively correlated with δ13C only for bluegill, largemouth bass, and threadfin shad. However, diet-based multiple regression analyses suggested that TotHg also increased with benthic foraging for inland silverside and black crappie. In both species, benthic prey items were dominated by chironomid larvae, explaining the discrepancy with δ13C. These results illustrate the importance of foraging habitat to Hg bioaccumulation and indicate that pelagic carbon can strongly subsidize the basal energy sources of benthic organisms.</description><subject>Animals</subject><subject>Bioaccumulation</subject><subject>California</subject><subject>Clear Lake</subject><subject>Diet</subject><subject>diet analysis</subject><subject>Eutrophication</subject><subject>Feeding Behavior - physiology</subject><subject>Fish</subject><subject>Fishes - physiology</subject><subject>Food Chain</subject><subject>Food webs</subject><subject>Foraging</subject><subject>foraging habitat</subject><subject>Fresh Water - chemistry</subject><subject>Freshwater</subject><subject>Freshwater bass</subject><subject>Freshwater fishes</subject><subject>Lakes</subject><subject>Lepomis macrochirus</subject><subject>mercury</subject><subject>Mercury - chemistry</subject><subject>Mercury - metabolism</subject><subject>Micropterus salmoides</subject><subject>Mining</subject><subject>Sculpin</subject><subject>stable isotopes</subject><subject>Sulphur Bank Mercury Mine</subject><subject>trophic transfer</subject><subject>USA</subject><subject>Water Pollutants, Chemical - chemistry</subject><subject>Water Pollutants, Chemical - metabolism</subject><subject>Wildlife habitats</subject><issn>1051-0761</issn><issn>1939-5582</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kE9LAzEQxYMoWqsHP4CyJ8HDaiabPxtvRVotVCy0HjyFNJu0q-3umuwi_fZGWvTkHGaG4fcezEPoAvAt5BLfYZ4CFfwWDlAPZCZTxnJyGHfMIMWCwwk6DeEdxyKEHKMTkFQwSVgPvT1bbzq_Tea-blaliVNXwVmflFWik2HX7u8T_WHvk_nKJuNNU_tWV8YmtUue9KJsdZvOGmtKF8FR7fWyrJZn6MjpdbDn-9lHr6Ph_OEpnbw8jh8Gk9RQkDzNOAOhY9MLDobnNJfUFMCocEIQx0jGC5xJSQpXWCo5UCMLzTGlHHKncdZH1zvfxtefnQ2t2pTB2PVaV7bugiI4YzEIGsGbHWh8HYK3TjW-3Gi_VYDVT44Kc_WTo4LIXu1Nu8XGFn_kPrgIiB3wVa7t9n8nNRxMCcY55LNpPogPR-XlTvke2tr_KonglMmMZ98kyIS-</recordid><startdate>200812</startdate><enddate>200812</enddate><creator>Eagles-Smith, Collin A.</creator><creator>Suchanek, Thomas H.</creator><creator>Colwell, Arthur E.</creator><creator>Anderson, Norman L.</creator><general>Ecological Society of America</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QG</scope><scope>7SN</scope><scope>7SS</scope><scope>7TV</scope><scope>7U7</scope><scope>7UA</scope><scope>C1K</scope><scope>F1W</scope><scope>H95</scope><scope>H97</scope><scope>L.G</scope></search><sort><creationdate>200812</creationdate><title>Mercury Trophic Transfer in a Eutrophic Lake: The Importance of Habitat-Specific Foraging</title><author>Eagles-Smith, Collin A. ; Suchanek, Thomas H. ; Colwell, Arthur E. ; Anderson, Norman L.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4196-36517a651ab61c684894cd1547f772f5236d03992dfde49614c9da6044618fa03</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2008</creationdate><topic>Animals</topic><topic>Bioaccumulation</topic><topic>California</topic><topic>Clear Lake</topic><topic>Diet</topic><topic>diet analysis</topic><topic>Eutrophication</topic><topic>Feeding Behavior - physiology</topic><topic>Fish</topic><topic>Fishes - physiology</topic><topic>Food Chain</topic><topic>Food webs</topic><topic>Foraging</topic><topic>foraging habitat</topic><topic>Fresh Water - chemistry</topic><topic>Freshwater</topic><topic>Freshwater bass</topic><topic>Freshwater fishes</topic><topic>Lakes</topic><topic>Lepomis macrochirus</topic><topic>mercury</topic><topic>Mercury - chemistry</topic><topic>Mercury - metabolism</topic><topic>Micropterus salmoides</topic><topic>Mining</topic><topic>Sculpin</topic><topic>stable isotopes</topic><topic>Sulphur Bank Mercury Mine</topic><topic>trophic transfer</topic><topic>USA</topic><topic>Water Pollutants, Chemical - chemistry</topic><topic>Water Pollutants, Chemical - metabolism</topic><topic>Wildlife habitats</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Eagles-Smith, Collin A.</creatorcontrib><creatorcontrib>Suchanek, Thomas H.</creatorcontrib><creatorcontrib>Colwell, Arthur E.</creatorcontrib><creatorcontrib>Anderson, Norman L.