Environmental factors determining invasibility of urban waters for exotic macroinvertebrates
Identifieur interne : 000159 ( Main/Exploration ); précédent : 000158; suivant : 000160Environmental factors determining invasibility of urban waters for exotic macroinvertebrates
Auteurs : Kim Vermonden [Pays-Bas] ; Rob S. E. W. Leuven [Pays-Bas] ; Gerard Van Der Velde [Pays-Bas]Source :
- Diversity and Distributions [ 1366-9516 ] ; 2010-11.
English descriptors
- Entity :
- geog : Meuse, River Rhine.
- org : Beckman Coulter, Inc, Blackwell Publishing Ltd, Institute for Water and Wetland, Municipalities of Nijmegen, Municipality of Arnhem, Municipality of Nijmegen, Radboud University, Statistics Netherlands, Thermo Electron Corporation, United Kingdom.
- pers : An de Schryver, Ankie Brock, Hans van Ammers, Harriet de Ruiter, Jan Kuper, Jelle Eygensteyn, Kim Lotterman, L. ben Crustacea, Marij Orbons, Martin Versteeg, Moni Poelen, Tiago Saborida.
- place : America, Arnhem, Belgium, Brussels, CA, Europe, Fullerton, Germany, Leuven, Netherlands, New Zealand, Nijmegen, Sydney, USA.
- Teeft :
- Abundance, Acuta, Amphipod, Amphipoda, Antipodarum, Aquatic, Aquatic science, Aquaticus, Arnhem, Average abundance, Benedeni, Biological conservation, Biological invasion, Bivalvia, Blackwell publishing, Canadian journal, Coxalis, Crangonyx pseudogracilis, Crustacea, Crustacean, Crustacean specie, Datum, Datum analysis, Different urban water type, Ecology, Environmental heterogeneity, Environmental science, Environmental variable, Exotic, Exotic crustacean, Exotic crustacean specie, Exotic macroinvertebrate specie, Exotic macroinvertebrate specie richness, Exotic macroinvertebrates, Exotic specie, Exotic specie richness, Exotic triclad, First axis, Food availability, Freshwater, Freshwater biology, Gammarus, Gastropoda, Grain size, Heterogeneity, High nutrient level, Higher nutrient level, Invasibility, Invasive, Leaf litter, Lemnid vegetation, Leuven, Limnomysis, Limnomysis benedeni, Macroinvertebrate, Macroinvertebrate assemblage, Macroinvertebrates, Macrophyte, Maximum abundance, Meridianus, More abundant, Native crustacean specie, Native exotic, Native specie, Native specie richness, Nijmegen, Nitrate concentration, Nutrient, Nutrient level, Nymphaeid, Nymphaeid vegetation, Ordinal scale, Polymorpha, Presence water type, Proasellus, Pseudogracilis, Pulex, Radboud, Radboud university nijmegen, Relative abundance, Resource availability, Richness, River rhine, Secchi depth, Second axis, Sediment, Sediment composition, Significant difference, Sludge layer, Specie, Stream velocity, Surface water, Taxon, Taxonomic group, Tigrina, Tigrinus, Transparency, Tricladida, Turbid, Turbid water, Urban area, Urban drainage system, Urban water, Urban water body, Urban water system, Urban water type, Vaate, Vegetation, Velde, Vermonden, Water bird, Water body, Water quality, Water system, Water type, Wetland research.
