During a research cruise in July 1997 in the Gulf of Mexico we discovered a gas hydrate approximately 1 m thick and over 2 m in diameter which had recently breached the sea floor at a depth of 540 m. The hydrate surface visible from the submarine was considerably greater than that of any other reported hydrate. Two distinct color bands of hydrate were present in the same mound, and the entire exposed surface of the hydrate was infested (2500 individuals/m2) with 2 to 4 cm long worms, since described as a new species, Hesiocaeca methanicola, in the polychaete family Hesionidae (Desbruyères and Toulmond 1998). H. methanicola tissue stable isotope values are consistent with a chemoautotrophic food source. No evidence of chemoautotrophic symbionts was detected, but geochemical data support the presence of abundant free living bacteria on the hydrate. The activities of the polychaetes, grazing on the hydrate bacteria and supplying oxygen to their habitats, appears to contribute to the dissolution of hydrates in surface sediments.
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Contributors
Publisher
Springer-Verlag
Date Issued
2000
Note
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Type
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Extent
5 p.
Subject (Topical)
Identifier
2783211
Additional Information
During a research cruise in July 1997 in the Gulf of Mexico we discovered a gas hydrate approximately 1 m thick and over 2 m in diameter which had recently breached the sea floor at a depth of 540 m. The hydrate surface visible from the submarine was considerably greater than that of any other reported hydrate. Two distinct color bands of hydrate were present in the same mound, and the entire exposed surface of the hydrate was infested (2500 individuals/m2) with 2 to 4 cm long worms, since described as a new species, Hesiocaeca methanicola, in the polychaete family Hesionidae (Desbruyères and Toulmond 1998). H. methanicola tissue stable isotope values are consistent with a chemoautotrophic food source. No evidence of chemoautotrophic symbionts was detected, but geochemical data support the presence of abundant free living bacteria on the hydrate. The activities of the polychaetes, grazing on the hydrate bacteria and supplying oxygen to their habitats, appears to contribute to the dissolution of hydrates in surface sediments.
This manuscript is a version of an article with the final publication found online at http://www.springerlink.com and may be cited as: Fisher, C. R., I. R. MacDonald, R. Sassen, C. M. Young, S. A. Macko, S. Hourdez, R. S. Carney, S. Joye and E. McMullin (2000) Methane Ice Worms: Hesiocaeca methanicola Colonizing Fossil Fuel Reserves, Naturwissenschaften 87:184–187 DOI: 10.1007/s001140050700
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution #1361.
Date Backup
2000
Date Text
2000
DOI
10.1007/s001140050700
Date Issued (EDTF)
2000
Extension
FAU
FAU
admin_unit="FAU01", ingest_id="ing7722", creator="creator:SPATEL", creation_date="2010-10-07 13:08:21", modified_by="super:FAUDIG", modification_date="2014-02-10 10:41:27"
IID
FADT2783211
Issuance
single unit
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Attributed name: Harbor Branch Oceanographic Institute
Person Preferred Name
Fisher, C.R.
creator
Physical Description
5 p.
Title Plain
Methane ice worms, Hesiocaeca methanicola, colonizing fossil fuel reserves
Origin Information
Springer-Verlag
2000
single unit
Title
Methane ice worms, Hesiocaeca methanicola, colonizing fossil fuel reserves
Other Title Info
Methane ice worms, Hesiocaeca methanicola, colonizing fossil fuel reserves