A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

The accumulation regime of Blue Glacier, U.S.A., 1914-96, 326-334

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265–273

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

Snow accumulation rates in northern Victoria Land, Antarctica, by firncore analysis, 541–552

Natural and anthropogenic levels of tritium in a Canadian Arctic ice core, Agassiz Ice Cap, Ellesmere Island, and comparison with other radionuclides, 35-40

Measurement and parameterization of albedo variations at Haut Glacier d'Arolla, Switzerland, 675-688

Himalayan ice-core dating with snow algae, 335–340

Digital elevation models for the Lambert Glacier—Amery Ice Shelf system, East Antarctica, from ERS-1 satellite radar al time try, 553

Mass balance of the Lambert Glacier-Amery Ice Shelf system, East Antarctica: a comparison of computed balance fluxes and measured fluxes, 561-570

Late Pleistocene climate conditions in the north Chilean Andes drawn from a climate—glacier model, 622–632

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

Changes in the margin of Ice Stream C, Antarctica, 102–110

Correspondence. Subglacial water at the heads of Antarctic ice-stream tributaries, 702–703

Digital elevation models for the Lambert Glacier—Amery Ice Shelf system, East Antarctica, from ERS-1 satellite radar al time try, 553

Elevation of ice-stream margin scars after stagnation, 111–118

Formaldehyde and peroxide concentrations in Law Dome (Antarctica) firn and ice cores, 15–19

Geophysical investigations of ice-sheet internal layering and deformation in the Dome C region of central East Antarctica, 161–166

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Ice motion over Lake Vostok, Antarctica: constraints on inferences regarding the accreted ice, 689-694

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516-530

Mass balance of the Lambert Glacier—Amery Ice Shelf system, East Antarctica: a comparison of computed balance fluxes and measured fluxes, 561-570

A millennium of variable ice flow recorded by the Ross Ice Shelf, Antarctica, 652-664

Numerical modelling of ice-sheet dynamics across the Vostok subglacial lake, central East Antarctica, 197-205

Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates, 54–66

The onset area of Ice Stream D, West Antarctica, 95-101

Short fluctuations in the density and thickness of a dry firn column, 399–411

Snow accumulation rates in northern Victoria Land, Antarctica, by firncore analysis, 541–552

A geometric glacier model for sea-level change calculations, 357–368

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

The use of bulk and profile methods for determining surface heat fluxes in the presence of glacier winds, 445

Texture and strength changes of buried surface-hoar layers with implications for dry snow-slab avalanche release, 151-160

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516-530

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

Changes in the margin of Ice Stream C, Antarctica, 102–110

Coupled ice-till deformation near subglacial channels and cavities, 580-598

Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays, 274

Diffusive mixing between shearing granular layers: constraints on bed deformation from till contacts, 641–651

Energy balance of ice streams, 665–674

Evidence for extreme pressure pulses in the subglacial water system, 206-212

Glacier motion dominated by processes deep in underlying till, 213–221

Ice-core evidence of the thickness and character of clear-facies basal ice: Glacier de Transfleuron, Switzerland, 140–150

Rheology of ice at the bed of Engabreen, Norway, 611–621

Sliding of ice past an obstacle at Engabreen, Norway, 599–610

Sliding versus till deformation in the fast motion of an ice stream over a viscous till, 633-640

1.4 GHz radar penetration and evidence of drainage structures in temperate ice: Black Rapids Glacier, Alaska, U.S.A., 477-490

Comparison of SAR-interferometrie and surveyed velocities on a mountain glacier: Black Rapids Glacier, Alaska, U.S.A., 119-128

Glacier motion dominated by processes deep in underlying till, 213–221

The accumulation regime of Blue Glacier, U.S.A., 1914-96, 326-334

Short fluctuations in the density and thickness of a dry firn column, 399–411

Correspondence. Subglacial water at the heads of Antarctic ice-stream tributaries, 702-703

Glacier calving: a numerical model offerees in the calving-speed/waterdepth relation, 188-196

