Has riparian woody vegetation a positive effect on dispersal and distribution of mayfly, stonefly and caddisfly species?

During their adult life stage most EPTs (Ephemeroptera, Plecoptera and Trichoptera) disperse by flying following the riparian corridor. Although it is likely that riparian forest fosters EPT dispersion, this has not been empirically tested in a larger dataset yet and several additional open question...

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Bibliographic Details
Published in:The Science of the total environment 2023-06, Vol.879, p.163137-163137, Article 163137
Main Authors: Peredo Arce, A., Palt, M., Schletterer, M., Kail, J.
Format: Article
Language:English
Subjects:
adults
Aerial dispersion
Animals
Buffer
data collection
Ecosystem
environment
Ephemeroptera
Forest
Forests
Freshwater macroinvertebrates
Germany
habitat connectivity
Insecta
macroinvertebrates
Plecoptera
riparian areas
riparian buffers
riparian forests
riparian vegetation
Rivers
species diversity
Tracheophyta
Trees
Trichoptera
Wood
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Summary:During their adult life stage most EPTs (Ephemeroptera, Plecoptera and Trichoptera) disperse by flying following the riparian corridor. Although it is likely that riparian forest fosters EPT dispersion, this has not been empirically tested in a larger dataset yet and several additional open questions remain. First, it is unclear if the effect of riparian vegetation on EPT community differs and depends on the spatial scale. Second, it is not assessed how the effect of riparian vegetation on EPTs is and how it changes depending on other environmental stressors. Third, the effect potentially depends on riparian vegetation characteristics such as trees species composition and cover. We analysed 98 sites in lowland and lower mountain streams in Northrhine Westfalia, Germany, at two longitudinal and two lateral spatial scales. At each site we calculated the EPT community dispersal ability and quantified other environmental stressors as well as deciduous and coniferous woody cover in the riparian buffer. Generalised Linear Models were used to identify the conditions under which woody riparian vegetation has a significant effect on EPT community dispersal ability. Our results confirmed that the share of weak dispersers increased with deciduous woody riparian cover in low mountain streams, indicating a potential positive effect of natural riparian forest on landscape connectivity. This relationship was only observed at the regional longitudinal scale irrespective of the lateral spatial scale. Tree species composition was relevant as coniferous forests did not contribute to this effect. Finally, there was some indication that the positive effect of deciduous riparian forest occurs at a moderate woody cover and levels off at higher values. This highlights the role of riparian forests not only as habitat but also dispersal corridor in river management and the need to preserve and restore natural woody riparian vegetation to improve EPT communities and macroinvertebrates ecological status. [Display omitted] •The effect of riparian forest on merolimnic stream insects dispersal was analysed.•Riparian forest drives the community at big spatial scales in mountain streams.•Deciduous forest correlates with weak dispersers, despite other stressors.•Coniferous forest correlates with strong fliers, possibly is a dispersal barrie.r•Deciduous forest increases weak dispersers until it reaches a certain cover.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.163137