Changes in sea‐level

This chapter assesses the current state of knowledge of the rate of change of global-averaged and regional sea-level in relation to climate change. We focus on the 20th and 21st centuries.However, because of the slow response to past conditions of the oceans and ice sheets and the consequent land movements, we consider changes in sea level prior to the historical record, andwe also look over a thousand years into the future.Past changes in sea levelFrom recent analyses, our conclusions are as follows:since the Last Glacial Maximum about 20 000 years ago, sea level has risen by over 120 m at locations far from present and former ice sheets, as a result of loss of mass from these ice sheets. There was a rapid rise between 15 000 and 6000 years ago at an average rate of 10 mm/yr.based on geological data, global average sea level may have risen at an average rate of 0.5 mm/yr over the last 6000 years and at an average rate of 0.1 to 0.2 mm/yr over the last 3000 years.vertical land movements are still occurring today as a result of these large transfers of mass from the ice sheets to the ocean.during the last 6000 years, global average sea-level variations on the time scales of a few hundred years and longer are likely to have been less than 0.3 to 0.5 m.based on tide gauge data, the rate of global average sea-level rise during the 20th century is in the range 1.0 to 2.0 mm/yr, with a central value of 1.5 mm/yr (as with other ranges of uncertainty, it is not implied that the central value is the best estimate).based on the few very long tide-gauge records, the average rate of sea-level rise has been larger during the 20th century than the 19th century.no significant acceleration in the rate of sea-level rise during the 20th century has been detected.there is decadal variability in extreme sea levels but no evidence of widespread increases in extremes other than that associated with a change in the mean.Factors affecting present day sea level changeGlobal average sea level is affected by many factors. Our assessment of the most important is as follows.Ocean thermal expansion leads to an increase in ocean volume at constant mass. Observational estimates of about 1 mm/yr over recent decades are similar to values of 0.7 to 1.1 mm/yr obtained from Atmosphere-Ocean General Circulation Models (AOGCMs) over a comparable period. Averaged over the 20th century, AOGCM simulations result in rates of thermal expansion of 0.3 to 0.7 mm/yr.The mass of the ocean, and thus sea level, changes as water is exchanged with glaciers and ice caps. Observational and modelling studies of glaciers and ice-caps indicate a contribution to sea-level rise of 0.2 to 0.4 mm/yr averaged over the 20th century.Climate changes during the 20th century are estimated from modelling studies to have led to contributions of between Ð0.2 and 0.0 mm/yr from Antarctica (the results of increasing precipitation) and 0.0 to 0.1 mm/yr from Greenland (from changes in both precipitation and runoff).Greenland and Antarctica have contributed 0.0 to 0.5 mm/yr over the 20th century as a result of long term adjustment to past climate changes.Changes in terrestrial storage of water over the period 1910 to 1990 are estimated to have contributed from Ð1.1 to +0.4 mm/yr of sea-level rise.The sum of these components indicates a rate of eustatic sea-level rise (corresponding to a change in ocean volume) from 1910 to 1990 ranging from Ð0.8 mm/yr to 2.2 mm/yr, with a central value of 0.7 mm/yr. The upper bound is close to the observational upper bound (2.0 mm/yr), but the central value bound is less than the observational lower bound (1.0 mm/yr), i.e. the sum of components is biased low compared to the observational estimates. The sum of components indicates an acceleration of only 0.2 mm/yr/century, with a range from Ð1.1 to +0.7 mm/yr/century, consistent with observational finding of no acceleration in sea-level rise during the 20th century. The estimated rate of sea-level rise from anthropogenic climate change from 1910 to 1990 (from modelling studies of thermal expansion, glaciers and ice-sheets) ranges from 0.3 to 0.8 mm/yr. It is very likely that 20th century warming has contributed significantly to the observed sea level rise, through thermal expansion of sea water and widespread loss of land ice.Projected sea-level changes from 1990 to 2100Projections of components contributing to sea-level change from 1990 to 2100 (this period is chosen for consistency with the IPCC Second Assessment Report), using a range of AOGCMs following the IS92a scenario (including the direct effect of sulphate aerosol emissions) give:thermal expansion of 0.11 to 0.43 m, accelerating through the 21st century.a glacier contribution of 0.01 to 0.23 m.a Greenland contribution of -0.02 to 0.09 m.an Antarctic contribution of -0.17 to 0.02 m.Including thawing of permafrost, deposition of sediment, and the ongoing contributions from ice sheets as a result of climate change since the Last Glacial Maximum, we obtain a range of global-average sea-level rise from 0.11 to 0.77 m. This range reflects systematic uncertainties in modelling.For the 35 SRES scenarios, we project a sea-level rise of 0.09 to 0.88 m for 1990 to 2100, with a central value of 0.48 m. The central value gives an average rate of 2.2 to 4.4 times the rate over the 20th century. If terrestrial storage continued at its present rates, the projections could be changed by -0.21 to 0.11 m. For an average AOGCM, the SRES scenarios give results which differ by 0.02 m or less for the first half of the 21st century. By 2100, they vary over a range amounting to about 50% of the central value. Beyond the 21st century, sea level rise will depend strongly on the emission scenario.The West Antarctic Ice Sheet (WAIS) has attracted special attention because it contains enough ice to raise sea level by 6 m and because of suggestions that instabilities associated with its being grounded below sea level may result in rapid ice discharge when the surrounding ice shelves are weakened. The range of projections given above makes no allowance for ice-dynamic instability of the WAIS. It is now widely agreed that major loss of grounded ice and accelerated sea-level rise are very unlikely during the 21st century.Our confidence in the regional distribution of sea level change from AOGCMs is low because there is little similarity between models. However, models agree on the qualitative conclusion that the range of regional variation is substantial compared with the global average sea-level rise. Nearly all models project greater than average rise in the Arctic Ocean and less than average rise in the Southern Ocean.Land movements, both isostatic and tectonic, will continue through the 21st century at rates which are unaffected by climate change. It can be expected that by 2100 many regions currently experiencing relative sea-level fall will instead have a rising relative sea level.Extreme high water levels will occur with increasing frequency (i.e. with reducing return period) as a result of mean sea-level rise. Their frequency may be further increased if storms become more frequent or severe as a result of climate change.Longer term changesIf greenhouse gas concentrations were stabilised, sea level would nonetheless continue to rise for hundreds of years. After 500 years, sea-level rise from thermal expansion may have reached only half of its eventual level, which models suggest may lie within ranges of 0.5 to 2.0 m and 1 to 4 m for CO2 levels twice and four times pre-industrial, respectively.Glacier retreat will continue and the loss of a substantial fraction of the total glacier mass is likely. Areas that are currently marginally glaciated are most likely to become ice-free.Ice sheets will continue to react to climate change during the next several thousand years even if the climate is stabilised. Models project that a local annual-average warming of larger than 3°C sustained for millennia would lead to virtually a complete melting of the Greenland ice sheet. For a warming over Greenland of 5.5°C, consistent with mid-range stabilisation scenarios, theGreenland ice sheet contributes about 3 m in 1000 years. For a warming of 8°C, the contribution is about 6 m, the ice sheet being largely eliminated. For smaller warmings, the decay of the ice sheet would be substantially slower.Current ice dynamic models project that the WAIS will contribute no more than 3 mm/yr to sea-level rise over the next thousand years, even if significant changes were to occur in the ice shelves. However, we note that its dynamics are still inadequately understood to make firm projections, especially on the longer time scales.Apart from the possibility of an internal ice dynamic instability, surface melting will affect the long-term viability of the Antarctic ice sheet. For warmings of more than 10°C, simple runoff models predict that an ablation zone would develop on the ice sheet surface. Irreversible disintegration of the WAIS would result because the WAIS cannot retreat to higher ground once its margins are subjected to surface melting and begin to recede. Such a disintegration would take at least a few millennia. Thresholds for total disintegration of the East Antarctic ice sheet by surface melting involve warmings above 20*C, a situation that has not occurred for at least 15 million years and which is far more than predicted by any scenario of climate change currently under consideration.

