Estuarine diversity of tintinnids (planktonic ciliates)

doi:10.1093/plankt/23.9.1009

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Journal of Plankton Research Vol.23 no.9 pp.1009-1027, 2001
© Oxford University Press 2001

Estuarine diversity of tintinnids (planktonic ciliates)

John R. Dolan¹^, and Charles L. Gallegos

Smithsonian Environmental Research Center, Po Box 28, Edgewater, Md 21037-0028, Usa

¹ Present Address And Address For Correspondence: Marine MicrobialEcology Group, Cnrs Esa 70776, station Zoologique, Pb 28, F-06230Villefranche-Sur-Mer, France

In Chesapeake Bay, a large eutrophic and partially stratifiedestuary, we investigated diversity among tintinnids (Ciliophora,suborder Tintinninia) in September 1999. In contrast with thetypical estuarine pattern, tintinnid diversity was high andincreased with decreasing salinity from the mouth of the bayto the mid-bay region. Peak species numbers and diversity values[20–25 species, H' (ln) = 2.4–2.5] were found instations in the mesohaline (14–17 ${per thousand}$ ) portion of the bay.Within the bay, diversity was not correlated with abundanceor food levels, as measured by chlorophyllfluorescence, norwith predator (copepod) concentration. However, because highcopepod concentrations corresponded to the less diverse southernbay populations, we examined the influence of copepods on tintinniddiversity in two field experiments using natural populationsand a size-fractionation approach. Similar copepod predationrates on abundant tintinnid species (0.4–1 ml clearedcopepod^–1 h^–1) were found in the experiments, butwith distinct impacts on tintinnid diversity. In a slow-growingcommunity of tintinnids, copepod predation decreased diversityrelative to changes in communities without copepods, while ina community highly dominated by a rapidly growing tintinnidspecies, copepod predation increased diversity. Our resultsshow that not all taxa found in estuaries are species poor,and in the highly dynamic plankton the relative influence offactors influencing diversity may change rapidly. Species richnessin the Chesapeake Bay appears predictable from latitude.

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