Changes in marine phytoplankton diversity: Assessment under the Marine Strategy Framework Directive

•We developed the indicator “Changes in plankton diversity” (PH3) to assess Pelagic Habitats.•This pilot study used three coastal time-series of phytoplankton data in French waters.•Four indices were selected to evaluate the phytoplankton community composition.•Integration with other pelagic indicat...

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Bibliographic Details
Published in:Ecological indicators 2019-07, Vol.102, p.265-277
Main Authors: Rombouts, I., Simon, N., Aubert, A., Cariou, T., Feunteun, E., Guérin, L., Hoebeke, M., McQuatters-Gollop, A., Rigaut-Jalabert, F., Artigas, L.F.
Format: Article
Language:English
Subjects:
Bay of Biscay
Community composition
community structure
developmental stages
Environmental Sciences
eutrophication
food webs
France
genus
Good Environmental Status
habitats
Indicators
Leptocylindrus
Marine policy
MSFD
OSPAR
Pelagic habitat
phytoplankton
Plankton
species diversity
stakeholders
time series analysis
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Summary:•We developed the indicator “Changes in plankton diversity” (PH3) to assess Pelagic Habitats.•This pilot study used three coastal time-series of phytoplankton data in French waters.•Four indices were selected to evaluate the phytoplankton community composition.•Integration with other pelagic indicators will improve future regional assessments. The Marine Strategy Framework Directive requires EU Member States to assess the Good Environmental Status (GES) of their marine waters in a coherent and strategic manner. For the regional assessment of biodiversity, the OSPAR Intersessional Coordination Group of Biodiversity Assessment and Monitoring (ICG-COBAM) provides substantial advice. Through expert working groups, phytoplankton indicators are currently being developed to measure the state and the change in pelagic diversity, to quantify food web dynamics and to measure the extent of eutrophication impacts. We developed a multi-metric indicator that is compliant with the common OSPAR indicator “Changes in plankton diversity” (PH3). The aim was to describe the structure of the phytoplankton community (alpha diversity) and to detect significant temporal changes (beta diversity) to evaluate the health of pelagic habitats. In this pilot study, we used three coastal time-series in the Western Channel and the north of the Bay of Biscay (North Atlantic, France) to test the efficiency and the performance of several existing diversity indices. We validated two alpha diversity indices, namely the Menhinick Index (D) and the Hulburt Index (δ), based on their complementary ecological information, their strong relationship with habitat characteristics, and their relative ease of interpretation for stakeholders. Temporal shifts or rate of change in community structure were detected by the Local Contributions to Beta Diversity index (LCBD; a beta diversity measure). For the years where significantly high LCBD values were found, the Importance Value Index (IVI) was calculated to potentially identify the taxa (genus) responsible for the “unusual” community structure. For example, at the Ouest Loscolo site in 2008, an elevated LCBD (0.45) coincided with a high dominance value (Hulburt’s Index) caused by the occurrence of a monospecific bloom of Leptocylindrus spp. (IVI = 73%) in July (2.22 × 106 cells L−1) and October (8 × 106 cells L−1). In this way, PH3 informs on different aspects of phytoplankton diversity from a community to a genus level. At the current stage of developmen
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2019.02.009