Subtidal food webs in a georgia estuary: δ13C analysis
1983; Elsevier BV; Volume: 67; Issue: 3 Linguagem: Inglês
10.1016/0022-0981(83)90041-2
ISSN1879-1697
AutoresEric H. Hughes, Evelyn B. Sherr,
Tópico(s)Geology and Paleoclimatology Research
ResumoStable carbon isotope compositions were analyzed for estuarine fauna collected in tidal creeks draining salt marshes dominated by either Spartina alterniflora Loisel. (δ13C of −12.5%.) or Juncus roemerianus Scheele (δ13C of −26%.). Mean δ13C values of subtidal invertebrates and fishes were −17.8%. and −17.5%. in the Spartina creek and −20.1%. and −20.0%. respectively in the two Juncus creeks. The intermediate δ13C values of the fauna implied an alternate carbon input to the food web, most probably benthic algae (δ13C of −16 to −18%.) and phytoplankton (δ13C of −20 to −22%.). In the Spartina marsh creek, animals with δ13C values less negative than −17%., e.g. mummichogs, mullet, and mud crabs, were most closely linked to the Spartina detritus/benthic algal food web, while species with δ13C values more negative than −19%., e.g. brown shrimp, menhaden, and oysters, were apparently more dependent on the phytoplankton food web. The data suggested that (1) marsh plant carbon is a component of subtidal food webs, (2) phytoplankton carbon is a more important food source for subtidal animals than for intertidal marsh fauna, (3) the subtidal food web is structured such that individual invertebrate and fish species show varying degrees of dependence on the detritus/benthic algae-based food web of the marsh vs. the phytoplankton-based food web of the tidal creek.
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