Site U1604

Paul C. Knutz; Anne E. Jennings; Laurel B. Childress; Raquel M. Bryant; Samantha K. Cargill; Helen K. Coxall; Tracy D. Frank; Georgia R. Grant; Rachael E. Gray; Sandrine Le Houedec; Libby Ives; Vikash Kumar; Jannik Martens; Fawz Naim; Mei Nelissen; Volkan Özen; Sandra Passchier; Lara F. Pérez; Jian Ren; Brian W. Romans; Osamu Seki; Lisa  Tauxe; Emily J. Tibbett; Yuka Yokoyama; Yancheng Zhang; Heike Zimmermann

doi:10.14379/iodp.proc.400.104.2025

Site U1604

Paul C. Knutz, Anne E. Jennings, Laurel B. Childress, Raquel M. Bryant, Samantha K. Cargill, Helen K. Coxall, Tracy D. Frank, Georgia R. Grant, Rachael E. Gray, Sandrine Le Houedec, Libby Ives, Vikash Kumar, Jannik Martens, Fawz Naim, Mei Nelissen, Volkan Özen, Sandra Passchier, Lara F. Pérez, Jian Ren, Brian W. RomansOsamu Seki, Lisa Tauxe, Emily J. Tibbett, Yuka Yokoyama, Yancheng Zhang, Heike Zimmermann

Publikation: Bidrag til bog/rapport/konferenceproceedings › Bogkapitel › Forskning › peer review

1 Citationer (Scopus)

Resumé

Site U1604 (proposed Site MB-02C) was cored on the lower slope below the Melville Bugt Trough Mouth Fan (TMF) at 1943 meters below sea level (mbsl) at 73°06.9077′N, 63°47.3996′W below a prominent crescent-shaped protrusion of the Melville Bugt TMF on the northwest Greenland shelf margin (Figure F1). The site was aimed at retrieving a continuous high-resolution record of ice sheet–ocean interactions and processes going back to early Pleistocene. The depth target was the base of an expanded drift channel succession situated on the lower slope between two paleo–ice sheet outlets representing major drainage routes for the northern Greenland ice sheet (NGrIS) into Baffin Bay (Knutz et al., 2019; Newton et al., 2017, 2020, 2021). The sedimentary succession is covered by regional 2D industry data as well as high-resolution multichannel seismic data providing a detailed seismic stratigraphy to guide the drilling objectives (Figure F2). The strategy at Site U1604 was to core through the youngest seismic units (9–11) to capture the expanded depositional sequence within Seismic Unit 8 showing stratified intervals with asymmetric geometries resembling contourite drifts. Site U1604 is paired seismic-stratigraphically with Site U1603, located 16 nmi (~30 km) to the southeast adjacent to a deepwater channel. With Horizon 7 as a stratigraphic target (about 420 meters below seafloor [mbsf]), the succession cored at Site U1604 is complementary to Site U1603 but records sedimentation that is more distal to the channel system and presumably recovers an interval older than at Site U1603.

Originalsprog	Engelsk
Titel	NW Greenland Glaciated Margin
Redaktører	P.C. Knutz, A.E. Jennings, L.B. Childress
Forlag	International Ocean Discovery Program
Antal sider	48
ISBN (Elektronisk)	978-1-954252-93-6
DOI	https://doi.org/10.14379/iodp.proc.400.104.2025
Status	Udgivet - 24 mar. 2025

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Navn	Proceedings of the International Ocean Discovery Program
Vol/bind	400

Programområde

Programområde 5: Natur og klima

Adgang til dokumentet

10.14379/iodp.proc.400.104.2025Licens: CC BY

Citationsformater

Knutz, P. C., Jennings, A. E., Childress, L. B., Bryant, R. M., Cargill, S. K., Coxall, H. K., Frank, T. D., Grant, G. R., Gray, R. E., Le Houedec, S., Ives, L., Kumar, V., Martens, J., Naim, F., Nelissen, M., Özen, V., Passchier, S., Pérez, L. F., Ren, J., ... Zimmermann, H. (2025). Site U1604. I P. C. Knutz, A. E. Jennings, & L. B. Childress (red.), NW Greenland Glaciated Margin International Ocean Discovery Program. https://doi.org/10.14379/iodp.proc.400.104.2025

