| Title | The "Preservation Paradox"; microbes as a key exceptional fossil preservation in the Kirkpatrick Basalt (Jurassic), Antarctica |
| Author | Babcock, L.E.; Stigall, A.L.; Leslie, S.A.; Ford, L.A.; Elliot, D.H.; Briggs, D.E.G. |
| Author Affil | Babcock, L.E., Ohio State University, School of Earth Sciences, Columbus, OH. Other: University of Arkansas; Yale University |
| Source | The Sedimentary Record, 4(4), p.4-8, . Publisher: Society for Sedimentary Geology, Tulsa, OK, United States. ISSN: 1543- 8740 |
| Publication Date | Dec. 2006 |
| Notes | In English. 26 refs. GeoRef Acc. No: 297152 |
| Index Terms | Antarctica--Transantarctic Mountains; Antarctica--Victoria Land; Antarctica; Archaea; Archean; Arthropoda; Bivalvia; Branchiopoda; Carapacestheria; carbonate sediments; Chordata; Crustacea; Darwinula; depositional environment; Ferrar Group; fossilization; Insecta; Invertebrata; Jurassic; Kirpatrick Basalt; Lagerstatten; magmas; Mandibulata; Mesozoic; microfossils; Mollusca; Oreochima; Ostracoda; paleoecology; Pisces; Podocopida; Precambrian; preservation; sediments; SEM data; siliciclastics; soft parts; taphonomy; Transantarctic Mountains; Vertebrata; Victoria Land |
| Abstract | Thin sedimentary interbeds within the Kirkpatrick Basalt (Jurassic) of Antarctica harbor exquisitely preserved 'soft-bodied' organisms that lived in and around shallow freshwater lakes of the time, some of which were hydrothermally influenced. In the hottest pools, associated with magmatic vents, unusual carbonates were apparently precipitated by Archaea extremophiles adapted to living near active lava flows. In cooler lakes more distant to the vents, fine siliciclastic sediments record other communities of spinicaudatan ("conchostracan") and notostracan crustaceans, larval insects, fishes, and ostracodes much of which may have been sustained by microbial mats, which are also well preserved in the deposits. Along the lake-edge, carbonized leaves, peat or coal, and silicified logs are often found in association with paleosols. Notably, evidence of carnivory, a primary taphonomic filter, is essentially lacking in these sediments. Exceptional preservation of non- biomineralized or lightly skeletonized organisms, therefore, reflects the original diversity of non-biomineralized or lightly skeletonized organisms present. |
| URL | http://www.sepm.org/sedrecord/SR%204-4.pdf |
| Publication Type | journal article |
| Record ID | 87491 |