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Variability in transport of terrigenous material on the shelves and the deep Arctic Ocean during the Holocene (2015)

Wegner, Carolyn ; Bennett, K. E. ; de Vernal, Anne ; [et al.]

WILEY-BLACKWELL PUBLISHING

In: EPIC3Polar Research, WILEY-BLACKWELL PUBLISHING, 34, pp. 24964, ISSN: 0800-0395

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Publication Date: 2016-10-12

Description: Arctic coastal zones serve as a sensitive filter for terrigenous matter input onto the shelves via river discharge and coastal erosion. This material is further distributed across the Arctic by ocean currents and sea ice. The coastal regions are particularly vulnerable to changes related to recent climate change. We compiled a pan-arctic review that looks into the changing Holocene sources, transport processes and sinks of terrigenous sediment in the Arctic Ocean. Existing paleoceanographic studies demonstrate how climate warming and the disappearance of ice sheets during the early Holocene initiated eustatic sea-level rise that greatly modified the physiography of the Arctic Ocean. Sedimentation rates over the shelves and slopes were much greater during periods of rapid sea-level rise in the early and middle Holocene, due to the relative distance to the terrestrial sediment sources. However, estimates of suspended sediment delivery through major Arctic rivers do not indicate enhanced delivery during this time, thus, suggesting enhanced rates of coastal erosion. The increased supply of terrigenous material to the outer shelves and deep Arctic Ocean in the early and middle Holocene might serve as analogous to forecast changes in the future Arctic.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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Variability in transport of terrigenous material on the shelves and the deep Arctic Ocean during the Holocene (2015)

Wegner, Carolyn ; Bennett, K. E. ; de Vernal, A. ; [et al.]

Norwegian Polar Institute

In: Polar Research, 34 (24964).

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Publication Date: 2017-12-19

Description: Arctic coastal zones serve as a sensitive filter for terrigenous matter input onto the shelves via river discharge and coastal erosion. This material is further distributed across the Arctic by ocean currents and sea ice. The coastal regions are particularly vulnerable to changes related to recent climate change. We compiled a pan-Arctic review that looks into the changing Holocene sources, transport processes and sinks of terrigenous sediment in the Arctic Ocean. Existing palaeoceanographic studies demonstrate how climate warming and the disappearance of ice sheets during the early Holocene initiated eustatic sea-level rise that greatly modified the physiography of the Arctic Ocean. Sedimentation rates over the shelves and slopes were much greater during periods of rapid sea-level rise in the early and middle Holocene, as a result of the relative distance to the terrestrial sediment sources. However, estimates of suspended sediment delivery through major Arctic rivers do not indicate enhanced delivery during this time, which suggests enhanced rates of coastal erosion. The increased supply of terrigenous material to the outer shelves and deep Arctic Ocean in the early and middle Holocene might serve as analogous to forecast changes in the future Arctic.

Type: Article , PeerReviewed

Format: text

DOI: 10.3402/polar.v34.24964

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Accelerated glacier melt drives changes in the flux of terrestrial material to Svalbard fjords (2023)

Rets, E. ; Korhonen, M. ; Luks, B. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-06-27

Description: Glacial-derived suspended matter is an important source of nutrients to Svalbard fjords, including bioessential nutrients such as iron, ammonia, trace metals. The flux of terrestrial material enhanced by intensive deglaciation in Svalbard results in substantial changes in continental shelf conditions. According to the latest forecasts, the mass of glaciers in the Svalbard is expected to decrease by 20-50% by the end of the century under the RCP 2.6 scenario and by 40-85% under the RCP 8.5 scenario, and the area – by 10-50% and 30-80% accordingly. Further changes in glaciation are expected to result not only in volumetric changes in matter supply to fjords but substantial shift in the mechanics of this process as sustained glacier recession will eventually change the glacial regime from predominately tidewater to land-based.Present study reveals interconnection between glacier melt regime and characteristics of the suspended sediment content in tidal waters. Two contrast glacier basins have been chosen as objects of the study – tidewater Hansbreen draining into Hansbukta and land-based Gåsbreen draining into Gåshamna. The study couples energy-balance modelling of glacier ablation with field measurement of suspended sediment content, sediment flux, and fresh water fraction in the bays during 2015-2022. Possible mechanisms of accelerated glacier melt driving changes in the flux of terrestrial material to Svalbard fjords are discussed. The research contributes to the investigation of consequences of deglaciation on the marine biological production in High Arctic areas.This study is funded by the Norwegian Financial Mechanism 2014-2021, grant agreement no. UMO-2019/34/H/ST10/00504.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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