@inbook{5b1a12a7886548ae92eb87fc63416ee9,

title = "Site U1604",

abstract = "Site U1604 (proposed Site MB-02C) was cored on the lower slope below the Melville Bugt Trough Mouth Fan (TMF) at 1943 meters below sea level (mbsl) at 73°06.9077′N, 63°47.3996′W below a prominent crescent-shaped protrusion of the Melville Bugt TMF on the northwest Greenland shelf margin (Figure F1). The site was aimed at retrieving a continuous high-resolution record of ice sheet–ocean interactions and processes going back to early Pleistocene. The depth target was the base of an expanded drift channel succession situated on the lower slope between two paleo–ice sheet outlets representing major drainage routes for the northern Greenland ice sheet (NGrIS) into Baffin Bay (Knutz et al., 2019; Newton et al., 2017, 2020, 2021). The sedimentary succession is covered by regional 2D industry data as well as high-resolution multichannel seismic data providing a detailed seismic stratigraphy to guide the drilling objectives (Figure F2). The strategy at Site U1604 was to core through the youngest seismic units (9–11) to capture the expanded depositional sequence within Seismic Unit 8 showing stratified intervals with asymmetric geometries resembling contourite drifts. Site U1604 is paired seismic-stratigraphically with Site U1603, located 16 nmi (\textasciitilde{}30 km) to the southeast adjacent to a deepwater channel. With Horizon 7 as a stratigraphic target (about 420 meters below seafloor [mbsf]), the succession cored at Site U1604 is complementary to Site U1603 but records sedimentation that is more distal to the channel system and presumably recovers an interval older than at Site U1603.",

keywords = "Baffin Bay, contourites, Expedition 400, glacial–interglacial cycles, ice sheet instability, International Ocean Discovery Program, IODP, JOIDES Resolution, NW Greenland Glaciated Margin, Site U1604, detrital carbonate, interglacials, ice-rafted debris, laminated facies, continental slope channel-levee deposit, IRD, trough mouth fan, JOIDESResolution",

author = "Knutz, \{Paul C.\} and Jennings, \{Anne E.\} and Childress, \{Laurel B.\} and Bryant, \{Raquel M.\} and Cargill, \{Samantha K.\} and Coxall, \{Helen K.\} and Frank, \{Tracy D.\} and Grant, \{Georgia R.\} and Gray, \{Rachael E.\} and \{Le Houedec\}, Sandrine and Libby Ives and Vikash Kumar and Jannik Martens and Fawz Naim and Mei Nelissen and Volkan {\"O}zen and Sandra Passchier and P{\'e}rez, \{Lara F.\} and Jian Ren and Romans, \{Brian W.\} and Osamu Seki and Lisa Tauxe and Tibbett, \{Emily J.\} and Yuka Yokoyama and Yancheng Zhang and Heike Zimmermann",

year = "2025",

month = mar,

day = "24",

doi = "10.14379/iodp.proc.400.104.2025",

language = "English",

series = "Proceedings of the International Ocean Discovery Program",

publisher = "International Ocean Discovery Program",

editor = "P.C. Knutz and A.E. Jennings and L.B. Childress",

booktitle = "NW Greenland Glaciated Margin",

}

Knutz, PC, Jennings, AE, Childress, LB, Bryant, RM, Cargill, SK, Coxall, HK, Frank, TD, Grant, GR, Gray, RE, Le Houedec, S, Ives, L, Kumar, V, Martens, J, Naim, F, Nelissen, M, Özen, V, Passchier, S, Pérez, LF, Ren, J, Romans, BW, Seki, O, Tauxe, L, Tibbett, EJ, Yokoyama, Y, Zhang, Y & Zimmermann, H 2025, Site U1604. i PC Knutz, AE Jennings & LB Childress (red), NW Greenland Glaciated Margin. International Ocean Discovery Program, Proceedings of the International Ocean Discovery Program, bind 400. https://doi.org/10.14379/iodp.proc.400.104.2025

Site U1604. / Knutz, Paul C.; Jennings, Anne E.; Childress, Laurel B. et al.
NW Greenland Glaciated Margin. red. / P.C. Knutz; A.E. Jennings; L.B. Childress. International Ocean Discovery Program, 2025. (Proceedings of the International Ocean Discovery Program, Bind 400).

Publikation: Bidrag til bog/rapport/konferenceproceedings › Bogkapitel › Forskning › peer review

TY - CHAP

T1 - Site U1604

AU - Knutz, Paul C.

AU - Jennings, Anne E.

AU - Childress, Laurel B.

AU - Bryant, Raquel M.

AU - Cargill, Samantha K.

AU - Coxall, Helen K.

AU - Frank, Tracy D.

AU - Grant, Georgia R.

AU - Gray, Rachael E.

