Influence of seabird colonies and other environmental variables on benthic community structure, Lancaster Sound Region, Canadian Arctic

The Canadian Arctic shelters millions of seabirds each year during the breeding season. By the excretion of important quantities of guano, seabirds locally concentrate nutrient-rich organic matter in the marine areas surrounding colonies. Seabirds, acting as biological vectors of nutrients, can mark...

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Veröffentlicht in:	Journal of marine systems 2017-03, Vol.167, p.105-117
Hauptverfasser:	Bouchard Marmen, Mariève, Kenchington, Ellen, Ardyna, Mathieu, Archambault, Philippe
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Sprache:	eng
Schlagworte:	Annelida Benthos Biodiversity and Ecology Canadian Arctic Colonies Communities Community structure Density Environmental factors Environmental Sciences Lancaster Sound Marine Mathematical models Parameters Pigments Seabirds Sound
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creator	Bouchard Marmen, Mariève Kenchington, Ellen Ardyna, Mathieu Archambault, Philippe
description	The Canadian Arctic shelters millions of seabirds each year during the breeding season. By the excretion of important quantities of guano, seabirds locally concentrate nutrient-rich organic matter in the marine areas surrounding colonies. Seabirds, acting as biological vectors of nutrients, can markedly affect terrestrial ecosystems, but their influence on the structure of marine benthic communities is still under-studied. Sessile and long-lived megabenthic species can integrate environmental variation into marine food webs over long time frames. The objectives of this study were (1) to characterize the epifaunal and infaunal communities of the Lancaster Sound Region (LSR) and (2) to test the influence of the presence of seabird colonies and other environmental parameters on the structure of those benthic communities. Our prediction was that benthic diversity, number of taxa, total biomass of infauna and total density of epifauna and infauna, would be higher in areas with colonies present. Photos of the seafloor (data on epifauna) and grab samples (data on infauna) were taken at three control areas and at five areas near seabird colonies, within a depth range of 122 to 442m. A database of 26 environmental parameters was built to study the environment-benthos relationships. Infauna, which was relatively uniform across the LSR, was numerically dominated by Annelida. Epifauna was much patchier, with each study area having unique epibenthic assemblages. Brittle stars were highly abundant in epifaunal communities, reaching 600 individuals per square meter. The presence of seabird colonies was not a major driver of benthic community structure in the LSR at the depths studied. Negative effects of colonies were detected on the density and number of taxa of infauna, perhaps due to top-down effects transmitted by the seabirds which feed in the water column and can directly reduce the quantity of food reaching the seabed. Sediment concentration of pigment, percent cover of gravel and boulders, depth, temperature and duration of open water explained a substantial part of the observed variation across the LSR. Food availability, as expressed by sediment pigment concentration, is a factor driving benthic communities, even if potential pathways through seabirds did not broadly affect the benthos at the point source. •Arctic benthic communities in Lancaster Sound, Nunavut, Canada were characterized.•Photos and grab samples allowed us to distinguish epifaunal and infaunal
doi_str_mv	10.1016/j.jmarsys.2016.11.021
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Photos of the seafloor (data on epifauna) and grab samples (data on infauna) were taken at three control areas and at five areas near seabird colonies, within a depth range of 122 to 442m. A database of 26 environmental parameters was built to study the environment-benthos relationships. Infauna, which was relatively uniform across the LSR, was numerically dominated by Annelida. Epifauna was much patchier, with each study area having unique epibenthic assemblages. Brittle stars were highly abundant in epifaunal communities, reaching 600 individuals per square meter. The presence of seabird colonies was not a major driver of benthic community structure in the LSR at the depths studied. Negative effects of colonies were detected on the density and number of taxa of infauna, perhaps due to top-down effects transmitted by the seabirds which feed in the water column and can directly reduce the quantity of food reaching the seabed. Sediment concentration of pigment, percent cover of gravel and boulders, depth, temperature and duration of open water explained a substantial part of the observed variation across the LSR. Food availability, as expressed by sediment pigment concentration, is a factor driving benthic communities, even if potential pathways through seabirds did not broadly affect the benthos at the point source. •Arctic benthic communities in Lancaster Sound, Nunavut, Canada were characterized.