Abdalati, W., see Thomas, R. H. and others
Adams, E. E and D. A. Miller, (paper: Ice crystals grown from vapor onto an orientated substrate: application to snow depth-hoar development and gas inclusions in lake ice) 8—12
Alaska:
Interannual variations of snowmelt and refreeze timing in southeast- Alaskan icefields, U.S.A., 102-116
Short-term variations in calving of a tidewater glacier: LeConte Glacier, Alaska, U.S.A., 587-598
Subglacial environment inferred from bedrock-coating siltskins, Mendenhall Glacier, Alaska, U.S.A., 568-576
Taku Glacier (Alaska, U.S.A.) on the move again: active deformation of proglacial sediments, 50—58
The snow cover on lakes of the Arctic Coastal Plain of Alaska, U.S.A., 370-380
Albedo:
Satellite retrieval of mass balance: comparing SAR images with albedo images and in situ mass-balance observations, 437-448
Spatial and temporal variations in albedo on Storglaciaren, Sweden, 59-68
Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images, 491—502
Anderson, B.:
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand by B. Goodsell, B. Anderson andW. Lawson, 469-470
Anderson, J. B., see Lowe, A. L. andJ. B. Anderson
Antarctica:
Bed topography and lubrication inferred from surface measurements on fast-flowing ice streams, 481-490
Evidence for abundant subglacial meltwater beneath the paleo-ice sheet in Pine Island Bay, Antarctica, 125-138
Ice-shelf elevation changes due to atmospheric pressure variations, 521-526
Laser profiling over Antarctic ice streams: methods and accuracy, 315— 322
New velocity map and mass-balance estimate of Mertz Glacier, East Antarctica, derived from Landsat sequential imagery, 503—511
Temporal and spatial variability of the surface mass balance in Dronning Maud Land, Antarctica, as derived from automatic weather stations, 512-520
The nature of complex ice flow in Shirase Glacier catchment, East Antarctica, 429-436
Thickness changes onWhillans Ice Stream and Ice Stream C,West Antarctica, derived from laser altimeter measurements, 223-230
Velocity of radio-wave propagation in ice at Vostok station, Antarctica, 179-183
Arctic:
Energy exchange processes in the marginal ice zone of the Barents Sea, Arctic Ocean, during spring 1999,415-419
Ice cores from Arctic sub-polar glaciers: chronology and post-depositional processes deduced from radioactivity measurements, 149-158
Meltwater circulation and permeability of Arctic sea ice, 349-358
The distribution of basal motion beneath a High Arctic polythermal glacier, 407-414
The snow cover on lakes of the Arctic Coastal Plain of Alaska, U.S.A., 370-380
Arnold, N. S. and W. G. Rees, (paper: Self-similarity in glacier surface characteristics) 547—554
Atmospheric pressure variations:
Ice-shelf elevation changes due to atmospheric pressure variations, 521-526
Atomic force microscopy:
Correspondence. Imaging of suspended macromolecules and colloids in glacial and alpine streams by atomic force microscopy, 607—609
Austre Okstindbreen (Norway):
Oxygen isotopes in glacier-river water, Austre Okstindbreen, Okstindan, Norway, 282-292
Avalanches:
A laboratory study of the retarding effects of braking mounds on snow avalanches, 191-200
Baker, I. and D. Cullen, (paper: SEM/EDS observations of impurities in polar ice: artifacts or not?) 184-190
Baltic Sea:
Development, structure and composition of land-fast sea ice in the northern Baltic Sea, 139-148
Barents Sea (Arctic Ocean):
Energy exchange processes in the marginal ice zone of the Barents Sea, Arctic Ocean, during spring 1999,415-419
Barr, S., see Pritchard, H. and others
Bartelt, P., see Scapozza, C. and P. Bartelt
Bartelt, P., see Von Moos, M. and others
Benham, T J. andj. A. Dowdeswell, (instruments and methods: A simple visualization method for distinguishing subglacial-bed and side-wall returns in radio-echo records from outlet and valley glaciers) 463—468
Berthier, E., B. Raup and E. Scambos, (paper: New velocity map and massbalance estimate of Mertz Glacier, East Antarctica, derived from Landsat sequential imagery) 503-511
Bindschadler, R. A., seeThorsteinsson,T and others
Bingham, R. G, see Copland, L. and others
Bjornsson, H., see Flowers, G. E. and others
Bjornsson, H., see Ng, F and H. Bjornsson
Bleiker, E., see Von Moos, M. and others
Bouisset, P., see Pinglot, J. F and others