[1]  Ghassem Asrar,et al.  NASA's Earth System Science Pathfinder Program , 2003 .

[2]  D. Wolf,et al.  Effects of lateral viscosity variations on postglacial rebound: an analytical approach , 2002 .

[3]  David G. Vaughan,et al.  Risk Estimation of Collapse of the West Antarctic Ice Sheet , 2002 .

[4]  Richard Betts,et al.  The science of climate change , 2010 .

[5]  M. Wild,et al.  Modelling the response of glaciers to climate change by applying volume-area scaling in combination with a high resolution GCM , 2001 .

[6]  D. Sahagian,et al.  Global and regional sea-level changes and the hydrological cycle , 2001 .

[7]  J. Gregory,et al.  Changes in the occurrence of storm surges around the United Kingdom under a future climate scenario using a dynamic storm surge model driven by the Hadley Centre climate models , 2001 .

[8]  R. Stouffer,et al.  Comparison of Results from Several Aogcms for Global and Regional Sea-level Change 1900±2100 , 2000 .

[9]  W. Owens,et al.  Climatic Warming of Atlantic Intermediate Waters , 2001 .

[10]  J. Hurrell,et al.  The World During WOCE , 2001 .

[11]  John A. Church,et al.  Sea level rise: History and consequences , 2001 .

[12]  Jonathan M. Gregory,et al.  Use of an upwelling-diffusion energy balance climate model to simulate and diagnose A/OGCM results , 2001 .

[13]  N. Bindoff,et al.  Freshwater and Heat Changes in the North and South Pacific Oceans between the 1960s and 1985–94 , 2001 .

[14]  R. Voss,et al.  Long-term climate changes due to increased CO2 concentration in the coupled atmosphere-ocean general circulation model ECHAM3/LSG , 2001 .

[15]  Duncan J. Wingham,et al.  Changes in Sea Level , 2001 .

[16]  G. Russell,et al.  Regional sea level changes projected by the NASA/GISS Atmosphere-Ocean Model , 2013 .

[17]  P. Pirazzoli Surges, atmospheric pressure and wind change and flooding probability on the Atlantic coast of France , 2000 .

[18]  J. Gregory,et al.  Predictions of global and regional sea‐level rise using AOGCMs with and without flux adjustment , 2000 .

[19]  John F. B. Mitchell,et al.  The time‐dependence of climate sensitivity , 2000 .

[20]  C. Vörösmarty,et al.  Anthropogenic Disturbance of the Terrestrial Water Cycle , 2000 .

[21]  Paul Johnston,et al.  Timing of the Last Glacial Maximum from observed sea-level minima , 2000, Nature.

[22]  W. Krabill,et al.  Greenland Ice Sheet: High-Elevation Balance and Peripheral Thinning. , 2000, Science.

[23]  Akins,et al.  Mass Balance of the Greenland Ice Sheet at High Elevations. , 2000, Science.

[24]  D. Sahagian Global physical effects of anthropogenic hydrological alterations: sea level and water redistribution , 2000 .

[25]  T. Stocker,et al.  Influence of the Thermohaline Circulation on Projected Sea Level Rise , 2000 .

[26]  M. Tsimplis,et al.  Sea level drop in the Mediterranean Sea: An indicator of deep water salinity and temperature changes? , 2000 .

[27]  K. Lambeck,et al.  Automatic inference of ice models from postglacial sea-level observations: Theory and application to the British Isles , 2000 .

[28]  N. Bindoff,et al.  Decadal Changes along an Indian Ocean Section at 32°S and Their Interpretation , 2000 .

[29]  M. Latif,et al.  Tropical stabilization of the thermohaline circulation in a greenhouse warming simulation , 2000 .

[30]  Bruce C. Douglas,et al.  Twentieth-Century Storm Activity along the U.S. East Coast , 2000 .

[31]  O. Ulloa,et al.  Warming and circulation change in the eastern South Pacific Ocean , 2000 .

[32]  M. England,et al.  Thermal Expansion in Ocean and Coupled General Circulation Models , 2000 .

[33]  G. Russell,et al.  Projected impact of climate change on the freshwater and salt budgets of the Arctic Ocean by a global climate model , 2000 .

[34]  S. Levitus,et al.  Warming of the World Ocean , 2000 .

[35]  Bamber,et al.  Widespread complex flow in the interior of the antarctic ice sheet , 2000, Science.

[36]  J. Bamber,et al.  Balance velocities and measured properties of the Antarctic ice sheet from a new compilation of gridded data for modelling , 2000, Annals of Glaciology.

[37]  K. Lambeck,et al.  Sea-lvel change along the French Mediterranean coast since the time of the last Glacial Maximum , 2000 .

[38]  Philippe Huybrechts,et al.  The treatment of meltwater retention in mass-balance parameterizations of the Greenland ice sheet , 2000, Annals of Glaciology.

[39]  R. J. Braithwaite,et al.  A geometric glacier model for sea-level change calculations , 2000, Journal of Glaciology.

[40]  H. J. Zwally,et al.  Spatial distribution of net surface accumulation on the Antarctic ice sheet , 2000, Annals of Glaciology.

