Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland

The relative roles of anthropogenic nitrogen (N) deposition and climate change in causing ecological change in remote Arctic ecosystems, especially lakes, have been the subject of debate over the last decade. Some palaeoecological studies have cited isotopic signals (δ(15N)) preserved in lake sedime...

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Published in:Biogeosciences
Main Authors: Curtis, CJ, Kaiser, J, Marca, A, Anderson, NJ, Simpson, G, Jones, V, Whiteford, E
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus 2018
Subjects:
Arctic
Greenland
Climate change
Ice Sheet
Online Access:http://irep.ntu.ac.uk/id/eprint/34185/
http://irep.ntu.ac.uk/id/eprint/34185/1/11642_Whiteford.pdf
https://doi.org/10.5194/bg-15-529-2018
id ftnottinghtrentu:oai:irep.ntu.ac.uk:34185
record_format openpolar
spelling ftnottinghtrentu:oai:irep.ntu.ac.uk:34185 2023-05-15T15:08:01+02:00 Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland Curtis, CJ Kaiser, J Marca, A Anderson, NJ Simpson, G Jones, V Whiteford, E 2018-01-29 text http://irep.ntu.ac.uk/id/eprint/34185/ http://irep.ntu.ac.uk/id/eprint/34185/1/11642_Whiteford.pdf https://doi.org/10.5194/bg-15-529-2018 en eng Copernicus http://irep.ntu.ac.uk/id/eprint/34185/1/11642_Whiteford.pdf CURTIS, C.J., KAISER, J., MARCA, A., ANDERSON, N.J., SIMPSON, G., JONES, V. and WHITEFORD, E., 2018. Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland. Biogeosciences, 15 (2), pp. 529-550. ISSN 1726-4189 doi:10.5194/bg-15-529-2018 Article PeerReviewed 2018 ftnottinghtrentu https://doi.org/10.5194/bg-15-529-2018 2022-01-09T07:11:07Z The relative roles of anthropogenic nitrogen (N) deposition and climate change in causing ecological change in remote Arctic ecosystems, especially lakes, have been the subject of debate over the last decade. Some palaeoecological studies have cited isotopic signals (δ(15N)) preserved in lake sediments as evidence linking N deposition with ecological change, but a key limitation has been the lack of co-located data on both deposition input fluxes and isotopic composition of deposited nitrate (NO3−). In Arctic lakes, including those in western Greenland, previous palaeolimnological studies have indicated a spatial variation in δ(15N) trends in lake sediments but data are lacking for deposition chemistry, input fluxes and stable isotope composition of NO3−. In the present study, snowpack chemistry, NO3− stable isotopes and net deposition fluxes for the largest ice-free region in Greenland were investigated to determine whether there are spatial gradients from the ice sheet margin to the coast linked to a gradient in precipitation. Late-season snowpack was sampled in March 2011 at eight locations within three lake catchments in each of three regions (ice sheet margin in the east, the central area near Kelly Ville and the coastal zone to the west). At the coast, snowpack accumulation averaged 181 mm snow water equivalent (SWE) compared with 36 mm SWE by the ice sheet. Coastal snowpack showed significantly greater concentrations of marine salts (Na+, Cl−, other major cations), ammonium (NH4+; regional means 1.4–2.7 µmol L−1), total and non-sea-salt sulfate (SO42−; total 1.8–7.7, non-sea-salt 1.0–1.8 µmol L−1) than the two inland regions. Nitrate (1.5–2.4 µmol L−1) showed significantly lower concentrations at the coast. Despite lower concentrations, higher precipitation at the coast results in greater net deposition for NO3− as well as NH4+ and non-sea-salt sulfate (nss-SO42−) relative to the inland regions (lowest at Kelly Ville 6, 4 and 3; highest at coast 9, 17 and 11 mol ha−1 a−1 of NO3−, NH4+ and nss-SO42− respectively). The δ(15N) of snowpack NO3− shows a significant decrease from inland regions (−5.7 ‰ at Kelly Ville) to the coast (−11.3 ‰). We attribute the spatial patterns of δ(15N) in western Greenland to post-depositional processing rather than differing sources because of (1) spatial relationships with precipitation and sublimation, (2) within-catchment isotopic differences between terrestrial snowpack and lake ice snowpack, and (3) similarities between fresh snow (rather than accumulated snowpack) at Kelly Ville and the coast. Hence the δ(15N) of coastal snowpack is most representative of snowfall in western Greenland, but after deposition the effects of photolysis, volatilization and sublimation lead to enrichment of the remaining snowpack with the greatest effect in inland areas of low precipitation and high sublimation losses. Article in Journal/Newspaper Arctic Climate change Greenland Ice Sheet Nottingham Trent University's Institutional Repository (IRep) Arctic Greenland Biogeosciences 15 2 529 550
institution Open Polar
collection Nottingham Trent University's Institutional Repository (IRep)