Braking mounds:
A laboratory study of the retarding effects of braking mounds on snow avalanches, 191-200
Calving:
Buckling rate and overhang development at a calving face, 577-586
Short-term variations in calving of a tidewater glacier: LeConte Glacier, Alaska, U.S.A., 587-598
Canada:
Links between short-term velocity variations and the subglacial hydrology of a predominantly cold polythermal glacier, 337-348
The distribution of basal motion beneath a High Arctic polythermal glacier, 407-414
Canals, M., see Clark, C. D. and others
Carter, C. L., D. P. Dethier and R. L. Newton, (paper: Subglacial environment inferred from bedrock-coating siltskins, Mendenhall Glacier, Alaska, U.S.A.) 568-576
Chen Rensheng, see Yang Jianping and others
China:
Correspondence. What is the major reason for glacier retreat onYulong mountain, China? by HeYuanqing, Gujuan and Zhang Dian, 325-326
Glacier changes since the Little Ice Age maximum in the western Qilian Shan, northwest China, and consequences of glacier runoff for water supply, 117-124
Chueca, J., A. Julian and I. Lopez, (paper: Variations of Glaciar Coronas, Pyrenees, Spain, during the 20th century) 449-455
Clague—Mathews relation:
On the Clague—Mathews relation for jokulhlaups, 161 — 172
Clark, C. D., S. M.Tulaczyk, C. R. Stokes and M. Canals, (paper: A groove-ploughing theory for the production of mega-scale glacial lineations, and implications for ice-stream mechanics) 240-256
Clark, R. A. see Woodward, J. and others
Clarke, G. K. C, (paper: Hydraulics of subglacial outburst floods: new insights from the Spring-Hutter formulation) 299-313
Climate change:
Responses of various-sized alpine glaciers and runoff to climatic change, 1-7
Coleman, R., see Padman, L. and others
Conway, H. B., see Rasmussen, L. A. and H. B. Conway
Cooper, J. D., see Morris, E. M. andj. D. Cooper
Copland, L., M. J. Sharp and P. Nienow, (paper: Links between short-term velocity variations and the subglacial hydrology of a predominantly cold polythermal glacier) 337-348
Copland, L., M. J. Sharp, P. W Nienow and R. G Bingham, (paper: The distribution of basal motion beneath a High Arctic polythermal glacier) 407-414
Cordillera Blanca (Peru):
Tropical glacier meltwater contribution to stream discharge: a case study in the Cordillera Blanca, Peru, 271-281
Corr, H., see Padman, L. and others
Correspondence:
Bowling mermaids; or, How do beach ice balls form? 605—606
Imaging of suspended macromolecules and colloids in glacial and alpine streams by atomic force microscopy, 607-609
Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand, 469-470
What is the major reason for glacier retreat onYulong mountain, China? by HeYuanqing, Gujuan and Zhang Dian, 325-326
Csatho, B. M., see Spikes, V. B. and others
Cullen, D., see Baker, I. and D. Cullen
de Ruyter deWildt, M. S. andj. Oerlemans, (paper: Satellite retrieval of mass balance: comparing SAR images with albedo images and in situ mass-balance observations) 437—448
Dethier, D. P., see Carter, C. L. and others
Ding Yongjian, see Yang Jianping and others
Ding Yongjian, see Ye Baisheng and others
Dowdeswell, J. A., see Benham,T J. andj. A. Dowdeswell
Dowdeswell, J. and M. Hambrey:
Review. Dowdeswell, J. and M. Hambrey. 2002. Islands of the Arctic, 324
Dronning Maud Land (Antarctica):
Temporal and spatial variability of the surface mass balance in Dronning Maud Land, Antarctica, as derived from automatic weather stations, 512-520
Dugmore, A. J., see Kirkbride, M. P. and A. J. Dugmore
Echelmeyer, K. A., see Harrison, W D. and others
Echelmeyer, K. A., see Motyka, R. J. and others
Echelmeyer, K. A., see O'Neel, S. and others
Eicken, H, see Freitag, J. and H. Eicken
Eisen, O.:
Correspondence. Bowling mermaids; or, How do beach ice balls form? by O. Eisen, J. Freitag, C. Haas, W Rack, G Rotschky andj. Schmitt, 605-606
Ellesmere Island (Canada):
Links between short-term velocity variations and the subglacial hydrology of a predominantly cold polythermal glacier, 337—348
Energy exchange:
Energy exchange processes in the marginal ice zone of the Barents Sea, Arctic Ocean, during spring 1999,415-419
Fahnestock, M. A., see MacAyeal, D. R and others
Fischer, U. H., see Mair, D. and others