AU - Le Houedec, Sandrine

AU - Ives, Libby

AU - Kumar, Vikash

AU - Martens, Jannik

AU - Naim, Fawz

AU - Nelissen, Mei

AU - Özen, Volkan

AU - Passchier, Sandra

AU - Pérez, Lara F.

AU - Ren, Jian

AU - Romans, Brian W.

AU - Seki, Osamu

AU - Tauxe, Lisa

AU - Tibbett, Emily J.

AU - Yokoyama, Yuka

AU - Zhang, Yancheng

AU - Zimmermann, Heike

PY - 2025/3/24

Y1 - 2025/3/24

N2 - Site U1604 (proposed Site MB-02C) was cored on the lower slope below the Melville Bugt Trough Mouth Fan (TMF) at 1943 meters below sea level (mbsl) at 73°06.9077′N, 63°47.3996′W below a prominent crescent-shaped protrusion of the Melville Bugt TMF on the northwest Greenland shelf margin (Figure F1). The site was aimed at retrieving a continuous high-resolution record of ice sheet–ocean interactions and processes going back to early Pleistocene. The depth target was the base of an expanded drift channel succession situated on the lower slope between two paleo–ice sheet outlets representing major drainage routes for the northern Greenland ice sheet (NGrIS) into Baffin Bay (Knutz et al., 2019; Newton et al., 2017, 2020, 2021). The sedimentary succession is covered by regional 2D industry data as well as high-resolution multichannel seismic data providing a detailed seismic stratigraphy to guide the drilling objectives (Figure F2). The strategy at Site U1604 was to core through the youngest seismic units (9–11) to capture the expanded depositional sequence within Seismic Unit 8 showing stratified intervals with asymmetric geometries resembling contourite drifts. Site U1604 is paired seismic-stratigraphically with Site U1603, located 16 nmi (~30 km) to the southeast adjacent to a deepwater channel. With Horizon 7 as a stratigraphic target (about 420 meters below seafloor [mbsf]), the succession cored at Site U1604 is complementary to Site U1603 but records sedimentation that is more distal to the channel system and presumably recovers an interval older than at Site U1603.

AB - Site U1604 (proposed Site MB-02C) was cored on the lower slope below the Melville Bugt Trough Mouth Fan (TMF) at 1943 meters below sea level (mbsl) at 73°06.9077′N, 63°47.3996′W below a prominent crescent-shaped protrusion of the Melville Bugt TMF on the northwest Greenland shelf margin (Figure F1). The site was aimed at retrieving a continuous high-resolution record of ice sheet–ocean interactions and processes going back to early Pleistocene. The depth target was the base of an expanded drift channel succession situated on the lower slope between two paleo–ice sheet outlets representing major drainage routes for the northern Greenland ice sheet (NGrIS) into Baffin Bay (Knutz et al., 2019; Newton et al., 2017, 2020, 2021). The sedimentary succession is covered by regional 2D industry data as well as high-resolution multichannel seismic data providing a detailed seismic stratigraphy to guide the drilling objectives (Figure F2). The strategy at Site U1604 was to core through the youngest seismic units (9–11) to capture the expanded depositional sequence within Seismic Unit 8 showing stratified intervals with asymmetric geometries resembling contourite drifts. Site U1604 is paired seismic-stratigraphically with Site U1603, located 16 nmi (~30 km) to the southeast adjacent to a deepwater channel. With Horizon 7 as a stratigraphic target (about 420 meters below seafloor [mbsf]), the succession cored at Site U1604 is complementary to Site U1603 but records sedimentation that is more distal to the channel system and presumably recovers an interval older than at Site U1603.

KW - Baffin Bay

KW - contourites

KW - Expedition 400

KW - glacial–interglacial cycles

KW - ice sheet instability

KW - International Ocean Discovery Program

KW - IODP

KW - JOIDES Resolution

KW - NW Greenland Glaciated Margin

KW - Site U1604

KW - detrital carbonate

KW - interglacials

KW - ice-rafted debris

KW - laminated facies

KW - continental slope channel-levee deposit

KW - IRD

KW - trough mouth fan

KW - JOIDESResolution

UR - https://www.scopus.com/pages/publications/105003072939

U2 - 10.14379/iodp.proc.400.104.2025

DO - 10.14379/iodp.proc.400.104.2025

M3 - Chapter in book

T3 - Proceedings of the International Ocean Discovery Program

BT - NW Greenland Glaciated Margin

A2 - Knutz, P.C.

A2 - Jennings, A.E.

A2 - Childress, L.B.

PB - International Ocean Discovery Program

ER -

Site U1604

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