Abstract
Aim Urbanization usually leads to biotic homogenization with a decrease in native species and increase in exotic species. We investigated whether local environmental factors in urban water bodies, such as water quality, habitat structure and biotic interactions, influenced the invasion of these systems by exotic macroinvertebrate species. Location Urban surface water systems in lowlands of the Rhine‐Meuse delta. Methods Presence and abundance of native and exotic macroinvertebrate species were compared between different urban water types and related to environmental variables with multivariate analysis and spearman’s correlations. Moreover, co‐existence of related native and exotic species was studied. Results In total nine exotic species were found in the following taxa: Tricladida (1), Crustacea (5), Bivalvia (1) and Gastropoda (2). Taxonomically related native and exotic crustacean species did not seem to be influenced by competition in nutrient‐rich urban waters; most species showed high abundances. Nevertheless, two exotic crustacean species were much more abundant in waters where other crustacean species were absent, possibly filling empty niches. Native species richness and abundance was positively related to environmental heterogeneity in the form of submerged vegetation. The occurrence and abundance of most exotic species were positively related to several eutrophication indicators, such as nitrate, sludge layer and lemnid vegetation. Main conclusions Exotic species in urban waters were mostly detritivorous or omnivorous and therefore dependent on leaf breakdown. In nutrient‐rich water systems, where food availability was high, exotic crustacean species co‐existed with native crustacean species, while in nutrient‐poor, richly vegetated systems, native Asellidae dominated exotic Asellidae. In the turbid water bodies with very little vegetation, native species richness was low and two exotic crustacean species were relatively abundant in these water systems. Invasibility of urban water systems could be reduced by stimulating the development of submerged and nymphaeid vegetation and decreasing nutrient levels.
Url:
DOI: 10.1111/j.1472-4642.2010.00702.x
Affiliations:
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type="geog" xml:lang="en"><term>Meuse</term><term>River Rhine</term></keywords><keywords scheme="Entity" type="org" xml:lang="en"><term>Beckman Coulter, Inc</term><term>Blackwell Publishing Ltd</term><term>Institute for Water and Wetland</term><term>Municipalities of Nijmegen</term><term>Municipality of Arnhem</term><term>Municipality of Nijmegen</term><term>Radboud University</term><term>Statistics Netherlands</term><term>Thermo Electron Corporation, United Kingdom</term></keywords><keywords scheme="Entity" type="pers" xml:lang="en"><term>An de Schryver</term><term>Ankie Brock</term><term>Hans van Ammers</term><term>Harriet de Ruiter</term><term>Jan Kuper</term><term>Jelle Eygensteyn</term><term>Kim Lotterman</term><term>L. ben Crustacea</term><term>Marij Orbons</term><term>Martin Versteeg</term><term>Moni Poelen</term><term>Tiago Saborida</term></keywords><keywords scheme="Entity" type="place" xml:lang="en"><term>America</term><term>Arnhem</term><term>Belgium</term><term>Brussels</term><term>CA</term><term>Europe</term><term>Fullerton</term><term>Germany</term><term>Leuven</term><term>Netherlands</term><term>New Zealand</term><term>Nijmegen</term><term>Sydney</term><term>USA</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Abundance</term><term>Acuta</term><term>Amphipod</term><term>Amphipoda</term><term>Antipodarum</term><term>Aquatic</term><term>Aquatic science</term><term>Aquaticus</term><term>Arnhem</term><term>Average abundance</term><term>Benedeni</term><term>Biological conservation</term><term>Biological invasion</term><term>Bivalvia</term><term>Blackwell publishing</term><term>Canadian journal</term><term>Coxalis</term><term>Crangonyx pseudogracilis</term><term>Crustacea</term><term>Crustacean</term><term>Crustacean specie</term><term>Datum</term><term>Datum analysis</term><term>Different urban water type</term><term>Ecology</term><term>Environmental heterogeneity</term><term>Environmental science</term><term>Environmental variable</term><term>Exotic</term><term>Exotic crustacean</term><term>Exotic crustacean specie</term><term>Exotic macroinvertebrate specie</term><term>Exotic macroinvertebrate specie richness</term><term>Exotic macroinvertebrates</term><term>Exotic specie</term><term>Exotic specie richness</term><term>Exotic triclad</term><term>First axis</term><term>Food availability</term><term>Freshwater</term><term>Freshwater biology</term><term>Gammarus</term><term>Gastropoda</term><term>Grain size</term><term>Heterogeneity</term><term>High nutrient level</term><term>Higher nutrient level</term><term>Invasibility</term><term>Invasive</term><term>Leaf