Continued glacial retreat linked to changing macronutrient supply along the West Antarctic Peninsula
Continued glacial retreat linked to changing macronutrient supply along the West Antarctic Peninsula
At the West Antarctic Peninsula (WAP), continued atmospheric and oceanic warming is causing significant physical and biogeochemical changes to glaciers and the marine environment. We compare sediment sources and drivers of macronutrient distributions at two bays along the WAP during austral summer 2020, using radioactive radium and stable oxygen isotopes to trace sedimentary influences and quantify different freshwater inputs. In the Ryder Bay, where the Sheldon Glacier is marine-terminating, radium activities at the sediment-water interface indicate considerable benthic mixing. Using radium isotope activity gradients to resolve radium and macronutrient fluxes, we find buoyant meltwater proximal to the glacier drives vigorous mixing of sediment and entrainment of macronutrient deep waters, on the order of 2.0 × 105 mol d−1 for nitrate. Conversely, in the Marian Cove, where the Fourcade Glacier terminates on land, low salinities and oxygen isotopes indicate a meltwater-rich surface layer <1 m thick and rich in sediment, and strong vertical mixing to the seafloor. A continued shift to land-terminating glaciers along the WAP may have a significant impact upon nutrient and sediment supply to the euphotic zone, with impacts upon primary productivity and carbon uptake efficiency. The future of primary production, carbon uptake, and food web dynamics is therefore linked to glacier retreat dynamics in the many fjords along the WAP.
Glacial retreat, Macronutrient cycling, Radium, West Antarctic Peninsula
Jones, Rhiannon Laila Caitlin
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Meredith, Michael
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Lohan, Maeve
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Woodward, E. Malcolm S.
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Van Landeghem, Katrien
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Retallick, Kate
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Flanagan, Oliver George
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Vora, Mehul
5aaff056-c802-4699-8f13-5cd08bf9b71d
Annett, Amber
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20 April 2023
Jones, Rhiannon Laila Caitlin
8a12688f-ebe6-4cf9-b1ab-0fd456690dcc
Meredith, Michael
17ecbdc7-12b4-4a99-a7d4-de0f474b8dc9
Lohan, Maeve
6ca10597-2d0f-40e8-8e4f-7619dfac5088
Woodward, E. Malcolm S.
65678e51-f1bc-49aa-9c24-7fe674e96010
Van Landeghem, Katrien
0b89cb68-1229-4e81-9c21-c08468b8af87
Retallick, Kate
eed908d6-8c99-4925-a1a4-d29dfeca27d3
Flanagan, Oliver George
2be7c8e9-fb2a-4bca-abac-fb649c02cee9
Vora, Mehul
5aaff056-c802-4699-8f13-5cd08bf9b71d
Annett, Amber
de404d72-7e90-4dbd-884a-1df813808276
Jones, Rhiannon Laila Caitlin, Meredith, Michael, Lohan, Maeve, Woodward, E. Malcolm S., Van Landeghem, Katrien, Retallick, Kate, Flanagan, Oliver George, Vora, Mehul and Annett, Amber
(2023)
Continued glacial retreat linked to changing macronutrient supply along the West Antarctic Peninsula.
Marine Chemistry, 251, [104230].
(doi:10.1016/j.marchem.2023.104230).
Abstract
At the West Antarctic Peninsula (WAP), continued atmospheric and oceanic warming is causing significant physical and biogeochemical changes to glaciers and the marine environment. We compare sediment sources and drivers of macronutrient distributions at two bays along the WAP during austral summer 2020, using radioactive radium and stable oxygen isotopes to trace sedimentary influences and quantify different freshwater inputs. In the Ryder Bay, where the Sheldon Glacier is marine-terminating, radium activities at the sediment-water interface indicate considerable benthic mixing. Using radium isotope activity gradients to resolve radium and macronutrient fluxes, we find buoyant meltwater proximal to the glacier drives vigorous mixing of sediment and entrainment of macronutrient deep waters, on the order of 2.0 × 105 mol d−1 for nitrate. Conversely, in the Marian Cove, where the Fourcade Glacier terminates on land, low salinities and oxygen isotopes indicate a meltwater-rich surface layer <1 m thick and rich in sediment, and strong vertical mixing to the seafloor. A continued shift to land-terminating glaciers along the WAP may have a significant impact upon nutrient and sediment supply to the euphotic zone, with impacts upon primary productivity and carbon uptake efficiency. The future of primary production, carbon uptake, and food web dynamics is therefore linked to glacier retreat dynamics in the many fjords along the WAP.
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More information
Accepted/In Press date: 20 February 2023
e-pub ahead of print date: 27 February 2023
Published date: 20 April 2023
Additional Information:
Funding Information:
The study was carried out as part of the Radium in Changing Environments: A Novel Tracer of Iron Fluxes at Ocean Margins ( RaCE:TraX ) grant ( NE/P017630/1 ). Additional funding for RJ comes from the National Environmental Research Council INSPIRE Doctoral Training Partnership (NE/S007210/1) and Harry Elderfield Memorial Scholarship .
Keywords:
Glacial retreat, Macronutrient cycling, Radium, West Antarctic Peninsula
Identifiers
Local EPrints ID: 479421
URI: http://eprints.soton.ac.uk/id/eprint/479421
ISSN: 0304-4203
PURE UUID: 9c02fae0-232f-4703-adc0-9d606c50d487
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Date deposited: 21 Jul 2023 16:55
Last modified: 17 Mar 2024 03:58
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Contributors
Author:
Michael Meredith
Author:
E. Malcolm S. Woodward
Author:
Katrien Van Landeghem
Author:
Kate Retallick
Author:
Oliver George Flanagan
Author:
Mehul Vora
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