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Animal Behavior Abstracts</collection><collection>Ecology Abstracts</collection><collection>Entomology Abstracts (Full archive)</collection><collection>Pollution Abstracts</collection><collection>Toxicology Abstracts</collection><collection>Water Resources Abstracts</collection><collection>Environmental Sciences and Pollution Management</collection><collection>ASFA: Aquatic Sciences and Fisheries Abstracts</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 1: Biological Sciences & Living Resources</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 3: Aquatic Pollution & Environmental Quality</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Professional</collection><jtitle>Ecological applications</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Eagles-Smith, Collin A.</au><au>Suchanek, Thomas H.</au><au>Colwell, Arthur E.</au><au>Anderson, Norman L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Mercury Trophic Transfer in a Eutrophic Lake: The Importance of Habitat-Specific Foraging</atitle><jtitle>Ecological applications</jtitle><addtitle>Ecol Appl</addtitle><date>2008-12</date><risdate>2008</risdate><volume>18</volume><issue>8</issue><spage>A196</spage><epage>A212</epage><pages>A196-A212</pages><issn>1051-0761</issn><eissn>1939-5582</eissn><abstract>Mercury (Hg) trophic transfer and bioaccumulation in fish from a mineimpacted, eutrophic lake were examined in relation to foraging habitat, trophic position, and size. Diet analysis indicated that there were clear ontogenetic shifts in foraging habitats and trophic position. Pelagic diet decreased and benthic diet increased with increasing fish length in bluegill, black crappie, inland silverside, and largemouth bass, whereas there was no shift for prickly sculpin or threadfin shad. Stable carbon isotope values (δ13C) were inversely related to the proportion of pelagic prey items in the diet, but there was no clear relationship with benthic foraging. There were distinct differences between pelagic and benthic prey basal δ13C values, with a range of approximately -28‰ in pelagic zooplankton to approximately -20‰. in benthic caddisflies. Profundal prey such as chironomid larvae had intermediate δ13C values of approximately -24‰, reflecting the influence of pelagic detrital subsidies and suppressing the propagation of the benthic carbon isotope signal up the food chain. Fish total mercury (TotHg) concentrations varied with habitat-specific foraging, trophic position, and size; however, the relationships differed among species and ages. When controlling for the effects of species, length, and trophic position, TotHg and δ13C were positively correlated, indicating that Hg trophic transfer is linked to benthic foraging. When examined on a species-specific basis, TotHg was positively correlated with δ13C only for bluegill, largemouth bass, and threadfin shad. However, diet-based multiple regression analyses suggested that TotHg also increased with benthic foraging for inland silverside and black crappie. In both species, benthic prey items were dominated by chironomid larvae, explaining the discrepancy with δ13C. These results illustrate the importance of foraging habitat to Hg bioaccumulation and indicate that pelagic carbon can strongly subsidize the basal energy sources of benthic organisms.</abstract><cop>United States</cop><pub>Ecological Society of America</pub><pmid>19475925</pmid><doi>10.1890/06-1476.1</doi><tpages>17</tpages><oa>free_for_read</oa></addata></record>
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source	MEDLINE; Access via Wiley Online Library; JSTOR Archive Collection A-Z Listing
subjects	Animals Bioaccumulation California Clear Lake Diet diet analysis Eutrophication Feeding Behavior - physiology Fish Fishes - physiology Food Chain Food webs Foraging foraging habitat Fresh Water - chemistry Freshwater Freshwater bass Freshwater fishes Lakes Lepomis macrochirus mercury Mercury - chemistry Mercury - metabolism Micropterus salmoides Mining Sculpin stable isotopes Sulphur Bank Mercury Mine trophic transfer USA Water Pollutants, Chemical - chemistry Water Pollutants, Chemical - metabolism Wildlife habitats
title	Mercury Trophic Transfer in a Eutrophic Lake: The Importance of Habitat-Specific Foraging
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