[41]  H. Zwally,et al.  Spatial distribution of net surface mass balance on Greenland , 2000, Annals of Glaciology.

[42]  Q. Dahe,et al.  Evidence for recent climate change from ice cores in the central Himalaya , 2000, Annals of Glaciology.

[43]  Ralf Greve,et al.  On the Response of the Greenland Ice Sheet to Greenhouse Climate Change , 2000 .

[44]  Mark F. Meier,et al.  Analysis of Winter and Summer Glacier Mass Balances , 1999 .

[45]  M. J. Bentley Volume of Antarctic Ice at the Last Glacial Maximum, and its impact on global sea level change , 1999 .

[46]  Georg Kaser,et al.  Measurements and Models of the Mass Balance of Hintereisferner , 1999 .

[47]  R. Braithwaite,et al.  Modelling changes in glacier mass balance that may occur as a result of climate changes , 1999 .

[48]  A. Weaver,et al.  On the sensitivity of projected oceanic thermal expansion to the parameterisation of sub‐grid scale ocean mixing , 1999 .

[49]  Mattar,et al.  Tributaries of West Antarctic Ice Streams Revealed by RADARSAT Interferometry. , 1999, Science.

[50]  Hall,et al.  Past and Future Grounding-Line Retreat of the West Antarctic Ice Sheet. , 1999, Science.

[51]  S. I. Romero,et al.  Return periods of extreme water levels estimated for some vulnerable areas of Buenos Aires , 1999 .

[52]  Gary T. Mitchum,et al.  Variations in global mean sea level associated with the 1997–1998 ENSO event: Implications for measuring long term sea level change , 1999 .

[53]  T. Chinn,et al.  Slopes of glacier ELAs in the Southern Alps of New Zealand in relation to atmospheric circulation patterns , 1999 .

[54]  G. Kaser A review of the modern fluctuations of tropical glaciers , 1999 .

[55]  T. Chinn New Zealand glacier response to climate change of the past 2 decades , 1999 .

[56]  M. Ekman Climate changes detected through the world's longest sea level series , 1999 .

[57]  Philippe Huybrechts,et al.  The Dynamic Response of the Greenland and Antarctic Ice Sheets to Multiple-Century Climatic Warming , 1999 .

[58]  Jean-François Crétaux,et al.  Sea level changes from Topex‐Poseidon altimetry and tide gauges, and vertical crustal motions from DORIS , 1999 .

[59]  P. Barrett,et al.  Antarctic glacial history from numerical models and continental margin sediments , 1999 .

[60]  D. Vaughan,et al.  Spatial and temporal variability of net snow accumulation over the Antarctic from ECMWF re‐analysis project data , 1999 .

[61]  H. Slupetzky Comments on “Mass balance of glaciers other than the ice sheets” by Cogley and Adams , 1999, Journal of Glaciology.

[62]  P. Huybrechts,et al.  Ice-dynamic conditions across the grounding zone, Ekströmisen, East Antarctica , 1999, Journal of Glaciology.

[63]  Philip L. Woodworth,et al.  High waters at Liverpool since 1768: the UK's longest sea level record , 1999 .

[64]  J. Tromp,et al.  Surface loading of a viscoelastic earth—I. General theory , 1999 .

[65]  J. Shaw,et al.  Salt-marsh aggradation in response to late-Holocene sea-level rise at Amherst Point, Nova Scotia, Canada , 1999 .

[66]  H. Storch,et al.  Storm-related sea level variations along the North Sea coast: natural variability and anthropogenic change , 1999 .

[67]  C. Mayer,et al.  Present and past climate control on fjord glaciations in Greenland: Implications for IRD‐deposition in the sea , 1999 .

[68]  William P. Kustas,et al.  Remote sensing may provide unprecedented hydrological data , 1999 .

[69]  D. Vaughan,et al.  Reassessment of net surface mass balance in Antarctica , 1999 .

[70]  R. Nerem Measuring very low frequency sea level variations using satellite altimeter data , 1999 .

[71]  R. Barry,et al.  Statistics and characteristics of permafrost and ground-ice distribution in the Northern Hemisphere , 1999 .

[72]  T. Schmith,et al.  Changing storminess? An analysis of long-term sea level data sets , 1999 .

[73]  W. Krabill,et al.  Rapid thinning of parts of the southern greenland ice sheet , 1999, Science.

[74]  P. Woodworth,et al.  A review of the trends observed in British Isles mean sea level data measured by tide gauges , 1999 .

[75]  K. Lambeck,et al.  Postglacial rebound and sea level contributions to changes in the geoid and the Earth's rotation axis , 1999 .

[76]  R. Glover Influence of spatial resolution and treatment of orography on GCM estimates of the surface mass balance of the Greenland ice sheet , 1999 .

[77]  J. Varekamp,et al.  Sea level–climate correlation during the past 1400 yr: Comment and Reply , 1999 .

[78]  C. J. van der Veen,et al.  Interannual variability in net accumulation on the Greenland Ice Sheet: Observations and implications for mass balance measurements , 1999 .

[79]  E. L. Meur,et al.  Predicted present‐day evolution patterns of ice thickness and bedrock elevation over Greenland and Antarctica , 1999 .

[80]  Kathleen L. McInnes,et al.  A storm surge inundation model for coastal planning and impact studies , 1999 .

[81]  K. Koltermann,et al.  Decadal changes in the thermohaline circulation of the North Atlantic , 1999 .

[82]  D. Pugh,et al.  Coastal sea level prediction for climate change , 1999 .

[83]  H. Oerter,et al.  Climate change and sea level: ice-dynamics and mass-balance studies on the Greenland ice sheet , 1999 .

[84]  I. Smith Estimating mass balance components of the Greenland ice sheet from a long-term GCM simulation , 1999 .

[85]  R. Millard,et al.  Long-term hydrographic changes at 52 and 66°W in the North Atlantic Subtropical Gyre & Caribbean , 1999 .

[86]  F. Kauker Regionalization of Climate Model Results for the North Sea , 1999 .

[87]  P. Woodworth A study of changes in high water levels and tides at Liverpool during the last two hundred and thirty years with some historical background , 1999 .

[88]  A. Wong Water mass changes in the North and South Pacific Oceans between the 1960s and 1985-94 , 1999 .

[89]  Anthony C. Hirst,et al.  The Southern Ocean response to global warming in the CSIRO coupled ocean-atmosphere model , 1999, Environ. Model. Softw..

[90]  Haines,et al.  Elevation change of the southern greenland ice sheet , 1999, Science.

