Project:	Trophic ecology of small hydromedusae: a new perspective on their function in coastal ecosystems
Principal Investigator:	Dian Gifford (University of Rhode Island)
Co-Principal Investigator:	John Costello (Providence College) Sean Colin (Roger Williams University)
BCO-DMO Data Manager:	Nancy Copley (Woods Hole Oceanographic Institution) Nancy Copley (Woods Hole Oceanographic Institution)
Validated:	yes
Data version:	Jan 24, 2012
Version date:	Nov 20, 2012

Dataset handle ID (e.g. DOI or other persistent identifier):

not yet assigned

Current state: Final no updates expected
Description: hydromedusae and zooplankton abundance in Naragansett Bay timeseries

The focus of the research is the trophic role of small (bell diameter < 5 mm) hydromedusae. Medusae are important, often highly selective, planktonic predators that can strongly affect standing stocks of metazoan zooplankton as well as fish eggs and larvae. The feeding rates, prey selection patterns and the underlying feeding mechanisms that have led to the success of large, conspicuous medusae have been well studied. However, most medusae are small. These small medusae are abundant, taxonomically diverse, and often have cosmopolitan distributions. Yet their feeding ecology is virtually unknown despite their status as the largest and most diverse group of gelatinous zooplankton in the sea.

The following hypotheses were tested:
    (1) Small hydromedusae feed in ways that enable them to utilize protistan prey, including microzooplankton as well as autotrophic protists typically regarded as phytoplankton. Consequently, these hydromedusae are omnivores utilizing microplankton prey rather than strict predators on metazoans.
    (2) The combination of high seasonal abundances of these small medusae in coastal waters and their omnivorous diet allows them to function as significant grazers of phytoplankton during periods of peak seasonal production.

Specific objectives of the research were:
    (1) Quantification of the ecological impact of small hydromedusae on their prey community. This objective will be accomplished by measuring the temporal distribution and abundance of hydromedusae and their potential microplankton and metazoan prey, quantifying feeding rates and prey selection, and confirming that the prey ingested are utilized for growth by the medusae.

    (2) Quantification of the mechanical basis of prey selection by the target organisms. This objective will be accomplished by evaluating the sequential components of feeding for each of the target species, predicting prey selection patterns from measured encounter, retention and capture efficiencies of different prey types, and comparing predictions derived from this analysis with empirical results from in situ feeding and prey selection studies.

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