Shifting taxonomic and functional community composition of rivers under land use change

Abstract: Land use intensification has led to conspicuous changes in plant and animal communities across the world. Shifts in trait‐based functional composition have recently been hypothesized to manifest at lower levels of environmental change when compared to species‐based taxonomic composition; however, little is known about commonality in these responses across taxonomic groups and geographic regions. We investigated this hypothesis by testing for taxonomic and geographic similarities in the composition of riverine … Show more

“…Even though the correlations were small (Spearman ρ between -0.05 and 0.11), we observed a trend: degradation (a decrease in ecological status) is more apparent in less intensely used catchments, such as those covered by forests, while recovery is more likely in intensely used catchments, such as cropland or urban areas. This underlines the relationship of biota to land use intensity (e.g., Chen et al, 2023;Schürings et al, 2024a). In intensively used catchments, the ecological status is already low, making further deterioration less likely than recovery.…”

“…As many restoration projects primarily focus on the reach scale, their efforts may be constrained by stressors originating beyond the river channel, which is underscored by recent studies identifying strong relations between river health and the adjacent land use intensity (Chen et al, 2023;Schürings et al, 2024a). Yet, when restoration measures successfully improve both hydromorphological conditions and water quality, biota has been shown to recover even in previously strongly degraded streams (Gillmann et al, 2023).…”

Drivers of recovery and degradation of riverine benthic macroinvertebrate communities: A nationwide analysis of time series

“…Even though the correlations were small (Spearman ρ between -0.05 and 0.11), we observed a trend: degradation (a decrease in ecological status) is more apparent in less intensely used catchments, such as those covered by forests, while recovery is more likely in intensely used catchments, such as cropland or urban areas. This underlines the relationship of biota to land use intensity (e.g., Chen et al, 2023;Schürings et al, 2024a). In intensively used catchments, the ecological status is already low, making further deterioration less likely than recovery.…”

“…As many restoration projects primarily focus on the reach scale, their efforts may be constrained by stressors originating beyond the river channel, which is underscored by recent studies identifying strong relations between river health and the adjacent land use intensity (Chen et al, 2023;Schürings et al, 2024a). Yet, when restoration measures successfully improve both hydromorphological conditions and water quality, biota has been shown to recover even in previously strongly degraded streams (Gillmann et al, 2023).…”

Drivers of recovery and degradation of riverine benthic macroinvertebrate communities: A nationwide analysis of time series

A global meta-analysis of the effects of land use on the diversity of stream fish and macroinvertebrates

Effects of urbanization-related disturbances on macroinvertebrate communities in a Patagonian river system: insights from a functional approach