Major and trace elements in snow and ice from Deming Lake, MN, USA (2022-2023)

A core of ice from the center of the lake was obtained in March 2023 using a Kovacs Mark V coring system. The core barrel extracts a 14 cm diameter ice core and returned a ~40 cm-long ice core topped with ~5 cm of snow cover. This core was transported back to the field station in a clean plastic bag...

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Bibliographic Details
Main Authors: Rico, Kathryn, Ostrander, Chadlin, Heard, Andrew, Swanner, Elizabeth
Format: Dataset
Language:English
Published: PANGAEA 2024
Subjects:
Aluminium
Barium
Cadmium
Calcium
Cerium
Chromium
Cobalt
Copper
DATE/TIME
Deming Lake
Minnesota
DEPTH
ice/snow
bottom/maximum
top/minimum
DL_Mar2023_Snow-Ice
DL_TraceElements_2022-2023
Dysprosium
Erbium
Europium
Event label
Gadolinium
Holmium
Inductively coupled plasma mass spectrometer (ICP-MS)
Thermo Fisher Scientific Inc.
iCAP Q
Iron
lake
water depth
Lake sediment
lake water
Lanthanum
LATITUDE
Lead
Lithium
LONGITUDE
Lutetium
Magnesium
Manganese
MARKV
Mark V motorized coring device
Kovacs Enterprise Inc
Molybdenum
Multi-Parameter Water Quality Meter
YSI
Frozen Lake
ice core
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.971079
https://doi.org/10.1594/PANGAEA.971079
Description
Summary:A core of ice from the center of the lake was obtained in March 2023 using a Kovacs Mark V coring system. The core barrel extracts a 14 cm diameter ice core and returned a ~40 cm-long ice core topped with ~5 cm of snow cover. This core was transported back to the field station in a clean plastic bag. Visual examination of the core revealed the presence of 3 layers: a ~5 cm unconsolidated snow layer at the top; a ~20 cm opaque layer identified as deriving from snow and referred to hereafter as 'snow ice'; and a ~20 cm transparent layer identified as frozen lake water or 'lake ice'. The outer layer of the ice core was washed liberally with methanol and Milli-Q water prior to sampling, and all samples from the ice core specifically avoided the outer surface of the core that was in direct contact with the coring system. Five discrete sample layers, one from the unconsolidated snow and two each from the snow ice and lake ice, were collected from this core by manual separation with a ceramic chisel. These approximately 400 mL samples were melted in acid-cleaned 500 mL Savillex Teflon reactors prior to transportation back to Woods Hole Oceanographic Institution (WHOI). Elemental compositions were determined using a Thermo Fisher iCAP-Q inductively coupled plasma mass spectrometer (ICP-MS) at the WHOI Plasma Facility following 200 dilution of a 10 μL aliquot in 2 % HNO3. Indium (In) was added to samples at a concentration of 1 ng/g prior to analyses to monitor and correct for instrument drift by normalizing to In intensities. Concentrations were calculated using a five-point calibration curve obtained by fitting of ion beam intensities measured for serial dilutions of a gravimetrically prepared multi-element standard. The relative standard deviation (RSD) for five measurements of each sample was ~10% on the iCAP-Q. The accuracy and precision of similar concentration measurements on iCAP-Q at WHOI have previously been determined to be ± 5-10 % (1SD) based on comparison with USGS reference materials AGV-1, AGV-2, BHVO-1, ...

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