Citation:

PANGAEA.925392

Name: Physical properties and stable isotope composition of snow in the Canadian Arctic tundra and subarctic taiga (Spring-Summer 2018, 2019)
Published: 2020-12-04
License: https://creativecommons.org/licenses/by/4.0/
Keywords: Canadian Arctic; snow; snow physical properties; stable isotopes of water

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Abstract:

This data set describes snow physical and geochemical observations collected in the Canadian Arctic between March 2018 and June 2019. Snow samples were collected as part of the project entitled "Development of a multi-scale cryosphere monitoring network for the Kitikmeot region and Northwest territories using in-situ measurements, modeling and remote sensing" led by Dr. Alex Langlois, Université de Sherbrooke. Sampling was carried out at two primary locations in the Canadian sub-Arctic and Arctic: Wekweètì (NWT), located just south of tree line, and Greiner Lake Watershed (NU), situated well into Arctic tundra on Victoria Island (near Cambridge Bay, NU). Data are also included from Herschel Island (NWT) and Trail Valley Creek (NWT). Sampling was conducted primarily from spring into summer, with snow samples collected in Wekweètì over the month of March 2018 and Cambridge Bay over the months of April and July 2018, and April to June 2019. Trail Valley Creek was visited in winter, January 2019, whereas Herschel Island samples were collected in April and May 2019.

Snow physical properties were measured following the methods outlined in Levasseur et al., (submitted). Briefly, snowpits were excavated along transects to conduct observations of snow stratigraphy, density, temperature, grain size, and grain type following Langlois et al., (2009). Density profiles were measured by extracting snow samples at 3 cm intervals using 192 cm3 and 100 cm3 density cutters. The samples were weighed using a Pesola light series scale (100 g) from which density was calculated. Temperature profiles were also measured at 3 cm intervals using a digital temperature probe (+/- 0.1°C). Snow Water Equivalent was also determined for some layers after Langlois et al., (2009). Snow geochemical properties were also determined following the methods outlined in Levasseur et al., (submitted). Briefly, snow was collected into 1 L HDPE plastic snow containers using a clean plastic trowel. Snow samples were melted at room and/or fridge temperature, with melt progression checked at regular intervals. Once melted, samples were filtered through 0.22 μm Sterivex-GV filters into Wheaton 4 mL Amber Vials with TFE-Lined Caps for the analysis of stable isotope composition (δ18O-H2O and δ2H-H2O). For samples collected in 2018, stable isotope analyses were conducted at the Environmental Chemistry Facility at Brown University (RI) using a Picarro L1102-i Isotopic Water Liquid Analyzer with a standard error of +/- 0.1 ‰ for δ18O-H2O and +/-1 ‰ for δ2H-H2O. For samples collected in 2019, stable isotope analyses were conducted at the University of Calgary using a Los Gatos Research Liquid Water Isotope Analyzer with a reported analytical precision of ± 0.2‰ for δ18O-H2O and ± 2‰ for δ2H-H2O.

Keyword(s):

Canadian Arctic; snow; snow physical properties; stable isotopes of water

Related to:

Levasseur, Simon (2020): Mesure des propriétés physiques et analyse de la composition géochimique du couvert nival des régions arctiques et subarctiques. Département de géomatique appliquée Faculté des lettres et sciences humaines, Université de Sherbrooke, https://hdl.handle.net/11143/17345

Levasseur, Simon; Brown, Kristina Anne; Langlois, Alexandre; McLennan, Donald (2021): Measurement of Snow Physical Properties and Stable Isotope Variations in the Canadian Sub-Arctic and Arctic Snowpack. Atmosphere-Ocean, 59(3), 137-151, https://doi.org/10.1080/07055900.2021.1962240

Further details:

Langlois, Alexandre; Kohn, Josef; Royer, A; Cliche, P; Brucker, L; Picard, Ghislain; Fily, Michel; Derksen, Chris; Willemet, J M (2009): Simulation of Snow Water Equivalent (SWE) Using Thermodynamic Snow Models in Québec, Canada. Journal of Hydrometeorology, 10(6), 1447-1463, https://doi.org/10.1175/2009JHM1154.1

