The Cryosphere (TC) is a not-for-profit international scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on all aspects of frozen water and ground on Earth and on other planetary bodies.The main subject areas are the following:ice sheets and glaciers;planetary ice bodies;permafrost and seasonally frozen ground;seasonal snow cover;sea ice;river and lake ice;remote sensing, numerical modelling, in situ and laboratory studies of the above and including studies of the interaction of the cryosphere with the rest of the climate system.
《冰冻圈》 (TC )是一份非盈利性国际科学杂志,专门发表和讨论关于地球和其他行星上的冰冻水和地面的所有方面的研究文章、简短通讯和评论论文。行星状冰体;永久冻土和季节冻土;季节性积雪;海冰;河、湖冰;遥感、数值模拟、上述各项的现场和实验室研究,包括研究冰冻圈与气候系统其他部分的相互作用。
Estimation of the Antarctic surface mass balance using the regional climate model MAR (1979–2015) and identification of dominant processes
来源期刊:The CryosphereDOI:10.5194/TC-13-281-2019
High-accuracy UAV photogrammetry of ice sheet dynamics with no ground control
来源期刊:The CryosphereDOI:10.5194/TC-13-955-2019
A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957–2018)
来源期刊:The CryosphereDOI:10.5194/TC-13-2259-2019
Change detection of bare-ice albedo in the Swiss Alps
来源期刊:The CryosphereDOI:10.5194/TC-13-397-2019
Recent precipitation decrease across the western Greenland ice sheet percolation zone
来源期刊:The CryosphereDOI:10.5194/TC-13-2797-2019
The impact of model resolution on the simulated Holocene retreat of the southwestern Greenland ice sheet using the Ice Sheet System Model (ISSM)
来源期刊:The CryosphereDOI:10.5194/TC-13-879-2019
Definition differences and internal variability affect the simulated Arctic sea ice melt season
来源期刊:The CryosphereDOI:10.5194/TC-13-1-2019
Brief communication: Pancake ice floe size distribution during the winter expansion of the Antarctic marginal ice zone
来源期刊:The CryosphereDOI:10.5194/TC-13-41-2019
Sensitivity of a calving glacier to ice–ocean interactions under climate change: new insights from a 3-D full-Stokes model
来源期刊:The CryosphereDOI:10.5194/TC-13-1681-2019
Resolving the influence of temperature forcing through heat conduction on rock glacier dynamics: a numerical modelling approach
来源期刊:The CryosphereDOI:10.5194/TC-13-927-2019
Impact of assimilating sea ice concentration, sea ice thickness and snow depth in a coupled ocean–sea ice modelling system
来源期刊:The CryosphereDOI:10.5194/TC-13-491-2019
An efficient surface energy–mass balance model for snow and ice
来源期刊:The CryosphereDOI:10.5194/TC-13-1529-2019
Baffin Bay sea ice inflow and outflow: 1978–1979 to 2016–2017
来源期刊:The CryosphereDOI:10.5194/TC-13-1025-2019
Retrieval of snow freeboard of Antarctic sea ice using waveform fitting of CryoSat-2 returns
来源期刊:The CryosphereDOI:10.5194/TC-13-861-2019
On the multi-fractal scaling properties of sea ice deformation
来源期刊:The CryosphereDOI:10.5194/TC-13-2457-2019
Quantifying the light absorption and source attribution of insoluble light-absorbing particles on Tibetan Plateau glaciers between 2013 and 2015
来源期刊:The CryosphereDOI:10.5194/TC-13-309-2019
The 2018 North Greenland polynya observed by a newly introduced merged optical and passive microwave sea-ice concentration dataset
来源期刊:The CryosphereDOI:10.5194/TC-13-2051-2019
Role of discrete water recharge from supraglacial drainage systems in modeling patterns of subglacial conduits in Svalbard glaciers
来源期刊:The CryosphereDOI:10.5194/TC-13-735-2019
Subglacial hydrological control on flow of an Antarctic Peninsula palaeo-ice stream
来源期刊:The CryosphereDOI:10.5194/TC-13-1583-2019
Mountain permafrost degradation documented through a network of permanent electrical resistivity tomography sites
来源期刊:The CryosphereDOI:10.5194/TC-13-2557-2019
Influence of light absorbing particles on snow spectral irradiance profiles
来源期刊:The CryosphereDOI:10.5194/TC-13-2169-2019
Long-range terrestrial laser scanning measurements of annual and intra-annual mass balances for Urumqi Glacier No. 1, eastern Tien Shan, China
来源期刊:The CryosphereDOI:10.5194/TC-13-2361-2019
Heterogeneous spatial and temporal pattern of surface elevation change and mass balance of the Patagonian ice fields between 2000 and 2016
来源期刊:The CryosphereDOI:10.5194/TC-13-2511-2019
