Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland. / Yde, J. C.; Knudsen, N. Tvis; Steffensen, J. P.; Carrivick, J. L.; Hasholt, B.; Ingeman-Nielsen, T.; Kronborg, C.; Larsen, N. K.; Mernild, S. H.; Oerter, H.; Roberts, D. H.; Russell, A. J.

In: Hydrology and Earth System Sciences Discussions, Vol. 12, No. 6, 18.06.2015, p. 5841-5893.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Yde, JC, Knudsen, NT, Steffensen, JP, Carrivick, JL, Hasholt, B, Ingeman-Nielsen, T, Kronborg, C, Larsen, NK, Mernild, SH, Oerter, H, Roberts, DH & Russell, AJ 2015, 'Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland', Hydrology and Earth System Sciences Discussions, vol. 12, no. 6, pp. 5841-5893. https://doi.org/10.5194/hessd-12-5841-2015

APA

Yde, J. C., Knudsen, N. T., Steffensen, J. P., Carrivick, J. L., Hasholt, B., Ingeman-Nielsen, T., Kronborg, C., Larsen, N. K., Mernild, S. H., Oerter, H., Roberts, D. H., & Russell, A. J. (2015). Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland. Hydrology and Earth System Sciences Discussions, 12(6), 5841-5893. https://doi.org/10.5194/hessd-12-5841-2015

Vancouver

Yde JC, Knudsen NT, Steffensen JP, Carrivick JL, Hasholt B, Ingeman-Nielsen T et al. Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland. Hydrology and Earth System Sciences Discussions. 2015 Jun 18;12(6):5841-5893. https://doi.org/10.5194/hessd-12-5841-2015

Author

Yde, J. C. ; Knudsen, N. Tvis ; Steffensen, J. P. ; Carrivick, J. L. ; Hasholt, B. ; Ingeman-Nielsen, T. ; Kronborg, C. ; Larsen, N. K. ; Mernild, S. H. ; Oerter, H. ; Roberts, D. H. ; Russell, A. J. / Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland. In: Hydrology and Earth System Sciences Discussions. 2015 ; Vol. 12, No. 6. pp. 5841-5893.

Bibtex

@article{31970da48a674cb381d080afd7bd667d,
title = "Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland",
abstract = "Analysis of stable oxygen isotope (δ18O) characteristics is a useful tool to investigate water provenance in glacier river systems. In order to attain knowledge on the diversity of spatio-temporal δ18O variations in glacier rivers, we have examined three glacierized catchments in Greenland with different areas, glacier hydrology and thermal regimes. At Mittivakkat Gletscher River, a small river draining a local temperate glacier in southeast Greenland, diurnal oscillations in δ18O occur with a three-hour time lag to the diurnal oscillations in runoff. Throughout the peak flow season the δ18O composition is controlled by the proportion between snowmelt and ice melt with episodic inputs of rainwater and occasional storage and release of a specific water component due to changes in the subglacial drainage system. At Kuannersuit Glacier River on the island Qeqertarsuaq, the δ18O characteristics were examined after the major 1995-1998 glacier surge event. Despite large variations in the δ18O values of glacier ice on the newly formed glacier tongue, there were no diurnal oscillations in the bulk meltwater emanating from the glacier in the post-surge years 2000-2001. In 2002 there were indications of diurnal oscillations, and in 2003 there were large diurnal fluctuations in δ18O. At Watson River, a large catchment at the western margin of the Greenland Ice Sheet, the spatial distribution of δ18O in the river system was applied to fingerprint the relative runoff contributions from sub-catchments. Spot sampling indicates that during the early melt season most of the river water (64-73 %) derived from the Qinnguata Kuussua tributary, whereas the water flow on 23 July 2009 was dominated by bulk meltwater from the Akuliarusiarsuup Kuua tributary (where 7 and 67 % originated from the Russell Glacier and Leverett Glacier sub-catchments, respectively). A comparison of the δ18O compositions from glacial river water in Greenland shows distinct differences between water draining local glaciers (between -17.4 and -13.7 ‰), large ice caps (between -23.0 and -17.8 ‰) and the Greenland Ice Sheet (between -29.9 and -23.2 ‰).",
author = "Yde, {J. C.} and Knudsen, {N. Tvis} and Steffensen, {J. P.} and Carrivick, {J. L.} and B. Hasholt and T. Ingeman-Nielsen and C. Kronborg and Larsen, {N. K.} and Mernild, {S. H.} and H. Oerter and Roberts, {D. H.} and Russell, {A. J.}",
year = "2015",
month = jun,
day = "18",
doi = "10.5194/hessd-12-5841-2015",
language = "English",
volume = "12",
pages = "5841--5893",
journal = "Hydrology and Earth System Sciences Discussions",
issn = "1812-2108",
publisher = "Copernicus GmbH",
number = "6",

}

RIS

TY - JOUR

T1 - Spatiotemporal variability of oxygen isotope compositions in three contrasting glacier river catchments in Greenland

AU - Yde, J. C.