Short fluctuations in the density and thickness of a dry firn column, 399–411

Evidence for extreme pressure pulses in the subglacial water system, 206-212

Natural and anthropogenic levels of tritium in a Canadian Arctic ice core, Agassiz Ice Cap, Ellesmere Island, and comparison with other radionuclides, 35-40

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

Texture and strength changes of buried surface-hoar layers with implications for dry snow-slab avalanche release, 151-160

A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

Reconstructing past atmospheric CO₂-concentration based on ice-core analyses: open questions due to in situ production of CO₂ in ice, 45–53

Correspondence. The chemistry of grain boundaries in Greenland ice, 703-706

Formaldehyde and peroxide concentrations in Law Dome (Antarctica) firn and ice cores, 15–19

Glaciochemical dating of an ice core from upper Grenzgletscher (4200 m a.s.l.), 507-515

Natural and anthropogenic levels of tritium in a Canadian Arctic ice core, Agassiz Ice Cap, Ellesmere Island, and comparison with other radionuclides, 35-40

The effects of sulfuric acid on the mechanical properties of ice single crystals, 239-243

Late Pleistocene climate conditions in the north Chilean Andes drawn from a climate—glacier model, 622–632

Effect of summer accumulation on glacier mass balance on the Tibetan Plateau revealed by mass-balance model, 244–252

Monsoon and dust signals recorded in Dasuopu glacier, Tibetan Plateau, 222-226

Late Pleistocene climate conditions in the north Chilean Andes drawn from a climate—glacier model, 622–632

Late Pleistocene climate conditions in the north Chilean Andes drawn from a climate—glacier model, 622–632

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516-530

Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates, 54–66

Reconstructing past atmospheric CO₂-concentration based on ice-core analyses: open questions due to in situ production of CO₂ in ice, 45–53

The orientation dependence of the strength of ice single crystals, 41–44

A comparison of radio-echo sounding data and electrical conductivity of the GRIP ice core, 369-374

Rapid sediment entrainment and englacial deposition during jokulhlaups, 349-351

Glaciofluvial crevasse and conduit fills as indicators of supraglacial dewatering during a surge, Skeiðarárjökull, Iceland, 25–34

Monsoon and dust signals recorded in Dasuopu glacier, Tibetan Plateau, 222-226

Glaciochemical dating of an ice core from upper Grenzgletscher (4200 m a.s.l.), 507-515

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Correspondence. Subglacial water at the heads of Antarctic ice-stream tributaries, 702-703

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

Geophysical investigations of ice-sheet internal layering and deformation in the Dome C region of central East Antarctica, 161–166

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Effect of summer accumulation on glacier mass balance on the Tibetan Plateau revealed by mass-balance model, 244–252

A hot-water ice-coring drill, 341–345

Portable system for intermediate-depth ice-core drilling, 167–172

A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

Results from the EISMINT model intercomparison: the effects of thermomechanical coupling, 227–238

Late Pleistocene climate conditions in the north Chilean Andes drawn from a climate—glacier model, 622–632

Analysis of a 3 year meteorological record from the ablation zone of Morteratschgletscher, Switzerland: energy and mass balance, 571–579

Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

The use of bulk and profile methods for determining surface heat fluxes in the presence of glacier winds, 445

Geophysical investigations of ice-sheet internal layering and deformation in the Dome C region of central East Antarctica, 161–166

A computer-based system simulating snowpack structures as a tool for regional avalanche forecasting, 173

Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays, 707

Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates, 353–354

The structural glaciology of Kongsvegen, Svalbard, and its role in landform genesis, 538

Englacial water distribution in a temperate glacier from surface and borehole radar velocity analysis, 389-398

Dynamic behaviour analysis of glacier de Saint Sorlm, France, from 40 years of observations, 1957-97, 499-506

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516–530

Correspondence. The chemistry of grain boundaries in Greenland ice, 703-706

Contemporaneous, localized, basal ice-flow variations: implications for bedrock erosion and the origin of p-forms, 470–476

