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Invasive ecosystem engineers and biotic indices: Giving a wrong impression of water quality improvement? (2015)

Zaiko, Anastasija ; Daunys, Darius

Elsevier

In: Ecological Indicators, 52 . pp. 292-299.

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Publication Date: 2015-01-27

Description: Highlights: • We test the effect of an invasive alien species on ecological quality assessment. • We calculate Benthic Quality Index for the coastal lagoon affected by zebra mussel. • Zebra mussel may modify benthic habitats enhancing local biodiversity. • This might bias BQI by showing false improvement of ecological status. • We suggest a framework how the bias in could be minimized. Abstract: Benthic component of an ecosystem is considered in ecological status assessment of the key European Directives. Most of the metrics proposed for the benthic quality assessment are biodiversity based. Their robustness and applicability are widely discussed in many recent studies. However an impact of invasive alien species on biotic indices and environmental quality assessments has been largely overlooked by researchers so far. In the current study we assessed Benthic Quality Index (BQI) in a coastal ecosystem, highly affected by the invasive zebra mussel Dreissena polymorpha. Zebra mussel is able of modifying benthic habitats and enhancing local biodiversity. In the analyzed ecosystem it affected benthic species richness, abundance and community structure. As a result the calculated BQI values were significantly higher in the presence of zebra mussel with evident outliers in samples with particularly high zebra mussel abundances. Therefore we found that BQI determined in our study was artificially elevated providing false signal of the ecological status improvement. Based on the results presented, we suggested data correction framework that has been tested on the current dataset and proved to be effective minimizing zebra mussel impact on BQI assessment. Our experience could be applied for other coastal ecosystems invaded by the zebra mussel or any other aquatic invasive species with resembling biological traits and bioinvasion impacts.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.ecolind.2014.12.023

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Application of signal detection theory approach for setting thresholds in benthic quality assessments (2016)

Chusevė, Romualda ; Nygard, Henrik ; Vaiciūtė, Diana ; [et al.]

Elsevier

In: Ecological Indicators, 60 . pp. 420-427.

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Publication Date: 2019-02-01

Description: Highlights: • Signal detection theory (SDT) was used to assess the BQI (Benthos Quality Index) performance. • BQI (Benthos Quality Index) was found to respond acceptably to eutrophication parameters at the exposed coastal areas. • BQI (Benthos Quality Index) response was affected by estuarine water outflow. • SDT provide a method to assess the accuracy of indicators. • SDT can be helpful for management decisions when planning environment monitoring intensity. Abstract The European Marine Strategy Framework Directive requires EU Member States to prepare national strategies and manage their seas to achieve good environmental status (GES) by 2020. There are many multimetric indices proposed as indicators of the ecological quality of the benthic environment. Their functionality and utility are extensively discussed in the literature. Different frameworks are suggested for comparative assessments of indicators with no agreement on a standardized way of selecting the most appropriate one. In the current study, we apply signal detection theory (SDT) to evaluate the specificity and sensitivity of the Benthic Quality Index (BQI), its response to the eutrophication pressure, and its performance under the effects of estuarine water outflow. The BQI showed acceptable response to total nitrogen, total phosphorus and chlorophyll-a concentrations in the study area. Based on the results, we suggest using SDT for setting GES thresholds in a standardized way. This aids a robust assessment of the environmental status and supports differentiation between the quality classes.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.ecolind.2015.07.018

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