Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf

Clay mineral and bulk chemical (Si, Al, K, Mg, Sr, La, Ce, Nd) analyses of terrigenous surface sediments on the Siberian-Arctic shelf indicate that there are five regions with distinct, or endmember, sedimentary compositions. The formation of these geochemical endmembers is controlled by sediment pr...

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Bibliographic Details
Main Authors: Viscosi-Shirley, C, Mammone, K, Pisias, Nicklas G, Dymond, Jack R
Format: Other/Unknown Material
Language:English
Published: PANGAEA 2003
Subjects:
Archive of Ocean Data
ARCOD
BI64
BI64-10
BI64-11
BI64-17
BI64-31
BI64-34
BI64-38
BI64-48
BI64-52
BI64-53
BI64-55
BI64-59
Chukchi Sea
East Siberian Sea
GC
Grab
Gravity corer
Laptev Sea
Northwind
NW362
NW362-62
NW362-70
NW362-72
NW362-77
NW362-78
NW362-79
NW362-80
NW63
NW63-101
NW63-103
NW63-107
NW63-112
NW63-115
NW63-118
NW63-119
NW63-122
NW63-125
NW63-128
NW63-130
NW63-134
NW63-136
NW63-139
NW63-14
NW63-141
NW63-143
NW63-146
NW63-148
Arctic
Okhotsk
Bering Strait
Kolyma
Wrangel Island
Indigirka
New Siberian Islands
Verkhoyansk
Chukchi
Chukotka
laptev
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.736817
https://doi.org/10.1594/PANGAEA.736817
id ftpangaea:oai:pangaea.de:doi:10.1594/PANGAEA.736817
record_format openpolar
institution Open Polar
collection PANGAEA - Data Publisher for Earth & Environmental Science
op_collection_id ftpangaea
language English
topic Archive of Ocean Data
ARCOD
BI64
BI64-10
BI64-11
BI64-17
BI64-31
BI64-34
BI64-38
BI64-48
BI64-52
BI64-53
BI64-55
BI64-59
Chukchi Sea
East Siberian Sea
GC
Grab
Gravity corer
Laptev Sea
Northwind
NW362
NW362-62
NW362-70
NW362-72
NW362-77
NW362-78
NW362-79
NW362-80
NW63
NW63-101
NW63-103
NW63-107
NW63-112
NW63-115
NW63-118
NW63-119
NW63-122
NW63-125
NW63-128
NW63-130
NW63-134
NW63-136
NW63-139
NW63-14
NW63-141
NW63-143
NW63-146
NW63-148
spellingShingle Archive of Ocean Data
ARCOD
BI64
BI64-10
BI64-11
BI64-17
BI64-31
BI64-34
BI64-38
BI64-48
BI64-52
BI64-53
BI64-55
BI64-59
Chukchi Sea
East Siberian Sea
GC
Grab
Gravity corer
Laptev Sea
Northwind
NW362
NW362-62
NW362-70
NW362-72
NW362-77
NW362-78
NW362-79
NW362-80
NW63
NW63-101
NW63-103
NW63-107
NW63-112
NW63-115
NW63-118
NW63-119
NW63-122
NW63-125
NW63-128
NW63-130
NW63-134
NW63-136
NW63-139
NW63-14
NW63-141
NW63-143
NW63-146
NW63-148
Viscosi-Shirley, C
Mammone, K
Pisias, Nicklas G
Dymond, Jack R
Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf
topic_facet Archive of Ocean Data
ARCOD
BI64
BI64-10
BI64-11
BI64-17
BI64-31
BI64-34
BI64-38
BI64-48
BI64-52
BI64-53
BI64-55
BI64-59
Chukchi Sea
East Siberian Sea
GC
Grab
Gravity corer
Laptev Sea
Northwind
NW362
NW362-62
NW362-70
NW362-72
NW362-77
NW362-78
NW362-79
NW362-80
NW63
NW63-101
NW63-103
NW63-107
NW63-112
NW63-115
NW63-118
NW63-119
NW63-122
NW63-125
NW63-128
NW63-130
NW63-134
NW63-136
NW63-139
NW63-14
NW63-141
NW63-143
NW63-146
NW63-148
description Clay mineral and bulk chemical (Si, Al, K, Mg, Sr, La, Ce, Nd) analyses of terrigenous surface sediments on the Siberian-Arctic shelf indicate that there are five regions with distinct, or endmember, sedimentary compositions. The formation of these geochemical endmembers is controlled by sediment provenance and grain size sorting. (1) The shale endmember (Al, K and REE rich sediment) is eroded from fine-grained marine sedimentary rocks of the Verkhoyansk Mountains and Kolyma-Omolon superterrain, and discharged to the shelf by the Lena, Yana, Indigirka and Kolyma Rivers. (2) The basalt endmember (Mg rich) originates from NE Siberia's Okhotsk-Chukotsk volcanic belt and Bering Strait inflow, and is prevalent in Chukchi Sea Sediments. Concentrations of the volcanically derived clay mineral smectite are elevated in Chukchi fine-fraction sediments, corroborating the conclusion that Chukchi sediments are volcanic in origin. (3) The mature sandstone endmember (Si rich) is found proximal to Wrangel Island and sections of the Chukchi Sea's Siberian coast and is derived from the sedimentary Chukotka terrain that comprises these landmasses. (4) The immature sandstone endmember (Sr rich) is abundant in the New Siberian Island region and reflects inputs from sedimentary rocks that comprise the islands. (5) The immature sandstone endmember is also prevalent in the western Laptev Sea, where it is eroded from sedimentary deposits blanketing the Siberian platform that are compositionally similar to those on the New Siberian Islands. Western Laptev can be distinguished from New Siberian Island region sediments by their comparatively elevated smectite concentrations and the presence of the basalt endmember, which indicate Siberian platform flood basalts are also a source of western Laptev sediments. In certain locations grain size sorting noticeably affects shelf sediment chemistry. (1) Erosion of fines by currents and sediment ice rafting contributes to the formation of the coarse-grained sandstone endmembers. (2) Bathymetrically ...