litter</term><term>Lemnid vegetation</term><term>Leuven</term><term>Limnomysis</term><term>Limnomysis benedeni</term><term>Macroinvertebrate</term><term>Macroinvertebrate assemblage</term><term>Macroinvertebrates</term><term>Macrophyte</term><term>Maximum abundance</term><term>Meridianus</term><term>More abundant</term><term>Native crustacean specie</term><term>Native exotic</term><term>Native specie</term><term>Native specie richness</term><term>Nijmegen</term><term>Nitrate concentration</term><term>Nutrient</term><term>Nutrient level</term><term>Nymphaeid</term><term>Nymphaeid vegetation</term><term>Ordinal scale</term><term>Polymorpha</term><term>Presence water type</term><term>Proasellus</term><term>Pseudogracilis</term><term>Pulex</term><term>Radboud</term><term>Radboud university nijmegen</term><term>Relative abundance</term><term>Resource availability</term><term>Richness</term><term>River rhine</term><term>Secchi depth</term><term>Second axis</term><term>Sediment</term><term>Sediment composition</term><term>Significant difference</term><term>Sludge layer</term><term>Specie</term><term>Stream velocity</term><term>Surface water</term><term>Taxon</term><term>Taxonomic group</term><term>Tigrina</term><term>Tigrinus</term><term>Transparency</term><term>Tricladida</term><term>Turbid</term><term>Turbid water</term><term>Urban area</term><term>Urban drainage system</term><term>Urban water</term><term>Urban water body</term><term>Urban water system</term><term>Urban water type</term><term>Vaate</term><term>Vegetation</term><term>Velde</term><term>Vermonden</term><term>Water bird</term><term>Water body</term><term>Water quality</term><term>Water system</term><term>Water type</term><term>Wetland research</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Aim Urbanization usually leads to biotic homogenization with a decrease in native species and increase in exotic species. We investigated whether local environmental factors in urban water bodies, such as water quality, habitat structure and biotic interactions, influenced the invasion of these systems by exotic macroinvertebrate species. Location Urban surface water systems in lowlands of the Rhine‐Meuse delta. Methods Presence and abundance of native and exotic macroinvertebrate species were compared between different urban water types and related to environmental variables with multivariate analysis and spearman’s correlations. Moreover, co‐existence of related native and exotic species was studied. Results In total nine exotic species were found in the following taxa: Tricladida (1), Crustacea (5), Bivalvia (1) and Gastropoda (2). Taxonomically related native and exotic crustacean species did not seem to be influenced by competition in nutrient‐rich urban waters; most species showed high abundances. Nevertheless, two exotic crustacean species were much more abundant in waters where other crustacean species were absent, possibly filling empty niches. Native species richness and abundance was positively related to environmental heterogeneity in the form of submerged vegetation. The occurrence and abundance of most exotic species were positively related to several eutrophication indicators, such as nitrate, sludge layer and lemnid vegetation. Main conclusions Exotic species in urban waters were mostly detritivorous or omnivorous and therefore dependent on leaf breakdown. In nutrient‐rich water systems, where food availability was high, exotic crustacean species co‐existed with native crustacean species, while in nutrient‐poor, richly vegetated systems, native Asellidae dominated exotic Asellidae. In the turbid water bodies with very little vegetation, native species richness was low and two exotic crustacean species were relatively abundant in these water systems. Invasibility of urban water systems could be reduced by stimulating the development of submerged and nymphaeid vegetation and decreasing nutrient levels.</div></front></TEI><affiliations><list><country><li>Pays-Bas</li></country></list><tree><country name="Pays-Bas"><noRegion><name sortKey="Vermonden, Kim" sort="Vermonden, Kim" uniqKey="Vermonden K" first="Kim" last="Vermonden">Kim Vermonden</name></noRegion><name sortKey="Leuven, Rob S E W" sort="Leuven, Rob S E W" uniqKey="Leuven R" first="Rob S. E. W." last="Leuven">Rob S. E. W. Leuven</name><name sortKey="Leuven, Rob S E W" sort="Leuven, Rob S E W" uniqKey="Leuven R" first="Rob S. E. W." last="Leuven">Rob S. E. W. Leuven</name><name sortKey="Van Der Velde, Gerard" sort="Van Der Velde, Gerard" uniqKey="Van Der Velde G" first="Gerard" last="Van Der Velde">Gerard Van Der Velde</name><name sortKey="Van Der Velde, Gerard" sort="Van Der Velde, Gerard" uniqKey="Van Der Velde G" first="Gerard" last="Van Der Velde">Gerard Van Der Velde</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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