Flowers, G. E., H. Bjornsson and F Palsson, (paper: New insights into the subglacial and periglacial hydrology of Vatnajokull, Iceland, from a distributed physical model) 257-170
Fountain, A. C, see Leonard, K. C. and A. C. Fountain
Fournier, M., see Pinglot,J. F and others
France:
A two-dimensional shallow ice-flow model of Glacier de Saint-Sorlin, France, 527-538
Franz Josef Glacier (New Zealand):
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand, 469-470
Frederick, E., see Thomas, R. H. and others
Freitag, J. and H. Eicken, (paper: Meltwater circulation and permeability ofArcticseaice) 349-358
Freitag, J.:
Correspondence. Bowling mermaids; or, How do beach ice balls form? by O. Eisen, J. Freitag, C. Haas, W Rack, G Rotschky andj. Schmitt, 605-606
Friction:
On friction and surface cracking during sliding of ice on ice, 391—396
Fritzsche, D., see Pinglot, J. F and others
Frost heave:
A mechanism for differential frost heave and its implications for patterned- ground formation, 69—80
Gas inclusions:
Ice crystals grown from vapor onto an orientated substrate: application to snow depth-hoar development and gas inclusions in lake ice, 8-12
Gerland, S., see Ivanov, B. V and others
Germany:
Correspondence. Bowling mermaids; or, How do beach ice balls form? 605-606
Glaciar Coronas (Spain):
Variations of Glaciar Coronas, Pyrenees, Spain, during the 20th century, 449-455
Glacier de Saint-Sorlin (France):
A two-dimensional shallow ice-flow model of Glacier de Saint-Sorlin, France, 527-538
Glacier dynamics:
A groove-ploughing theory for the production of mega-scale glacial lineations, and implications for ice-stream mechanics, 240-256
A macroscopic approach to glacier dynamics, 13-21
A two-dimensional shallow ice-flow model of Glacier de Saint-Sorlin, France, 527-538
Glacier surge mechanisms inferred from ground-penetrating radar: Kongsvegen, Svalbard, 473—480
Hydrological controls on patterns of surface, internal and basal motion during three "spring events": Haut Glacier dArolla, Switzerland, 555-567
Initial investigations of dynamics of the maritime Koryto glacier, Kamchatka, Russia, 173—178
Investigation of surface melting and dynamic thinning onjakobshavn Isbree, Greenland, 231-239
The distribution of basal motion beneath a High Arctic polythermal glacier, 407-414
Glacier variation:
Causes of glacier change in the source regions of theYangtze and Yellow rivers on the Tibetan Plateau, 539—546
Glacier changes since the Little Ice Age maximum in the western Qilian Shan, northwest China, and consequences of glacier runoff for water supply, 117-124
Investigation of surface melting and dynamic thinning onjakobshavn Isbree, Greenland, 231-239
Variations of Glaciar Coronas, Pyrenees, Spain, during the 20th century, 449-455
Glaciers:
Accuracy of three-dimensional glacier surface velocities derived from radar interferometry and ice-sounding radar measurements, 210—222
A groove-ploughing theory for the production of mega-scale glacial lineations, and implications for ice-stream mechanics, 240—256
A simple visualization method for distinguishing subglacial-bed and side-wall returns in radio-echo records from outlet and valley glaciers, 463-468
A two-dimensional shallow ice-flow model of Glacier de Saint-Sorlin, France, 527-538
Causes of glacier change in the source regions of theYangtze and Yellow rivers on the Tibetan Plateau, 539-546
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand, 469-470
Correspondence. What is the major reason for glacier retreat onYulong mountain, China? by HeYuanqing, Gujuan and Zhang Dian, 325—326
Glacier changes since the Little Ice Age maximum in the western Qilian Shan, northwest China, and consequences of glacier runoff for water supply, 117-124
Glacier surge mechanisms inferred from ground-penetrating radar: Kongsvegen, Svalbard, 473-480
Links between short-term velocity variations and the subglacial hydrology of a predominantly cold polythermal glacier, 337-348
Map-based methods for estimating glacier equilibrium-line altitudes, 329-336
New insights into the subglacial and periglacial hydrology of Vatnajokull, Iceland, from a distributed physical model, 257—170
New velocity map and mass-balance estimate of Mertz Glacier, East Antarctica, derived from Landsat sequential imagery, 503—511
Oxygen isotopes in glacier-river water, Austre Okstindbreen, Okstindan, Norway, 282-292
