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Sulfide metabolism in Lucina floridana, a sulfur symbiont-containing marine clam

Lucina floridana is an intertidal clam that contains intracellular, sulfur-oxidizing
symbiotic bacteria in its gills. These bacteria are chemolithoautotrophic, using the energy
from the oxidation of reduced sulfur compounds to power carbon fixation. Although
sulfide is an energy-rich compound, it is also toxic to aerobic metabolism and autooxidizes
in the presence of oxygen. Flow-through experiments were designed to examine the
metabolic response to sulfide of the intact symbiosis. Three questions were addressed: 1)
What are the major sulfide oxidation products in the gill and in the hemolymph? 2) How
are sulfide and its major oxidation products distributed between the hemolymph and the
gill? and 3) What is the metabolic poise (use of aerobic or anaerobic metabolism) in the
gills during sulfide oxidation? The production of sulfide in the gills in response to various
sulfur starvation regimes was also examined.
Sulfide and its major oxidation products were determined using HPLC analysis of
incompletely oxidized sulfur compounds. The metabolic poise was assessed by measuring
the concentrations of substrates and products of anaerobic metabolism.
Sulfide was produced in the gills of Lucina floridana after five days of sulfur
starvation. The addition of invertebrate feed, a source of organic carbon for the clams, to
the seawater significantly reduced the concentration of sulfide in the gills following sulfur
starvation, suggesting that sulfide production was a consequence of symbiont oxidation of
reduced sulfur compounds in the gills to provide energy for carbon fixation. Sulfide was
oxidized to thiosulfate which was preferentially distributed in the hemolymph relative to
the gills, a pattern that is consistent with further oxidation of thiosulfate by the bacteria in
the gills for energy generation. This study was the first to investigate the metabolic poise
of a lucinid in response to varying oxygen and external sulfide treatments; evidence
suggests that anaerobic metabolism may be an important metabolic mode for Lucina
floridana. / Graduation date: 1998

Identiferoai:union.ndltd.org:ORGSU/oai:ir.library.oregonstate.edu:1957/33981
Date24 October 1997
CreatorsLarabee, Jeannine Kay
ContributorsAnderson, Amy E.
Source SetsOregon State University
Languageen_US
Detected LanguageEnglish
TypeThesis/Dissertation

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