Deep Drilling into the Chesapeake Bay Impact Structure

Deep Drilling into the Chesapeake Bay Impact Structure

Samples from a 1.76-kilometer-deep corehole drilled near the center of the late Eocene Chesapeake Bay impact structure (Virginia, USA) reveal its geologic, hydrologic, and biologic history. We conducted stratigraphic and petrologic analyses of the cores to elucidate the timing and results of impact-...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2008-06, Vol.320 (5884), p.1740-1745
Hauptverfasser: Gohn, G.S, Koeberl, C, Miller, K.G, Reimold, W.U, Browning, J.V, Cockell, C.S, Horton, J.W. Jr, Kenkmann, T, Kulpecz, A.A, Powars, D.S, Sanford, W.E, Voytek, M.A
Format: Artikel
Sprache:eng
Schlagworte:
Applied geophysics
Bacteria - growth & development
Bacteria - isolation & purification
Brackish
Breccia
Cosmochemistry. Extraterrestrial geology
Drilling
Earth sciences
Earth, ocean, space
Ecosystem
Exact sciences and technology
Geologic Sediments - chemistry
Geologic Sediments - microbiology
Geology
Granite
Groundwater
Hot Temperature
Hydrology
Impact craters
Internal geophysics
Meteorites. Tectites. Impactites
Oceanography
Petrology
Research Article
Rocks
Salinity
Sand
Seawater
Sedimentary breccias
Sediments
Stratigraphy
Time
Virginia
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Beschreibung
Zusammenfassung:Samples from a 1.76-kilometer-deep corehole drilled near the center of the late Eocene Chesapeake Bay impact structure (Virginia, USA) reveal its geologic, hydrologic, and biologic history. We conducted stratigraphic and petrologic analyses of the cores to elucidate the timing and results of impact-melt creation and distribution, transient-cavity collapse, and ocean-water resurge. Comparison of post-impact sedimentary sequences inside and outside the structure indicates that compaction of the crater fill influenced long-term sedimentation patterns in the mid-Atlantic region. Salty connate water of the target remains in the crater fill today, where it poses a potential threat to the regional groundwater resource. Observed depth variations in microbial abundance indicate a complex history of impact-related thermal sterilization and habitat modification, and subsequent post-impact repopulation.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1158708