[91]  P. Quilty The Antarctic Region: Geological Evolution and Processes , 1998 .

[92]  K. Logemann,et al.  Is the Arctic Ocean warming , 1998 .

[93]  W. J. Morgan,et al.  Why the United States is becoming more vulnerable to natural disasters , 1998 .

[94]  W. R. Peltier,et al.  Postglacial variations in the level of the sea: Implications for climate dynamics and solid‐Earth geophysics , 1998 .

[95]  K. Lambeck,et al.  Refining the eustatic sea-level curve since the Last Glacial Maximum using far- and intermediate-field sites , 1998 .

[96]  Kurt Lambeck,et al.  Tests of glacial rebound models for Fennoscandinavia based on instrumented sea‐ and lake‐level records , 1998 .

[97]  Robert Bindschadler,et al.  Future of the West Antarctic Ice Sheet , 1998, Science.

[98]  R. Scharroo,et al.  Antarctic elevation change from 1992 to 1996 , 1998, Science.

[99]  Yoaz Bar-Sever,et al.  Monitoring the TOPEX Microwave Radiometer with GPS: Stability of columnar water vapor measurements , 1998 .

[100]  A. Watson,et al.  Mixing of a tracer in the pycnocline , 1998 .

[101]  Ó. Ingólfsson,et al.  Antarctic glacial history since the Last Glacial Maximum: an overview of the record on land , 1998, Antarctic Science.

[102]  Antony J. Payne,et al.  Dynamics of the Siple Coast ice streams, west Antarctica: Results from a thermomechanical ice sheet model , 1998 .

[103]  Kurt Lambeck,et al.  Timing and duration of the Last Interglacial: evidence for a restricted interval of widespread coral reef growth , 1998 .

[104]  E. Rignot,et al.  Fast recession of a west antarctic glacier , 1998, Science.

[105]  S. Tulaczyk,et al.  Pleistocene collapse of the west antarctic ice sheet , 1998, Science.

[106]  T. Scambos,et al.  Influence of subglacial geology on the onset of a West Antarctic ice stream from aerogeophysical observations , 1998, Nature.

[107]  R. Alley,et al.  Influence of subglacial geology on the position of a West Antarctic ice stream from seismic observations , 1998, Nature.

[108]  T. Schmith,et al.  Northeast Atlantic winter storminess 1875–1995 re-analysed , 1998 .

[109]  C. Raymond,et al.  Thermal effects on the location of ice stream margins , 1998 .

[110]  Gary T. Mitchum,et al.  Monitoring the Stability of Satellite Altimeters with Tide Gauges , 1998 .

[111]  M. Oppenheimer,et al.  Global warming and the stability of the West Antarctic Ice Sheet , 1998, Nature.

[112]  Michael Steele,et al.  Retreat of the cold halocline layer in the Arctic Ocean , 1998 .

[113]  W. T. Pfeffer,et al.  Response time of glaciers as a function of size and mass balance: 1. Theory , 1998 .

[114]  Helmut Rott,et al.  Mass fluxes and dynamics of Moreno Glacier, Southern Patagonia Icefield , 1998 .

[115]  T. Gruber,et al.  Fully reprocessed ERS‐1 altimeter data from 1992 to 1995: Feasibility of the detection of long term sea level change , 1998 .

[116]  E. Rignot Hinge-line migration of Petermann Gletscher, north Greenland, detected using satellite-radar interferometry , 1998, Journal of Glaciology.

[117]  A. J. Clarke,et al.  Decadal Wind Forcing of the North Atlantic Subtropical Gyre , 1998 .

[118]  O. V. D. Plassche,et al.  SEA LEVEL-CLIMATE CORRELATION DURING THE PAST 1400 YR , 1998 .

[119]  B. Anderson,et al.  Modelling the response of glaciers to climate warming , 1998 .

[120]  E. Ivins,et al.  Predictions of Antarctic crustal motions driven by present-day ice sheet evolution and by isostatic memory of the Last Glacial Maximum , 1998 .

[121]  H. Rott,et al.  Breakup and conditions for stability of the northern Larsen Ice Shelf, Antarctica , 1998, Nature.

[122]  J. Varekamp,et al.  Climate change and the rise and fall of sea level over the millennium , 1998 .

[123]  R. Curry,et al.  Oceanic transport of subpolar climate signals to mid-depth subtropical waters , 1998, Nature.

[124]  R. Bindschadler,et al.  Changes in the west antarctic ice sheet since 1963 from declassified satellite photography , 1998, Science.

[125]  J. M. Gregory,et al.  Simulated future sea-level rise due to glacier melt based on regionally and seasonally resolved temperature changes , 1998, Nature.

[126]  J. Mitrovica,et al.  Glaciation‐induced perturbations in the Earth's rotation: A new appraisal , 1998 .

[127]  R. Warner,et al.  Modelling the Antarctic and Northern Hemisphere ice-sheet changes with global climate through the Glacial cycle , 1998, Annals of Glaciology.

[128]  Eric Rignot,et al.  Radar interferometry detection of hinge-line migration on Rutford Ice Stream and Carlson Inlet, Antarctica , 1998, Annals of Glaciology.

[129]  I. Smith,et al.  Model estimates of Antarctic accumulation rates and their relationship to temperature changes , 1998, Annals of Glaciology.

[130]  B. Bourlès,et al.  Hydrographic sections across the Atlantic at 7°30N and 4°30S , 1998 .

[131]  J. Morison,et al.  Hydrography of the upper Arctic Ocean measured from the nuclear submarine U.S.S. Pargo , 1998 .

[132]  A. Cazenave,et al.  Global mean sea level changes observed by Topex-Poseidon and ERS-1 , 1998 .

[133]  Helmut Rott,et al.  Evidence of recent climatic warming on the eastern Antarctic Peninsula , 1998, Annals of Glaciology.

[134]  G. Hamilton,et al.  First point measurements of ice-sheet thickness change in Antarctica , 1998, Annals of Glaciology.

[135]  R. Warner,et al.  The effects of ocean warming on melting and ocean circulation under the Amery Ice Shelf, East Antarctica , 1998, Annals of Glaciology.

[136]  Wolfgang Rosenthal,et al.  The wave climate of the Northeast Atlantic over the period 1955-1994 : The WASA wave hindcast , 1998 .

[137]  R. Warner,et al.  Modelling the long-term response of the Antarctic ice sheet to global warming , 1998, Annals of Glaciology.

[138]  K. Lambeck,et al.  The Earth's Mantle: The Viscosity of the Mantle: Evidence from Analyses of Glacial-Rebound Phenomena , 1998 .

