Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014

The stable isotopic records from the Greenland Ice Sheet are the gold standard for understanding climate variations in the Arctic on decadal to millennial scales. While the basic tenets that underlie interpretation of isotopic information appear robust in a mean sense, meteorological and glaciologic...

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Main Authors:	David Noone, Christopher Cox
Format:	Dataset
Language:	unknown
Published:	Arctic Data Center 2019
Subjects:	cloud size distribution snow optical properties Arctic Greenland Eureka Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes Ice Sheet
Online Access:	https://doi.org/10.18739/A28K74W5W

id	dataone:doi:10.18739/A28K74W5W
record_format	openpolar
spelling	dataone:doi:10.18739/A28K74W5W 2024-11-03T19:44:55+00:00 Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014 David Noone Christopher Cox Summit, Greenland ENVELOPE(-38.0,-38.0,72.0,72.0) BEGINDATE: 2011-06-12T00:00:00Z ENDDATE: 2014-07-03T00:00:00Z 2019-01-01T00:00:00Z https://doi.org/10.18739/A28K74W5W unknown Arctic Data Center cloud size distribution snow optical properties Dataset 2019 dataone:urn:node:ARCTIC https://doi.org/10.18739/A28K74W5W 2024-11-03T19:12:40Z The stable isotopic records from the Greenland Ice Sheet are the gold standard for understanding climate variations in the Arctic on decadal to millennial scales. While the basic tenets that underlie interpretation of isotopic information appear robust in a mean sense, meteorological and glaciological processes can confound simple interpretations. Processes of concern are variations in moisture sources, cloud processes, surface ablation, blowing snow and vapor diffusion in the firn. The project objectives are to resolve fundamental uncertainties in the controls on the isotopic composition of the ice sheet through a 3-year measurement campaign at Summit, Eureka and Reykjavik. The project will use measurements and modeling to evaluate 1) the degree to which oxygen isotopic composition and deuterium excess of snow capture variations in moisture sources versus cloud microphysical conditions, and 2) the degree to which blowing snow and vapor diffusion within the firn confound accurate interpretation of variability in the isotopic record. Continuous measurements of the isotopic composition of water vapor and daily measurements of the isotopic composition of freshly-fallen and blowing snow will be made at Summit, Eureka and Reykjavik. These will be combined with measurements of the amount, size distribution, and approximate habit of falling and blowing snow, turbulence measurements to evaluate snow lofting, surface latent heat flux (ablation and frost) and energy balance, and remote sensing of polar clouds and atmospheric structure. High-resolution firn cores will be drilled to reconcile the detailed isotopic measurements and modeling with glaciological records. The new isotope measurements will jump start an emerging international pan-Arctic cooperative network of isotope measurements, which complements Arctic observations under existing Arctic Observing Network activities. The advanced measurements at Summit enhance the site as a comprehensive observatory for monitoring and understanding Arctic change. Dataset Arctic Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes Greenland Ice Sheet Arctic Data Center (via DataONE) Arctic Greenland Eureka ENVELOPE(-85.940,-85.940,79.990,79.990) ENVELOPE(-38.0,-38.0,72.0,72.0)
institution	Open Polar
collection	Arctic Data Center (via DataONE)
op_collection_id	dataone:urn:node:ARCTIC
language	unknown
topic	cloud size distribution snow optical properties
spellingShingle	cloud size distribution snow optical properties David Noone Christopher Cox Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014
topic_facet	cloud size distribution snow optical properties
description	The stable isotopic records from the Greenland Ice Sheet are the gold standard for understanding climate variations in the Arctic on decadal to millennial scales. While the basic tenets that underlie interpretation of isotopic information appear robust in a mean sense, meteorological and glaciological processes can confound simple interpretations. Processes of concern are variations in moisture sources, cloud processes, surface ablation, blowing snow and vapor diffusion in the firn. The project objectives are to resolve fundamental uncertainties in the controls on the isotopic composition of the ice sheet through a 3-year measurement campaign at Summit, Eureka and Reykjavik. The project will use measurements and modeling to evaluate 1) the degree to which oxygen isotopic composition and deuterium excess of snow capture variations in moisture sources versus cloud microphysical conditions, and 2) the degree to which blowing snow and vapor diffusion within the firn confound accurate interpretation of variability in the isotopic record. Continuous measurements of the isotopic composition of water vapor and daily measurements of the isotopic composition of freshly-fallen and blowing snow will be made at Summit, Eureka and Reykjavik. These will be combined with measurements of the amount, size distribution, and approximate habit of falling and blowing snow, turbulence measurements to evaluate snow lofting, surface latent heat flux (ablation and frost) and energy balance, and remote sensing of polar clouds and atmospheric structure. High-resolution firn cores will be drilled to reconcile the detailed isotopic measurements and modeling with glaciological records. The new isotope measurements will jump start an emerging international pan-Arctic cooperative network of isotope measurements, which complements Arctic observations under existing Arctic Observing Network activities. The advanced measurements at Summit enhance the site as a comprehensive observatory for monitoring and understanding Arctic change.
format	Dataset
author	David Noone Christopher Cox
author_facet	David Noone Christopher Cox
author_sort	David Noone
title	Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014
title_short	Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014
title_full	Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014
title_fullStr	Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014
title_full_unstemmed	Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014
title_sort	closing the isotope hydrology at summit: measurements of source regions, precipitation and post-deposition processes, greenland, 2011-2014
publisher	Arctic Data Center
publishDate	2019
url	https://doi.org/10.18739/A28K74W5W
op_coverage	Summit, Greenland ENVELOPE(-38.0,-38.0,72.0,72.0) BEGINDATE: 2011-06-12T00:00:00Z ENDDATE: 2014-07-03T00:00:00Z
long_lat	ENVELOPE(-85.940,-85.940,79.990,79.990) ENVELOPE(-38.0,-38.0,72.0,72.0)
geographic	Arctic Greenland Eureka
geographic_facet	Arctic Greenland Eureka
genre	Arctic Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes Greenland Ice Sheet
genre_facet	Arctic Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes Greenland Ice Sheet
op_doi	https://doi.org/10.18739/A28K74W5W
_version_	1814732343303208960

Closing the Isotope Hydrology at Summit: Measurements of Source Regions, Precipitation and Post-deposition Processes, Greenland, 2011-2014

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