AU - Knudsen, N. Tvis

AU - Steffensen, J. P.

AU - Carrivick, J. L.

AU - Hasholt, B.

AU - Ingeman-Nielsen, T.

AU - Kronborg, C.

AU - Larsen, N. K.

AU - Mernild, S. H.

AU - Oerter, H.

AU - Roberts, D. H.

AU - Russell, A. J.

PY - 2015/6/18

Y1 - 2015/6/18

N2 - Analysis of stable oxygen isotope (δ18O) characteristics is a useful tool to investigate water provenance in glacier river systems. In order to attain knowledge on the diversity of spatio-temporal δ18O variations in glacier rivers, we have examined three glacierized catchments in Greenland with different areas, glacier hydrology and thermal regimes. At Mittivakkat Gletscher River, a small river draining a local temperate glacier in southeast Greenland, diurnal oscillations in δ18O occur with a three-hour time lag to the diurnal oscillations in runoff. Throughout the peak flow season the δ18O composition is controlled by the proportion between snowmelt and ice melt with episodic inputs of rainwater and occasional storage and release of a specific water component due to changes in the subglacial drainage system. At Kuannersuit Glacier River on the island Qeqertarsuaq, the δ18O characteristics were examined after the major 1995-1998 glacier surge event. Despite large variations in the δ18O values of glacier ice on the newly formed glacier tongue, there were no diurnal oscillations in the bulk meltwater emanating from the glacier in the post-surge years 2000-2001. In 2002 there were indications of diurnal oscillations, and in 2003 there were large diurnal fluctuations in δ18O. At Watson River, a large catchment at the western margin of the Greenland Ice Sheet, the spatial distribution of δ18O in the river system was applied to fingerprint the relative runoff contributions from sub-catchments. Spot sampling indicates that during the early melt season most of the river water (64-73 %) derived from the Qinnguata Kuussua tributary, whereas the water flow on 23 July 2009 was dominated by bulk meltwater from the Akuliarusiarsuup Kuua tributary (where 7 and 67 % originated from the Russell Glacier and Leverett Glacier sub-catchments, respectively). A comparison of the δ18O compositions from glacial river water in Greenland shows distinct differences between water draining local glaciers (between -17.4 and -13.7 ‰), large ice caps (between -23.0 and -17.8 ‰) and the Greenland Ice Sheet (between -29.9 and -23.2 ‰).

AB - Analysis of stable oxygen isotope (δ18O) characteristics is a useful tool to investigate water provenance in glacier river systems. In order to attain knowledge on the diversity of spatio-temporal δ18O variations in glacier rivers, we have examined three glacierized catchments in Greenland with different areas, glacier hydrology and thermal regimes. At Mittivakkat Gletscher River, a small river draining a local temperate glacier in southeast Greenland, diurnal oscillations in δ18O occur with a three-hour time lag to the diurnal oscillations in runoff. Throughout the peak flow season the δ18O composition is controlled by the proportion between snowmelt and ice melt with episodic inputs of rainwater and occasional storage and release of a specific water component due to changes in the subglacial drainage system. At Kuannersuit Glacier River on the island Qeqertarsuaq, the δ18O characteristics were examined after the major 1995-1998 glacier surge event. Despite large variations in the δ18O values of glacier ice on the newly formed glacier tongue, there were no diurnal oscillations in the bulk meltwater emanating from the glacier in the post-surge years 2000-2001. In 2002 there were indications of diurnal oscillations, and in 2003 there were large diurnal fluctuations in δ18O. At Watson River, a large catchment at the western margin of the Greenland Ice Sheet, the spatial distribution of δ18O in the river system was applied to fingerprint the relative runoff contributions from sub-catchments. Spot sampling indicates that during the early melt season most of the river water (64-73 %) derived from the Qinnguata Kuussua tributary, whereas the water flow on 23 July 2009 was dominated by bulk meltwater from the Akuliarusiarsuup Kuua tributary (where 7 and 67 % originated from the Russell Glacier and Leverett Glacier sub-catchments, respectively). A comparison of the δ18O compositions from glacial river water in Greenland shows distinct differences between water draining local glaciers (between -17.4 and -13.7 ‰), large ice caps (between -23.0 and -17.8 ‰) and the Greenland Ice Sheet (between -29.9 and -23.2 ‰).

U2 - 10.5194/hessd-12-5841-2015

DO - 10.5194/hessd-12-5841-2015

M3 - Journal article

AN - SCOPUS:84949869516

VL - 12

SP - 5841

EP - 5893

JO - Hydrology and Earth System Sciences Discussions

JF - Hydrology and Earth System Sciences Discussions

SN - 1812-2108

IS - 6

ER -

ID: 232013994