[139]  W. Haeberli Into the second century of worldwide glacier monitoring : prospects and strategies : a contribution to the International Hydrological Programme (IHP) and the Global Environment Monitoring System (GEMS) , 1998 .

[140]  C. Lingle,et al.  Elevation changes on the East Antarctic ice sheet, 1978-93, from satellite radar altimetry: a preliminary assessment , 1998, Annals of Glaciology.

[141]  D. Bromwich,et al.  Antarctic precipitation and its contribution to the global sea-level budget , 1998, Annals of Glaciology.

[142]  J. Smith,et al.  First estimates of changes in extreme storm surge elevations due to the doubling of CO2 , 1998 .

[143]  E. Morris,et al.  Local glaciers surrounding the continental ice sheets , 1998 .

[144]  C. Bentley Rapid sea-level rise from a West Antarctic ice-sheet collapse: a short-term perspective , 1998, Journal of Glaciology.

[145]  B. Csathó,et al.  Thickening of the western part of the Greenland ice sheet , 1998, Journal of Glaciology.

[146]  J. Cogley,et al.  Mass balance of glaciers other than the ice sheets , 1998, Journal of Glaciology.

[147]  Johan J. Mohr,et al.  Three-dimensional glacial flow and surface elevation measured with radar interferometry , 1998, Nature.

[148]  J. Oerlemans,et al.  Contribution of glacier melt to sea-level rise since AD 1865: a regionally differentiated calculation , 1997 .

[149]  Gary D. Clow,et al.  Temperature, accumulation, and ice sheet elevation in central Greenland through the last deglacial transition , 1997 .

[150]  C. J. van der Veen,et al.  The role of lateral drag in the dynamics of Ice Stream B, Antarctica , 1997, Journal of Glaciology.

[151]  M. Meier,et al.  Year-to-Year Fluctuations of Global Mass Balance of Small Glaciers and Their Contribution to Sea-Level Changes , 1997 .

[152]  J. Oerlemans,et al.  Modelling the short-term response of the Greenland ice-sheet to global warming , 1997 .

[153]  Byron D. Tapley,et al.  Determination of long-term changes in the Earth's gravity field from satellite laser ranging observations , 1997 .

[154]  O. Olesen,et al.  Mass Balance of North Greenland , 1997 .

[155]  H. Storch,et al.  A Scenario of Storm Surge Statistics for the German Bight at the Expected Time of Doubled Atmospheric Carbon Dioxide Concentration , 1997 .

[156]  Bruce C. Douglas,et al.  East Coast storm surges provide unique climate record , 1997 .

[157]  S. Peckham,et al.  The physical basis of glacier volume-area scaling , 1997 .

[158]  Jonathan M. Gregory,et al.  The climate response to CO2 of the Hadley Centre coupled AOGCM with and without flux adjustment , 1997 .

[159]  J. Oerlemans,et al.  Projections of global mean sea level rise calculated with a 2D energy-balance climate model and dynamic ice sheet models , 1997 .

[160]  D. Bahr Global distributions of glacier properties: A stochastic scaling paradigm , 1997 .

[161]  J. Stone Climate change 1995: The science of climate change. Contribution of working group I to the second assessment report of the intergovernmental panel on climate change , 1997 .

[162]  P. Holmlund,et al.  The Mass Balance of Circum-Arctic Glaciers and Recent Climate Change , 1997, Quaternary Research.

[163]  K. Nicholls Predicted reduction in basal melt rates of an Antarctic ice shelf in a warmer climate , 1997, Nature.

[164]  Gary T. Mitchum,et al.  Improved determination of global mean sea level variations using TOPEX/POSEIDON altimeter data , 1997 .

[165]  K. Hanawa,et al.  Decadal Changes in the Mode Waters in the Midlatitude North Pacific , 1997 .

[166]  T. Basnett,et al.  Development of the Global Mean Sea Level Pressure Data Set GMSLP2 , 1997 .

[167]  N. Bindoff,et al.  Interannual and Decadal Temperature Variability in the Southwest Pacific Ocean between 1955 and 1988. , 1997 .

[168]  David Pollard,et al.  Greenland and Antarctic Mass Balances for Present and Doubled Atmospheric CO2 from the GENESIS Version-2 Global Climate Model , 1997 .

[169]  Bruce C. Douglas,et al.  GLOBAL SEA RISE: A REDETERMINATION , 1997 .

[170]  W. Peltier,et al.  MANTLE VISCOSITY, GLACIAL ISOSTATIC ADJUSTMENT AND THE EUSTATIC LEVEL OF THE SEA , 1997 .

[171]  K. Lambeck,et al.  Material versus isobaric internal boundaries in the Earth and their influence on postglacial rebound , 1997 .

[172]  B. Steinberger,et al.  Changes of the Earth's rotation axis owing to advection of mantle density heterogeneities , 1997, Nature.

[173]  Anny Cazenave,et al.  Caspian sea level from Topex‐Poseidon altimetry: Level now falling , 1997 .

[174]  S. Levitus,et al.  Structure and Cycle of Decadal Variability of Upper-Ocean Temperature in the North Pacific , 1997 .

[175]  C. Schönwiese,et al.  Climate Trend Atlas of Europe Based on Observations 1891–1990 , 1997 .

[176]  C. Bentley Rapid Sea-Level Rise Soon from West Antarctic Ice-Sheet Collapse? , 1997, Science.

[177]  Sridhar Anandakrishnan,et al.  Stagnation of Ice Stream C, West Antarctica by water piracy , 1997 .

[178]  O. Anisimov,et al.  PERMAFROST ZONATION AND CLIMATE CHANGE IN THE NORTHERN HEMISPHERE: RESULTS FROM TRANSIENT GENERAL CIRCULATION MODELS , 1997 .

[179]  P. Skvarca,et al.  Recent Glacier Variations in the Southern Patagonia Icefield, South America , 1997 .

[180]  G. Johnson,et al.  Southwest Pacific Ocean Water-Mass Changes between 1968/69 and 1990/91*† , 1997 .

[181]  C. Rosenzweig,et al.  Effects of anthropogenic intervention in the land hydrologic cycle on global sea level rise , 1997 .

[182]  Ioc Unesco,et al.  Global Sea Level Observing System (GLOSS) Implementation Plan-1997 , 1997 .

[183]  R. Macdonald,et al.  Changes in temperature and tracer distributions within the Arctic Ocean: results from the 1994 Arctic Ocean section , 1997 .

[184]  R. Macdonald,et al.  Waters of the Makarov and Canada basins , 1997 .

