TY - JOUR
T1 - Habitat, growth and physiological ecology of a basaltic community of Ridgeia piscesae from the Juan de Fuca Ridge
AU - Urcuyo, Istvan A.
AU - Massoth, Gary J.
AU - Julian, David
AU - Fisher, Charles R.
N1 - Funding Information:
The authors would like to express their appreciation to the captains and crews of the research vessels J.P. Tulley, T.G. Thompson and Atlantis, and the pilots and engineers of the ROV ROPOS and DSRV ALVIN without whose skills this type of research would not be possible. Thanks to Chris Tietze and the Harbor Branch Oceanographic Institution Engineering Division for the design and construction of the vestimentiferan Stainer and Bushmaster devices. We would also like to thank Dr. Stephen Gardiner for his help, JT Eckner, Jennie Bubb, Tara Pundiak, Patricia Murray, Aaron Podey, Jonathan Dohanich, and REVEL teachers Kathleen Heidenreich and Kerry Wilson for technical assistance at sea and in the lab. Thanks to Drs. Ted Williams, Verena Tunnicliffe and Derk Bergquist for helpful discussions and review of earlier versions of the manuscript. The NOAA West Coast National Undersea Research Center, NOAA VENTS Program, NSF grants EAR-9158113 and OCE-9633105 to CRF, and the NSF REVEL program supported this work.
PY - 2003/6
Y1 - 2003/6
N2 - The vestimentiferan tubeworm Ridgeia piscesae is an ecosystem-structuring organism in the hydrothermal vent environments of the Northeast Pacific. During this study, a single representative aggregation of the long-skinny morphotype of R. piscesae from the main endeavor segment was monitored for 3 yr before being collected in its entirety with a hydraulically actuated collection device manipulated in situ by a research vehicle. Vestimentiferan growth rates in this aggregation were determined by staining the exterior of the tubes and measuring newly deposited tube sections. The average growth rate of R. piscesae in this aggregation was very low in both years of the growth study (3.2 mm yr -1). Although the incidence of plume damage from partial predation was very high (>95%), mortality was very low (<4% yr-1). The distribution and the very tight clustering of recently recruited individuals indicated gregarious settlement behavior that is hypothesized to be partly due to biotic cues from settled larvae. Coupled measurements of vent fluid sulfide concentration and temperature were used to calculate the exposure of the vestimentiferans to sulfide from short-and long-term temperature monitoring. Plume-level temperature records indicate that most of the time individuals in this aggregation were exposed to extremely low levels of vent fluid, and therefore sulfide (<0.1 μM), while their posterior sections were consistently exposed to sulfide concentrations in the 100 μM range. A rootball-like structure formed the common base of the aggregation. In contrast to the anterior sections of the tubeworm tubes, the portions of the tubes within the "rootball" were freely permeable to sulfide. The results of this study show that R. piscesae, unlike vestimentiferans from the East Pacific Rise, can survive and grow in areas of low diffuse vent flow with very low plume-level exposure to sulfide. We propose that this morphotype of R. piscesae has the ability to acquire sulfide from sources near their posterior ends, similar to some species of cold seep vestimentiferans from the Gulf of Mexico. The ability of this single species of vestimentiferan to survive low exposure to vent flow with low mortality coupled with sulfide uptake across posterior tube sections may help explain the occurrence of a single vent vestimentiferan species in a wide variety of habitat conditions at hydrothermal vent sites in the Northeast Pacific.
AB - The vestimentiferan tubeworm Ridgeia piscesae is an ecosystem-structuring organism in the hydrothermal vent environments of the Northeast Pacific. During this study, a single representative aggregation of the long-skinny morphotype of R. piscesae from the main endeavor segment was monitored for 3 yr before being collected in its entirety with a hydraulically actuated collection device manipulated in situ by a research vehicle. Vestimentiferan growth rates in this aggregation were determined by staining the exterior of the tubes and measuring newly deposited tube sections. The average growth rate of R. piscesae in this aggregation was very low in both years of the growth study (3.2 mm yr -1). Although the incidence of plume damage from partial predation was very high (>95%), mortality was very low (<4% yr-1). The distribution and the very tight clustering of recently recruited individuals indicated gregarious settlement behavior that is hypothesized to be partly due to biotic cues from settled larvae. Coupled measurements of vent fluid sulfide concentration and temperature were used to calculate the exposure of the vestimentiferans to sulfide from short-and long-term temperature monitoring. Plume-level temperature records indicate that most of the time individuals in this aggregation were exposed to extremely low levels of vent fluid, and therefore sulfide (<0.1 μM), while their posterior sections were consistently exposed to sulfide concentrations in the 100 μM range. A rootball-like structure formed the common base of the aggregation. In contrast to the anterior sections of the tubeworm tubes, the portions of the tubes within the "rootball" were freely permeable to sulfide. The results of this study show that R. piscesae, unlike vestimentiferans from the East Pacific Rise, can survive and grow in areas of low diffuse vent flow with very low plume-level exposure to sulfide. We propose that this morphotype of R. piscesae has the ability to acquire sulfide from sources near their posterior ends, similar to some species of cold seep vestimentiferans from the Gulf of Mexico. The ability of this single species of vestimentiferan to survive low exposure to vent flow with low mortality coupled with sulfide uptake across posterior tube sections may help explain the occurrence of a single vent vestimentiferan species in a wide variety of habitat conditions at hydrothermal vent sites in the Northeast Pacific.
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U2 - 10.1016/S0967-0637(03)00061-X
DO - 10.1016/S0967-0637(03)00061-X
M3 - Article
AN - SCOPUS:0242339725
SN - 0967-0637
VL - 50
SP - 763
EP - 780
JO - Deep-Sea Research Part I: Oceanographic Research Papers
JF - Deep-Sea Research Part I: Oceanographic Research Papers
IS - 6
ER -