Jacek Leśny scite author profile

River Habitat Survey (RHS) data collected for the EU-funded STAR project was used to identify hydromorphological characteristic features of rivers in four European regions namely: lowlands; mountain; the Alps; and the Mediterranean. Using RHS attributes, Habitat Quality Assessment (HQA) -a measure of natural habitat diversity, and Habitat Modification Score (HMS) -a measure of anthropogenic modification, we identified considerable differences in frequency, diversity and evenness of features between the regions. A relatively small subset of features clearly distinguish the hydromorphological characters of lowland, Alpine and southern European rivers. It was more difficult to distinguish mountain rivers from Alpine rivers. The highest statistical differences are observed between Lowland and Mountain region. Within the four regions studied the RHS attributes that most strongly influence the HQA and HMS indices were identified. We conclude that specific effort should be made to ensure these are recorded properly as part of the quality control of RHS data.

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CO2 Fluxes from Different Vegetation Communities on a Peatland Ecosystem

Acosta

Juszczak

Chojnicki

et al. 2017

Wetlands

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Experimental warming and precipitation reduction affect the biomass of microbial communities in a Sphagnum peatland

Basińska

Reczuga

Gąbka

et al. 2020

Ecological Indicators

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Occurrence and variability of River Habitat Survey features across Europe and the consequences for data collection and evaluation

Szoszkiewicz¹,

Buffagni

Davy‐Bowker

et al. 2006

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Assessment of sources of uncertainty in macrophyte surveys and the consequences for river classification

Staniszewski¹,

Szoszkiewicz²,

Zbierska³

et al. 2006

Hydrobiologia

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The application of macrophytes in freshwater monitoring is still relatively limited and studies on their intercalibration and sources of variation are required. Therefore, the aim of the study was to compare selected indices and metrics based on macrophytes and to quantify their variability. During the STAR project, several aspects influencing uncertainty in estimation of the ecological quality of river were assessed. Results showed that several metrics based on the indicative value of plant species can be used in evaluation of the ecological status of rivers. Among estimated sources of variance in metric values the inter-surveyor differences had the lowest effect and slightly stronger were the influences of temporal variation (years and seasons) and shading. The impact of habitat modification was the most important factor. Analysis showed that some of macrophyte-based metrics (notably MTR and IBMR) are of sufficient precision in terms of sampling uncertainty, that they could be useful for estimating the ecological status of rivers in accordance with the aims of the Water Framework Directive.

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Jacek Leśny

Occurrence and variability of River Habitat Survey features across Europe and the consequences for data collection and evaluation

CO2 Fluxes from Different Vegetation Communities on a Peatland Ecosystem

Experimental warming and precipitation reduction affect the biomass of microbial communities in a Sphagnum peatland

Occurrence and variability of River Habitat Survey features across Europe and the consequences for data collection and evaluation

Assessment of sources of uncertainty in macrophyte surveys and the consequences for river classification

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