TY - JOUR
T1 - Community structure of vestimentiferan-generated habitat islands from Gulf of Mexico cold seeps
AU - Bergquist, Derk C.
AU - Ward, Tracy
AU - Cordes, Erik E.
AU - McNelis, Tim
AU - Howlett, Sarah
AU - Kosoff, Rachel
AU - Hourdez, Stephane
AU - Carney, Robert
AU - Fisher, Charles R.
N1 - Funding Information:
This work was supported by the Mineral Management Service project RFP-6899 and the Minerals Management Service, Gulf of Mexico Regional OCS Office through contract number 1435-01-96-CT30813 and the NOAA National Undersea Research Program at the University of North Carolina, Wilmington. The following individuals provided assistance with taxonomic identifications: T. Shank (crustaceans), J. Ambler (crustaceans), P. Young (cirripeds), J. McEachran (fish), E. Powell (bivalves), J. Harasewich (gastropods), J. Fajans (gastropods), M. Rice (sipunculids). We would like to thank Emily Smith, Erin McMullin, John Freytag, Jason Andras, and Andrew Olaharski for assistance at sea and Ryan Moore, Sean Murphy, JT Eckner, John Hunter, and Eileen McTague for assistance in the lab. Mark van Horn provided critical technical assistance both at sea and in the lab. Special thanks are due to Harbor Branch Oceanographic Institution, Chris Tietz and the captains, pilots and crew and the R/V Seward Johnson and the DSRV Johnson Sea Link. [RW]
Copyright:
Copyright 2017 Elsevier B.V., All rights reserved.
PY - 2003/5/13
Y1 - 2003/5/13
N2 - Biologically generated structures create habitat and influence the distribution and abundance of species in many marine systems. In the rather monotonous and nutrient-poor environment of the deep-sea, cold seep environments and their associated chemosynthetic communities offer islands of primary production and habitat to a generally sparsely distributed macrofauna. In this study, we investigate the structure of macrofaunal assemblages associated with vestimentiferan aggregations on the upper Louisiana slope of the Gulf of Mexico and the relationships between assemblage composition and the size and complexity of the vestimentiferan-generated habitat. Using custom-designed and custom-built devices, we collected seven whole vestimentiferan aggregations along with their associated fauna during the summers of 1997 and 1998. Sixty-five species were found associated with the four vestimentiferan aggregations collected in 1998, more than doubling the number of species previously reported for seeps in this region. Individual aggregations contained between 23 and 44 different nonvestimentiferan species. General trends of increasing species richness with increasing habitat size and increasing faunal density with increasing habitat complexity were identified, but substantial variability suggested other factors also control the composition of faunal associates. Faunal abundances decreased with increasing aggregation age. Seep endemics dominated the communities of younger aggregations, but non-endemic species dominated communities of older aggregations. Relative dominance of the heterotrophic community by primary consumers decreased, while predatory secondary and higher-order consumers increased with increasing aggregation age. These trends are discussed in terms of successional changes in aggregation structure, habitat heterogeneity and environmental conditions.
AB - Biologically generated structures create habitat and influence the distribution and abundance of species in many marine systems. In the rather monotonous and nutrient-poor environment of the deep-sea, cold seep environments and their associated chemosynthetic communities offer islands of primary production and habitat to a generally sparsely distributed macrofauna. In this study, we investigate the structure of macrofaunal assemblages associated with vestimentiferan aggregations on the upper Louisiana slope of the Gulf of Mexico and the relationships between assemblage composition and the size and complexity of the vestimentiferan-generated habitat. Using custom-designed and custom-built devices, we collected seven whole vestimentiferan aggregations along with their associated fauna during the summers of 1997 and 1998. Sixty-five species were found associated with the four vestimentiferan aggregations collected in 1998, more than doubling the number of species previously reported for seeps in this region. Individual aggregations contained between 23 and 44 different nonvestimentiferan species. General trends of increasing species richness with increasing habitat size and increasing faunal density with increasing habitat complexity were identified, but substantial variability suggested other factors also control the composition of faunal associates. Faunal abundances decreased with increasing aggregation age. Seep endemics dominated the communities of younger aggregations, but non-endemic species dominated communities of older aggregations. Relative dominance of the heterotrophic community by primary consumers decreased, while predatory secondary and higher-order consumers increased with increasing aggregation age. These trends are discussed in terms of successional changes in aggregation structure, habitat heterogeneity and environmental conditions.
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U2 - 10.1016/S0022-0981(03)00046-7
DO - 10.1016/S0022-0981(03)00046-7
M3 - Article
AN - SCOPUS:0037435406
SN - 0022-0981
VL - 289
SP - 197
EP - 222
JO - Journal of Experimental Marine Biology and Ecology
JF - Journal of Experimental Marine Biology and Ecology
IS - 2
ER -