[185]  D. Macayeal,et al.  Large-scale rheology of the Ross Ice Shelf, Antarctica, computed by a control method , 1997, Annals of Glaciology.

[186]  Tron Laumann,et al.  Glacial variations on a meso-scale: examples from glaciers in the Aurland Mountains, southern Norway , 1997, Annals of Glaciology.

[187]  E. Steig How well can we parameterize past accumulation rates in polar ice sheets , 1997 .

[188]  J. McGregor,et al.  Impact of transient increases in atmospheric CO2 on the accumulation and mass balance of the Antarctic ice sheet , 1997, Annals of Glaciology.

[189]  D. Stanley Mediterranean deltas : subsidence as a major control of relative sea-level rise , 1997 .

[190]  B. D. Smith North and Northeast Greenland Ice Discharge from Satellite Radar Interferometry , 1997 .

[191]  T. Joyce,et al.  The Long-Term Hydrographic Record at Bermuda , 1996 .

[192]  G. Parrilla,et al.  Decadal changes in water mass characteristics at 24°N in the subtropical north Atlantic Ocean , 1996 .

[193]  T. Schmith,et al.  Statistical hindcast of wind climatology in the North Atlantic and northwestern European region , 1996 .

[194]  A. Pittock,et al.  Tropical cyclones and coastal inundation under enhanced greenhouse conditions , 1996, Water, Air, and Soil Pollution.

[195]  J. Laborel,et al.  Variation of Relative Mean Sea Level During the Last 4000 Years on the Northern Shores of Lacydon, the Ancient Harbour of Marseilles (Chantier J. Verne) , 1996 .

[196]  M. Kearney Sea-level Change during the Last Thousand Years In Chesapeake Bay , 1996 .

[197]  Ron Kwok,et al.  A Mini-Surge on the Ryder Glacier, Greenland, Observed by Satellite Radar Interferometry , 1996, Science.

[198]  E. Bard,et al.  Deglacial sea-level record from Tahiti corals and the timing of global meltwater discharge , 1996, Nature.

[199]  K. Bryan The steric component of sea level rise associated with enhanced greenhouse warming: a model study , 1996 .

[200]  K. Bryan,et al.  Redistribution of sea level rise associated with enhanced greenhouse warming: a simple model study , 1996 .

[201]  J. Pandolfi,et al.  Reconciliation of late Quaternary sea levels derived from coral terraces at Huon Peninsula with deep sea oxygen isotope records , 1996 .

[202]  James G. Titus,et al.  The risk of sea level rise , 1996 .

[203]  U. Cubasch,et al.  Emulation of the results from a coupled general circulation model using a simple climate model , 1996 .

[204]  H. Hellmer,et al.  Antarctic Ice Sheet melting in the southeast Pacific , 1996 .

[205]  W. Peltier Global sea level rise and glacial isostatic adjustment: An analysis of data from the East Coast of North America , 1996 .

[206]  K. Lambeck Limits on the areal extent of the Barents Sea ice sheet in Late Weichselian time , 1996 .

[207]  M. Oliverio,et al.  Holocene Sea-Level Rise Recorded by a Radiocarbon-Dated Mussel in a Submerged Speleothem beneath the Mediterranean Sea , 1996, Quaternary Research.

[208]  W. Peltier,et al.  Mantle viscosity from the simultaneous inversion of multiple data sets pertaining to postglacial rebound , 1996 .

[209]  B. Linsley Oxygen-isotope record of sea level and climate variations in the Sulu Sea over the past 150,000 years , 1996, Nature.

[210]  J. S. Godfrey,et al.  Long-term temperature and circulation changes off eastern Australia , 1996 .

[211]  D. Vaughan,et al.  Recent atmospheric warming and retreat of ice shelves on the Antarctic Peninsula , 1996, Nature.

[212]  J. Mitrovica,et al.  Glacial isostatic adjustment and the anomalous tide gauge record of eastern North America , 1996, Nature.

[213]  T. Wigley,et al.  Global Sea-level Rise: Past and Future , 1996 .

[214]  R. V. D. van de Wal,et al.  Mass-balance modelling of the Greenland ice sheet: a comparison of an energy-balance and a degree-day model , 1996 .

[215]  Robert R. Dickson,et al.  Long-term coordinated changes in the convective activity of the North Atlantic , 1996 .

[216]  J. Chappell,et al.  Late quaternary coseismic uplift history of Huon Peninsula, Papua New Guinea , 1996 .

[217]  S. Ekholm,et al.  On elevation models as input for mass-balance calculations of the Greenland ice sheet , 1996, Annals of Glaciology.

[218]  R. Nerem,et al.  Secular Variations of the Zonal Harmonics and Polar Motion as Geophysical Constraints , 1996 .

[219]  Ron Kwok,et al.  Estimation of ice-sheet motion using satellite radar interferometry: method and error analysis with application to Humboldt Glacier, Greenland , 1996, Journal of Glaciology.

[220]  C. Readings,et al.  Gravity field and steady-state ocean circulation mission , 1996 .

[221]  J. Oerlemans,et al.  On Thermal Expansion over the Last Hundred Years , 1995 .

[222]  P. Huybrechts,et al.  Glacial-Geological/Geomorphological Research in West Greenland Used to Test an Ice-Sheet Model , 1995, Quaternary Research.

[223]  S. Raper,et al.  An heuristic model for sea level rise due to the melting of small glaciers , 1995 .

[224]  J. Mitrovica,et al.  Present‐day post‐glacial sea level change far from the Late Pleistocene ice sheets: Implications for recent analyses of tide gauge records , 1995 .

[225]  W. Sturges,et al.  Wind Forcing of the Atlantic Thermocline along 32°N at Low Frequencies , 1995 .

[226]  B. C. Douglas,et al.  Global sea level change: Determination and interpretation , 1995 .

[227]  A. Beu,et al.  Vertical tectonic movement in northeastern Marlborough: Stratigraphic, radiocarbon, and paleoecological data from Holocene estuaries , 1995 .

[228]  S. Hastenrath,et al.  Diagnosing the imbalance of Yanamarey Glacier in the Cordillera Blanca of Peru , 1995 .

[229]  Martin Wild,et al.  A possible change in mass balance of Greenland and Antarctic ice sheets in the coming century , 1995 .

[230]  D. Bromwich Ice sheets and sea level , 1995, Nature.

[231]  G. Casassa Glacier Inventory in Chile: current status and recent glacier variations , 1995, Annals of Glaciology.

[232]  John F. B. Mitchell,et al.  Transient Response of the Hadley Centre Coupled Ocean-Atmosphere Model to Increasing Carbon Dioxide. Part II: Spatial and Temporal Structure of Response , 1995 .