Diffusive mixing between shearing granular layers: constraints on bed deformation from till contacts, 641–651

Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland, 423-426

A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

A numerical investigation of ice-lobe—permafrost interaction around the southern Laurentide ice sheet, 311

An analysis of balance velocities over the Greenland ice sheet and comparison with synthetic aperture radar interferometry, 67–74

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

Changes in the margin of Ice Stream C, Antarctica, 102–110

Comparison of SAR-interferometrie and surveyed velocities on a mountain glacier: Black Rapids Glacier, Alaska, U.S.A., 119-128

Coupled ice-till deformation near subglacial channels and cavities, 580-598

Diffusive mixing between shearing granular layers: constraints on bed deformation from till contacts, 641–651

Dynamic behaviour analysis of glacier de Saint Sorlin, France, from 40 years of observations, 1957-97, 499-506

Elevation of ice-stream margin scars after stagnation, 111–118

Energy balance of ice streams, 665–674

Glacier mass-balance determination by remote sensing and high-resolution modelling, 491-498

Geophysical investigations of ice-sheet internal layering and deformation in the Dome C region of central East Antarctica, 161–166

Glacier motion dominated by processes deep in underlying till, 213–221

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Ice motion over Lake Vostok, Antarctica: constraints on inferences regarding the accreted ice, 689-694

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265

A millennium of variable ice flow recorded by the Ross Ice Shelf, Antarctica, 652-664

Modelling dynamics of glaciers in volcanic craters, 177–187

Non-temperate glacier flow over wavy sloping ground, 453–458

Numerical modelling of ice-sheet dynamics across the Vostok subglacial lake, central East Antarctica, 197-205

The onset area of Ice Stream D, West Antarctica, 95–101

Results from the EISMINT model intercomparison: the effects of thermomechanical coupling, 227–238

Rheology of ice at the bed of Engabreen, Norway, 611–621

Sliding of ice past an obstacle at Engabreen, Norway, 599–610

Sliding versus till deformation in the fast motion of an ice stream over a viscous till, 633-640

1.4 GHz radar penetration and evidence of drainage structures in temperate ice: Black Rapids Glacier, Alaska, U.S.A., 477-490

Correspondence. Subglacial water at the heads of Antarctic ice-stream tributaries, 702-703

Englacial water distribution in a temperate glacier from surface and borehole radar velocity analysis, 389-398

Evidence for extreme pressure pulses in the subglacial water system, 206-212

Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland, 423-426

Glaciofluvial crevasse and conduit fills as indicators of supraglacial dewatering during a surge, Skeiðarárjökull, Iceland, 25–34

Rapid sediment entrainment and englacial deposition during jokulhlaups, 349-351

Controls on the distribution of surge-type glaciers in Svalbard, 412–422

Evaluation of remote-sensing techniques to measure decadal-scale changes of Hofsjokull ice cap, Iceland, 375-388

A geometric glacier model for sea-level change calculations, 357–368

Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland, 423-426

1.4 GHz radar penetration and evidence of drainage structures in temperate ice: Black Rapids Glacier, Alaska, U.S.A., 477-490

The accumulation regime of Blue Glacier, U.S.A., 1914-96, 326-334

Acoustic televiewer logging in glacier boreholes, 695–699

Analysis of a 3 year meteorological record from the ablation zone of Morteratschgletscher, Switzerland: energy and mass balance, 571–579

Changes in the margin of Ice Stream C, Antarctica, 102–110

Comparison of SAR-interferometric and surveyed velocities on a mountain glacier: Black Rapids Glacier, Alaska, U.S.A., 119-128

Contemporaneous, localized, basal ice-flow variations: implications for bedrock erosion and the origin of p-forms, 470–476

Controls on the distribution of surge-type glaciers in Svalbard, 412–422

Coupled ice-till deformation near subglacial channels and cavities, 580-598

Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays, 274–286

Dynamic behaviour analysis of glacier de Saint Sorlm, France, from 40 years of observations, 1957-97, 499-506

