Macrobenthic invertebrate richness and composition along a latitudinal gradient of European glacier-fed streams

1. The influence of 11 environmental variables on benthic macroinvertebrate communities was examined in seven glacier‐fed European streams ranging from Svalbard in the north to the Pyrenees in the south. Between 4 and 11 near‐pristine reaches were studied on each stream in 1996–97. 2. Taxonomic rich...

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Veröffentlicht in:	Freshwater biology 2001-12, Vol.46 (12), p.1811-1831
Hauptverfasser:	Castella, Emmanuel, Adalsteinsson, Hákon, Brittain, John E., Gislason, Gisli M., Lehmann, Anthony, Lencioni, Valeria, Lods-Crozet, Brigitte, Maiolini, Bruno, Milner, Alexander M., Olafsson, Jon S., Saltveit, Svein J., Snook, Deborah L.
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Schlagworte:	Alpine Arctic climate change Diamesinae Freshwater generalized additive models glacial stream macrobenthos
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container_end_page	1831
container_issue	12
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container_title	Freshwater biology
container_volume	46
creator	Castella, Emmanuel Adalsteinsson, Hákon Brittain, John E. Gislason, Gisli M. Lehmann, Anthony Lencioni, Valeria Lods-Crozet, Brigitte Maiolini, Bruno Milner, Alexander M. Olafsson, Jon S. Saltveit, Svein J. Snook, Deborah L.
description	1. The influence of 11 environmental variables on benthic macroinvertebrate communities was examined in seven glacier‐fed European streams ranging from Svalbard in the north to the Pyrenees in the south. Between 4 and 11 near‐pristine reaches were studied on each stream in 1996–97. 2. Taxonomic richness, measured at the family or subfamily (for Chironomidae) levels for insects and higher levels for non‐insects, increased with latitude from Svalbard (3 taxa) to the Pyrenees (29 taxa). 3. A Generalized Additive Model (GAM) incorporating channel stability [Pfankuch Index (PFAN)], tractive force, Froude number (FROU), water conductivity (COND), suspended solids (SUSP) concentration, and maximum temperature explained 79% of the total deviance of the taxonomic richness per reach. Water temperature and the PFAN of stability made the highest contribution to this deviance. In the model, richness response to temperature was positive linear, whereas the response to the PFAN was bell‐shaped with an optimum at an intermediate level of stability. 4. Generalized Additive Models calculated for the 16 most frequent taxa explained between 25 (Tipulidae) and 79% (Heptageniidae) of the deviance. In 10 models, more than 50% of the deviance was explained and 11 models had cross‐validation correlation ratios above 0.5. Maximum temperature, the PFAN, SUSP and tractive force (TRAC) were the most frequently incorporated explanatory variables. Season and substrate characteristics were very rarely incorporated. 5. Our results highlight the strong deterministic nature of zoobenthic communities in glacier‐fed streams and the prominent role of water temperature and substrate stability in determining longitudinal patterns of macroinvertebrate community structure. The GAMs are proposed as a tool for predicting changes of zoobenthic communities in glacier‐fed streams under climate or hydrological change scenarios.
doi_str_mv	10.1046/j.1365-2427.2001.00860.x
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The influence of 11 environmental variables on benthic macroinvertebrate communities was examined in seven glacier‐fed European streams ranging from Svalbard in the north to the Pyrenees in the south. Between 4 and 11 near‐pristine reaches were studied on each stream in 1996–97. 2. Taxonomic richness, measured at the family or subfamily (for Chironomidae) levels for insects and higher levels for non‐insects, increased with latitude from Svalbard (3 taxa) to the Pyrenees (29 taxa). 3. A Generalized Additive Model (GAM) incorporating channel stability [Pfankuch Index (PFAN)], tractive force, Froude number (FROU), water conductivity (COND), suspended solids (SUSP) concentration, and maximum temperature explained 79% of the total deviance of the taxonomic richness per reach. Water temperature and the PFAN of stability made the highest contribution to this deviance. In the model, richness response to temperature was positive linear, whereas the response to the PFAN was bell‐shaped with an optimum at an intermediate level of stability. 4. Generalized Additive Models calculated for the 16 most frequent taxa explained between 25 (Tipulidae) and 79% (Heptageniidae) of the deviance. In 10 models, more than 50% of the deviance was explained and 11 models had cross‐validation correlation ratios above 0.5. Maximum temperature, the PFAN, SUSP and tractive force (TRAC) were the most frequently incorporated explanatory variables. Season and substrate characteristics were very rarely incorporated. 