op_collection_id ftnottinghtrentu
language English
description The relative roles of anthropogenic nitrogen (N) deposition and climate change in causing ecological change in remote Arctic ecosystems, especially lakes, have been the subject of debate over the last decade. Some palaeoecological studies have cited isotopic signals (δ(15N)) preserved in lake sediments as evidence linking N deposition with ecological change, but a key limitation has been the lack of co-located data on both deposition input fluxes and isotopic composition of deposited nitrate (NO3−). In Arctic lakes, including those in western Greenland, previous palaeolimnological studies have indicated a spatial variation in δ(15N) trends in lake sediments but data are lacking for deposition chemistry, input fluxes and stable isotope composition of NO3−. In the present study, snowpack chemistry, NO3− stable isotopes and net deposition fluxes for the largest ice-free region in Greenland were investigated to determine whether there are spatial gradients from the ice sheet margin to the coast linked to a gradient in precipitation. Late-season snowpack was sampled in March 2011 at eight locations within three lake catchments in each of three regions (ice sheet margin in the east, the central area near Kelly Ville and the coastal zone to the west). At the coast, snowpack accumulation averaged 181 mm snow water equivalent (SWE) compared with 36 mm SWE by the ice sheet. Coastal snowpack showed significantly greater concentrations of marine salts (Na+, Cl−, other major cations), ammonium (NH4+; regional means 1.4–2.7 µmol L−1), total and non-sea-salt sulfate (SO42−; total 1.8–7.7, non-sea-salt 1.0–1.8 µmol L−1) than the two inland regions. Nitrate (1.5–2.4 µmol L−1) showed significantly lower concentrations at the coast. Despite lower concentrations, higher precipitation at the coast results in greater net deposition for NO3− as well as NH4+ and non-sea-salt sulfate (nss-SO42−) relative to the inland regions (lowest at Kelly Ville 6, 4 and 3; highest at coast 9, 17 and 11 mol ha−1 a−1 of NO3−, NH4+ and nss-SO42− respectively). The δ(15N) of snowpack NO3− shows a significant decrease from inland regions (−5.7 ‰ at Kelly Ville) to the coast (−11.3 ‰). We attribute the spatial patterns of δ(15N) in western Greenland to post-depositional processing rather than differing sources because of (1) spatial relationships with precipitation and sublimation, (2) within-catchment isotopic differences between terrestrial snowpack and lake ice snowpack, and (3) similarities between fresh snow (rather than accumulated snowpack) at Kelly Ville and the coast. Hence the δ(15N) of coastal snowpack is most representative of snowfall in western Greenland, but after deposition the effects of photolysis, volatilization and sublimation lead to enrichment of the remaining snowpack with the greatest effect in inland areas of low precipitation and high sublimation losses.
format Article in Journal/Newspaper
author Curtis, CJ
Kaiser, J
Marca, A
Anderson, NJ
Simpson, G
Jones, V
Whiteford, E
spellingShingle Curtis, CJ
Kaiser, J
Marca, A
Anderson, NJ
Simpson, G
Jones, V
Whiteford, E
Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland
author_facet Curtis, CJ
Kaiser, J
Marca, A
Anderson, NJ
Simpson, G
Jones, V
Whiteford, E
author_sort Curtis, CJ
title Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland
title_short Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland
title_full Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland
title_fullStr Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland
title_full_unstemmed Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland
title_sort spatial variations in snowpack chemistry, isotopic composition of no3− and nitrogen deposition from the ice sheet margin to the coast of western greenland
publisher Copernicus
publishDate 2018
url http://irep.ntu.ac.uk/id/eprint/34185/
http://irep.ntu.ac.uk/id/eprint/34185/1/11642_Whiteford.pdf
https://doi.org/10.5194/bg-15-529-2018
geographic Arctic
Greenland
geographic_facet Arctic
Greenland
genre Arctic
Climate change
Greenland
Ice Sheet
genre_facet Arctic
Climate change
Greenland
Ice Sheet
op_relation http://irep.ntu.ac.uk/id/eprint/34185/1/11642_Whiteford.pdf
CURTIS, C.J., KAISER, J., MARCA, A., ANDERSON, N.J., SIMPSON, G., JONES, V. and WHITEFORD, E., 2018. Spatial variations in snowpack chemistry, isotopic composition of NO3− and nitrogen deposition from the ice sheet margin to the coast of western Greenland. Biogeosciences, 15 (2), pp. 529-550. ISSN 1726-4189
doi:10.5194/bg-15-529-2018
op_doi https://doi.org/10.5194/bg-15-529-2018
container_title Biogeosciences
container_volume 15
container_issue 2
container_start_page 529
op_container_end_page 550
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