Open AccessJournal Article
The role of standing dead Spartina alterniflora and benthic microalgae in salt marsh food webs: considerations based on multiple stable isotope analysis
TLDR
In this article, the stable isotope compositions (C, N, and S) of hve, senescent, and standing dead Spartina alterniflora were compared in order to determine the effects of aerial decomposition on the isotopic signature of aboveground S. alternjflora entering the food chain, which indicated that N2fixing microorganisms associdated with microalgal communities were an important source of N to salt marsh consumers.Abstract:
The stable isotope compositions (C, N, and S) of hve, senescent, and standing dead Spartina alterniflora were compared in order to determine the effects of aerial decomposition on the isotopic signature of aboveground S. dlterniflora tissue entering the food chain. Aerial decomposition of aboveground S. alterniflora resulted in a 6 to 18% increase in P S , and a 2 to 3 % decrease in 615N values; 613c values were unchanged. We describe mechanisms whereby the activity of fungi and epiphytic microorganisms may contribute to the observed shlfts in and 6I5N, respectively. The 613c value of salt marsh benthic and eplphytic microalgae ranged from -13.0% in summer to -17.6%0 in early spring. Average 6'\" values of microalgae and standing dead S. altemiflora were -0 3 and l.?%, respectively, reflecting the activity of NZ-fixing microorganisms. The 615N values for omnivorous and herbivorous salt marsh macrofauna ranged between 7.5 and 2.2% and for predatory Fundulus spp. averaged 9.2%. Given a presumptive + 3 % trophic shift in N assimilation, these results suggest that N2-fixing microorganisms associdted with microalgal communities were an important source of N to salt marsh consumers. The 6% 6'\"N, and 6\"'s values of primary producers were compared to the values of the following consumers: Fundulus spp., Uca spp., Ilyanassa obsoleta, and Littoraria irrorata. 6I3C VS 6 1 5 ~ and 613C vs 63JS dual isotope plots demonstrated that microalgae and standing dead S. alternjflora are important food resources in the North Carolina (USA) marshes we sampled. In addition, a compilation of literature values suggests that this is true in salt marshes throughout the East and Gulf coasts of North America. Future isotope studies of marsh food webs should include detrital Spartina spp. material in analyses of trophic structure.read more
Citations
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Influence of Diet On the Distribtion of Nitrogen Isotopes in Animals
Michael J. DeNiro,Samuel Epstein +1 more
TL;DR: In this article, the influence of diet on the distribution of nitrogen isotopes in animals was investigated by analyzing animals grown in the laboratory on diets of constant nitrogen isotopic composition and found that the variability of the relationship between the δ^(15)N values of animals and their diets is greater for different individuals raised on the same diet than for the same species raised on different diets.
Dissertation
Ecological interactions and geological implications of foraminifera and associated meiofauna in temperate salt marshes of eastern canada
TL;DR: In this paper, a Mesocosm and Microcosm Experiments on the Feeding of Temperate Salt Marsh Foraminifera are described, and a taxonomic resolution and Tidal Gradients in Food Webs for Two Temperate salt Marshes: How Much Detail is Enough?
Dissertation
Assessment of mangrove and salt marsh mesocosm functional value using periwinkle snails, littoraria angulifera and littoraria irrorata, as an indicator
TL;DR: Swartwood et al. as mentioned in this paper investigated whether the age structure, population density, and distribution of Littoraria angulifera in the Smithsonian Institution's Florida Everglades mesocosm in Washington, DC is analogous to that of wild populations.
Dissertation
Isotope geochemistry of organic sulfur compounds with links to biogeochemical sulfur cycling and radical chemistry
TL;DR: Oduro et al. as mentioned in this paper reported one of the first sulfur isotope constraints on the factors that control the expression on the S-isotope effects of VOSCs and their natural precursors.
DissertationDOI
Anoxic metabolism in permeable sediments
TL;DR: This thesis investigates the pathways of dissolved inorganic carbon production in anoxic permeable sediments and the challenge of replicating flow conditions under anoxic conditions using FTRs and experimental design.
References
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Journal ArticleDOI
Sources of estuarine dissolved and particulate organic matter: A multi-tracer approach
TL;DR: In this article, the authors evaluate differences in the sources and potential transformations of organic matter (OM) using lipid biomarker, elemental ratios, and stable isotope (δ13C and δ15N) analyses.
Journal ArticleDOI
Temporal variation of delta13C in particulate organic matter and oyster Crassostrea gigas in Marennes-Oléron Bay (France): effect of freshwater inflow
TL;DR: The pattern exhibited by mid-estuarine oysters can be explained by the increasing contribution of terrestrial organic matter to their feeding, and the inability to preferentially utilize specific components of the estuarine POM that are C-13-enriched.
Journal ArticleDOI
Sulphur uptake by salt grasses, mangroves, and seagrasses in anaerobic sediments
TL;DR: Stable sulfur isotope analyses show that rooted estuarine plants growing in anoxic sediments incorporate substantial amounts of 34 S-depleted sulfides, or oxidation products thereof.
Journal Article
Trophic linkages among primary producers and consumers in fringing mangroves of subtropical lagoons
TL;DR: This article examined trophic linkages among primary producers (mangroves, seagrass, and algae) and consumers using stable carbon and nitrogen isotopes in fringe mangroves of the Bahamas and Biscayne Bay, Florida.
Journal ArticleDOI
Trophic relationships in the nearshore zone of Martel Inlet (King George Island, Antarctica): δ13C stable-isotope analysis
Thais Navajas Corbisier,Mônica Angélica Varella Petti,Rodrigo Soares Pereira de Skowronski,Tania A. S. Brito +3 more
TL;DR: The trophic web in the shallow zone of high benthic production and under seasonal ice cover in the Antarctic is more complex than it is in shelf areas, where SPM is the main food source.