SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3183154306> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W3183154306 endingPage "1929" @default.
W3183154306 startingPage "1915" @default.
W3183154306 abstract "Wetlands are biodiversity hotspots that provide several essential ecosystem services. On a global scale, wetlands have greatly declined due to human activities. To counteract wetland loss, created wetlands are used as a conservation tool to facilitate biodiversity and provide habitats mainly for birds and amphibians. Fishes are likely to colonise the created wetlands and potentially affect the diversity and occurrence of amphibians. Still, species occurrence data for fish in created wetlands are largely lacking. Using eDNA metabarcoding, we investigated occurrence and co-occurrence patterns of fish and amphibian communities in 52 wetlands (some of which are ponds) created to benefit mainly bird and amphibian communities in south-central Sweden. Altogether, 17 fish and five amphibian species were detected in the created wetlands out of the 32 fish and six amphibian species found in the regional species pool. Amphibians were less common in wetlands physically connected to other wetlands. Connected wetlands were more fish-rich than isolated ones, suggesting potential fish avoidance. Additionally, the amphibian community occupied a narrower environmental niche compared to the fish community. Nevertheless, we observed only five statistically significant negative fish–amphibian species co-occurrences (out of 14 species considered). Even though our results suggest amphibian avoidance/exclusion from the created biodiversity wetlands, they also show that fish and amphibians frequently co-exist. Increased habitat heterogeneity in terms of water vegetation, size, shape, and structure of the wetland could be possible factors enabling the co-existence of these two taxa. With this study, we contribute to the general knowledge of fish occurrence patterns in created biodiversity wetlands. By comparing the frequencies of fish occurrence in natural and created wetlands, we have shown that there was some mismatch in what is common in natural compared to created wetlands. This mismatch probably comes from species-specific habitat requirements, stocking, and differences in detectability when using eDNA metabarcoding (small species detected) versus conventional multi-mesh gill-net methods (small species missed). Therefore, our results obtained using eDNA metabarcoding can complement the pre-existing knowledge of amphibian and fish associations and increase our understanding of how to create wetlands to facilitate biodiversity of several taxa." @default.
W3183154306 created "2021-08-02" @default.
W3183154306 creator A5009172512 @default.
W3183154306 creator A5028768002 @default.
W3183154306 creator A5030710063 @default.
W3183154306 creator A5031258258 @default.
W3183154306 creator A5059798306 @default.
W3183154306 creator A5068254853 @default.
W3183154306 creator A5073501601 @default.
W3183154306 creator A5079179869 @default.
W3183154306 date "2021-07-26" @default.
W3183154306 modified "2023-10-13" @default.
W3183154306 title "Environmental DNA metabarcoding elucidates patterns of fish colonisation and co‐occurrences with amphibians in temperate wetlands created for biodiversity" @default.
W3183154306 cites W1767467828 @default.
W3183154306 cites W1964639952 @default.
W3183154306 cites W1965994141 @default.
W3183154306 cites W1970522476 @default.
W3183154306 cites W1971185224 @default.
W3183154306 cites W1973536166 @default.
W3183154306 cites W1976513288 @default.
W3183154306 cites W1978149015 @default.
W3183154306 cites W1987359387 @default.
W3183154306 cites W1990404080 @default.
W3183154306 cites W2002853270 @default.
W3183154306 cites W2003711993 @default.
W3183154306 cites W2009896774 @default.
W3183154306 cites W2011075868 @default.
W3183154306 cites W2012950810 @default.
W3183154306 cites W2026865252 @default.
W3183154306 cites W2036601663 @default.
W3183154306 cites W2038563543 @default.
W3183154306 cites W204448174 @default.
W3183154306 cites W2046363657 @default.
W3183154306 cites W2066220567 @default.
W3183154306 cites W2071667729 @default.
W3183154306 cites W2073260510 @default.
W3183154306 cites W2074567190 @default.
W3183154306 cites W2077661876 @default.
W3183154306 cites W2078857791 @default.
W3183154306 cites W2084787000 @default.
W3183154306 cites W2087461774 @default.
W3183154306 cites W2090227661 @default.
W3183154306 cites W2091953001 @default.
W3183154306 cites W2094932093 @default.
W3183154306 cites W2100214143 @default.
W3183154306 cites W2106624063 @default.
W3183154306 cites W2111637691 @default.
W3183154306 cites W2111963610 @default.
W3183154306 cites W2114624189 @default.
W3183154306 cites W2121958618 @default.
W3183154306 cites W2123506747 @default.
W3183154306 cites W2133671092 @default.
W3183154306 cites W2141207183 @default.
W3183154306 cites W2145475791 @default.
W3183154306 cites W2146825070 @default.
W3183154306 cites W2148241569 @default.
W3183154306 cites W2158848300 @default.
W3183154306 cites W2160571481 @default.
W3183154306 cites W2166449075 @default.
W3183154306 cites W2168883256 @default.
W3183154306 cites W2173156883 @default.
W3183154306 cites W2173802766 @default.
W3183154306 cites W2179733967 @default.
W3183154306 cites W2194230867 @default.
W3183154306 cites W2254267781 @default.
W3183154306 cites W2317883077 @default.
W3183154306 cites W2334133411 @default.
W3183154306 cites W2337259322 @default.
W3183154306 cites W2471490620 @default.
W3183154306 cites W2555010976 @default.
W3183154306 cites W2564171342 @default.
W3183154306 cites W2601459324 @default.
W3183154306 cites W2751958859 @default.
W3183154306 cites W2765916821 @default.
W3183154306 cites W2889134269 @default.
W3183154306 cites W2889305522 @default.
W3183154306 cites W2902359937 @default.
W3183154306 cites W2911813797 @default.
W3183154306 cites W2934781771 @default.
W3183154306 cites W2941576646 @default.
W3183154306 cites W2952472994 @default.
W3183154306 cites W2970502284 @default.
W3183154306 cites W2981417217 @default.
W3183154306 cites W2988538297 @default.
W3183154306 cites W2989659700 @default.
W3183154306 cites W2994086547 @default.
W3183154306 cites W3040381328 @default.
W3183154306 cites W3049712510 @default.
W3183154306 cites W3081642995 @default.
W3183154306 cites W3085313947 @default.
W3183154306 cites W3156032021 @default.
W3183154306 cites W46214867 @default.
W3183154306 doi "https://doi.org/10.1111/fwb.13800" @default.
W3183154306 hasPublicationYear "2021" @default.
W3183154306 type Work @default.
W3183154306 sameAs 3183154306 @default.
W3183154306 citedByCount "12" @default.
W3183154306 countsByYear W31831543062021 @default.