Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams

Climate change is causing drastic landscape changes in the Arctic, but how these changes modify stream biogeochemistry is not clear yet. We examined how catchment properties influence stream nitrogen (N) and dissolved organic carbon concentrations (DOC) in a high-Arctic environment. We sampled two c...

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Published in:	Hydrological Processes
Main Authors:	Pastor, Ada, Skovsholt, Louis J., Christoffersen, Kirsten S., Wu, Naicheng, Riis, Tenna
Format:	Article in Journal/Newspaper
Language:	English
Published:	2021
Subjects:	Arctic carbon catchment climate change landscape nitrogen river Aucellaelv Greenland Kærelv Climate change Tundra
Online Access:	https://curis.ku.dk/portal/da/publications/geomorphology-and-vegetation-drive-hydrochemistry-changes-in-two-northeast-greenland-streams(6f9ac5b9-2f20-487a-bbfd-9e68b0ef37a6).html https://doi.org/10.1002/hyp.14369 https://curis.ku.dk/ws/files/279714999/Geomorphology_and_vegetation_drive_hydrochemistry_changes_in_two_Northeast_Greenland_streams_accepted_version_.pdf

id	ftcopenhagenunip:oai:pure.atira.dk:publications/6f9ac5b9-2f20-487a-bbfd-9e68b0ef37a6
record_format	openpolar
spelling	ftcopenhagenunip:oai:pure.atira.dk:publications/6f9ac5b9-2f20-487a-bbfd-9e68b0ef37a6 2024-06-09T07:43:33+00:00 Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams Pastor, Ada Skovsholt, Louis J. Christoffersen, Kirsten S. Wu, Naicheng Riis, Tenna 2021 application/pdf https://curis.ku.dk/portal/da/publications/geomorphology-and-vegetation-drive-hydrochemistry-changes-in-two-northeast-greenland-streams(6f9ac5b9-2f20-487a-bbfd-9e68b0ef37a6).html https://doi.org/10.1002/hyp.14369 https://curis.ku.dk/ws/files/279714999/Geomorphology_and_vegetation_drive_hydrochemistry_changes_in_two_Northeast_Greenland_streams_accepted_version_.pdf eng eng info:eu-repo/semantics/openAccess Pastor , A , Skovsholt , L J , Christoffersen , K S , Wu , N & Riis , T 2021 , ' Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams ' , Hydrological Processes , vol. 35 , no. 10 , e14369 . https://doi.org/10.1002/hyp.14369 Arctic carbon catchment climate change landscape nitrogen river article 2021 ftcopenhagenunip https://doi.org/10.1002/hyp.14369 2024-05-16T11:29:21Z Climate change is causing drastic landscape changes in the Arctic, but how these changes modify stream biogeochemistry is not clear yet. We examined how catchment properties influence stream nitrogen (N) and dissolved organic carbon concentrations (DOC) in a high-Arctic environment. We sampled two contrasting headwater streams (10-15 stations over 4.8 and 6.8 km, respectively) in Northeast Greenland (74°N). We characterized the geomorphology (i.e. bedrock, solifluction and alluvial types) and the vegetation (i.e. barren, fell field, grassland and tundra types) cover of each subcatchment area draining into each sampling station and collected water samples for hydrochemistry characterization. The two sampled streams differed in geomorphology and vegetation cover in the catchment. Aucellaelv catchment was mostly covered by a `bedrock´ geomorphology (71 and `fellfield´ vegetation (51, whereas Kæerelv was mostly covered by `alluvial´ geomorphology (65 and `grassland´ and `tundra` vegetation (42 and 41. Hydrochemistry also differed between the two study streams, with higher concentrations of inorganic N forms in Aucellaelv and lower DOC concentrations, compared to Kærelv. The results from the linear mixed model selection showed that vegetation and geomorphology had contrasting effects on stream hydrochemistry. Subcatchments with higher solifluction sheets and limited vegetation had higher nitrate concentrations but lower dissolved organic carbon concentrations. Interestingly, we also found high variability on the production and removal of nitrate across subcatchments. These results indicate landscape controls to nutrient and organic matter exports via flow paths, soil organic matter stocks and nutrient retention via terrestrial vegetation. Moreover, the results suggest that climate change induced alterations to vegetation cover and soil physical disturbance in high-Arctic catchments will affect stream hydrochemistry, with potential effects in stream productivity, trophic relations as well as change of solute export to ... Article in Journal/Newspaper Arctic Climate change Greenland Tundra University of Copenhagen: Research Arctic Aucellaelv ENVELOPE(-23.767,-23.767,70.567,70.567) Greenland Kærelv ENVELOPE(-22.450,-22.450,70.800,70.800) Hydrological Processes 35 10
