Phytoplankton community metrics based on absolute and relative abundance and biomass: implications for multivariate analyses |
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Authors: | Isabelle Lavoie Paul B. Hamilton Michel Poulin |
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Affiliation: | 1.Centre Eau-Terre-Environnement,Institut national de la recherche scientifique,Québec,Canada;2.Research Division,Canadian Museum of Nature,Ottawa,Canada |
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Abstract: | Phytoplankton and water samples were collected at 12 locations along the temperate lowland Rideau River, Ontario, Canada. The stations were visited twice a month from May to September 1998, 1999, and 2000. Phytoplankton communities were quantified based on cell abundance, entity abundance (colonies, filaments or free-living cells) and biomass (converted from biovolume estimates based on cell shape and biometry), and were expressed as absolute and relative values. The resulting phytoplankton dataset was composed of six different metrics. The general objective was to assess which metric best explained the spatial and temporal variability in the phytoplankton communities of the Rideau River in response to fluctuating environmental variables. Relationships between phytoplankton metrics and water quality variables were assessed using canonical correspondence analyses. The absolute cell abundance metric showed the best relationship with water quality, followed by the cell entity metric. The biomass metric showed the poorest relationship with water quality variables, indicating that accounting for cell size does not provide additional information. The data expressed as absolute values were consistently better predictors of water quality compared to relative values. |
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