Effect of summer accumulation on glacier mass balance on the Tibetan Plateau revealed by mass-balance model, 244–252

Elevation of ice-stream margin scars after stagnation, 111–118

Energy balance of ice streams, 665–674

Englacial water distribution in a temperate glacier from surface and borehole radar velocity analysis, 389-398

Evaluation of remote-sensing techniques to measure decadal-scale changes of Hofsjokull ice cap, Iceland, 375-388

Evidence for extreme pressure pulses in the subglacial water system, 206-212

A geometric glacier model for sea-level change calculations, 357–368

Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland, 423-426

Glacier calving: a numerical model offerees in the calving-speed/waterdepth relation, 188-196

Glacier mass-balance determination by remote sensing and high-resolution modelling, 491-498

Glacier motion dominated by processes deep in underlying till, 213–221

Glaciofluvial crevasse and conduit fills as indicators of supraglacial dewatering during a surge, Skeiðarárjökull, Iceland, 25–34

Ice-core evidence of the thickness and character of clear-facies basal ice: Glacier deTransfleuron, Switzerland, 140–150

Late Pleistocene climate conditions in the north Chilean Andes drawn from a climate—glacier model, 622–632

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516-530

A low-cost glacier-mapping system, 531–537

Measurement and parameterization of albedo variations at Haut Glacier d'Arolla, Switzerland, 675-688

A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

Modelling dynamics of glaciers in volcanic craters, 177–187

Non-temperate glacier flow over wavy sloping ground, 453–458

The onset area of Ice Stream D, West Antarctica, 95–101

Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

Sliding versus till deformation in the fast motion of an ice stream over a viscous till, 633-640

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

The use of bulk and profile methods for determining surface heat fluxes in the presence of glacier winds, 445–452

Englacial water distribution in a temperate glacier from surface and borehole radar velocity analysis, 389-398

Greenfield, R. J., see Moran, M. L. and others

An analysis of balance velocities over the Greenland ice sheet and comparison with synthetic aperture radar interferometry, 67–74

A comparison of radio-echo sounding data and electrical conductivity of the GRIP ice core, 369-374

Correspondence. The chemistry of grain boundaries in Greenland ice, 703-706

Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland, 423-426

A low-cost glacier-mapping system, 531–537

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265

Portable system for intermediate-depth ice-core drilling, 167–172

Reconstructing past atmospheric CO₂-concentration based on ice-core analyses: open questions due to in situ production of CO₂ in ice, 45–53

Short fluctuations in the density and thickness of a dry firn column, 399–411

Glaciochemical dating of an ice core from upper Grenzgletscher (4200 in a.s.l.), 507-515

A comparison of radio-echo sounding data and electrical conductivity of the GRIP ice core, 369-374

Reconstructing past atmospheric CO₂-concentration based on ice-core analyses: open questions due to in situ production of CO₂ in ice, 45–53

Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays, 274

Glacier mass-balance determination by remote sensing and high-resolution modelling, 491-498

Measurement and parameterization of albedo variations at Haut Glacier d'Arolla, Switzerland, 675-688

Himalayan ice-core dating with snow algae, 335–340

Monsoon and dust signals recorded in Dasuopu glacier, Tibetan Plateau, 222-226

A geometric glacier model for sea-level change calculations, 357–368

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

Texture and strength changes of buried surface-hoar layers with implications for dry snow-slab avalanche release, 151–160

Evaluation of remote-sensing techniques to measure decadal-scale changes of Hofsjokull ice cap, Iceland, 375-388

A comparison of radio-echo sounding data and electrical conductivity of the GRIP ice core, 369-374

Correspondence. The chemistry of grain boundaries in Greenland ice, 703-706

Formaldehyde and peroxide concentrations in Law Dome (Antarctica) firn and ice cores, 15–19

Glaciochemical dating of an ice core from upper Grenzgletscher (4200 ma.s.l.), 507-515

Himalayan ice-core dating with snow algae, 335–340

A hot-water ice-coring drill, 341-345

Ice-core evidence of the thickness and character of clear-facies basal ice: Glacier deTransfleuron, Switzerland, 140–150

