Lu, Hongbo and Fulthorpe, Craig S. (2004): Controls on sequence stratigraphy of a middle Miocene-Holocene, current-swept, passive margin; offshore Canterbury Basin, New Zealand
Leg/Site/Hole:
Related Expeditions:
ODP 181
Identifier:
ID:
2004-085835
Type:
georefid
ID:
10.1130/B2525401.1
Type:
doi
Creator:
Name:
Lu, Hongbo
Affiliation:
University of Texas, Department of Geological Sciences, Austin, TX, United States
Role:
author
Name:
Fulthorpe, Craig S.
Affiliation:
Role:
author
Identification:
Title:
Controls on sequence stratigraphy of a middle Miocene-Holocene, current-swept, passive margin; offshore Canterbury Basin, New Zealand
Year:
2004
Source:
Geological Society of America Bulletin
Publisher:
Geological Society of America (GSA), Boulder, CO, United States
Volume:
116
Issue:
11-12
Pages:
1345-1366
Abstract:
The offshore Canterbury Basin exemplifies sequence development on a prograding passive margin influenced strongly by submarine currents. Nineteen middle Miocene-Holocene, regional, sequence-bounding unconformities are interpreted by using high-resolution multichannel seismic data. The sequences can be grouped into larger units based on seismic geometry and facies that reflect different combinations of controls on sequence architecture.Correlation with oxygen isotope records suggests that eustasy controls the timing of sequence boundaries. The number of sequences is similar to that of coeval cycles on a temperature-adjusted, Miocene and early Pliocene delta (super 18) O record. The late Pliocene-Pleistocene sequence record is of lower frequency than the isotopic record of this period, either because of the limitations of seismic resolution or because of removal of sequence boundaries by erosion associated with high-amplitude eustasy. However, the last two sequence boundaries correlate well with the last two 100 k.y. isotopic cycles.In contrast, sequence architecture is influenced strongly by local processes. Along-strike currents create large, elongate sediment drifts that control sequence thickness; current erosion in drift moats forms diachronous unconformities. Drifts focus deposition on the slope, reducing the rate of basinward advance of the shelf edge, but increasing that of the slope toe, thereby reducing slope inclination. Replacement of along-strike processes by downslope processes increases rates of shelf-edge progradation, and the slope steepens as the reduced accommodation space over the expanded slope is filled. Clinoform geometries along strike from active drifts suggest that currents might influence clinoform formation even in locations lacking seismic evidence of current reworking.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage: Geographic coordinates: North:-44.2000 West:171.0000 East:
173.0000 South:-45.3000
Keywords: Stratigraphy; algae; Australasia; biostratigraphy; bottom features; Canterbury Basin; Cenozoic; clastic sediments; Coccolithophoraceae; continental margin sedimentation; continental shelf; continental slope; correlation; currents; diachronism; diatoms; drift; Foraminifera; geophysical methods; geophysical surveys; high-resolution methods; Invertebrata; Leg 181; marine sediments; microfossils; middle Miocene; Miocene; multichannel methods; Neogene; New Zealand; ocean currents; Ocean Drilling Program; Pacific Ocean; paleo-oceanography; paleoclimatology; passive margins; Plantae; plate tectonics; Pliocene; Protista; Quaternary; Radiolaria; sea-level changes; sedimentation; sediments; seismic methods; seismic stratigraphy; sequence stratigraphy; South Island; South Pacific; Southwest Pacific; surveys; Tertiary; unconformities; upper Miocene; West Pacific;
.