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Benthic Foraminiferal response to sea level change in the mixed siliciclastic-carbonate system of southern Ashmore Trough (Gulf of Papua)

dc.contributor.authorOpdyke, Bradley
dc.contributor.authorCarson, Brooke E
dc.contributor.authorFrancis, Jason M
dc.contributor.authorLeckie, R M
dc.contributor.authorDroxler, Andre W
dc.contributor.authorDickens, GR
dc.contributor.authorJorry, Stephan J
dc.contributor.authorBentley, Sam J
dc.contributor.authorPeterson, Larry C
dc.date.accessioned2011-07-12T00:54:11Z
dc.date.available2011-07-12T00:54:11Z
dc.date.issued2008-03-14
dc.date.updated2015-12-08T08:41:35Z
dc.description.abstractAshmore Trough in the western Gulf of Papua (GoP) represents an outstanding modern example of a tropical mixed siliciclastic-carbonate depositional system where significant masses of both river-borne silicates and bank-derived neritic carbonates accumulate. In this study, we examine how benthic foraminiferal populations within Ashmore Trough vary in response to sea level–driven paleoenvironmental changes, particularly organic matter and sediment supply. Two 11.3-m-long piston cores and a trigger core were collected from the slope of Ashmore Trough and dated using radiocarbon and oxygen isotope measurements of planktic foraminifera. Relative abundances, principal component analyses, and cluster analyses of benthic foraminiferal assemblages in sediment samples identify three distinct assemblages whose proportions changed over time. Assemblage 1, with high abundances of Uvigerina peregrina and Bolivina robusta, dominated between ∼83 and 70 ka (early regression); assemblage 2, with high abundances of Globocassidulina subglobosa, dominated between ∼70 and 11 ka (late regression through lowstand and early transgression); and assemblage 3, with high abundances of neritic benthic species such as Planorbulina mediterranensis, dominated from ∼11 ka to the present (late transgression through early highstand). Assemblage 1 represents heightened organic carbon flux or lowered bottom water oxygen concentration, and corresponds to a time of maximum siliciclastic fluxes to the slope with falling sea level. Assemblage 2 reflects lowered organic carbon flux or elevated bottom water oxygen concentration, and corresponds to an interval of lowered siliciclastic fluxes to the slope due to sediment bypass during sea level lowstand. Assemblage 3 signals increased off-shelf delivery of neritic carbonates, likely when carbonate productivity on the outer shelf (Great Barrier Reef) increased significantly when it was reflooded. Benthic foraminiferal assemblages in the sediment sink (slopes of Ashmore Trough) likely respond to the amount and type of sediment supplied from the proximal source (outer GoP shelf).
dc.format18 pages
dc.identifier.issn0148-0227
dc.identifier.urihttp://hdl.handle.net/1885/8119
dc.publisherAmerican Geophysical Union
dc.rightshttp://www.agu.org/pubs/authors/usage_permissions.shtml "Permission to Deposit an Article in an Institutional Repository Adopted by Council 13 December 2009 AGU allows authors to deposit their journal articles if the version is the final published citable version of record, the AGU copyright statement is clearly visible on the posting, and the posting is made 6 months after official publication by the AGU." - from publisher web site (as at 5/7/11)
dc.sourceJournal of Geophysical Research 113 (2008): F01S20/1-18
dc.source.urihttp://www.agu.org/pubs/crossref/2008/2006JF000629.shtmlen_AU
dc.subjectPapua New Guinea, margins, foraminifera
dc.titleBenthic Foraminiferal response to sea level change in the mixed siliciclastic-carbonate system of southern Ashmore Trough (Gulf of Papua)
dc.typeJournal article
dcterms.dateAccepted2007-10-09
local.bibliographicCitation.issueF01S20
local.bibliographicCitation.startpage18
local.contributor.affiliationCarson, Brooke E., Rice University
local.contributor.affiliationFrancis, Jason M., Rice University
local.contributor.affiliationLeckie, R M, University of Massachusetts
local.contributor.affiliationDroxler, Andre W., Rice University
local.contributor.affiliationDickens, GR, Rice University
local.contributor.affiliationJorry, Stephan J., Rice University
local.contributor.affiliationBentley, Sam J., Memorial University of Newfoundland
local.contributor.affiliationPeterson, Larry C., Rosenstiel School of Marine and Atmospheric Science, University of Miami
local.contributor.affiliationOpdyke, Bradley, College of Physical and Mathematical Sciences, ANU
local.contributor.authoruidu9405616en_AU
local.identifier.absfor040310 - Sedimentology
local.identifier.ariespublicationu3533991xPUB92
local.identifier.citationvolume113
local.identifier.doi10.1029/2006JF000629
local.identifier.scopusID2-s2.0-44449128052
local.identifier.thomsonID000254166700002
local.publisher.urlhttp://www.agu.org/en_AU
local.type.statusPublished Versionen_AU

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