Monsoon and dust signals recorded in Dasuopu glacier, Tibetan Plateau, 222-226

Natural and anthropogenic levels of tritium in a Canadian Arctic ice core, Agassiz Ice Cap, Ellesmere Island, and comparison with other radionuclides, 35-40

Portable system for intermediate-depth ice-core drilling, 167–172

Reconstructing past atmospheric CO₂-concentration based on ice-core analyses: open questions due to in situ production of CO₂ in ice, 45–53

Snow accumulation rates in northern Victoria Land, Antarctica, by firncore analysis, 541–552

The effects of sulfuric acid on the mechanical properties of ice single crystals, 239-243

A new technique for ice-fabric analysis, 129–139

The orientation dependence of the strength of ice single crystals, 41–44

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

An analysis of balance velocities over the Greenland ice sheet and comparison with synthetic aperture radar interferometry, 67–74

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

A comparison of radio-echo sounding data and electrical conductivity of the GRIP ice core, 369-374

Correspondence. Subglacial water at the heads of Antarctic ice-stream tributaries, 702-703

Diffusive mixing between shearing granular layers: constraints on bed deformation from till contacts, 641–651

Geophysical investigations of ice-sheet internal layering and deformation in the Dome C region of central East Antarctica, 161–166

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253–264

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265

A numerical investigation of ice-lobe—permafrost interaction around the southern Laurentide ice sheet, 311

Numerical modelling of ice-sheet dynamics across the Vostok subglacial lake, central East Antarctica, 197-205

Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates, 54–66

Portable system for intermediate-depth ice-core drilling, 167–172

Results from the EISMINT model intercomparison: the effects of thermomechanical coupling, 227–238

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516-530

A millennium of variable ice flow recorded by the Ross Ice Shelf, Antarctica, 652-664

Correspondence. Subglacial water at the heads of Antarctic ice-stream tributaries, 702-703

Energy balance of ice streams, 665–674

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Changes in the margin of Ice Stream C, Antarctica, 102–110

Elevation of ice-stream margin scars after stagnation, 111–118

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Elevation of ice-stream margin scars after stagnation, 111–118

Energy balance of ice streams, 665–674

The onset area of Ice Stream D, West Antarctica, 95–101

Energy balance of ice streams, 665–674

Ice-core evidence of the thickness and character of clear-facies basal ice: Glacier deTransfleuron, Switzerland, 140–150

The onset area of Ice Stream D, West Antarctica, 95-101

Englacial water distribution in a temperate glacier from surface and borehole radar velocity analysis, 389-398

Evaluation of remote-sensing techniques to measure decadal-scale changes of Hofsjökull ice cap, Iceland, 375–388

Glaciofluvial crevasse and conduit fills as indicators of supraglacial dewatering during a surge, Skeiðarárjökull, Iceland, 25–34

Rapid sediment entrainment and englacial deposition during jökulhlaups, 349-351

Acoustic televiewer logging in glacier boreholes, 695–699

A hot-water ice-coring drill, 341–345

A low-cost glacier-mapping system, 531–537

A new technique for ice-fabric analysis, 129–139

Portable system for intermediate-depth ice-core drilling, 167–172

An analysis of balance velocities over the Greenland ice sheet and comparison with synthetic aperture radar interferometry, 67-74

Comparison of SAR-interferometrie and surveyed velocities on a mountain glacier: Black Rapids Glacier, Alaska, U.S.A., 119-128

Rapid sediment entrainment and englacial deposition during jokulhlaups, 349-351

Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland, 423-426

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

Knight, P. G. and others, (paper: Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland) 423–426

Knudsen, O., see Roberts, M. J. and others

Kohler, J., see Cohen, D. and others

Kohshima, S., see \bshimura,Y. and others

Contemporaneous, localized, basal ice-flow variations: implications for bedrock erosion and the origin of p-forms, 470–476