format Other/Unknown Material
author Viscosi-Shirley, C
Mammone, K
Pisias, Nicklas G
Dymond, Jack R
author_facet Viscosi-Shirley, C
Mammone, K
Pisias, Nicklas G
Dymond, Jack R
author_sort Viscosi-Shirley, C
title Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf
title_short Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf
title_full Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf
title_fullStr Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf
title_full_unstemmed Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf
title_sort clay mineralogy and multi-element chemistry of surface sediments on the aiberian-arctic shelf
publisher PANGAEA
publishDate 2003
url https://doi.pangaea.de/10.1594/PANGAEA.736817
https://doi.org/10.1594/PANGAEA.736817
op_coverage MEDIAN LATITUDE: 71.913856 * MEDIAN LONGITUDE: 157.483842 * SOUTH-BOUND LATITUDE: 67.470000 * WEST-BOUND LONGITUDE: 120.000000 * NORTH-BOUND LATITUDE: 76.433000 * EAST-BOUND LONGITUDE: -169.020000 * DATE/TIME START: 1963-09-02T00:00:00 * DATE/TIME END: 1963-09-02T00:00:00
long_lat ENVELOPE(161.000,161.000,69.500,69.500)
ENVELOPE(166.000,166.000,74.000,74.000)
ENVELOPE(-179.385,-179.385,71.244,71.244)
ENVELOPE(149.609,149.609,70.929,70.929)
ENVELOPE(142.000,142.000,75.000,75.000)
ENVELOPE(133.400,133.400,67.544,67.544)
ENVELOPE(120.000000,-169.020000,76.433000,67.470000)
geographic Arctic
Laptev Sea
Okhotsk
Chukchi Sea
Bering Strait
Kolyma
East Siberian Sea
Wrangel Island
Indigirka
New Siberian Islands
Verkhoyansk
geographic_facet Arctic
Laptev Sea
Okhotsk
Chukchi Sea
Bering Strait
Kolyma
East Siberian Sea
Wrangel Island
Indigirka
New Siberian Islands
Verkhoyansk
genre Arctic
Arctic
Bering Strait
Chukchi
Chukchi Sea
Chukotka
East Siberian Sea
laptev
Laptev Sea
New Siberian Islands
Wrangel Island
genre_facet Arctic
Arctic
Bering Strait
Chukchi
Chukchi Sea
Chukotka
East Siberian Sea
laptev
Laptev Sea
New Siberian Islands
Wrangel Island
op_source Supplement to: Viscosi-Shirley, C; Mammone, K; Pisias, Nicklas G; Dymond, Jack R (2003): Clay mineralogy and multi-element chemistry of surface sediments on the Siberian Arctic shelf: implications for sediment provenance and grain size sorting. Continental Shelf Research, 23(11-13), 1175-1200, https://doi.org/10.1016/S0278-4343(03)00091-8
op_relation https://doi.pangaea.de/10.1594/PANGAEA.736817
https://doi.org/10.1594/PANGAEA.736817
op_rights CC-BY-3.0: Creative Commons Attribution 3.0 Unported
Access constraints: unrestricted
info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1594/PANGAEA.73681710.1016/S0278-4343(03)00091-8
_version_ 1814719555949297664
spelling ftpangaea:oai:pangaea.de:doi:10.1594/PANGAEA.736817 2024-11-03T14:51:46+00:00 Clay mineralogy and multi-element chemistry of surface sediments on the Aiberian-Arctic Shelf Viscosi-Shirley, C Mammone, K Pisias, Nicklas G Dymond, Jack R MEDIAN LATITUDE: 71.913856 * MEDIAN LONGITUDE: 157.483842 * SOUTH-BOUND LATITUDE: 67.470000 * WEST-BOUND LONGITUDE: 120.000000 * NORTH-BOUND LATITUDE: 76.433000 * EAST-BOUND LONGITUDE: -169.020000 * DATE/TIME START: 1963-09-02T00:00:00 * DATE/TIME END: 1963-09-02T00:00:00 2003 application/zip, 3 datasets https://doi.pangaea.de/10.1594/PANGAEA.736817 https://doi.org/10.1594/PANGAEA.736817 en eng PANGAEA https://doi.pangaea.de/10.1594/PANGAEA.736817 https://doi.org/10.1594/PANGAEA.736817 CC-BY-3.0: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted info:eu-repo/semantics/openAccess Supplement to: Viscosi-Shirley, C; Mammone, K; Pisias, Nicklas G; Dymond, Jack R (2003): Clay mineralogy