Diatoms from the late Holocene of the western Chukchi Sea, Arctic Ocean: environmental signals and palaeoceanography

The sediment Core SWERUS-L2-2-PC1 (2PC) retrieved from the Chukchi Sea, Arctic Ocean sits in an oceanographically dynamic location at the Arctic-Pacific Ocean gateway. The 8.3 m-long core was retrieved in Herald Canyon at the marginal ice zone at 57 m depth. Core 2PC is well-positioned to record var...

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Bibliographic Details
Main Author: Browaldh, Erik
Format: Bachelor Thesis
Language:English
Published: Stockholms universitet, Institutionen för geologiska vetenskaper 2022
Subjects:
diatoms
late holocene
SWERUS-L2-2-PC1
Herald Canyon
Chukchi Sea
ice-algae
sympagic
cryophilic
warm water diatom
Bering Sea Water species
bottom water temperature
BWT
benthic foraminifera
palaeothermometry
ice dynamics
Fragilariopsis
Fossula arctica
Paralia sulcata
Shionodiscus oestrupii
Thalassiosira simonsenii
Chaetoceros
Chaetoceros sp. 7
Geology
Geologi
Arctic
Arctic Ocean
Bering Sea
Gateway The
Pacific
Västra
Arktis*
Arktiska oceanen
Chukchi
Climate change
Foraminifera*
Global warming
ice algae
Sea ice
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-208183
Description
Summary:The sediment Core SWERUS-L2-2-PC1 (2PC) retrieved from the Chukchi Sea, Arctic Ocean sits in an oceanographically dynamic location at the Arctic-Pacific Ocean gateway. The 8.3 m-long core was retrieved in Herald Canyon at the marginal ice zone at 57 m depth. Core 2PC is well-positioned to record variability in inflow of Bering Sea Water (BSW) and Pacific Water (PW) in Herald Canyon. With the 2PC high sedimentation rate (200 cm/kyr), two independent age models (radiocarbon and palaeomagnetism) based on tephra age markers, and a richness in well-preserved siliceous sediment, validate 2PC as an outstanding sequence for applying diatom assemblage analysis as a proxy for ocean-climate change back to 4250 years BP, including the past few hundred years where global warming and sea ice decline is recorded by instrumental records. These characteristics make Core-2PC a useful record for investigating the role of PW on sea ice variability in the Chukchi Sea, both in the past and predicting the future. To investigate the impact of PW on ocean and sea ice conditions in the Chukchi Sea, diatom assemblage analysis was performed on 49 samples through the Late Holocene. The over-arching goal was to test the hypothesis, suggested by existing research on 2PC using benthic foraminifera Mg/Ca palaeothermometry, that the strength of PW inflow into the Chukchi Sea via Herald Canyon has varied on a time scales of ~500-1000 years in the past 4000 years. PW is slightly warmer than resident Arctic surface waters and is known to be an important control on Arctic sea-ice. The diatom assemblage approach assumes that there are recognizable differences between end-member diatom assemblages that are characteristic of PW versus Arctic Ocean type environments associated with extensive sea-ice conditions. The mapping of species in the Herald Canyon was used to test the idea of variability of sea-ice extent and the role of the Pacific Ocean forcings into the western Chukchi Sea. The results reveal diverse diatom assemblages throughout the past 4000 ...

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