5. Our results highlight the strong deterministic nature of zoobenthic communities in glacier‐fed streams and the prominent role of water temperature and substrate stability in determining longitudinal patterns of macroinvertebrate community structure. The GAMs are proposed as a tool for predicting changes of zoobenthic communities in glacier‐fed streams under climate or hydrological change scenarios.</description><identifier>ISSN: 0046-5070</identifier><identifier>EISSN: 1365-2427</identifier><identifier>DOI: 10.1046/j.1365-2427.2001.00860.x</identifier><language>eng</language><publisher>Oxford UK: Blackwell Science Ltd</publisher><subject>Alpine ; Arctic ; climate change ; Diamesinae ; Freshwater ; generalized additive models ; glacial stream ; macrobenthos</subject><ispartof>Freshwater biology, 2001-12, Vol.46 (12), p.1811-1831</ispartof><rights>Copyright Blackwell Science Ltd. 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The influence of 11 environmental variables on benthic macroinvertebrate communities was examined in seven glacier‐fed European streams ranging from Svalbard in the north to the Pyrenees in the south. Between 4 and 11 near‐pristine reaches were studied on each stream in 1996–97. 2. Taxonomic richness, measured at the family or subfamily (for Chironomidae) levels for insects and higher levels for non‐insects, increased with latitude from Svalbard (3 taxa) to the Pyrenees (29 taxa). 3. A Generalized Additive Model (GAM) incorporating channel stability [Pfankuch Index (PFAN)], tractive force, Froude number (FROU), water conductivity (COND), suspended solids (SUSP) concentration, and maximum temperature explained 79% of the total deviance of the taxonomic richness per reach. Water temperature and the PFAN of stability made the highest contribution to this deviance. In the model, richness response to temperature was positive linear, whereas the response to the PFAN was bell‐shaped with an optimum at an intermediate level of stability. 4. Generalized Additive Models calculated for the 16 most frequent taxa explained between 25 (Tipulidae) and 79% (Heptageniidae) of the deviance. In 10 models, more than 50% of the deviance was explained and 11 models had cross‐validation correlation ratios above 0.5. Maximum temperature, the PFAN, SUSP and tractive force (TRAC) were the most frequently incorporated explanatory variables. Season and substrate characteristics were very rarely incorporated. 5. Our results highlight the strong deterministic nature of zoobenthic communities in glacier‐fed streams and the prominent role of water temperature and substrate stability in determining longitudinal patterns of macroinvertebrate community structure. The GAMs are proposed as a tool for predicting changes of zoobenthic communities in glacier‐fed streams under climate or hydrological change scenarios.</description><subject>Alpine</subject><subject>Arctic</subject><subject>climate change</subject><subject>Diamesinae</subject><subject>Freshwater</subject><subject>generalized additive models</subject><subject>glacial stream</subject><subject>macrobenthos</subject><issn>0046-5070</issn><issn>1365-2427</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><recordid>eNqNkU1v1DAQhi1EJZbS_2Bx4JbU304kLnTVFkTLh0TVo-U4k62XbLzYDmz_fb0s6qEXKlkaa-Z55jAvQpiSmhKhTtc15UpWTDBdM0JoTUijSL17gRaPg5doQQpbSaLJK_Q6pTUplNRsgcK1dTF0MOU777CffkPM0EWbAUfv7iZICdupxy5stiH57MOE7RimFbZ4tNnnufeTHfEq2t6XLTgM-HyOYQt2wqvROg-xGqDHKUewm_QGHQ12THDyrx6jm4vzH8uP1dXXy0_LD1eVk1yQqiekG5R2UrTdILUqTcVcpwYAOwguad861jrZaKaVVdoy4TQVrSKNa4G2_Bi9O-zdxvBrhpTNxicH42gnCHMytOFMS0mfATKhy_s_KGTLqOIFfPsEXIc5liMlw3ihtJasQM0BKtdPKcJgttFvbLw3lJh9sGZt9vmZfX5mH6z5G6zZFfX9Qf3jR7h_tmcubs_Kp-jVQfcpw-5Rt_GnUZpraW6_XBpBvp0t2efvZskfAJZVuGQ</recordid><startdate>200112</startdate><enddate>200112</enddate><creator>Castella, Emmanuel</creator><creator>Adalsteinsson, Hákon</creator><creator>Brittain, John E.</creator><creator>Gislason, Gisli M.</creator><creator>Lehmann, Anthony</creator><creator>Lencioni, Valeria</creator><creator>Lods-Crozet, Brigitte</creator><creator>Maiolini, Bruno</creator><creator>Milner, Alexander M.</creator><creator>Olafsson, Jon S.</creator><creator>Saltveit, Svein J.</creator><creator>Snook, Deborah L.</creator><general>Blackwell Science Ltd</general><general>Wiley Subscription Services, Inc</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QH</scope><scope>7SN</scope><scope>7SS</scope><scope>7UA</scope><scope>C1K</scope><scope>F1W</scope><scope>H95</scope><scope>L.G</scope><scope>M7N</scope><scope>7ST</scope><scope>SOI</scope></search><sort><creationdate>200112</creationdate><title>Macrobenthic invertebrate richness and composition along a latitudinal gradient of European glacier-fed streams</title><author>Castella, Emmanuel ; Adalsteinsson, Hákon ; Brittain, John E. ; Gislason, Gisli M. ; Lehmann, Anthony ; Lencioni, Valeria ; Lods-Crozet, Brigitte ; Maiolini, Bruno ; Milner, Alexander M. ; Olafsson, Jon S. ; Saltveit, Svein J. ; Snook, Deborah L.