Responses of various-sized alpine glaciers and runoff to climatic change, 1-7
Self-similarity in glacier surface characteristics, 547-554
Subglacial environment inferred from bedrock-coating siltskins, Mendenhall Glacier, Alaska, U.S.A., 568-576
Surge-related topographic change of the glacier Sortebree, East Greenland, derived from synthetic aperture radar interferometry, 381-390
Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images, 491—502
The distribution of basal motion beneath a High Arctic polythermal glacier, 407-414
Three-dimensional surface velocities of Storstrommen glacier, Greenland, derived from radar interferometry and ice-sounding radar measurements, 201-209
Tropical glacier meltwater contribution to stream discharge: a case study in the Cordillera Blanca, Peru, 271-281
Variations of Glaciar Coronas, Pyrenees, Spain, during the 20th century, 449-455
Goodsell, B.:
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand by B. Goodsell, B. Anderson and W Lawson, 469-470
Goodwin, H., see Ivanov, B. V and others
Goring, D., see Padman, L. and others
Granskog, M. A. ,T A. MartmaandR. A.Vaikmae, (paper: Development, structure and composition of land-fast sea ice in the northern Baltic Sea) 139-148
Greenland:
Investigation of surface melting and dynamic thinning onjakobshavn Isbree, Greenland, 231-239
Three-dimensional surface velocities of Storstrommen glacier, Greenland, derived from radar interferometry and ice-sounding radar measurements, 201-209
Greuell, W, see Klok, E. J. and others
Ground-penetrating radar:
A simple visualization method for distinguishing subglacial-bed and side-wall returns in radio-echo records from outlet and valley glaciers, 463-468
Accuracy of three-dimensional glacier surface velocities derived from radar interferometry and ice-sounding radar measurements, 210—222
Glacier surge mechanisms inferred from ground-penetrating radar: Kongsvegen, Svalbard, 473-480
Three-dimensional surface velocities of Storstrommen glacier, Greenland, derived from radar interferometry and ice-sounding radar measurements, 201-209
Gujuan:
Correspondence. What is the major reason for glacier retreat onYulong mountain, China? by HeYuanqing, Gujuan and Zhang Dian, 325-326
Gudmundsson, G. H., seeThorsteinsson, T and others
Gundestrup, N. S., see Reeh, N. and others
Haas, C:
Correspondence. Bowling mermaids; or, How do beach ice balls form? by O. Eisen, J. Freitag, C. Haas, W Rack, G Rotschky andj. Schmitt, 605-606
Hakonardottir, K. M., A. J. Hogg, T Johannesson and G. G. Tomasson, (paper: A laboratory study of the retarding effects of braking mounds on snow avalanches) 191-200
Hamilton, G. S., see Spikes, V B. and others
Hannah, D M.:
Correspondence. Imaging of suspended macromolecules and colloids in glacial and alpine streams by atomic force microscopy by D. M. Hannah, D Muirhead andj. R. Lead, 607-609
Hanson, B. and R. LeB. Hooke, (paper: Buckling rate and overhang development at a calving face) 577—586
Harrison, W D., C. F. Raymond, K. A. Echelmeyer and R. M. Krimmel, (paper: A macroscopic approach to glacier dynamics) 13—21
Haut Glacier dArolla (Switzerland):
Hydrological controls on patterns of surface, internal and basal motion during three "spring events": Haut Glacier dArolla, Switzerland, 555-567
He Yuanqing:
Correspondence. What is the major reason for glacier retreat onYulong mountain, China? by He Yuanqing, Gujuan and Zhang Dian, 325— 326
Hekla (Iceland):
Glaciological response to distal tephra fallout from the 1947 eruption of Hekla, south Iceland, 420-428
Henderson, L., see Pinglot, J. F. and others
Hock, R., seejonsell, U. and others
Hogg, A. J., see Hakonardottir, K. M. and others
Holmgren, B., seejonsell, U. and others
Hooke, R. LeB., see Hanson, B. and R. LeB. Hooke
Hubbard, A., see Mair, D. and others
Hubbard, B., see Mair, D. and others
Hulbe, C. L., see MacAyeal, D. R and others
Hydrology:
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand, 469-470
Hydraulics of subglacial outburst floods: new insights from the Spring— Hutter formulation, 299-313
Hydrological controls on patterns of surface, internal and basal motion during three "spring events": Haut Glacier dArolla, Switzerland, 555-567