Kotzer,T. G. and others, (paper: Natural and anthropogenic levels of tritium in a Canadian Arctic ice core, Agassiz Ice Cap, Ellesmere Island, and comparison with other radionuclides) 35-40

Krabill, W., see Rignot, E. and others

Kudo, A., see Kotzer, T. G. and others

Kull, C. and M. Grosjean, (paper: Late Pleistocene climate conditions in the north Chilean Andes drawn from a climate—glacier model) 622–632

Kvaran, G., see Fahnestock, M. A. and others

Kwok, R. and others, (paper: Ice motion over LakeVostok, Antarctica: constraints on inferences regarding the accreted ice) 689-694

Digital elevation models for the Lambert Glacier—Amery Ice Shelf system, East Antarctica, from ERS-1 satellite radar al time try, 553

Mass balance of the Lambert Glacier-Amery Ice Shelf system, East Antarctica: a comparison of computed balance fluxes and measured fluxes, 561-570

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516-530

A numerical investigation of ice-lobe—permafrost interaction around the southern Laurentide ice sheet, 311

Diffusive mixing between shearing granular layers: constraints on bed deformation from till contacts, 641–651

Formaldehyde and peroxide concentrations in Law Dome (Antarctica) firn and ice cores, 15–19

Le Meur, E., see Vincent, C. and others

Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

MacAyeal, D R., see Cutler, P. M. and others

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Analysis of a 3 year meteorological record from the ablation zone of Morteratschgletscher, Switzerland: energy and mass balance, 571–579

Dynamic behaviour analysis of glacier de Saint Sorlm, France, from 40 years of observations, 1957-97, 499-506

Effect of summer accumulation on glacier mass balance on the Tibetan Plateau revealed by mass-balance model, 244–252

A geometric glacier model for sea-level change calculations, 357–368

Glacier mass-balance determination by remote sensing and high-resolution modelling, 491-498

Mass balance of the Lambert Glacier-Amery Ice Shelf system, East Antarctica: a comparison of computed balance fluxes and measured fluxes, 561-570

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265

Measurement and parameterization of albedo variations at Haut Glacier d'Arolla, Switzerland, 675–688

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

The use of bulk and profile methods for determining surface heat fluxes in the presence of glacier winds, 445

Matsuoka, K., see Salamatin, A. N. and others

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

Mätzler, C, (paper: A simple snowpack/cloud reflectance and transmittance model from microwave to ultraviolet: the ice-lamella pack) 20–24

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Mayer, C. andM.J. Siegert, (paper: Numerical modelling of ice-sheet dynamics across theVostok subglacial lake, central East Antarctica) 197–205

Mayewski, P. A., see Kang Shichang and others

Mérindol, L., see Durand, Y. and others

Mickelson, D M., see Cutler, P. M. and others

A simple snowpack/cloud reflectance and transmittance model from microwave to ultraviolet: the ice-lamella pack, 20–24

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

Miller, H., see Hempel, L. and others

Miller, M. M., see Ramage, J. M. and others

Moraines: A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

Moran, M. L. and others, (paper: Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays) 274–286

Moran, M. L. and others, (erratum: Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays) 707

Morin, R. H. and others, (paper: Acoustic televiewer logging in glacier boreholes) 695-699

Analysis of a 3 year meteorological record from the ablation zone of Morteratschgletscher, Switzerland: energy and mass balance, 571–579

Mosley-Thompson, E., see Zagorodnov, V. and others

Murav'yev, Y D, see Salamatin, A. N. and others

Murray, T. and others, (paper: Englacial water distribution in a temperate glacier from surface and borehole radar velocity analysis) 389–398

Murray, T, see Jiskoot, H. and others

Nälund, J.-O. and others, (paper: Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates) 54–66

Näslund, J.-O. and others, (erratum: Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates) 353-354

Himalayan ice-core dating with snow algae, 335–340

Nereson, N. A., (paper: Elevation of ice-stream margin scars after stagnation) 111-118

Nereson, N. A. and others, (paper: The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers) 75-87

Nereson, N. A., see Jacobel, R.W. and others

New Zealand: Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

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Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

