The response of chironomid taxonomy- and functional trait-based metrics to fish farm effluent pollution in lotic systems

The lotic habitats affected by trout farm waste are colonized with a particular invertebrate community of which chironomids are the most abundant group. However, there is little information available regarding how chironomid community structures respond to this type of pollution at the highest taxon...

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Published in:	Environmental pollution (1987) Vol. 242; no. Pt B; pp. 1058 - 1066
Main Authors:	Milošević, Djuradj, Stojanović, Katarina, Djurdjević, Aca, Marković, Zoran, Stojković Piperac, Milica, Živić, Miroslav, Živić, Ivana
Format:	Journal Article
Language:	English
Published:	England Elsevier Ltd 01-11-2018
Subjects:	Bioassessment Chironomidae Community Metric Self organizing map Trout farm Chironomidae Metric Bioassessment Self organizing map Trout farm Community
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Abstract	The lotic habitats affected by trout farm waste are colonized with a particular invertebrate community of which chironomids are the most abundant group. However, there is little information available regarding how chironomid community structures respond to this type of pollution at the highest taxonomic resolution. Eight fish farms, together with their lotic systems as recipients, were used to test the variability of the chironomid community and its surrogates (taxonomic and functional metrics) across spatially arranged sampling sites to form a gradual decrease in the trout farm influence. The self organizing map (SOM) classified six different types of chironomid communities which were characteristic for both the control and affected habitats. The species indicator analyses listed 32 taxa as positive indicators of water pollution. The SOM and Kruskal-Wallis test revealed that the pattern of chironomid community structure obtained was mainly driven by six environmental parameters (Altitude, conductivity, distance from the outlet, hardness, HN4-N, NO3-N). Categorical principal components analysis (CATPCA) derived three models for each type of biotic metric, in which for diversity-, taxonomy- and functional feeding group-based metrics, the first two dimensions explained 55.2%, 58.3% and 55.4%, of the total variance respectively for 315 sampling sites. According to this analysis, the total number of taxa (S), abundance and the Shannon-Wiener index (H′) (as a diversity metric), as well as the proportion of Tanypodinae (as taxonomic group) and grazers/scraper (GRA) and gatherer collector (GAT)(as FFG metrics), were related to the outlet distance gradient, thus showing great potential to be used in the multimetric approach in bioassessment. [Display omitted] •We tested how chironomid community reacts to trout fish farming.•The SOM has revealed that community changes along the fish farm effluent gradient.•Chironomid grazers were negatively correlated with the distance from the outlet.•Diversity indices, taxa groups and FFG can be useful metrics for bioassessment. The taxonomy- and functional chironomid community structure acts as a fine-tuned bioindicator of the impact of fish-farm effluent.
AbstractList	The lotic habitats affected by trout farm waste are colonized with a particular invertebrate community of which chironomids are the most abundant group. However, there is little information available regarding how chironomid community structures respond to this type of pollution at the highest taxonomic resolution. Eight fish farms, together with their lotic systems as recipients, were used to test the variability of the chironomid community and its surrogates (taxonomic and functional metrics) across spatially arranged sampling sites to form a gradual decrease in the trout farm influence. The self organizing map (SOM) classified six different types of chironomid communities which were characteristic for both the control and affected habitats. The species indicator analyses listed 32 taxa as positive indicators of water pollution. The SOM and Kruskal-Wallis test revealed that the pattern of chironomid community structure obtained was mainly driven by six environmental parameters (Altitude, conductivity, distance from the outlet, hardness, HN4-N, NO3-N). Categorical principal components analysis (CATPCA) derived three models for each type of biotic metric, in which for diversity-, taxonomy- and functional feeding group-based metrics, the first two dimensions explained 55.2%, 58.3% and 55.4%, of the total variance respectively for 315 sampling sites. According to this analysis, the total number of taxa (S), abundance and the Shannon-Wiener index (H') (as a diversity metric), as well as the proportion of Tanypodinae (as taxonomic group) and grazers/scraper (GRA) and gatherer collector (GAT)(as FFG metrics), were related to the outlet distance gradient, thus showing great potential to be used in the multimetric approach in bioassessment. The lotic habitats affected by trout farm waste are colonized with a particular invertebrate community of which chironomids are the most abundant group. However, there is little information available regarding how chironomid community structures respond to this type of pollution at the highest taxonomic resolution. Eight fish farms, together with their lotic systems as recipients, were used to test the variability of the chironomid community and its surrogates (taxonomic and functional metrics) across spatially