Organic-rich sedimentation in the South Pacific Ocean associated with Late Paleocene climatic cooling

Christopher J. Hollis; Michael J. S. Tayler; Benjamin Andrew; Kyle W. Taylor; Pontus Lurcock; Peter K. Bijl; Denise K. Kulhanek; Erica M. Crouch; Campbell S. Nelson; Richard D. Pancost; Matthew Huber; Gary S. Wilson; G. Todd Ventura; James S. Crampton; Poul Schioler; Andy Phillips

doi:10.1016/j.earscirev.2014.03.006

Organic-rich sedimentation in the South Pacific Ocean associated with Late Paleocene climatic cooling

Christopher J. Hollis^*, Michael J. S. Tayler, Benjamin Andrew, Kyle W. Taylor, Pontus Lurcock, Peter K. Bijl, Denise K. Kulhanek, Erica M. Crouch, Campbell S. Nelson, Richard D. Pancost, Matthew Huber, Gary S. Wilson, G. Todd Ventura, James S. Crampton, Poul Schioler, Andy Phillips

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

A distinctive organic-rich marine mudstone of Late Paleocene age occurs in most of New Zealand's sedimentary basins and has been identified as a potential source rock for oil and gas. Identified as the Waipawa Formation in the East Coast Basin and the Tartan Formation in the Great South and Canterbury Basins, the unit is a relatively uniform massive mudstone that varies greatly in thickness (2-70 m) and grades laterally into distinctive facies equivalents, notably greensand and a thin-bedded siliceous mudstone. All these facies are characterised by relatively high TOC (0.5-10 wt.%) and 13C enrichment (613Groc > 24%.), and we refer to them collectively as "Waipawa organofacies". Our detailed stratigraphic and geochemical studies refine the age (58.7 to 59.4 Ma), distribution and nature of the Waipawa organofacies. We have determined that deposition occurred in continental margin settings throughout much of the southwest Pacific under cool, dysoxic conditions associated with a significant influx of terrestrial organic matter, high marine productivity, a global fall in sea level, and a regional unconformity across shallow and deep marine settings. The combination of cool temperatures, lowered sea level and bathyal erosion suggests that deposition was linked to short-lived growth of an Antarctic ice sheet in the earliest Late Paleocene (-59 Ma). (C) 2014 Elsevier B.V. All rights reserved.

Original language	English
Pages (from-to)	81-97
Number of pages	17
Journal	Earth-Science Reviews
Volume	134
DOIs	https://doi.org/10.1016/j.earscirev.2014.03.006
Publication status	Published - Jul 2014

Keywords

Paleogene
Paleoclimate
Regional cooling
Sea level fall
Organic fades
Geochemistry
EASTERN NEW-ZEALAND
ANTARCTIC CIRCUMPOLAR CURRENT
ISOPRENOID TETRAETHER LIPIDS
EOCENE THERMAL MAXIMUM
SEA-LEVEL CHANGE
DEEP-SEA
PALEOCEANOGRAPHIC SIGNIFICANCE
MARSHALL PARACONFORMITY
ISOTOPE STRATIGRAPHY
CONTINENTAL-MARGIN

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Hollis, C. J., Tayler, M. J. S., Andrew, B., Taylor, K. W., Lurcock, P., Bijl, P. K., Kulhanek, D. K., Crouch, E. M., Nelson, C. S., Pancost, R. D., Huber, M., Wilson, G. S., Ventura, G. T., Crampton, J. S., Schioler, P., & Phillips, A. (2014). Organic-rich sedimentation in the South Pacific Ocean associated with Late Paleocene climatic cooling. Earth-Science Reviews, 134, 81-97. https://doi.org/10.1016/j.earscirev.2014.03.006

@article{6e1dd49f027d47009e1d941508dcb2b8,

title = "Organic-rich sedimentation in the South Pacific Ocean associated with Late Paleocene climatic cooling",

abstract = "A distinctive organic-rich marine mudstone of Late Paleocene age occurs in most of New Zealand's sedimentary basins and has been identified as a potential source rock for oil and gas. Identified as the Waipawa Formation in the East Coast Basin and the Tartan Formation in the Great South and Canterbury Basins, the unit is a relatively uniform massive mudstone that varies greatly in thickness (2-70 m) and grades laterally into distinctive facies equivalents, notably greensand and a thin-bedded siliceous mudstone. All these facies are characterised by relatively high TOC (0.5-10 wt.%) and 13C enrichment (613Groc > 24%.), and we refer to them collectively as {"}Waipawa organofacies{"}. Our detailed stratigraphic and geochemical studies refine the age (58.7 to 59.4 Ma), distribution and nature of the Waipawa organofacies. We have determined that deposition occurred in continental margin settings throughout much of the southwest Pacific under cool, dysoxic conditions associated with a significant influx of terrestrial organic matter, high marine productivity, a global fall in sea level, and a regional unconformity across shallow and deep marine settings. The combination of cool temperatures, lowered sea level and bathyal erosion suggests that deposition was linked to short-lived growth of an Antarctic ice sheet in the earliest Late Paleocene (-59 Ma). (C) 2014 Elsevier B.V. All rights reserved.",

keywords = "Paleogene, Paleoclimate, Regional cooling, Sea level fall, Organic fades, Geochemistry, EASTERN NEW-ZEALAND, ANTARCTIC CIRCUMPOLAR CURRENT, ISOPRENOID TETRAETHER LIPIDS, EOCENE THERMAL MAXIMUM, SEA-LEVEL CHANGE, DEEP-SEA, PALEOCEANOGRAPHIC SIGNIFICANCE, MARSHALL PARACONFORMITY, ISOTOPE STRATIGRAPHY, CONTINENTAL-MARGIN",

