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Response of single benthic metrics and multi-metric methods to anthropogenic pressure gradients, in five distinct European coastal and transitional ecosystems |
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| Authors: | Borja Angel Barbone Enrico Basset Alberto Borgersen Gunhild Brkljacic Marijana Elliott Michael Garmendia Joxe Mikel Marques João Carlos Mazik Krysia Muxika Iñigo Magalhães Neto João Norling Karl Rodríguez J Germán Rosati Ilaria Rygg Brage Teixeira Heliana Trayanova Antoaneta |
| Affiliation: | a AZTI-Tecnalia, Marine Research Division, Herrera Kaia, Portualdea s/n, 20110 Pasaia, Spain b NIVA - Norwegian Institute for Water Research, Oslo, Norway c Deptartment of Biological and Environmental Sciences and Technologies, University of Salento, 73100 Lecce, Italy d IMAR - Institute of Marine Research, Department of Life Sciences, University of Coimbra, Largo Marquês de Pombal, 3004-517 Coimbra, Portugal e Institute of Estuarine and Coastal Studies, University of Hull, Cottingham Road, Hull HU6 7RX, UK f Institute of Oceanology IO-BAS, 9000 Varna, Bulgaria |
| Abstract: | In recent times many benthic indices have been proposed to assess the ecological quality of marine waters worldwide. In this study we compared single metrics and multi-metric methods to assess coastal and transitional benthic status along human pressure gradients in five distinct environments across Europe: Varna bay and lake (Bulgaria), Lesina lagoon (Italy), Mondego estuary (Portugal), Basque coast (Spain) and Oslofjord (Norway). Hence, 13 single metrics (abundance, number of taxa, and several diversity and sensitivity indices) and eight of the most common indices used within the European Water Framework Directive (WFD) for benthic assessment were selected: index of size spectra (ISS), Benthic assessment tool (BAT), Norwegian quality index (NQI), Multivariate AMBI (M-AMBI), Benthic quality index (BQI), (Benthic ecosystem quality index (BEQI), Benthic index based on taxonomic sufficiency (BITS), and infaunal quality index (IQI). Within each system, sampling sites were ordered in an increasing pressure gradient according to a preliminary classification based on professional judgement. The different indices are largely consistent in their response to pressure gradient, except in some particular cases (i.e. BITS, in all cases, or ISS when a low number of individuals is present). Inconsistencies between indicator responses were most pronounced in transitional waters (i.e. IQI, BEQI), highlighting the difficulties of the generic application of indicators to all marine, estuarine and lagoonal environments. However, some of the single (i.e. ecological groups approach, diversity, richness) and multi-metric methods (i.e. BAT, M-AMBI, NQI) were able to detect such gradients both in transitional and coastal environments, being these multi-metric methods more consistent in the detection than single indices. This study highlights the importance of survey design and good reference conditions for some indicators. The agreement observed between different methodologies and their ability to detect quality trends across distinct environments constitutes a promising result for the implementation of the WFD’s monitoring plans. Moreover, these results have management implications, regarding the dangers of misclassification, uncertainty in the assessment, use of conflicting indices, and testing and validation of indices. |
| Keywords: | Indices Multi-metric methods Benthic fauna Pressure gradient Coastal and transitional waters Water framework directive |
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