Links between short-term velocity variations and the subglacial hydrology of a predominantly cold polythermal glacier, 337-348
New insights into the subglacial and periglacial hydrology of Vatnajokull, Iceland, from a distributed physical model, 257-170
Tropical glacier meltwater contribution to stream discharge: a case study in the Cordillera Blanca, Peru, 271-281
Ice balls:
Correspondence. Bowling mermaids; or, How do beach ice balls form? 605-606
Ice cores:
Density measurements in ice boreholes using neutron scattering, 599-604
Ice cores from Arctic sub-polar glaciers: chronology and post-depositional processes deduced from radioactivity measurements, 149—158
Ice crystals:
Ice crystals grown from vapor onto an orientated substrate: application to snow depth-hoar development and gas inclusions in lake ice, 8-12
Isotopic diffusion in polycrystalline ice, 397-406
Ice deformation:
Statistical behaviour of the deformation for first loading of polycrystalline ice, 37-49
Ice flow:
A two-dimensional shallow ice-flow model of Glacier de Saint-Sorlin, France, 527-538
Ice flow at low deviatoric stress, 359-369
The nature of complex ice flow in Shirase Glacier catchment, East Antarctica, 429-436
Ice shelves:
Catastrophic ice-shelf break-up by an ice-shelf-fragment-capsize mechanism, 22—36
Ice-shelf elevation changes due to atmospheric pressure variations, 521-526
Ice Stream C (Antarctica):
Thickness changes onWhillans Ice Stream and Ice Stream C,West Antarctica, derived from laser altimeter measurements, 223—230
Ice Stream E (Antarctica):
Bed topography and lubrication inferred from surface measurements on fast-flowing ice streams, 481-490
Ice streams:
Bed topography and lubrication inferred from surface measurements on fast-flowing ice streams, 481—490
A groove-ploughing theory for the production of mega-scale glacial lineations, and implications for ice-stream mechanics, 240—256
Laser profiling over Antarctic ice streams: methods and accuracy, 315—322
Thickness changes onWhillans Ice Stream and Ice Stream C, West Antarctica, derived from laser altimeter measurements, 223-230
Ice:
Isotopic diffusion in polycrystalline ice, 397—406
On friction and surface cracking during sliding of ice on ice, 391—396
SEM/EDS observations of impurities in polar ice: artifacts or not?, 184-190
Velocity of radio-wave propagation in ice at Vostok station, Antarctica, 179-183
Iceland:
Glaciological response to distal tephra fallout from the 1947 eruption of Hekla, south Iceland, 420-428
New insights into the subglacial and periglacial hydrology of Vatnajokull, Iceland, from a distributed physical model, 257—170
Satellite retrieval of mass balance: comparing SAR images with albedo images and in situ mass-balance observations, 437—448
Igarashi, M., see Pinglot, J. F and others
Instruments:
A simple visualization method for distinguishing subglacial-bed and side-wall returns in radio-echo records from outlet and valley glaciers, 463—468
Density measurements in ice boreholes using neutron scattering, 599—604
Laser profiling over Antarctic ice streams: methods and accuracy, 315—322
Isacks, B. L., see Ramage, J. M. and B. L. Isacks
Isaksson, E., see Pinglot, J. F and others
Isotopic diffusion:
Isotopic diffusion in polycrystalline ice, 397-406
Ivanov, B. V, S. Gerland, J.-G. Winther and H. Goodwin, (paper: Energy exchange processes in the marginal ice zone of the Barents Sea, Arctic Ocean, during spring 1999) 415-419
Jakobshavn Isbrse (Greenland):
Investigation of surface melting and dynamic thinning on Jakobshavn Isbree, Greenland, 231-239
Johannesson, T, see Hakonardottir, K. M. and others
John Evans Glacier (Canada):
Links between short-term velocity variations and the subglacial hydrology of a predominantly cold polythermal glacier, 337—348
The distribution of basal motion beneath a High Arctic polythermal glacier, 407-414
Jokulhlaups:
On the Clague—Mathews relation for jokulhlaups, 161—172
Jonsell, U., R. Hock and B. Holmgren, (paper: Spatial and temporal variations in albedo on Storglaciaren, Sweden) 59-68
Joughin, I., seeThorsteinsson, T and others
Julian, A., see Chueca, J. and others
Kamchatka (Russia):
Initial investigations of dynamics of the maritime Koryto glacier, Kamchatka, Russia, 173-178
Kamiyama, K, see Pinglot, J. F and others
Kaser, G. and H. Osmaston:
Review. