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Sources of organic carbon for Rimicaris hybisae: Tracing individual fatty acids at two hydrothermal vent fields in the Mid-Cayman rise

Publication ,  Journal Article
Streit, K; Bennett, SA; Van Dover, CL; Coleman, M
Published in: Deep-Sea Research Part I: Oceanographic Research Papers
June 1, 2015

Hydrothermal vents harbor ecosystems mostly decoupled from organic carbon synthesized with the energy of sunlight (photosynthetic carbon source) but fueled instead by oxidation of reduced compounds to generate a chemosynthetic carbon source. Our study aimed to disentangle photosynthetic and chemosynthetic organic carbon sources for the shrimp species Rimicaris hybisae, a primary consumer presumed to obtain its organic carbon mainly from ectosymbiotic chemoautotrophic bacteria living on its gill cover membrane. To provide ectosymbionts with ideal conditions for chemosynthesis, these shrimp live in dense clusters around vent chimneys; they are, however, also found sparsely distributed adjacent to diffuse vent flows, where they might depend on alternative food sources. Densely and sparsely distributed shrimp were sampled and dissected into abdominal tissue and gill cover membrane, covered with ectosymbiotic bacteria, at two hydrothermal vent fields in the Mid-Cayman rise that differ in vent chemistry. Fatty acids (FA) were extracted from shrimp tissues and their carbon isotopic compositions assessed. The FA data indicate that adult R. hybisae predominantly rely on bacteria for their organic carbon needs. Their FA composition is dominated by common bacterial FA of the n7 family (~41%). Bacterial FA of the n4 FA family are also abundant and found to constitute good biomarkers for gill ectosymbionts. Sparsely distributed shrimp contain fractions of n4 FA in gill cover membranes ~4% lower than densely packed ones (~18%) and much higher fractions of photosynthetic FA in abdominal tissues, ~4% more (compared with 1.6%), suggesting replacement of ectosymbionts along with exoskeletons (molt), while they take up alternative diets of partly photosynthetic organic carbon. Abdominal tissues also contain photosynthetic FA from a second source taken up presumably during an early dispersal phase and still present to c. 3% in adult shrimp. The contribution of photosynthetic carbon to the FA pool of adult R. hybisae is, however, overall small (max. 8%). Significant differences in carbon isotopic values of chemosynthetically derived FA between vent fields suggest that different dominant C fixation pathways are being used.

Duke Scholars

Published In

Deep-Sea Research Part I: Oceanographic Research Papers

DOI

ISSN

0967-0637

Publication Date

June 1, 2015

Volume

100

Start / End Page

13 / 20

Related Subject Headings

  • Oceanography
  • 3708 Oceanography
  • 0405 Oceanography
  • 0403 Geology
  • 0402 Geochemistry
 

Citation

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MLA
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Streit, K., Bennett, S. A., Van Dover, C. L., & Coleman, M. (2015). Sources of organic carbon for Rimicaris hybisae: Tracing individual fatty acids at two hydrothermal vent fields in the Mid-Cayman rise. Deep-Sea Research Part I: Oceanographic Research Papers, 100, 13–20. https://doi.org/10.1016/j.dsr.2015.02.003
Streit, K., S. A. Bennett, C. L. Van Dover, and M. Coleman. “Sources of organic carbon for Rimicaris hybisae: Tracing individual fatty acids at two hydrothermal vent fields in the Mid-Cayman rise.” Deep-Sea Research Part I: Oceanographic Research Papers 100 (June 1, 2015): 13–20. https://doi.org/10.1016/j.dsr.2015.02.003.
Streit K, Bennett SA, Van Dover CL, Coleman M. Sources of organic carbon for Rimicaris hybisae: Tracing individual fatty acids at two hydrothermal vent fields in the Mid-Cayman rise. Deep-Sea Research Part I: Oceanographic Research Papers. 2015 Jun 1;100:13–20.
Streit, K., et al. “Sources of organic carbon for Rimicaris hybisae: Tracing individual fatty acids at two hydrothermal vent fields in the Mid-Cayman rise.” Deep-Sea Research Part I: Oceanographic Research Papers, vol. 100, June 2015, pp. 13–20. Scopus, doi:10.1016/j.dsr.2015.02.003.
Streit K, Bennett SA, Van Dover CL, Coleman M. Sources of organic carbon for Rimicaris hybisae: Tracing individual fatty acids at two hydrothermal vent fields in the Mid-Cayman rise. Deep-Sea Research Part I: Oceanographic Research Papers. 2015 Jun 1;100:13–20.
Journal cover image

Published In

Deep-Sea Research Part I: Oceanographic Research Papers

DOI

ISSN

0967-0637

Publication Date

June 1, 2015

Volume

100

Start / End Page

13 / 20

Related Subject Headings

  • Oceanography
  • 3708 Oceanography
  • 0405 Oceanography
  • 0403 Geology
  • 0402 Geochemistry