Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments

We examine the linkage between the sediment geochemical milieu and the process of carbonate degradation over a wide range of continental shelf and slope sediments using molluscan shells deployed for 13 years by the Shelf and Slope Experimental Taphonomy Initiative (SSETI). Geochemical characterizati...

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Published in:PALAIOS
Main Authors: Powell, Eric N., Hu, Xinping, Cai, Wei-Jun, Ashton-Alcox, Kathryn A., Parsons-Hubbard, Karla, Walker, Sally E.
Format: Text
Language:English
Published: Digital Commons at Oberlin 2012
Subjects:
Molluscan death assemblages
Hydrocarbon seep communities
Paleocommunity reconstruction
Chemosynthetic communities
Population-dynamics
Ocean acidification
Fossil assemblages
Larval settlement
Bivalve taphonomy
Calcium-carbonate
Geology
Online Access:https://digitalcommons.oberlin.edu/faculty_schol/3424
https://doi.org/10.2110/palo.2011.p11-116r
id ftoberlincollege:oai:digitalcommons.oberlin.edu:faculty_schol-4423
record_format openpolar
spelling ftoberlincollege:oai:digitalcommons.oberlin.edu:faculty_schol-4423 2023-05-15T17:51:57+02:00 Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments Powell, Eric N. Hu, Xinping Cai, Wei-Jun Ashton-Alcox, Kathryn A. Parsons-Hubbard, Karla Walker, Sally E. 2012-09-25T07:00:00Z https://digitalcommons.oberlin.edu/faculty_schol/3424 https://doi.org/10.2110/palo.2011.p11-116r English eng Digital Commons at Oberlin https://digitalcommons.oberlin.edu/faculty_schol/3424 https://dx.doi.org/10.2110/palo.2011.p11-116r Faculty & Staff Scholarship Molluscan death assemblages Hydrocarbon seep communities Paleocommunity reconstruction Chemosynthetic communities Population-dynamics Ocean acidification Fossil assemblages Larval settlement Bivalve taphonomy Calcium-carbonate Geology text 2012 ftoberlincollege https://doi.org/10.2110/palo.2011.p11-116r 2022-11-26T18:29:03Z We examine the linkage between the sediment geochemical milieu and the process of carbonate degradation over a wide range of continental shelf and slope sediments using molluscan shells deployed for 13 years by the Shelf and Slope Experimental Taphonomy Initiative (SSETI). Geochemical characterization of the environment of preservation included the breadth of the pore-water carbonate undersaturation window, a depthintegrated carbonate dissolution index, the depth of minimum pore-water saturation, diffusive fluxes of oxygen and calcium, average sulfate and chloride concentration in the upper 5 cm, and the carbonate and organic carbon fractions in the same sedimentary horizon. Taphonomic indices included the maximum degree of dissolution; average dissolution; the incidences of chalkiness, pitting, deep dissolution, and a soft shell surface; the maximum degree of discoloration; the incidences of fading, gray-to-black discoloration, brown discoloration, and orange discoloration; the presence of pyrite; and edge rounding. Geochemical variables characterize the extent of most taphonomic processes with high three-variable multiple regression coefficients (R-2 > 0.85). Dissolution was most intense at petroleum seeps where enhanced sediment respiration fueled by petroleum carbon and oxidation of reduced species (e.g., H2S) resulted in acute porewater carbonate undersaturation near the sediment-water interface and high diffusive oxygen flux. In contrast, discoloration occurred as often or more commonly in shelf and slope sediments that were not subject to seep influence. The tendency for correlations between many taphonomic metrics, including those relating to dissolution, pyritization, and discoloration, and the breadths of the calcite/aragonite undersaturation windows, Omega(calcite), and oxygen flux emphasize the importance of near-surface geochemical conditions relating to organic carbon decomposition in determining the degree and type of carbonate degradation occuring at SSETI sites. Text Ocean acidification Digital Commons at Oberlin (Oberlin College) PALAIOS 27 8 571 584
institution Open Polar
collection Digital Commons at Oberlin (Oberlin College)
op_collection_id ftoberlincollege
language English
topic Molluscan death assemblages
Hydrocarbon seep communities