institution	Open Polar
collection	University of Copenhagen: Research
op_collection_id	ftcopenhagenunip
language	English
topic	Arctic carbon catchment climate change landscape nitrogen river
spellingShingle	Arctic carbon catchment climate change landscape nitrogen river Pastor, Ada Skovsholt, Louis J. Christoffersen, Kirsten S. Wu, Naicheng Riis, Tenna Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams
topic_facet	Arctic carbon catchment climate change landscape nitrogen river
description	Climate change is causing drastic landscape changes in the Arctic, but how these changes modify stream biogeochemistry is not clear yet. We examined how catchment properties influence stream nitrogen (N) and dissolved organic carbon concentrations (DOC) in a high-Arctic environment. We sampled two contrasting headwater streams (10-15 stations over 4.8 and 6.8 km, respectively) in Northeast Greenland (74°N). We characterized the geomorphology (i.e. bedrock, solifluction and alluvial types) and the vegetation (i.e. barren, fell field, grassland and tundra types) cover of each subcatchment area draining into each sampling station and collected water samples for hydrochemistry characterization. The two sampled streams differed in geomorphology and vegetation cover in the catchment. Aucellaelv catchment was mostly covered by a `bedrock´ geomorphology (71 and `fellfield´ vegetation (51, whereas Kæerelv was mostly covered by `alluvial´ geomorphology (65 and `grassland´ and `tundra` vegetation (42 and 41. Hydrochemistry also differed between the two study streams, with higher concentrations of inorganic N forms in Aucellaelv and lower DOC concentrations, compared to Kærelv. The results from the linear mixed model selection showed that vegetation and geomorphology had contrasting effects on stream hydrochemistry. Subcatchments with higher solifluction sheets and limited vegetation had higher nitrate concentrations but lower dissolved organic carbon concentrations. Interestingly, we also found high variability on the production and removal of nitrate across subcatchments. These results indicate landscape controls to nutrient and organic matter exports via flow paths, soil organic matter stocks and nutrient retention via terrestrial vegetation. Moreover, the results suggest that climate change induced alterations to vegetation cover and soil physical disturbance in high-Arctic catchments will affect stream hydrochemistry, with potential effects in stream productivity, trophic relations as well as change of solute export to ...
format	Article in Journal/Newspaper
author	Pastor, Ada Skovsholt, Louis J. Christoffersen, Kirsten S. Wu, Naicheng Riis, Tenna
author_facet	Pastor, Ada Skovsholt, Louis J. Christoffersen, Kirsten S. Wu, Naicheng Riis, Tenna
author_sort	Pastor, Ada
title	Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams
title_short	Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams
title_full	Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams
title_fullStr	Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams
title_full_unstemmed	Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams
title_sort	geomorphology and vegetation drive hydrochemistry changes in two northeast greenland streams
publishDate	2021
url	https://curis.ku.dk/portal/da/publications/geomorphology-and-vegetation-drive-hydrochemistry-changes-in-two-northeast-greenland-streams(6f9ac5b9-2f20-487a-bbfd-9e68b0ef37a6).html https://doi.org/10.1002/hyp.14369 https://curis.ku.dk/ws/files/279714999/Geomorphology_and_vegetation_drive_hydrochemistry_changes_in_two_Northeast_Greenland_streams_accepted_version_.pdf
long_lat	ENVELOPE(-23.767,-23.767,70.567,70.567) ENVELOPE(-22.450,-22.450,70.800,70.800)
geographic	Arctic Aucellaelv Greenland Kærelv
geographic_facet	Arctic Aucellaelv Greenland Kærelv
genre	Arctic Climate change Greenland Tundra
genre_facet	Arctic Climate change Greenland Tundra
op_source	Pastor , A , Skovsholt , L J , Christoffersen , K S , Wu , N & Riis , T 2021 , ' Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams ' , Hydrological Processes , vol. 35 , no. 10 , e14369 . https://doi.org/10.1002/hyp.14369
op_rights	info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.1002/hyp.14369
container_title	Hydrological Processes
container_volume	35
container_issue	10
_version_	1801372370419580928

Geomorphology and vegetation drive hydrochemistry changes in two Northeast Greenland streams

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