and multi-element chemistry of surface sediments on the Siberian Arctic shelf: implications for sediment provenance and grain size sorting. Continental Shelf Research, 23(11-13), 1175-1200, https://doi.org/10.1016/S0278-4343(03)00091-8 Archive of Ocean Data ARCOD BI64 BI64-10 BI64-11 BI64-17 BI64-31 BI64-34 BI64-38 BI64-48 BI64-52 BI64-53 BI64-55 BI64-59 Chukchi Sea East Siberian Sea GC Grab Gravity corer Laptev Sea Northwind NW362 NW362-62 NW362-70 NW362-72 NW362-77 NW362-78 NW362-79 NW362-80 NW63 NW63-101 NW63-103 NW63-107 NW63-112 NW63-115 NW63-118 NW63-119 NW63-122 NW63-125 NW63-128 NW63-130 NW63-134 NW63-136 NW63-139 NW63-14 NW63-141 NW63-143 NW63-146 NW63-148 dataset publication series 2003 ftpangaea https://doi.org/10.1594/PANGAEA.73681710.1016/S0278-4343(03)00091-8 2024-10-09T00:07:51Z Clay mineral and bulk chemical (Si, Al, K, Mg, Sr, La, Ce, Nd) analyses of terrigenous surface sediments on the Siberian-Arctic shelf indicate that there are five regions with distinct, or endmember, sedimentary compositions. The formation of these geochemical endmembers is controlled by sediment provenance and grain size sorting. (1) The shale endmember (Al, K and REE rich sediment) is eroded from fine-grained marine sedimentary rocks of the Verkhoyansk Mountains and Kolyma-Omolon superterrain, and discharged to the shelf by the Lena, Yana, Indigirka and Kolyma Rivers. (2) The basalt endmember (Mg rich) originates from NE Siberia's Okhotsk-Chukotsk volcanic belt and Bering Strait inflow, and is prevalent in Chukchi Sea Sediments. Concentrations of the volcanically derived clay mineral smectite are elevated in Chukchi fine-fraction sediments, corroborating the conclusion that Chukchi sediments are volcanic in origin. (3) The mature sandstone endmember (Si rich) is found proximal to Wrangel Island and sections of the Chukchi Sea's Siberian coast and is derived from the sedimentary Chukotka terrain that comprises these landmasses. (4) The immature sandstone endmember (Sr rich) is abundant in the New Siberian Island region and reflects inputs from sedimentary rocks that comprise the islands. (5) The immature sandstone endmember is also prevalent in the western Laptev Sea, where it is eroded from sedimentary deposits blanketing the Siberian platform that are compositionally similar to those on the New Siberian Islands. Western Laptev can be distinguished from New Siberian Island region sediments by their comparatively elevated smectite concentrations and the presence of the basalt endmember, which indicate Siberian platform flood basalts are also a source of western Laptev sediments. In certain locations grain size sorting noticeably affects shelf sediment chemistry. (1) Erosion of fines by currents and sediment ice rafting contributes to the formation of the coarse-grained sandstone endmembers. (2) Bathymetrically ... Other/Unknown Material Arctic Arctic Bering Strait Chukchi Chukchi Sea Chukotka East Siberian Sea laptev Laptev Sea New Siberian Islands Wrangel Island PANGAEA - Data Publisher for Earth & Environmental Science Arctic Laptev Sea Okhotsk Chukchi Sea Bering Strait Kolyma ENVELOPE(161.000,161.000,69.500,69.500) East Siberian Sea ENVELOPE(166.000,166.000,74.000,74.000) Wrangel Island ENVELOPE(-179.385,-179.385,71.244,71.244) Indigirka ENVELOPE(149.609,149.609,70.929,70.929) New Siberian Islands ENVELOPE(142.000,142.000,75.000,75.000) Verkhoyansk ENVELOPE(133.400,133.400,67.544,67.544) ENVELOPE(120.000000,-169.020000,76.433000,67.470000)

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