Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)

Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)

Climate-change driven increases in temperature and precipitation are leading to increased discharge of freshwater and terrestrial material to Arctic coastal ecosystems. These inputs bring sediments, nutrients and organic matter (OM) across the land-ocean interface with a range of implications for co...

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Main Authors: Maeve McGovern, Alexey K. Pavlov, Anne Deininger, Mats A. Granskog, Eva Leu, Janne E. Søreide, Amanda E. Poste
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-09-01
Series:Frontiers in Marine Science
Subjects:
climate change
coastal biogeochemistry
dissolved organic matter
freshwater inputs
glacier runoff
light climate
Online Access:https://www.frontiersin.org/article/10.3389/fmars.2020.542563/full
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spelling doaj-9c1e857af546431eabf0280e71310fc02020-11-25T01:49:54ZengFrontiers Media S.A.Frontiers in Marine Science2296-77452020-09-01710.3389/fmars.2020.542563542563Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)Maeve McGovern0Maeve McGovern1Maeve McGovern2Alexey K. Pavlov3Alexey K. Pavlov4Anne Deininger5Anne Deininger6Mats A. Granskog7Eva Leu8Janne E. Søreide9Amanda E. Poste10Norwegian Institute for Water Research, Oslo, NorwayDepartment of Arctic and Marine Biology, UiT: The Arctic University of Norway, Tromsø, NorwayUniversity Centre in Svalbard, Longyearbyen, NorwayAkvaplan-niva, Fram Centre, Tromsø, NorwayInstitute of Oceanology, Polish Academy of Sciences, Sopot, PolandNorwegian Institute for Water Research, Oslo, NorwayCenter for Coastal Research, University of Agder, Kristiansand, NorwayNorwegian Polar Institute, Fram Centre, Tromsø, NorwayAkvaplan-niva, Fram Centre, Tromsø, NorwayUniversity Centre in Svalbard, Longyearbyen, NorwayNorwegian Institute for Water Research, Oslo, NorwayClimate-change driven increases in temperature and precipitation are leading to increased discharge of freshwater and terrestrial material to Arctic coastal ecosystems. These inputs bring sediments, nutrients and organic matter (OM) across the land-ocean interface with a range of implications for coastal ecosystems and biogeochemical cycling. To investigate responses to terrestrial inputs, physicochemical conditions were characterized in a river- and glacier-influenced Arctic fjord system (Isfjorden, Svalbard) from May to August in 2018 and 2019. Our observations revealed a pervasive freshwater footprint in the inner fjord arms, the geochemical properties of which varied spatially and seasonally as the melt season progressed. In June, during the spring freshet, rivers were a source of dissolved organic carbon (DOC; with concentrations up to 1410 μmol L–1). In August, permafrost and glacial-fed meltwater was a source of inorganic nutrients including NO2 + NO3, with concentrations 12-fold higher in the rivers than in the fjord. While marine OM dominated in May following the spring phytoplankton bloom, terrestrial OM was present throughout Isfjorden in June and August. Results suggest that enhanced land-ocean connectivity could lead to profound changes in the biogeochemistry and ecology of Svalbard fjords. Given the anticipated warming and associated increases in precipitation, permafrost thaw and freshwater discharge, our results highlight the need for more detailed seasonal field sampling in small Arctic catchments and receiving aquatic systems.https://www.frontiersin.org/article/10.3389/fmars.2020.542563/fullclimate changecoastal biogeochemistrydissolved organic matterfreshwater inputsglacier runofflight climate
collection DOAJ
language English
format Article
sources DOAJ
author Maeve McGovern
Maeve McGovern
Maeve McGovern
Alexey K. Pavlov
Alexey K. Pavlov
Anne Deininger
Anne Deininger
Mats A. Granskog
Eva Leu
Janne E. Søreide
Amanda E. Poste
spellingShingle Maeve McGovern
Maeve McGovern
Maeve McGovern
Alexey K. Pavlov
Alexey K. Pavlov
Anne Deininger
Anne Deininger
Mats A. Granskog
Eva Leu
Janne E. Søreide
Amanda E. Poste
Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)
Frontiers in Marine Science
climate change
coastal biogeochemistry
dissolved organic matter
freshwater inputs
glacier runoff
light climate
author_facet Maeve McGovern
Maeve McGovern
Maeve McGovern
Alexey K. Pavlov
Alexey K. Pavlov
Anne Deininger
Anne Deininger
Mats A. Granskog
Eva Leu
Janne E. Søreide
Amanda E. Poste
author_sort Maeve McGovern
title Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)
title_short Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)
title_full Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)
title_fullStr Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)
title_full_unstemmed Terrestrial Inputs Drive Seasonality in Organic Matter and Nutrient Biogeochemistry in a High Arctic Fjord System (Isfjorden, Svalbard)
title_sort terrestrial inputs drive seasonality in organic matter and nutrient biogeochemistry in a high arctic fjord system (isfjorden, svalbard)
publisher Frontiers Media S.A.
series Frontiers in Marine Science
issn 2296-7745
publishDate 2020-09-01
description Climate-change driven increases in temperature and precipitation are leading to increased discharge of freshwater and terrestrial material to Arctic coastal ecosystems. These inputs bring sediments, nutrients and organic matter (OM) across the land-ocean interface with a range of implications for coastal ecosystems and biogeochemical cycling. To investigate responses to terrestrial inputs, physicochemical conditions were characterized in a river- and glacier-influenced Arctic fjord system (Isfjorden, Svalbard) from May to August in 2018 and 2019. Our observations revealed a pervasive freshwater footprint in the inner fjord arms, the geochemical properties of which varied spatially and seasonally as the melt season progressed. In June, during the spring freshet, rivers were a source of dissolved organic carbon (DOC; with concentrations up to 1410 μmol L–1). In August, permafrost and glacial-fed meltwater was a source of inorganic nutrients including NO2 + NO3, with concentrations 12-fold higher in the rivers than in the fjord. While marine OM dominated in May following the spring phytoplankton bloom, terrestrial OM was present throughout Isfjorden in June and August. Results suggest that enhanced land-ocean connectivity could lead to profound changes in the biogeochemistry and ecology of Svalbard fjords. Given the anticipated warming and associated increases in precipitation, permafrost thaw and freshwater discharge, our results highlight the need for more detailed seasonal field sampling in small Arctic catchments and receiving aquatic systems.
topic climate change
coastal biogeochemistry
dissolved organic matter
freshwater inputs
glacier runoff
light climate
url https://www.frontiersin.org/article/10.3389/fmars.2020.542563/full
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