• Title of article

    Seagrass Quality Index (SQI), a Water Framework Directive compliant tool for the assessment of transitional and coastal intertidal areas

  • Author/Authors

    Neto، نويسنده , , Joمo M. and Barroso، نويسنده , , Dimitri V. and Barrيa، نويسنده , , Pablo، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    8
  • From page
    130
  • To page
    137
  • Abstract
    This work describes a new method for assessing the ecological quality of intertidal seagrass in estuaries and coastal systems, the Seagrass Quality Index (SQI). The design of the SQI aims to fulfil the Water Framework Directive requirements in terms of compliance (e.g., metrics, sampling procedure, pressure relationship, uncertainty of misclassification and comparability to other methodologies in terms of concept). The index includes three common and easy-to-measure structural parameters of seagrass (i.e., the no. of taxa, bed extent and shoot density) combined in a calculation rule that allows the index to report all five of the quality classes (i.e., high, good, moderate, poor and bad). The present study contains analyses of the relationships between the ecosystem-quality results produced by the index and the pressures measured in the system as well as the relationships between the SQI and the seagrass parameters composing it (both the correlation between the SQI and metrics and the SQI sensitivity to the individual variation of each metric). These relationships were tested using a Spearman rank-correlation analysis, producing significant correlations between the biological metrics and the index results as well as between the index results and the environmental quality-pressure category (i.e., the concentration of winter DIN and turbidity). In terms of management, it is possible to apply the methodology on a broad geographical scale in systems where the reference condition for the number of taxa is even higher than one (for the Mondego studied here, the reference value was one species). The tool fulfilled the WFD requirements, had a robust sampling design and proved to be able to track the inertia that usually exists from the moment the pressure is alleviated as well as the biological response that characterises the recovery phase in systems under restoration.
  • Keywords
    Shoot density , Assessment uncertainty , Response to pressure , Zostera , environmental quality , Abundance
  • Journal title
    Ecological Indicators
  • Serial Year
    2013
  • Journal title
    Ecological Indicators
  • Record number

    2092985