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MEPS 215:93-106 (2001)
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Abstract
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Trophic importance of epiphytic algae in subtropical seagrass beds: evidence from multiple stable isotope analyses
Cynthia A. Moncreiff1,*, Michael J. Sullivan2
1Department of Coastal Sciences, College of Marine Sciences, University of Southern Mississippi, Gulf Coast Research Laboratory, PO Box 7000, Ocean Springs, Mississippi 39566-7000, USA
2Department of Biological Sciences, PO Box GY, Mississippi State University, Mississippi State, Mississippi 39762, USA
*E-mail: cynthia.moncreiff@usm.edu
ABSTRACT: Multiple stable isotope analyses were employed to examine food web dynamics in a northern Gulf of Mexico seagrass system in which epiphytic algae were the single most important primary productivity component, being responsible for 46 and 60% of
total system and benthic primary production, respectively. The seagrass Halodule wrightii Ascherson contributed only 13% to total system primary production on an annual basis. Stable isotope ratios of carbon (d13C), nitrogen (d15N), and sulfur (d34S) were measured for producer and consumer samples collected from May 1989 through November 1992. Epiphytes
and leaves of H. wrightii had distinct d13C values (-17.5 vs -12[per thou], respectively) as well as distinct d34S values[per thou] (+18 vs +11[per thou], respectively). d13C values for the sand microflora, occasional macroalgae, and phytoplankton were -16, -17, and -22[per thou], respectively; d15N values were lowest for epiphytes and H. wrightii
(+6[per thou]) and highest for phytoplankton (+10[per thou]). Virtually all consumers had d13C values that fell within a narrow range of - 20 to -15[per thou], which included all d13C values of epiphytes
and the sand microflora but none of those for either H. wrightii or phytoplankton. Values for d15N for consumers fell within a range of +8 to +16[per thou], spanning herbivorous species with diets of microalgae
to carnivorous species feeding at secondary to tertiary levels in the local food webs. Consumer values for d34S ranged from +4 to +20[per thou] (mean = 14.2[per thou]), and indicate a stronger influence of seawater-derived sulfate than
sediment-associated sulfides. The stable isotope data, in combination with measured high biomass and primary production rates of the epiphytic algae, strongly suggest that these algae are the primary source of organic matter for higher trophic levels in
seagrass beds of Mississippi Sound. The contribution of H. wrightii to the food web appears to be minimal. The overall picture that has emerged based on the present and previous stable isotope studies is one of the major trophic importance
of benthic microalgae (i.e. epiphytic and sediment-associated) in seagrass beds.
KEY WORDS: Multiple stable isotope analyses · Food web · Seagrass · Trophic relationships
Full text in pdf format
Published in MEPS Vol.
215
(2001) on May 31
Print ISSN: 0171-8630; Online ISSN: 1616-1599.
Copyright © Inter-Research, Oldendorf/Luhe, 2001
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