30,241 to 30,250 of 30,257 Results
Jan 5, 2021 - Energy resources
Schovsbo, Niels, 2021, "Replication data for Hydrocarbon Play Maps in the Danish Central Graben", https://doi.org/10.22008/FK2/SFVSBM, GEUS Dataverse, V1
Hydrocarbon play maps in the Danish North Sea. Maps in the format of: Arcgis package version 10.6 |
Dec 23, 2020 - Student reports
Wim Damgaard Rothuizen; Thomas Anthony Hymas, 2020, "Albedo regression of the Greenland ice sheet", https://doi.org/10.22008/FK2/QWZ5HL, GEUS Dataverse, V1
The project investigates the use of machine learning regression algorithms to estimate the broadband albedo factor on the Greenland Ice Sheet. The algorithms use data from the Ocean and Land Color Instrument (OLCI) on the Sentinel 3 Satellite and compare it to in-situ measurement... |
Dec 5, 2020 - GEUS Bulletin Dataverse
Flemming G. Christiansen, 2020, "Supplementary files for: A review of oil and gas seepage in the Nuussuaq Basin, West Greenland – implications for petroleum exploration", https://doi.org/10.22008/FK2/SO5VLD, GEUS Dataverse, V1
The Nuussuaq Basin in West Greenland has an obvious exploration potential. Most of the critical elements are well documented, including structures that could form traps, reservoir rocks, seals, and oil and gas seepage that document petroleum generation. And yet, we still lack a f... |
Nov 6, 2020 - Programme for Monitoring of the Greenland Ice Sheet (PROMICE) and the Greenland Climate Network (GC-Net)
van As, D.; Fausto, R. S.; Meierbachtol, T.; Box, J. E.; Claesson Liljedahl, L., 2020, "Greenland ice sheet meltwater runoff from the Kangerlussuaq and Isunnguata Sermia catchments using observation-based surface energy balance modeling (2009-2019)", https://doi.org/10.22008/FK2/GUW0Y8, GEUS Dataverse, V1
Background: This readme provides limited metadata for the Greenland ice sheet meltwater runoff from the Kangerlussuaq / Watson River and Isunnguata Sermia catchments in southwest Greenland. A more complete description of this product can be found in: Van As D, Bech Mikkelsen A, H... |
Nov 2, 2020 - Nature and climate
Vandecrux, Baptiste; Peter L. Langen; Peter Kuipers Munneke; Sebastian Simonsen; Vincent Verjans; C. Max Stevens; Sergey Marchenko; Ward van Pelt; Colin Meyer, 2020, "The firn meltwater retention model intercomparison project (RetMIP): model outputs", https://doi.org/10.22008/FK2/CVPUJL, GEUS Dataverse, V2
This dataset comprises the outputs from nine firn models at four sites of the Greenland ice sheet produced for the firn meltwater Retention Intercomparison Project (RetMIP). The nine models were forced by the same weather-station-derived mass and energy fluxes. The simulated firn... |
Nov 1, 2020 - Nature and climate
Vandecrux, Baptiste, 2020, "The firn meltwater retention model intercomparison project (RetMIP): forcing data", https://doi.org/10.22008/FK2/GZ3CSN, GEUS Dataverse, V1
This dataset contains the forcing provided to all models for the firn meltwater Retention Intercomparison Project (RetMIP). The forcing files consist of 1) three-hourly time series of snow surface temperature, net accumulation (positive for snowfall and vapor deposition and negat... |
Oct 23, 2020 - Freshwater Runoff
Kondo, Ken, 2020, "Discharge measurement at the outlet stream of Qaanaaq Glacier in the summer 2017−2019", https://doi.org/10.22008/hokkaido/data/meltwater_discharge/qaanaaq, GEUS Dataverse, V2
Data comes from Ken Kondo and Shin Sugiyama at the Institute of Low Temperature Science, Hokkaido University, Japan. Additional details on the data collection can be found in the DischargeMeasurement200214.pdf file in this dataset Gauge location: 77.475273975 N, -69.303039228 E |
Sep 11, 2020 - Student reports
Rasmussen, Magne E., 2020, "Snow and Firn temperature on the Greenland’s ice sheet", https://doi.org/10.22008/FK2/59EKFO, GEUS Dataverse, V2
Firn temperatures from the Greenland ice sheet have been collected, analyzed and combined to perform results concerning selected locations and the entire ice sheet. The purpose has been to investigate whether the recent atmospheric warming observed at the Greenland ice sheet has... |
Sep 11, 2020 - Student reports
Schweisthal, Louis, 2020, "Remote sensing of Greenland ice sheet surface characteristics using Sentinel 3 satellites", https://doi.org/10.22008/FK2/CNQASU, GEUS Dataverse, V1
In recent decades, changes of global climate have had a profound effect on the cryosphere and in particular on polar glaciers. These glaciers, such as those in Greenland, have an important role in the global climate regulation via their low albedo, drive major currents by pouring... |
Sep 11, 2020 - Student reports
Saunderson, Dominic, 2020, "The Effects of Meltwater, Refreezing and Modelled Grain Size on Snow Albedo: Gaining Knowledge from Observations at Weather Stations and Numerical Modelling", https://doi.org/10.22008/FK2/LF0F4X, GEUS Dataverse, V1
The extent to which snow and ice surfaces undergo melt is mainly dictated by their absorption of shortwave radiation, and thus the surface albedo is a critical parameter for accurately modelling the surface energy balance and mass balance of the Greenland Ice Sheet (GrIS). Multip... |