[233]  R. Braithwaite Positive degree-day factors for ablation on the Greenland ice sheet studied by energy-balance modelling , 1995, Journal of Glaciology.

[234]  P. Reid,et al.  Antarctic moisture flux and net accumulation from global atmospheric analyses , 1995, Annals of Glaciology.

[235]  S. Stiros,et al.  Quaternary uplift and tilting of Amorgos Island (southern Aegean) and the 1956 earthquake , 1994 .

[236]  Greenland precipitation estimates from the atmospheric moisture budget , 1994 .

[237]  C. Morhange,et al.  Biological evidence of sea-level rise during the last 4500 years on the rocky coasts of continental southwestern France and Corsica , 1994 .

[238]  W. Peltier,et al.  Ice Age Paleotopography , 1994, Science.

[239]  A. Fox,et al.  Measured properties of the Antarctic ice sheet derived from the SCAR Antarctic digital database , 1994, Polar Record.

[240]  H. Höck,et al.  Monte Carlo climate change forecasts with a global coupled ocean-atmosphere model , 1994 .

[241]  N. Bindoff,et al.  Diagnosing Climate Change and Ocean Ventilation using Hydrographic Data , 1994 .

[242]  G. Parrilla,et al.  Rising temperatures in the subtropical North Atlantic Ocean over the past 35 years , 1994, Nature.

[243]  T. Fuchs,et al.  Beobachtete Klimatrends in Europa 1891-1990 , 1994 .

[244]  S. Stiros,et al.  Episodic uplift deduced from Holocene shorelines in the Perachora Peninsula, Corinth area, Greece , 1994 .

[245]  F. Schwartz,et al.  Direct anthropogenic contributions to sea level rise in the twentieth century , 1994, Nature.

[246]  P. Huybrechts Formation and disintegration of the Antarctic ice sheet , 1994, Annals of Glaciology.

[247]  Syukuro Manabe,et al.  Multiple-Century Response of a Coupled Ocean-Atmosphere Model to an Increase of Atmospheric Carbon Dioxide , 1994 .

[248]  T. Yao,et al.  CLIMATES AND ENVIRONMENTS OF THE HOLOCENE MEGATHERMAL MAXIMUM IN CHINA , 1994 .

[249]  J. Mitchell,et al.  The role of the margins in the dynamics of an active ice stream , 1994, Journal of Glaciology.

[250]  R. S. W. van de Wal,et al.  An energy balance model for the Greenland ice sheet , 1994 .

[251]  J. Gregory Sea Level Changes under Increasing Atmospheric CO2 in a Transient Coupled Ocean-Atmosphere GCM Experiment , 1993 .

[252]  J. Wahr,et al.  Secular changes in rotation and gravity: Evidence of post-glacial rebound or of changes in polar ice? , 1993 .

[253]  J. Antonov Linear Trends of Temperature at Intermediate and Deep Layers of the North Atlantic and the North Pacific Oceans: 1957–1981 , 1993 .

[254]  G. Maul,et al.  Sea level rise at Key West, Florida, 1846‐1992: America's longest instrument record? , 1993 .

[255]  P. Johnston The effect of spatially non‐uniform water loads on prediction of sea‐level change , 1993 .

[256]  Andrew J. Watson,et al.  Evidence for slow mixing across the pycnocline from an open-ocean tracer-release experiment , 1993, Nature.

[257]  J. Jouzel,et al.  Evidence for general instability of past climate from a 250-kyr ice-core record , 1993, Nature.

[258]  Syukuro Manabe,et al.  Century-scale effects of increased atmospheric C02 on the ocean–atmosphere system , 1993, Nature.

[259]  S. Bacon,et al.  A connection between mean wave height and atmospheric pressure gradient in the North Atlantic , 1993 .

[260]  T. Wigley,et al.  Future changes in global mean temperature and sea level , 1993 .

[261]  Dorthe Dahl-Jensen,et al.  Past accumulation rates derived from observed annual layers in the grip ice core from summit , 1993 .

[262]  Charles R. Bentley,et al.  Timing of stagnation of Ice Stream C, West Antarctica, from short-pulse radar studies of buried surface crevasses , 1993, Journal of Glaciology.

[263]  R. Hindmarsh Qualitative Dynamics of Marine Ice Sheets , 1993 .

[264]  E. Morris,et al.  The response of large ice sheets to climatic change , 1992 .

[265]  W. J. Gould,et al.  Cooling and freshening of the subpolar North Atlantic Ocean since the 1960s , 1992, Nature.

[266]  J. Oerlemans,et al.  Sensitivity of Glaciers and Small Ice Caps to Greenhouse Warming , 1992, Science.

[267]  B. C. Douglas,et al.  GLOBAL SEA LEVEL ACCELERATION , 1992 .

[268]  D. Roemmich Ocean Warming and Sea Level Rise Along the Southwest U.S. Coast , 1992, Science.

[269]  T. Wigley,et al.  Implications for climate and sea level of revised IPCC emissions scenarios , 1992, Nature.

[270]  N. Bindoff,et al.  Warming of the water column in the southwest Pacific Ocean , 1992, Nature.

[271]  J. Varekamp,et al.  Relative sea‐level rise and climate change over the last 1500 years , 1992 .

[272]  I. Shennan,et al.  A comparison of late Holocene and twentieth-century sea-level trends from the UK and North Sea region , 1992 .

[273]  W. R. Peltier,et al.  Validation of the ICE‐3G Model of Würm‐Wisconsin Deglaciation using a global data base of relative sea level histories , 1992 .

[274]  C. J. Koblinsky,et al.  The future of spaceborne altimetry. Oceans and climate change: A long-term strategy , 1992 .

[275]  J. Wahr,et al.  Effect of melting glaciers on the Earth's rotation and gravitational field: 1965–1984 , 1992 .

[276]  S. Jacobs,et al.  Melting of ice shelves and the mass balance of Antarctica , 1992, Journal of Glaciology.

[277]  Mark F. Meier,et al.  Retention of Greenland runoff by refreezing: Implications for projected future sea level change , 1991 .

[278]  P. Pirazzoli,et al.  World Atlas Of Holocene Sea Level Changes , 1991 .

[279]  W. Peltier,et al.  On postglacial geoid subsidence over the equatorial oceans , 1991 .

[280]  Bruce C. Douglas,et al.  Global sea level rise , 1991 .

[281]  W. Peltier,et al.  Influence of glacial isostatic adjustment on tide gauge measurements of secular sea level change , 1991 .