Paleocommunity reconstruction
Chemosynthetic communities
Population-dynamics
Ocean acidification
Fossil assemblages
Larval settlement
Bivalve taphonomy
Calcium-carbonate
Geology
spellingShingle Molluscan death assemblages
Hydrocarbon seep communities
Paleocommunity reconstruction
Chemosynthetic communities
Population-dynamics
Ocean acidification
Fossil assemblages
Larval settlement
Bivalve taphonomy
Calcium-carbonate
Geology
Powell, Eric N.
Hu, Xinping
Cai, Wei-Jun
Ashton-Alcox, Kathryn A.
Parsons-Hubbard, Karla
Walker, Sally E.
Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments
topic_facet Molluscan death assemblages
Hydrocarbon seep communities
Paleocommunity reconstruction
Chemosynthetic communities
Population-dynamics
Ocean acidification
Fossil assemblages
Larval settlement
Bivalve taphonomy
Calcium-carbonate
Geology
description We examine the linkage between the sediment geochemical milieu and the process of carbonate degradation over a wide range of continental shelf and slope sediments using molluscan shells deployed for 13 years by the Shelf and Slope Experimental Taphonomy Initiative (SSETI). Geochemical characterization of the environment of preservation included the breadth of the pore-water carbonate undersaturation window, a depthintegrated carbonate dissolution index, the depth of minimum pore-water saturation, diffusive fluxes of oxygen and calcium, average sulfate and chloride concentration in the upper 5 cm, and the carbonate and organic carbon fractions in the same sedimentary horizon. Taphonomic indices included the maximum degree of dissolution; average dissolution; the incidences of chalkiness, pitting, deep dissolution, and a soft shell surface; the maximum degree of discoloration; the incidences of fading, gray-to-black discoloration, brown discoloration, and orange discoloration; the presence of pyrite; and edge rounding. Geochemical variables characterize the extent of most taphonomic processes with high three-variable multiple regression coefficients (R-2 > 0.85). Dissolution was most intense at petroleum seeps where enhanced sediment respiration fueled by petroleum carbon and oxidation of reduced species (e.g., H2S) resulted in acute porewater carbonate undersaturation near the sediment-water interface and high diffusive oxygen flux. In contrast, discoloration occurred as often or more commonly in shelf and slope sediments that were not subject to seep influence. The tendency for correlations between many taphonomic metrics, including those relating to dissolution, pyritization, and discoloration, and the breadths of the calcite/aragonite undersaturation windows, Omega(calcite), and oxygen flux emphasize the importance of near-surface geochemical conditions relating to organic carbon decomposition in determining the degree and type of carbonate degradation occuring at SSETI sites.
format Text
author Powell, Eric N.
Hu, Xinping
Cai, Wei-Jun
Ashton-Alcox, Kathryn A.
Parsons-Hubbard, Karla
Walker, Sally E.
author_facet Powell, Eric N.
Hu, Xinping
Cai, Wei-Jun
Ashton-Alcox, Kathryn A.
Parsons-Hubbard, Karla
Walker, Sally E.
author_sort Powell, Eric N.
title Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments
title_short Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments
title_full Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments
title_fullStr Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments
title_full_unstemmed Geochemical Controls on Carbonate Shell Taphonomy in Northern Gulf of Mexico Continental Shelf and Slope Sediments
title_sort geochemical controls on carbonate shell taphonomy in northern gulf of mexico continental shelf and slope sediments
publisher Digital Commons at Oberlin
publishDate 2012
url https://digitalcommons.oberlin.edu/faculty_schol/3424
https://doi.org/10.2110/palo.2011.p11-116r
genre Ocean acidification
genre_facet Ocean acidification
op_source Faculty & Staff Scholarship
op_relation https://digitalcommons.oberlin.edu/faculty_schol/3424
https://dx.doi.org/10.2110/palo.2011.p11-116r
op_doi https://doi.org/10.2110/palo.2011.p11-116r
container_title PALAIOS
container_volume 27
container_issue 8
container_start_page 571
op_container_end_page 584
_version_ 1766159250169528320

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