A low-cost glacier-mapping system, 531–537

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265

Contemporaneous, localized, basal ice-flow variations: implications for bedrock erosion and the origin of p-forms, 470–476

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

Rheology of ice at the bed of Engabreen, Norway, 611–621

Sliding of ice past an obstacle at Engabreen, Norway, 599–610

Contemporaneous, localized, basal ice-flow variations: implications for bedrock erosion and the origin of p-forms, 470–476

Monsoon and dust signals recorded in Dasuopu glacier, Tibetan Plateau, 222-226

The use of bulk and profile methods for determining surface heat fluxes in the presence of glacier winds, 445

A numerical investigation of ice-lobe—permafrost interaction around the southern Laurentide ice sheet, 311

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

Glacier mass-balance determination by remote sensing and high-resolution modelling, 491-498

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates, 54–66

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

An analysis of balance velocities over the Greenland ice sheet and comparison with synthetic aperture radar inter fero me try, 67-74

1.4 GHz radar penetration and evidence of drainage structures in temperate ice: Black Rapids Glacier, Alaska, U.S.A., 477-490

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Changes in the margin of Ice Stream C, Antarctica, 102–110

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

Digital elevation models for the Lambert Glacier—Amery Ice Shelf system, East Antarctica, from ERS-1 satellite radar altimetry, 553–560

Mass balance of the Lambert Glacier—Amery Ice Shelf system, East Antarctica: a comparison of computed balance fluxes and measured fluxes, 561-570

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Changes in the margin of Ice Stream C, Antarctica, 102–110

A comparison of radio-echo sounding data and electrical conductivity of the GRIP ice core, 369-374

Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays, 274

Geophysical investigations of ice-sheet internal layering and deformation in the Dome C region of central East Antarctica, 161–166

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

A low-cost glacier-mapping system, 531–537

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265

The onset area of Ice Stream D, West Antarctica, 95-101

Natural and anthropogenic levels of tritium in a Canadian Arctic ice core, Agassiz Ice Cap, Ellesmere Island, and comparison with other radionuclides, 35–40

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

A simple snowpack/cloud reflectance and transmittance model from microwave to ultraviolet: the ice-lamella pack, 20–24

Evaluation of remote-sensing techniques to measure decadal-scale changes of Hofsjokull ice cap, Iceland, 375–388

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265

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Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

A millennium of variable ice flow recorded by the Ross Ice Shelf, Antarctica, 652-664

Glacier advance, ice-marginal lakes and the routing of meltwater and sediment: Russell Glacier, Greenland, 423–426

Modelling dynamics of glaciers in volcanic craters, 177–187

Portable system for intermediate-depth ice-core drilling, 167–172

Energy balance of ice streams, 665–674

Comparison of SAR-interferometric and surveyed velocities on a mountain glacier: Black Rapids Glacier, Alaska, U.S.A., 119-128

An analysis of balance velocities over the Greenland ice sheet and comparison with synthetic aperture radar inter fero me try, 67-74

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

Dynamic behaviour analysis of glacier de Saint Sorlin, France, from 40 years of observations, 1957-97, 499-506

Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

Bed properties of Siple Dome and adjacent ice streams, West Antarctica, inferred from radio-echo sounding measurements, 88–94

Changes in the margin of Ice Stream C, Antarctica, 102–110

Elevation of ice-stream margin scars after stagnation, 111–118

The accumulation pattern across Siple Dome, West Antarctica, inferred from radar-detected internal layers, 75–87

The onset area of Ice Stream D, West Antarctica, 95–101

Rapid sediment entrainment and englacial deposition during jokulhlaups, 349-351

Glaciofluvial crevasse and conduit fills as indicators of supraglacial dewatering during a surge, Skeiðarárjökull, Iceland, 25–34

Formaldehyde and peroxide concentrations in Law Dome (Antarctica) firn and ice cores, 15–19

A simple snowpack/cloud reflectance and transmittance model from microwave to ultraviolet: the ice-lamella pack, 20–24