•Photos and grab samples allowed us to distinguish epifaunal and infaunal responses.•Massive seabird nesting colonies had only a minor impact on benthic communities.•Food proxies, depth and sediment type were identified as significant drivers.</description><subject>Annelida</subject><subject>Benthos</subject><subject>Biodiversity and Ecology</subject><subject>Canadian Arctic</subject><subject>Colonies</subject><subject>Communities</subject><subject>Community structure</subject><subject>Density</subject><subject>Environmental factors</subject><subject>Environmental Sciences</subject><subject>Lancaster Sound</subject><subject>Marine</subject><subject>Mathematical models</subject><subject>Parameters</subject><subject>Pigments</subject><subject>Seabirds</subject><subject>Sound</subject><issn>0924-7963</issn><issn>1879-1573</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><recordid>eNqNkV-L1DAUxYsoOK5-BCGPCtuamyZN-yTDsLoLA4J_nkOa3DoZOsmapAPzCfzapsziqz5d7uWcw-X8quot0AYodB-OzfGkY7qkhpW1AWgog2fVBno51CBk-7za0IHxWg5d-7J6ldKRUtpBLzbV7wc_zQt6gyRMJKEeXbTEhDl4h4lob0nIB4wE_dnF4E_os57JWUenx7kogidjuR2cKa7TafEuX0jKcTF5iXhL9tobnXJJ-BaWkvYVf7rgb8lOe22d9mQbTXbmdfVi0nPCN0_zpvrx6e777r7ef_n8sNvua8NFl2srx5FxGNkwGKZbUeYAFjsEaUEIAYJLLpkZZN9zC1x33SSHnk2WC9Ny2t5U76-5Bz2rx-hKcRcVtFP3271abxQ4SNayMxTtu6v2MYZfC6asTi4ZnGftMSxJQd_TUjgV4j-kYuB939L1A3GVmhhSijj9fQOoWnmqo3riqVaeCkAVnsX38erDUs_ZYVTJuBWcdRFNVja4fyT8AR_NrC8</recordid><startdate>20170301</startdate><enddate>20170301</enddate><creator>Bouchard Marmen, Mariève</creator><creator>Kenchington, Ellen</creator><creator>Ardyna, Mathieu</creator><creator>Archambault, Philippe</creator><general>Elsevier B.V</general><general>Elsevier</general><scope>6I.</scope><scope>AAFTH</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TN</scope><scope>F1W</scope><scope>H95</scope><scope>L.G</scope><scope>8FD</scope><scope>FR3</scope><scope>KR7</scope><scope>1XC</scope><scope>VOOES</scope><orcidid>https://orcid.org/0000-0002-4703-6655</orcidid><orcidid>https://orcid.org/0000-0001-5986-6149</orcidid></search><sort><creationdate>20170301</creationdate><title>Influence of seabird colonies and other environmental variables on benthic community structure, Lancaster Sound Region, Canadian Arctic</title><author>Bouchard Marmen, Mariève ; 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By the excretion of important quantities of guano, seabirds locally concentrate nutrient-rich organic matter in the marine areas surrounding colonies. Seabirds, acting as biological vectors of nutrients, can markedly affect terrestrial ecosystems, but their influence on the structure of marine benthic communities is still under-studied. Sessile and long-lived megabenthic species can integrate environmental variation into marine food webs over long time frames. The objectives of this study were (1) to characterize the epifaunal and infaunal communities of the Lancaster Sound Region (LSR) and (2) to test the influence of the presence of seabird colonies and other environmental parameters on the structure of those benthic communities. Our prediction was that benthic diversity, number of taxa, total biomass of infauna and total density of epifauna and infauna, would be higher in areas with colonies present. Photos of the seafloor (data on epifauna) and grab samples (data on infauna) were taken at three control areas and at five areas near seabird colonies, within a depth range of 122 to 442m. A database of 26 environmental parameters was built to study the environment-benthos relationships. Infauna, which was relatively uniform across the LSR, was numerically dominated by Annelida. Epifauna was much patchier, with each study area having unique epibenthic assemblages. Brittle stars were highly abundant in epifaunal communities, reaching 600 individuals per square meter. The presence of seabird colonies was not a major driver of benthic community structure in the LSR at the depths studied. Negative effects of colonies were detected on the density and number of taxa of infauna, perhaps due to top-down effects transmitted by the seabirds which feed in the water column and can directly reduce the quantity of food reaching the seabed. 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subjects	Annelida Benthos Biodiversity and Ecology Canadian Arctic Colonies Communities Community structure Density Environmental factors Environmental Sciences Lancaster Sound Marine Mathematical models Parameters Pigments Seabirds Sound
title	Influence of seabird colonies and other environmental variables on benthic community structure, Lancaster Sound Region, Canadian Arctic
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