X
Search Filters
Format Format
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
ice sheets (8) 8
greenland (7) 7
remote sensing (7) 7
sea level (7) 7
balance (6) 6
elevation (6) 6
environmental sciences (6) 6
ice (6) 6
model (6) 6
radar altimetry (6) 6
acceleration (5) 5
altimetry (5) 5
antarctica (5) 5
climate change (5) 5
geochemistry & geophysics (5) 5
glaciers (5) 5
greenland ice sheet (5) 5
imaging science & photographic technology (5) 5
analysis (4) 4
cryosat-2 (4) 4
elevation change (4) 4
geosciences, multidisciplinary (4) 4
mass balance (4) 4
radar (4) 4
altimeters (3) 3
data sets (3) 3
datasets (3) 3
estimates (3) 3
glacial-isostatic-adjustment (3) 3
grace (3) 3
land ice (3) 3
mass-loss (3) 3
satellite radar (3) 3
satellites (3) 3
sea level changes (3) 3
snow (3) 3
topography (3) 3
variability (3) 3
accuracy (2) 2
airborne lasers (2) 2
artificial satellites in remote sensing (2) 2
budgets (2) 2
climate (2) 2
continental ice (2) 2
cryosphere (2) 2
earth sciences (2) 2
elevation changes (2) 2
fluctuations (2) 2
geography, physical (2) 2
geology (2) 2
geophysics (2) 2
geophysics/geodesy (2) 2
glaciation (2) 2
gravimetry (2) 2
greenland ice-sheet (2) 2
höhenmessung (2) 2
land (2) 2
laser (2) 2
lasers (2) 2
mass (2) 2
mass-balance (2) 2
mean sea level (2) 2
multidisciplinary sciences (2) 2
precipitation (2) 2
properties (2) 2
relocation (2) 2
research (2) 2
satellite altimetry (2) 2
satellite imaging (2) 2
satellite observation (2) 2
science (2) 2
sea level rise (2) 2
sea-level rise (2) 2
shelves (2) 2
surface (2) 2
synthetic aperture radar (2) 2
tracking (2) 2
trends (2) 2
validation (2) 2
velocity (2) 2
volume (2) 2
waveforms (2) 2
west antarctica (2) 2
910 geography & travel (1) 1
[sdu.stu.oc]sciences of the universe [physics]/earth sciences/oceanography (1) 1
access (1) 1
accumulation (1) 1
airborne electromagnetic (1) 1
airborne gravimetry (1) 1
airborne measurements (1) 1
airborne sensing (1) 1
algorithms (1) 1
altimeter (1) 1
amplitudes (1) 1
amundsen sea embayment (1) 1
annual variations (1) 1
anomalies (1) 1
antarctic ice sheet (1) 1
antarctic peninsula (1) 1
antarctic regions (1) 1
more...
Library Location Library Location
Language Language
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Geosciences (Switzerland), ISSN 2076-3263, 2019, Volume 9, Issue 10, p. 415
Satellite gravimetry data acquired by the Gravity Recovery and Climate Experiment (GRACE) allows to derive the temporal evolution in ice mass for both the... 
Antarctica | Ice mass change | GRACE | Greenland | Methods | greenland | grace | antarctica | ice mass change | methods
Journal Article
Remote Sensing of Environment, ISSN 0034-4257, 03/2017, Volume 190, pp. 207 - 216
Long-term observations of surface elevation change of the Greenland ice sheet (GrIS) is of utmost importance when assessing the state of the ice sheet.... 
Cryospheric changes | Radar altimetry | Greenland ice sheet | Cryosat-2 | ANTARCTICA | ELEVATION | LAND | IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY | NORTHEAST GREENLAND | BALANCE | ENVIRONMENTAL SCIENCES | IMPACT | REMOTE SENSING | SATELLITE RADAR | MASS-LOSS | Artificial satellites in remote sensing | Ice sheets | Analysis | Synthetic aperture radar | Optical radar
Journal Article
Geosciences, ISSN 2076-3263, 2019, Volume 9, Issue 10
Satellite gravimetry data acquired by the Gravity Recovery and Climate Experiment (GRACE) allows to derive the temporal evolution in ice mass for both the... 