[282]  M. Kearney,et al.  Island Land Loss and Marsh Vertical Accretion Rate Evidence for Historical Sea-Level Changes in Chesapeake Bay , 1991 .

[283]  C. Goad Geophysical Geodesy: The Slow Deformations of the Earth , 1991 .

[284]  J. S. Godfrey,et al.  A Model of Sea Level Rise Caused by Ocean Thermal Expansion , 1991 .

[285]  D. Quadfasel,et al.  Warming in the Arctic , 1991, Nature.

[286]  W. Peltier,et al.  ICE-3G: A new global model of late Pleistocene deglaciation based upon geophysical predictions of po , 1991 .

[287]  J. Oerlemans The mass balance of the Greenland ice sheet: sensitivity to climate change as revealed by energy-balance modelling , 1991 .

[288]  A. Ohmura,et al.  New precipitation and accumulation maps for Greenland , 1991, Journal of Glaciology.

[289]  Philippe Huybrechts,et al.  Steady-state characteristics of the Greenland ice sheet under different climates , 1991, Journal of Glaciology.

[290]  S. M. Nakiboglu,et al.  Secular Sea-Level Change , 1991 .

[291]  A. Solow,et al.  Observations of Long-Term Tide-Gauge Records for Indications of Accelerated Sea-Level Rise , 1991 .

[292]  M. Schlesinger,et al.  Simple Model Representation of Atmosphere-Ocean GCMs and Estimation of the Time Scale of C02-Induced Climate Change , 1990 .

[293]  J. Oerlemans,et al.  Response of the Antarctic ice sheet to future greenhouse warming , 1990 .

[294]  K. Lambeck,et al.  Late Pleistocene and Holocene sea-level change along the Australian coast , 1990 .

[295]  S. Levitus Interpentadal variability of steric sea level and geopotential thickness of the north Atlantic Ocean, 1970–1974 versus 1955–1959 , 1990 .

[296]  C. Woodroffe,et al.  Microatolls and recent sea level change on coral atolls , 1990, Nature.

[297]  John M. Wahr,et al.  Spectroscopic Analysis of Global Tide Gauge Sea Level Data , 1990 .

[298]  P. Woodworth A search for accelerations in records of European mean sea level , 1990 .

[299]  J. Houghton,et al.  Climate change : the IPCC scientific assessment , 1990 .

[300]  R. Fairbanks A 17,000-year glacio-eustatic sea level record: influence of glacial melting rates on the Younger Dryas event and deep-ocean circulation , 1989, Nature.

[301]  S. Levitus Interpentadal variability of temperature and salinity in the deep North Atlantic, 1970–1974 versus 1955–1959 , 1989 .

[302]  R. Thomson,et al.  Steric sea level trends in the Northeast Pacific Ocean: possible evidence of global sea level rise , 1989 .

[303]  W. Peltier,et al.  Global Sea Level Rise and the Greenhouse Effect: Might They Be Connected? , 1989, Science.

[304]  S. Levitus Interpentadal variability of temperature and salinity at intermediate depths of the North-Atlantic O , 1989 .

[305]  Tómas Jóhannesson,et al.  Time–Scale for Adjustment of Glaciers to Changes in Mass Balance , 1989, Journal of Glaciology.

[306]  刘潮海,et al.  RECENT CHANGE AND TREND PREDICTION OF GLACIERS IN THE QILIAN MOUNTAINS , 1989 .

[307]  J. Allen,et al.  Vertical salt-marsh accretion since the Roman Period in the Severn Estuary, southwest Britain , 1988 .

[308]  R. Bindschadler,et al.  Observed velocity fluctuations on a major Antarctic ice stream , 1988, Nature.

[309]  K. Lambeck,et al.  The melting history of the late Pleistocene Antarctic ice sheet , 1988, Nature.

[310]  L. Draper,et al.  Has the north-east Atlantic become rougher? , 1988, Nature.

[311]  M. Ekman The world's longest continued series of sea level observations , 1988 .

[312]  S. Johnsen,et al.  Glaciological Investigations in the Crête Area, Central Greenland: A Search for a new Deep-Drilling Site , 1988, Annals of Glaciology.

[313]  T. Wigley,et al.  Thermal expansion of sea water associated with global warming , 1987, Nature.

[314]  C. Bentley,et al.  West Antarctic ice streams draining into the Ross Ice Shelf: Configuration and mass balance , 1987 .

[315]  N. Shackleton Oxygen isotopes, ice volume and sea level , 1987 .

[316]  P. Woodworth Trends in U.K. mean sea level , 1987 .

[317]  S. Lebedeff,et al.  Global sea-level changes during the past century , 1987 .

[318]  K. Herterich On the Flow within the Transition Zone between Ice Sheet and Ice Shelf , 1987 .

[319]  R. Alley,et al.  Seismic measurements reveal a saturated porous layer beneath an active Antarctic ice stream , 1986, Nature.

[320]  C. Veen Response of a marine ice sheet to changes at the grounding line , 1985 .

[321]  M. Meier Contribution of Small Glaciers to Global Sea Level , 1984, Science.

[322]  Michael Kuhn,et al.  Mass budget imbalances as criterion for a climatic classification of glaciers , 1984 .

[323]  W. Peltier,et al.  Pleistocene deglaciation and the Earth's rotation: a new analysis , 1984 .

[324]  C. Wunsch,et al.  Apparent changes in the climatic state of the deep North Atlantic Ocean , 1984, Nature.

[325]  J. Chappell Evidence for smoothly falling sea level relative to north Queensland, Australia, during the past 6,000 yr , 1983, Nature.

[326]  J. Oerlemans Effect of irregular fluctuations in Antarctic precipitation on global sea level , 1981, Nature.

[327]  A. Callegari,et al.  The role of deep sea heat storage in the secular response to climatic forcing , 1980 .

[328]  R. Thomas,et al.  Effect of climatic warming on the West Antarctic ice sheet , 1979, Nature.

[329]  J. Weertman,et al.  Stability of the Junction of an Ice Sheet and an Ice Shelf , 1974, Journal of Glaciology.

[330]  N. Mörner Eustatic changes during the last 300 years , 1973 .

[331]  R. Thomas,et al.  The Creep of Ice Shelves Theory , 1973, Journal of Glaciology.

[332]  A. Bauer Nouvelle estimation du bilan de masse de l'Indlandsis du Groenland , 1967 .

[333]  L. K. Coachman,et al.  Water masses of the Arctic Basin , 1961 .

[334]  C. Benson,et al.  Stratigraphic studies in the snow and firn of the Greenland ice sheet , 1960 .