Project(s):

Development of a multi-scale cryosphere monitoring network for the Kitikmeot region and Northwest territories using in-situ measurements, modeling and remote sensing (SnowMonitoring_NWT&Kitikmeot)

Coverage:

Median Latitude: 68.067602 * Median Longitude: -110.725384 * South-bound Latitude: 64.046600 * West-bound Longitude: -139.052700 * North-bound Latitude: 69.594400 * East-bound Longitude: -104.376500

Date/Time Start: 2018-03-22T15:45:00 * Date/Time End: 2109-05-31T11:07:00

Event(s):

CAMBRIDGE_BAY042018/MPSP3 * Latitude: 69.133610 * Longitude: -104.972500 * Date/Time: 2018-04-18T15:00:00 * Location: Cambridge Bay, Nunavut, Canada * Campaign: * Method/Device: HDPE plastic snow container, 1 L

CAMBRIDGE_BAY042018/SBR_SP3 * Latitude Start: 69.136360 * Longitude Start: -104.935300 * Latitude End: 69.136360 * Longitude End: -104.935300 * Date/Time Start: 2018-04-11T10:45:00 * Date/Time End: 2018-04-27T09:00:00 * Location: Cambridge Bay, Nunavut, Canada * Campaign: * Method/Device: HDPE plastic snow container, 1 L

CAMBRIDGE_BAY042018/SPISO1 * Latitude: 69.216060 * Longitude: -104.918700 * Date/Time: 2018-04-17T13:00:00 * Location: Cambridge Bay, Nunavut, Canada * Campaign: * Method/Device: HDPE plastic snow container, 1 L

Comment:

#999: ICE

Acknowledgements: We would like to thank the Environmental Chemistry Facility at Brown University, Rhode Island, USA (Joseph Orchardo, David Murray) and the Else Lab at the University of Calgary, Alberta, Canada (Araleigh Cranch, Mohamed Ahmed, Brent Else) for conducting sample analyses. We would also like to thank Vincent Sasseville and Joëlle Voglimacci-Stéphanopoli for help with sample collection on Herschel Island.

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Campaign of event	Campaign		Langlois, Alexandre
2	Event label	Event		Langlois, Alexandre
3	Sample ID	Sample ID		Langlois, Alexandre
4	Sample code/label	Sample label		Langlois, Alexandre
5	LATITUDE	Latitude		Langlois, Alexandre		Geocode
6	LONGITUDE	Longitude		Langlois, Alexandre		Geocode
7	DATE/TIME	Date/Time		Langlois, Alexandre		Geocode
8	Sample type	Samp type		Langlois, Alexandre
9	Snow depth	Snow depth	cm	Langlois, Alexandre		Snowpit total depth
10	Thickness	Thick	cm	Langlois, Alexandre		Thickness of the snow layer sampled
11	Height	Height		Langlois, Alexandre		Relative height
12	Layer depth	Layer depth	cm	Langlois, Alexandre		Depth measured at the center of the snow layer sampled
13	Temperature, ice/snow	t	°C	Langlois, Alexandre	Temperature probe (TP)	Temperature at center of layer
14	Density, snow	Density snow	kg/m³	Langlois, Alexandre	Calculated from weight/volume
15	Snow water equivalent	SWE	mm	Langlois, Alexandre	after Langlois etal., 2009
16	δ18O, water	δ18O H2O	‰ SMOW	Brown, Kristina Anne	Isotopic liquid water analyzer	Relative to V-SMOW with an analytical precision of ± 0.1‰
17	δ Deuterium, water	δD H2O	‰ SMOW	Brown, Kristina Anne	Isotopic liquid water analyzer	Relative to V-SMOW with an analytical precision of ± 1‰
18	Comment	Comment		Langlois, Alexandre

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)

Size:

2057 data points

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