Multisensor validation of tidewater glacier flow fields derived from synthetic aperture radar (SAR) intensity tracking
来源期刊:The CryosphereDOI:10.5194/tc-13-2953-2019
Estimating Snow Depth on Arctic Sea Ice using Satellite Microwave Radiometry and a Neural Network
来源期刊:The CryosphereDOI:10.5194/TC-13-2421-2019
Continuous and autonomous snow water equivalent measurements by a cosmic ray sensor on an alpine glacier
来源期刊:The CryosphereDOI:10.5194/tc-13-3413-2019
Kinematic response of ice-rise divides to changes in ocean and atmosphere forcing
来源期刊:The CryosphereDOI:10.5194/TC-13-2673-2019
Moisture transport in observations and reanalyses as a proxy for snow accumulation in East Antarctica
来源期刊:The CryosphereDOI:10.5194/TC-13-413-2019
Origin, burial and preservation of late Pleistocene-age glacier ice in Arctic permafrost (Bylot Island, NU, Canada)
来源期刊:The CryosphereDOI:10.5194/TC-13-97-2019
On the timescales and length scales of the Arctic sea ice thickness anomalies: a study based on 14 reanalyses
来源期刊:The CryosphereDOI:10.5194/TC-13-521-2019
Validation of the sea ice surface albedo scheme of the regional climate model HIRHAM–NAOSIM using aircraft measurements during the ACLOUD/PASCAL campaigns
来源期刊:The CryosphereDOI:10.5194/TC-13-1695-2019
Detecting dynamics of cave floor ice with selective cloud-to-cloud approach
来源期刊:The CryosphereDOI:10.5194/tc-13-2835-2019
Airborne radionuclides and heavy metals in high Arctic terrestrial environment as the indicators of sources and transfers of contamination
来源期刊:The CryosphereDOI:10.5194/TC-13-2075-2019
Estimating early-winter Antarctic sea ice thickness from deformed ice morphology
来源期刊:The CryosphereDOI:10.5194/TC-13-2915-2019
Sentinel-3 Delay-Doppler altimetry over Antarctica
来源期刊:The CryosphereDOI:10.5194/TC-13-709-2019
Very old firn air linked to strong density layering at Styx Glacier, coastal Victoria Land, East Antarctica
来源期刊:The CryosphereDOI:10.5194/TC-13-2407-2019
Thermal conductivity of firn at Lomonosovfonna, Svalbard, derived from subsurface temperature measurements
来源期刊:The CryosphereDOI:10.5194/TC-13-1843-2019
Brief communication: Rare ambient saturation during drifting snow occurrences at a coastal location of East Antarctica
来源期刊:The CryosphereDOI:10.5194/tc-13-3405-2019
Effect of prescribed sea surface conditions on the modern and future Antarctic surface climate simulated by the ARPEGE atmosphere general circulation model
来源期刊:The CryosphereDOI:10.5194/tc-13-3023-2019
Validating modeled critical crack length for crack propagation in the snow cover model SNOWPACK
来源期刊:The CryosphereDOI:10.5194/TC-13-3353-2019
Nonlinear response of the Antarctic Ice Sheet to late Quaternary sea level and climate forcing
来源期刊:The CryosphereDOI:10.5194/TC-13-2615-2019
Instantaneous sea ice drift speed from TanDEM-X interferometry
来源期刊:The CryosphereDOI:10.5194/TC-13-1395-2019
Regional influence of ocean–atmosphere teleconnections on the timing and duration of MODIS-derived snow cover in British Columbia, Canada
来源期刊:The CryosphereDOI:10.5194/TC-13-2693-2019
Monitoring of snow surface near-infrared bidirectional reflectance factors with added light-absorbing particles
来源期刊:The CryosphereDOI:10.5194/TC-13-1753-2019
Spatial and temporal variations in basal melting at Nivlisen ice shelf, East Antarctica, derived from phase-sensitive radars
来源期刊:The CryosphereDOI:10.5194/TC-13-2579-2019
Seasonal components of freshwater runoff in Glacier Bay, Alaska: diverse spatial patterns and temporal change
来源期刊:The CryosphereDOI:10.5194/TC-13-1597-2019
Effect of snow microstructure variability on Ku-band radar snow water equivalent retrievals
来源期刊:The CryosphereDOI:10.5194/TC-13-3045-2019
Decadal changes in the leading patterns of sea level pressure in the Arctic and their impacts on the sea ice variability in boreal summer
来源期刊:The CryosphereDOI:10.5194/TC-13-3007-2019
A simple stress-based cliff-calving law
来源期刊:The CryosphereDOI:10.5194/TC-13-2475-2019
Brief communication: An alternative method for estimating the scavenging efficiency of black carbon by meltwater over sea ice
来源期刊:The CryosphereDOI:10.5194/TC-13-3309-2019