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c5340-d00bf67c549bf57653462cb6feeaf4351d9c29c587276a67a24c7149608c9e193</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2001</creationdate><topic>Alpine</topic><topic>Arctic</topic><topic>climate change</topic><topic>Diamesinae</topic><topic>Freshwater</topic><topic>generalized additive models</topic><topic>glacial stream</topic><topic>macrobenthos</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Castella, Emmanuel</creatorcontrib><creatorcontrib>Adalsteinsson, Hákon</creatorcontrib><creatorcontrib>Brittain, John E.</creatorcontrib><creatorcontrib>Gislason, Gisli M.</creatorcontrib><creatorcontrib>Lehmann, Anthony</creatorcontrib><creatorcontrib>Lencioni, Valeria</creatorcontrib><creatorcontrib>Lods-Crozet, Brigitte</creatorcontrib><creatorcontrib>Maiolini, Bruno</creatorcontrib><creatorcontrib>Milner, Alexander M.</creatorcontrib><creatorcontrib>Olafsson, Jon S.</creatorcontrib><creatorcontrib>Saltveit, Svein J.</creatorcontrib><creatorcontrib>Snook, Deborah L.</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><collection>Aqualine</collection><collection>Ecology Abstracts</collection><collection>Entomology Abstracts (Full archive)</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) Professional</collection><collection>Algology Mycology and Protozoology Abstracts (Microbiology C)</collection><collection>Environment Abstracts</collection><collection>Environment Abstracts</collection><jtitle>Freshwater biology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Castella, Emmanuel</au><au>Adalsteinsson, Hákon</au><au>Brittain, John E.</au><au>Gislason, Gisli M.</au><au>Lehmann, Anthony</au><au>Lencioni, Valeria</au><au>Lods-Crozet, Brigitte</au><au>Maiolini, Bruno</au><au>Milner, Alexander M.</au><au>Olafsson, Jon S.</au><au>Saltveit, Svein J.</au><au>Snook, Deborah L.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Macrobenthic invertebrate richness and composition along a latitudinal gradient of European glacier-fed streams</atitle><jtitle>Freshwater biology</jtitle><date>2001-12</date><risdate>2001</risdate><volume>46</volume><issue>12</issue><spage>1811</spage><epage>1831</epage><pages>1811-1831</pages><issn>0046-5070</issn><eissn>1365-2427</eissn><abstract>1. The influence of 11 environmental variables on benthic macroinvertebrate communities was examined in seven glacier‐fed European streams ranging from Svalbard in the north to the Pyrenees in the south. Between 4 and 11 near‐pristine reaches were studied on each stream in 1996–97. 2. Taxonomic richness, measured at the family or subfamily (for Chironomidae) levels for insects and higher levels for non‐insects, increased with latitude from Svalbard (3 taxa) to the Pyrenees (29 taxa). 3. A Generalized Additive Model (GAM) incorporating channel stability [Pfankuch Index (PFAN)], tractive force, Froude number (FROU), water conductivity (COND), suspended solids (SUSP) concentration, and maximum temperature explained 79% of the total deviance of the taxonomic richness per reach. Water temperature and the PFAN of stability made the highest contribution to this deviance. In the model, richness response to temperature was positive linear, whereas the response to the PFAN was bell‐shaped with an optimum at an intermediate level of stability. 4. Generalized Additive Models calculated for the 16 most frequent taxa explained between 25 (Tipulidae) and 79% (Heptageniidae) of the deviance. In 10 models, more than 50% of the deviance was explained and 11 models had cross‐validation correlation ratios above 0.5. Maximum temperature, the PFAN, SUSP and tractive force (TRAC) were the most frequently incorporated explanatory variables. Season and substrate characteristics were very rarely incorporated. 5. Our results highlight the strong deterministic nature of zoobenthic communities in glacier‐fed streams and the prominent role of water temperature and substrate stability in determining longitudinal patterns of macroinvertebrate community structure. The GAMs are proposed as a tool for predicting changes of zoobenthic communities in glacier‐fed streams under climate or hydrological change scenarios.</abstract><cop>Oxford UK</cop><pub>Blackwell Science Ltd</pub><doi>10.1046/j.1365-2427.2001.00860.x</doi><tpages>21</tpages></addata></record>
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subjects	Alpine Arctic climate change Diamesinae Freshwater generalized additive models glacial stream macrobenthos
title	Macrobenthic invertebrate richness and composition along a latitudinal gradient of European glacier-fed streams
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