Journal Article
Science, ISSN 0036-8075, 11/2012, Volume 338, Issue 6111, pp. 1183 - 1189
Journal Article
Earth and Planetary Science Letters, ISSN 0012-821X, 06/2012, Volume 333-334, pp. 293 - 303
Journal Article
Nature, ISSN 0028-0836, 2018, Volume 558, Issue 7709, pp. 219 - 222
Journal Article
Remote Sensing of Environment, ISSN 0034-4257, 04/2015, Volume 160, pp. 56 - 62
Journal Article
Geophysical Research Letters, ISSN 0094-8276, 05/2015, Volume 42, Issue 10, pp. 3919 - 3926
CryoSat‐2 data are used to study elevation changes over an area in the interior part of the Greenland Ice Sheet during the extreme melt event in July 2012. The... 
melt event | CryoSat‐2 | elevation change | Greenland | altimetry | CryoSat-2 | ICE-SHEET | GEOSCIENCES, MULTIDISCIPLINARY | Snow | Waveform analysis | Geophysics | Meteorology | Drilling | Glaciation | Greenland ice sheet | Bias | Scattering | Waveforms | Altimeters | Ice | Properties | Altimetry | Estimates | Ice formation | Elevation | Area | Penetration | Radar | Radar altimetry | Stratigraphy | Layers | Drying | Snowmelt | Melts
Journal Article
Surveys in Geophysics, ISSN 0169-3298, 1/2017, Volume 38, Issue 1, pp. 89 - 104
Thirteen years of GRACE data provide an excellent picture of the current mass changes of Greenland and Antarctica, with mass loss in the GRACE period 2002–2015... 
Earth Sciences | Greenland ice sheet | Antarctica mass loss | GRACE | CryoSat | Envisat | Geophysics/Geodesy | Earth Sciences, general | Astronomy, Observations and Techniques | GEOCHEMISTRY & GEOPHYSICS | SATELLITE | VOLUME | ELEVATION | LAND | MODEL | BALANCE | Arctic research | Ice sheets | Satellite imaging | Ice caps | Climate change | Ice | Sea level | Geophysics | Inversions | Antarctica | Glaciers | GRACE (experiment) | Acceleration | Outlets
Journal Article
Earth and Planetary Science Letters, ISSN 0012-821X, 08/2018, Volume 495, pp. 234 - 241
The shape of the large ice sheets responds rapidly to climate change, making the elevation changes of these ice-covered regions an essential climate variable.... 
essential climate variable | Greenland Ice Sheet | elevation change | radar altimetry | GEOCHEMISTRY & GEOPHYSICS | MASS CHANGES
Journal Article
by Cazenave, Anny and Meyssignac, Benoit and Ablain, Michael and Balmaseda, Magdalena and Bamber, Jonathan and Barletta, Valentina and Beckley, Brian and Benveniste, Jérôme and Berthier, Etienne and Blazquez, Alejandro and Boyer, Tim and Caceres, Denise and Chambers, Don and Champollion, Nicolas and Chao, Ben and Chen, Jianli and Cheng, Lijing and Church, John A and Chuter, Stephen and Cogley, J. Graham and Dangendorf, Soenke and Desbruyères, Damien and Döll, Petra and Domingues, Catia and Falk, Ulrike and Famiglietti, James and Fenoglio-Marc, Luciana and Forsberg, Rene and Galassi, Gaia and Gardner, Alex and Groh, Andreas and Hamlington, Benjamin and Hogg, Anna and Horwath, Martin and Humphrey, Vincent and Husson, Laurent and Ishii, Masayoshi and Jaeggi, Adrian and Jevrejeva, Svetlana and Johnson, Gregory and Kolodziejczyk, Nicolas and Kusche, Jürgen and Lambeck, Kurt and Landerer, Felix and Leclercq, Paul and Legresy, Benoit and Leuliette, Eric and Llovel, William and Longuevergne, Laurent and Loomis, Bryant D and Luthcke, Scott B and Marcos, Marta and Marzeion, Ben and Merchant, Chris and Merrifield, Mark and Milne, Glenn and Mitchum, Gary and Mohajerani, Yara and Monier, Maeva and Monselesan, Didier and Nerem, Steve and Palanisamy, Hindumathi and Paul, Frank and Perez, Begoña and Piecuch, Christopher G and Ponte, Rui M and Purkey, Sarah G and Reager, John T and Rietbroek, Roelof and Rignot, Eric and Riva, Riccardo and Roemmich, Dean H and Sørensen, Louise Sandberg and Sasgen, Ingo and Schrama, E.J.O and Seneviratne, Sonia I and Shum, C.K and Spada, Giorgio and Stammer, Detlef and van de Wal, Roderic and Velicogna, Isabella and Schuckmann, Karina von and Wada, Yoshihide and Wang, Yiguo and Watson, Christopher and Wiese, David and Wijffels, Susan and Westaway, Richard and Woppelmann, Guy and Wouters, Bert
Earth System Science Data, ISSN 1866-3508, 08/2018, Volume 10, Issue 3, pp. 1551 - 1590
Journal Article