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W2912176387 abstract "Abstract Phytoplankton community assessment using functional groups is a powerful tool for lake and reservoir biomonitoring, but its efficiency has only been tested in intersite, low-frequency datasets. Here, we took advantage of a gradient of spatially close, but environmentally contrasting, meso- to hypereutrophic reservoirs in Southeast Brazil, to compare the efficiency of morphology-based functional classification (MBFC), phylum-level, and species-level classification for high-frequency, i.e. monthly, biomonitoring. Monitoring of water physical and chemical characteristics revealed the presence of two independent environmental gradients, with the first being related to total phosphorus and suspended solids concentrations, as well as Secchi depth, and the second related to dissolved inorganic nitrogen, water temperature and pH. The species approach had the highest power to explain environmental variation in assemblage structure (21% vs 16% and 17%, in the phylum and MBFC approaches). Although both simplified classifications showed similar explanatory power, MBFC allowed a better differentiation of reservoir assemblages. As the MBFC approach is also the least resource intensive, it may be preferable for routine biomonitoring, or to process large sample numbers. Nonetheless, species-level classification provided the most detailed information on assemblage dynamics and is therefore an important option for scientific studies." @default.
W2912176387 created "2019-02-21" @default.
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W2912176387 date "2019-06-01" @default.
W2912176387 modified "2023-09-24" @default.
W2912176387 title "Phytoplankton assemblage composition as an environmental indicator in routine lentic monitoring: Taxonomic versus functional groups" @default.
W2912176387 cites W1930965550 @default.
W2912176387 cites W1974514456 @default.
W2912176387 cites W1975290964 @default.
W2912176387 cites W1975453284 @default.
W2912176387 cites W1980174236 @default.
W2912176387 cites W1980519304 @default.
W2912176387 cites W1986693559 @default.
W2912176387 cites W1987205608 @default.
W2912176387 cites W1994688497 @default.
W2912176387 cites W2001200569 @default.
W2912176387 cites W2017037005 @default.
W2912176387 cites W2019427036 @default.
W2912176387 cites W2021202134 @default.
W2912176387 cites W2029955153 @default.
W2912176387 cites W2036734482 @default.
W2912176387 cites W2040303942 @default.
W2912176387 cites W2041104363 @default.
W2912176387 cites W2059998622 @default.
W2912176387 cites W2060505969 @default.
W2912176387 cites W2063392877 @default.
W2912176387 cites W2067799382 @default.
W2912176387 cites W2074242941 @default.
W2912176387 cites W2075761084 @default.
W2912176387 cites W2075838955 @default.
W2912176387 cites W2082469231 @default.
W2912176387 cites W2094565547 @default.
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W2912176387 cites W2102344592 @default.
W2912176387 cites W2104278903 @default.
W2912176387 cites W2106490071 @default.
W2912176387 cites W2109628725 @default.
W2912176387 cites W2111727391 @default.
W2912176387 cites W2114628556 @default.
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W2912176387 cites W2119063453 @default.
W2912176387 cites W2119510208 @default.
W2912176387 cites W2121291834 @default.
W2912176387 cites W2135970775 @default.
W2912176387 cites W2136244736 @default.
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W2912176387 cites W2145649717 @default.
W2912176387 cites W2150761052 @default.
W2912176387 cites W2151138743 @default.
W2912176387 cites W2157456872 @default.
W2912176387 cites W2159414529 @default.
W2912176387 cites W2169979338 @default.
W2912176387 cites W2174615974 @default.
W2912176387 cites W2239362830 @default.
W2912176387 cites W2317006071 @default.
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W2912176387 doi "https://doi.org/10.1016/j.ecolind.2019.01.054" @default.
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