Himalayan ice-core dating with snow algae, 335–340

Short fluctuations in the density and thickness of a dry firn column, 399–411

Texture and strength changes of buried surface-hoar layers with implications for dry snow-slab avalanche release, 151-160

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

Controls on the distribution of surge-type glaciers in Svalbard, 412–422

Glaciofluvial crevasse and conduit fills as indicators of supraglacial dewatering during a surge, Skeiðarárjökull, Iceland, 25–34

Contemporaneous, localized, basal ice-flow variations: implications for bedrock erosion and the origin of p-forms, 470–476

Controls on the distribution of surge-type glaciers in Svalbard, 412–422

Analysis of a 3 year meteorological record from the ablation zone of Morteratschgletscher, Switzerland: energy and mass balance, 571–579

Glacier mass-balance determination by remote sensing and high-resolution modelling, 491-498

Glaciochemical dating of an ice core from upper Grenzgletscher (4200 ma.s.l.), 507-515

Ice-core evidence of the thickness and character of clear- facies basal ice: Glacier deTransfleuron, Switzerland, 140–150

Measurement and parameterization of albedo variations at Haut Glacier d'Arolla, Switzerland, 675–688

Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model, 7–14

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Ice discharge of eastern Dome C drainage area, Antarctica, determined from airborne radar survey and satellite image analysis, 253

Calculating basal thermal zones beneath the Antarctic ice sheet, 297–310

Effect of summer accumulation on glacier mass balance on the Tibetan Plateau revealed by mass-balance model, 244–252

Monsoon and dust signals recorded in Dasuopu glacier, Tibetan Plateau, 222-226

Coupled ice-till deformation near subglacial channels and cavities, 580-598

Diffusive mixing between shearing granular layers: constraints on bed deformation from till contacts, 641–651

Glacier motion dominated by processes deep in underlying till, 213–221

Sliding versus till deformation in the fast motion of an ice stream over a viscous till, 633-640

Ice-core evidence of the thickness and character of clear-facies basal ice: Glacier deTransfleuron, Switzerland, 140–150

A simple snowpack/cloud reflectance and transmittance model from microwave to ultraviolet: the ice-lamella pack, 20–24

Evidence for extreme pressure pulses in the subglacial water system, 206-212

Natural and anthropogenic levels of tritium in a Canadian Arctic ice core, Agassiz Ice Cap, Ellesmere Island, and comparison with other radionuclides, 35-40

Comparison of SAR-interferometric and surveyed velocities on a mountain glacier: Black Rapids Glacier, Alaska, U.S.A., 119-128

Glacier motion dominated by processes deep in underlying till, 213–221

Radar glacier zones in southeast Alaska, U.S.A.: field and satellite observations, 287-296

The accumulation regime of Blue Glacier, U.S.A., 1914-96, 326-334

1.4 GHz radar penetration and evidence of drainage structures in temperate ice: Black Rapids Glacier, Alaska, U.S.A., 477-490

A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

Diffusive mixing between shearing granular layers: constraints on bed deformation from till contacts, 641–651

Delineation of a complexly dipping temperate glacier bed using short-pulse radar arrays, 274

A numerical investigation of ice-lobe—permafrost interaction around the southern Laurentide ice sheet, 311–325

Numerical modelling of the ice sheet in western Dronning Maud Land, East Antarctica: impacts of present, past and future climates, 54–66

Ice motion over Lake Vostok, Antarctica: constraints on inferences regarding the accreted ice, 689-694

Numerical modelling of ice-sheet dynamics across the Vostok subglacial lake, central East Antarctica, 197-205

Relating glacier mass balance to meteorological data by using a seasonal sensitivity characteristic, 1–6

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516–530

The link between climate warming and break-up of ice shelves in the Antarctic Peninsula, 516–530

A model of ablation-dominated medial moraines and the generation of debris-mantled glacier snouts, 459–469

Himalayan ice-core dating with snow algae, 335-340

Mass balance of the northeast sector of the Greenland ice sheet: a remotesensing perspective, 265