author = "Hollis, {Christopher J.} and Tayler, {Michael J. S.} and Benjamin Andrew and Taylor, {Kyle W.} and Pontus Lurcock and Bijl, {Peter K.} and Kulhanek, {Denise K.} and Crouch, {Erica M.} and Nelson, {Campbell S.} and Pancost, {Richard D.} and Matthew Huber and Wilson, {Gary S.} and Ventura, {G. Todd} and Crampton, {James S.} and Poul Schioler and Andy Phillips",

year = "2014",

month = jul,

doi = "10.1016/j.earscirev.2014.03.006",

language = "English",

volume = "134",

pages = "81--97",

journal = "Earth-Science Reviews",

issn = "0012-8252",

publisher = "Elsevier B.V.",

}

Hollis, CJ, Tayler, MJS, Andrew, B, Taylor, KW, Lurcock, P, Bijl, PK, Kulhanek, DK, Crouch, EM, Nelson, CS, Pancost, RD, Huber, M, Wilson, GS, Ventura, GT, Crampton, JS, Schioler, P & Phillips, A 2014, 'Organic-rich sedimentation in the South Pacific Ocean associated with Late Paleocene climatic cooling', Earth-Science Reviews, vol. 134, pp. 81-97. https://doi.org/10.1016/j.earscirev.2014.03.006

TY - JOUR

T1 - Organic-rich sedimentation in the South Pacific Ocean associated with Late Paleocene climatic cooling

AU - Hollis, Christopher J.

AU - Tayler, Michael J. S.

AU - Andrew, Benjamin

AU - Taylor, Kyle W.

AU - Lurcock, Pontus

AU - Bijl, Peter K.

AU - Kulhanek, Denise K.

AU - Crouch, Erica M.

AU - Nelson, Campbell S.

AU - Pancost, Richard D.

AU - Huber, Matthew

AU - Wilson, Gary S.

AU - Ventura, G. Todd

AU - Crampton, James S.

AU - Schioler, Poul

AU - Phillips, Andy

PY - 2014/7

Y1 - 2014/7

N2 - A distinctive organic-rich marine mudstone of Late Paleocene age occurs in most of New Zealand's sedimentary basins and has been identified as a potential source rock for oil and gas. Identified as the Waipawa Formation in the East Coast Basin and the Tartan Formation in the Great South and Canterbury Basins, the unit is a relatively uniform massive mudstone that varies greatly in thickness (2-70 m) and grades laterally into distinctive facies equivalents, notably greensand and a thin-bedded siliceous mudstone. All these facies are characterised by relatively high TOC (0.5-10 wt.%) and 13C enrichment (613Groc > 24%.), and we refer to them collectively as "Waipawa organofacies". Our detailed stratigraphic and geochemical studies refine the age (58.7 to 59.4 Ma), distribution and nature of the Waipawa organofacies. We have determined that deposition occurred in continental margin settings throughout much of the southwest Pacific under cool, dysoxic conditions associated with a significant influx of terrestrial organic matter, high marine productivity, a global fall in sea level, and a regional unconformity across shallow and deep marine settings. The combination of cool temperatures, lowered sea level and bathyal erosion suggests that deposition was linked to short-lived growth of an Antarctic ice sheet in the earliest Late Paleocene (-59 Ma). (C) 2014 Elsevier B.V. All rights reserved.

AB - A distinctive organic-rich marine mudstone of Late Paleocene age occurs in most of New Zealand's sedimentary basins and has been identified as a potential source rock for oil and gas. Identified as the Waipawa Formation in the East Coast Basin and the Tartan Formation in the Great South and Canterbury Basins, the unit is a relatively uniform massive mudstone that varies greatly in thickness (2-70 m) and grades laterally into distinctive facies equivalents, notably greensand and a thin-bedded siliceous mudstone. All these facies are characterised by relatively high TOC (0.5-10 wt.%) and 13C enrichment (613Groc > 24%.), and we refer to them collectively as "Waipawa organofacies". Our detailed stratigraphic and geochemical studies refine the age (58.7 to 59.4 Ma), distribution and nature of the Waipawa organofacies. We have determined that deposition occurred in continental margin settings throughout much of the southwest Pacific under cool, dysoxic conditions associated with a significant influx of terrestrial organic matter, high marine productivity, a global fall in sea level, and a regional unconformity across shallow and deep marine settings. The combination of cool temperatures, lowered sea level and bathyal erosion suggests that deposition was linked to short-lived growth of an Antarctic ice sheet in the earliest Late Paleocene (-59 Ma). (C) 2014 Elsevier B.V. All rights reserved.

KW - Paleogene

KW - Paleoclimate

KW - Regional cooling

KW - Sea level fall

KW - Organic fades

KW - Geochemistry

KW - EASTERN NEW-ZEALAND

KW - ANTARCTIC CIRCUMPOLAR CURRENT

KW - ISOPRENOID TETRAETHER LIPIDS

KW - EOCENE THERMAL MAXIMUM

KW - SEA-LEVEL CHANGE

KW - DEEP-SEA

KW - PALEOCEANOGRAPHIC SIGNIFICANCE

KW - MARSHALL PARACONFORMITY

KW - ISOTOPE STRATIGRAPHY

KW - CONTINENTAL-MARGIN

U2 - 10.1016/j.earscirev.2014.03.006

DO - 10.1016/j.earscirev.2014.03.006

M3 - Article (Academic Journal)

VL - 134

SP - 81

EP - 97

JO - Earth-Science Reviews

JF - Earth-Science Reviews

SN - 0012-8252

ER -

Organic-rich sedimentation in the South Pacific Ocean associated with Late Paleocene climatic cooling

Abstract

Keywords

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