High‐resolution sensors reveal nitrate and dissolved silica dynamics in an Arctic fjord
High‐resolution sensors reveal nitrate and dissolved silica dynamics in an Arctic fjord
Subglacial weathering releases biologically important nutrients into meltwaters that have the potential to influence downstream ecosystems. There is a need to understand how accelerated glacial retreat could impact biogeochemical cycling in coastal regions in the near future. However, fjords—important gateways connecting the Greenland ice sheet and coastal oceans—are highly heterogeneous environments both in space and time. Here, we investigate temporal variability of nutrient dynamics in a glacier‐fed fjord (Nuup Kangerlua, Greenland) using a high resolution record of nitrate + nitrite (∑NOx) and dissolved silica (DSi),coupled with temperature and salinity, using submersible in situ sensors. During a 3‐month monitoring period(14th June to 13 September 2019), ∑NOx varied between 0.05 and 10.07 μM (±0.2 μM), whereas DSi varied between 0.35 and 14.98 μM (±0.5 μM). Both nutrients started low (following the spring bloom) and increased throughout the monitoring period. Several large peaks in both nutrients were observed, and these can largely be associated with meltwater runoff and upwelling events. Peaks in DSi were likely the direct result of glacial meltwater pulses, whereas elevated ∑NOx concentrations in the fjord system were likely the result of meltwater‐induced upwelling of marine sources. However, we did not observe a case of simple conservative mixing, suggesting that other processes in the fjord system (e.g., differential biological uptake and remineralization) may decouple the relationship between the two nutrients. This data set was used to investigate the biogeochemical impact of changes in glacier meltwater input throughout the melt season.
Beaton, Alexander D.
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Hendry, Katharine R.
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Hatton, Jade E.
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Patey, Matthew D.
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Mowlem, Matthew
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Clinton‐Bailey, Geraldine
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Lopez‐Garcia, Patricia
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Woodward, E. Malcolm S.
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Meire, Lorenz
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4 March 2025
Beaton, Alexander D.
02f38dc0-7db0-488c-af92-465275f9d584
Hendry, Katharine R.
886d0da8-ae2d-4fa7-8e83-e850a6623392
Hatton, Jade E.
8c245f8e-de93-4070-9d2a-863d4f803db9
Patey, Matthew D.
224dd2f8-b804-4839-b9d2-b5ace922bd87
Mowlem, Matthew
6f633ca2-298f-48ee-a025-ce52dd62124f
Clinton‐Bailey, Geraldine
b1c0cbd2-32a3-4280-b097-28b596e3c117
Lopez‐Garcia, Patricia
c028fa36-f0c2-4905-be82-178dbcb9e887
Woodward, E. Malcolm S.
3a11b7bf-b110-448a-b1ee-ae1ce7d0fef5
Meire, Lorenz
c9b8ea71-a446-46f1-81c3-fbabba57225f
Beaton, Alexander D., Hendry, Katharine R., Hatton, Jade E., Patey, Matthew D., Mowlem, Matthew, Clinton‐Bailey, Geraldine, Lopez‐Garcia, Patricia, Woodward, E. Malcolm S. and Meire, Lorenz
(2025)
High‐resolution sensors reveal nitrate and dissolved silica dynamics in an Arctic fjord.
Journal of Geophysical Research: Biogeosciences, 130 (3), [e2024JG008523].
(doi:10.1029/2024jg008523).
Abstract
Subglacial weathering releases biologically important nutrients into meltwaters that have the potential to influence downstream ecosystems. There is a need to understand how accelerated glacial retreat could impact biogeochemical cycling in coastal regions in the near future. However, fjords—important gateways connecting the Greenland ice sheet and coastal oceans—are highly heterogeneous environments both in space and time. Here, we investigate temporal variability of nutrient dynamics in a glacier‐fed fjord (Nuup Kangerlua, Greenland) using a high resolution record of nitrate + nitrite (∑NOx) and dissolved silica (DSi),coupled with temperature and salinity, using submersible in situ sensors. During a 3‐month monitoring period(14th June to 13 September 2019), ∑NOx varied between 0.05 and 10.07 μM (±0.2 μM), whereas DSi varied between 0.35 and 14.98 μM (±0.5 μM). Both nutrients started low (following the spring bloom) and increased throughout the monitoring period. Several large peaks in both nutrients were observed, and these can largely be associated with meltwater runoff and upwelling events. Peaks in DSi were likely the direct result of glacial meltwater pulses, whereas elevated ∑NOx concentrations in the fjord system were likely the result of meltwater‐induced upwelling of marine sources. However, we did not observe a case of simple conservative mixing, suggesting that other processes in the fjord system (e.g., differential biological uptake and remineralization) may decouple the relationship between the two nutrients. This data set was used to investigate the biogeochemical impact of changes in glacier meltwater input throughout the melt season.
Text
JGR Biogeosciences - 2025 - Beaton - High‐Resolution Sensors Reveal Nitrate and Dissolved Silica Dynamics in an Arctic
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Accepted/In Press date: 12 February 2025
e-pub ahead of print date: 4 March 2025
Published date: 4 March 2025
Identifiers
Local EPrints ID: 511715
URI: http://eprints.soton.ac.uk/id/eprint/511715
ISSN: 2169-8953
PURE UUID: f89d74f6-6ebc-4f3e-985a-9c458fb8fade
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Date deposited: 28 May 2026 16:50
Last modified: 29 May 2026 01:37
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Contributors
Author:
Alexander D. Beaton
Author:
Katharine R. Hendry
Author:
Jade E. Hatton
Author:
Matthew D. Patey
Author:
Matthew Mowlem
Author:
Geraldine Clinton‐Bailey
Author:
Patricia Lopez‐Garcia
Author:
E. Malcolm S. Woodward
Author:
Lorenz Meire
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