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PANGAEA.
Data Publisher for Earth & Environmental Science

Lutz, Katrina; Hochreuther, Philipp; Braun, Matthias Holger; Neckel, Niklas; Reimann, Nathalie; Humbert, Angelika: Supraglacial lake volume estimation in Northeast Greenland from 2018 [dataset]. PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.973247 (dataset in review), In: Lutz, K et al.: Supraglacial lake outlines and depth estimation in Northeast Greenland from 2016 to 2022 using a thresholding method and radiative transfer equation [dataset bundled publication]. PANGAEA, https://doi.pangaea.de/10.1594/PANGAEA.973242 (dataset in review)

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Abstract:
This dataset consists of the volume estimation of each lake throughout the time series using the radiative transfer model developed in Philpot et al., 1987 (https://doi.org/10.1364/AO.26.004123). The volume estimates are based on the green band of Sentinel-2 L1C imagery.
Keyword(s):
Depth; Greenland; Nioghalvfjerdsfjorden Glacier; supraglacial lakes; Zachariæ Isstrøm
Supplement to:
Kanzow, Torsten; Humbert, Angelika; Moelg, Thomas; Scheinert, Mirko; Braun, Matthias Holger; Burchard, Hans; Doglioni, Francesca; Hochreuther, Philipp; Horwath, Martin; Huhn, Oliver; Kusche, Jürgen; Loebel, Erik; Lutz, Katrina; Marzeion, Ben; McPherson, Rebecca; Mohammadi-Aragh, Mahdi; Möller, Marco; Pickler, Carolyne; Reinert, Markus; Rhein, Monika; Rückamp, Martin; Schaffer, Janin; Shafeeque, Muhammad; Stolzenberger, Sophie; Timmermann, Ralph; Turton, Jenny V; Wekerle, Claudia; Zeising, Ole (preprint): The atmosphere-land/ice-ocean system in the region near the 79N Glacier in Northeast Greenland: Synthesis and key findings from GROCE. https://doi.org/10.5194/egusphere-2024-757
Documentation:
Hochreuther, Philipp; Neckel, Niklas; Reimann, Nathalie; Humbert, Angelika; Braun, Matthias Holger (2021): Fully Automated Detection of Supraglacial Lake Area for Northeast Greenland Using Sentinel-2 Time-Series. Remote Sensing, 13(2), 205, https://doi.org/10.3390/rs13020205
Philpot, William D (1987): Radiative transfer in stratified waters: a single-scattering approximation for irradiance. Applied Optics, 26(19), 4123, https://doi.org/10.1364/AO.26.004123
Project(s):
Greenland Ice Sheet/Ocean Interaction: From process understanding to the assessment of a coupled, regional system in change (GROCE2)
Funding:
Federal Ministry of Education and Research (BMBF), grant/award no. 03F0855A: Greenland - Ice Sheet/Ocean Interaction (GROCE II): The future of the 79° North Glacier
Coverage:
Median Latitude: 79.199307 * Median Longitude: -24.620043 * South-bound Latitude: 78.351000 * West-bound Longitude: -31.342000 * North-bound Latitude: 81.080000 * East-bound Longitude: -20.618000
Minimum ELEVATION: 41.07 m a.s.l. * Maximum ELEVATION: 1366.96 m a.s.l.
Event(s):
79NGreenland * Latitude: 79.000000 * Longitude: -20.000000 * Location: Northeast Greenland * Method/Device: Multiple investigations (MULT)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Date/time startDate/time startLutz, Katrinaof observation
2Date/time endDate/time endLutz, Katrinaof observation
3IdentificationIDLutz, KatrinaLake ID; ID of the surface depression
4LATITUDELatitudeLutz, KatrinaGeocode – of the central point of the surface depression
5LONGITUDELongitudeLutz, KatrinaGeocode – of the central point of the surface depression
6ELEVATIONElevationm a.s.l.Lutz, KatrinaGeocode – of the central point of the surface depression according to ArcticDEM
7Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-23
8Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-24
9Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-25
10Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-26
11Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-27
12Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-29
13Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-30
14Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-03-31
15Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-01
16Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-02
17Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-03
18Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-04
19Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-05
20Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-08
21Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-09
22Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-10
23Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-12
24Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-13
25Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-15
26Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-16
27Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-17
28Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-18
29Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-19
30Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-20
31Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-22
32Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-23
33Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-26
34Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-27
35Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-28
36Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-29
37Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-04-30
38Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-01
39Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-02
40Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-03
41Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-04
42Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-05
43Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-06
44Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-07
45Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-09
46Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-10
47Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-12
48Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-13
49Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-14
50Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-15
51Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-16
52Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-22
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54Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-25
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57Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-05-30
58Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-01
59Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-02
60Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-03
61Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-04
62Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-05
63Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-07
64Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-08
65Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-09
66Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-10
67Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-11
68Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-12
69Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-13
70Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-14
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79Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-27
80Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-28
81Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-29
82Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-06-30
83Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-01
84Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-02
85Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-03
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87Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-06
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89Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-08
90Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-09
91Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-10
92Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-11
93Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-12
94Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-14
95Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-15
96Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-17
97Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-19
98Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-20
99Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-21
100Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-22
101Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-24
102Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-25
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106Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-07-30
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108Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-08-02
109Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-08-03
110Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-08-04
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135Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-09-04
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137Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-09-06
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145Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-09-17
146Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-09-18
147Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-09-19
148Lake water volumeLake volkm3Lutz, KatrinaRadiative transfer model according to Philpot et al. (1987)at date (YYYY-MM-DD): 2018-09-20
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0) (License comes into effect after moratorium ends)
Status:
Curation Level: Enhanced curation (CurationLevelC) * Processing Level: PANGAEA data processing level 3 (ProcLevel3)
Size:
13486 data points

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