arranged sampling sites to form a gradual decrease in the trout farm influence. The self organizing map (SOM) classified six different types of chironomid communities which were characteristic for both the control and affected habitats. The species indicator analyses listed 32 taxa as positive indicators of water pollution. The SOM and Kruskal-Wallis test revealed that the pattern of chironomid community structure obtained was mainly driven by six environmental parameters (Altitude, conductivity, distance from the outlet, hardness, HN4-N, NO3-N). Categorical principal components analysis (CATPCA) derived three models for each type of biotic metric, in which for diversity-, taxonomy- and functional feeding group-based metrics, the first two dimensions explained 55.2%, 58.3% and 55.4%, of the total variance respectively for 315 sampling sites. According to this analysis, the total number of taxa (S), abundance and the Shannon-Wiener index (H′) (as a diversity metric), as well as the proportion of Tanypodinae (as taxonomic group) and grazers/scraper (GRA) and gatherer collector (GAT)(as FFG metrics), were related to the outlet distance gradient, thus showing great potential to be used in the multimetric approach in bioassessment. [Display omitted] •We tested how chironomid community reacts to trout fish farming.•The SOM has revealed that community changes along the fish farm effluent gradient.•Chironomid grazers were negatively correlated with the distance from the outlet.•Diversity indices, taxa groups and FFG can be useful metrics for bioassessment. The taxonomy- and functional chironomid community structure acts as a fine-tuned bioindicator of the impact of fish-farm effluent. The lotic habitats affected by trout farm waste are colonized with a particular invertebrate community of which chironomids are the most abundant group. However, there is little information available regarding how chironomid community structures respond to this type of pollution at the highest taxonomic resolution. Eight fish farms, together with their lotic systems as recipients, were used to test the variability of the chironomid community and its surrogates (taxonomic and functional metrics) across spatially arranged sampling sites to form a gradual decrease in the trout farm influence. The self organizing map (SOM) classified six different types of chironomid communities which were characteristic for both the control and affected habitats. The species indicator analyses listed 32 taxa as positive indicators of water pollution. The SOM and Kruskal-Wallis test revealed that the pattern of chironomid community structure obtained was mainly driven by six environmental parameters (Altitude, conductivity, distance from the outlet, hardness, HN -N, NO -N). Categorical principal components analysis (CATPCA) derived three models for each type of biotic metric, in which for diversity-, taxonomy- and functional feeding group-based metrics, the first two dimensions explained 55.2%, 58.3% and 55.4%, of the total variance respectively for 315 sampling sites. According to this analysis, the total number of taxa (S), abundance and the Shannon-Wiener index (H') (as a diversity metric), as well as the proportion of Tanypodinae (as taxonomic group) and grazers/scraper (GRA) and gatherer collector (GAT)(as FFG metrics), were related to the outlet distance gradient, thus showing great potential to be used in the multimetric approach in bioassessment.
Author	Stojković Piperac, Milica Živić, Ivana Marković, Zoran Milošević, Djuradj Živić, Miroslav Djurdjević, Aca Stojanović, Katarina
Author_xml	– sequence: 1 givenname: Djuradj orcidid: 0000-0002-5328-3898 surname: Milošević fullname: Milošević, Djuradj email: djuradj@pmf.ni.ac.rs organization: Department of Biology and Ecology, Faculty of Sciences and Mathematics, University of Niš, Višegradska 33, 18000, Nis, Serbia – sequence: 2 givenname: Katarina surname: Stojanović fullname: Stojanović, Katarina organization: University of Belgrade - Faculty of Biology, Studentski trg 16, 11000, Belgrade, Serbia – sequence: 3 givenname: Aca orcidid: 0000-0002-9991-7753 surname: Djurdjević fullname: Djurdjević, Aca organization: Department of Biology and Ecology, Faculty of Sciences and Mathematics, University of Niš, Višegradska 33, 18000, Nis, Serbia – sequence: 4 givenname: Zoran surname: Marković fullname: Marković, Zoran organization: University of Belgrade - Faculty of Agriculture, Nemanjina 6, 11080, Belgrade, Serbia – sequence: 5 givenname: Milica surname: Stojković Piperac fullname: Stojković Piperac, Milica organization: Department of Biology and Ecology, Faculty of Sciences and Mathematics, University of Niš, Višegradska 33, 18000, Nis, Serbia – sequence: 6 givenname: Miroslav surname: Živić fullname: Živić, Miroslav organization: University of Belgrade - Faculty of Biology, Studentski trg 16, 11000, Belgrade, Serbia – sequence: 7 givenname: Ivana surname: Živić fullname: Živić, Ivana organization: University of Belgrade - Faculty of Biology, Studentski trg 16, 11000, Belgrade, Serbia
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Keywords	Chironomidae Metric Bioassessment Self organizing map Trout farm Community
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SubjectTerms	Bioassessment Chironomidae Community Metric Self organizing map Trout farm
Title	The response of chironomid taxonomy- and functional trait-based metrics to fish farm effluent pollution in lotic systems
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