10.5285/A9F2E4B5-9C2E-4EA5-8C0C-DB5F6585128A
Arthur, Jennifer
Jennifer
Arthur
0000-0001-8753-7211
Durham University
Stokes, Chris
Chris
Stokes
0000-0003-3355-1573
Durham University
Jamieson, Stewart
Stewart
Jamieson
0000-0002-9036-2317
Durham University
Carr, Rachel
Rachel
Carr
0000-0002-5924-8567
Newcastle University
Leeson, Amber
Amber
Leeson
0000-0001-8720-9808
Lancaster University
Verjans, Vincent
Vincent
Verjans
0000-0002-3928-9556
Georgia Institute of Technology
Large interannual variability in supraglacial lakes around East Antarctica (2014-2020)
NERC EDS UK Polar Data Centre
2021
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIER TOPOGRAPHY/ICE SHEET TOPOGRAPHY"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS","GLACIERS"
"EARTH SCIENCE","TERRESTRIAL HYDROSPHERE","GLACIERS/ICE SHEETS","GLACIER TOPOGRAPHY/ICE SHEET TOPOGRAPHY"
"EARTH SCIENCE","TERRESTRIAL HYDROSPHERE","GLACIERS/ICE SHEETS","GLACIERS"
"EARTH SCIENCE","SPECTRAL/ENGINEERING","VISIBLE WAVELENGTHS","VISIBLE IMAGERY"
"EARTH SCIENCE","CRYOSPHERE","GLACIERS/ICE SHEETS"
"EARTH SCIENCE","TERRESTRIAL HYDROSPHERE","GLACIERS/ICE SHEETS"
Antarctica
glaciology
hydrology
ice sheets
supraglacial lakes
Arthur, Jennifer
Jennifer
Arthur
0000-0001-8753-7211
Durham University
Arthur, Jennifer
Jennifer
Arthur
0000-0001-8753-7211
Durham University
Stokes, Chris
Chris
Stokes
0000-0003-3355-1573
Durham University
Jamieson, Stewart
Stewart
Jamieson
0000-0002-9036-2317
Durham University
Carr, Rachel
Rachel
Carr
0000-0002-5924-8567
Newcastle University
Leeson, Amber
Amber
Leeson
0000-0001-8720-9808
Lancaster University
Verjans, Vincent
Vincent
Verjans
0000-0002-3928-9556
Georgia Institute of Technology
UK Polar Data Centre
Natural Environment Research Council, UK Research & Innovation
UK Polar Data Centre
Natural Environment Research Council, UK Research & Innovation
UK Polar Data Centre
Natural Environment Research Council, UK Research & Innovation
2014-01-01/2020-01-31
2021-12-10
2021-12-10
2021-12-10
2021-12-21
en
Antarctica,glaciology,hydrology,ice sheets,supraglacial lakes
10.1038/s41467-022-29385-3
10.1038/s41467-022-29385-3
66 files (compressed)
490MB (compressed)
101 files (uncompressed)
319GB(uncompressed)
application/x-zip
image/tiff
shapefile
text/csv
1.0
Open Government Licence V3.0
This dataset provides supraglacial lake extents and depths as included in the paper by Arthur et al. (in review, Nature Comms.) entitled " Large interannual variability in supraglacial lakes around East Antarctica". Please cite this paper if using this data.
This dataset consists of (1) shapefiles of supraglacial lake extents around the East Antarctic Ice Sheet derived from Landsat-8 imagery acquired between January 2014 and 2020 and (2) rasters of supraglacial lake depths derived from Landast-8 imagery acquired over the same period. The datasets presented here were used to analyse the spatial distribution and interannual variability in lake distributions and volume.
Funding was provided by NERC DTP grant NE/L002590/1 and NERC grant NE/R000824/1.
We applied a previously-published threshold-based pixel classification method (Moussavi et al., 2020) which combines separate threshold-based algorithms to detect (1) surface meltwater, (2) clouds, (3) exposed rock outcrop and (4) seawater. Liquid water-covered pixels are classified using the Normalized Difference Water Index (Yang and Smith, 2013). Threshold values were determined by creating a training dataset based on selected Landsat 8 images. Using these thresholds, binary (i.e. meltwater and non-meltwater) masks are created for each Landsat 8 scene. The full details are discussed comprehensively in Arthur et al. (submitted) and Moussavi et al. (2020).
We applied a physically-based radiative transfer model to calculate the water depth of all pixels classified as lake (Pope et al., 2016; Sneed and Hamilton 2007). This method calculates lake water depth (z) using the rate of light attenuation in water, lake bottom albedo, and optically-deep water reflectance (Philpot, 1989). For January of each year (2014 to 2020), we created a maximum lake depth mask by assigning all water pixels in the maximum lake area mask a depth equal to the maximum water depth observed out of all images during January following Banwell et al. (2021).
A detailed description of the data collection, quality control, processing and analysis, as well as full references, is given in: Arthur, J.F, Stokes, C.R., Jamieson, S.S.R, Carr, J.R, Leeson, A.A, Verjans, V. (submitted) Large interannual variability in supraglacial lakes around East Antarctica.
We used a minimum size threshold of five pixels in order to remove very small SGLs or slush likely comprised solely of mixed pixels, following previous studies (Arthur et al., 2021; Moussavi et al., 2020; Pope et al., 2016, Stokes et al., 2019).
We manually verified our classification results against 2175 Landsat 8 images and removed any false positives (cloud, shadow or rock mis-identified as SGLs that bypassed initial cloud, rock and seawater masking procedures due to spectral similarities). These false positives were often distinguishable by their 'diffuse' boundaries, as opposed to distinct lake objects. Moussavi et al. (2020) recorded an accuracy of >94% when validating SGLs classified using our method against manually-digitized SGLs.
A detailed description of the data collection, quality control, processing and analysis, as well as full references, is given in: Arthur, J.F, Stokes, C.R., Jamieson, S.S.R, Carr, J.R, Leeson, A.A, Verjans, V. (in review) Large interannual variability in supraglacial lakes around East Antarctica.
East Antarctic Ice Sheet Antarctica
95.6
102.4
-66.8
-65.7
Natural Environment Research Council, UK Research & Innovation
https://ror.org/02b5d8509
NE/L002590/1
IAPETUS : Postgraduate Environmental Training NexUS : transforming doctoral students into the next generation leaders in science, industry and policy
Natural Environment Research Council, UK Research & Innovation
https://ror.org/02b5d8509
NE/R000824/1
Assessing the sensitivity of major East Antarctic outlet glaciers to recent and future changes in the ocean-climate system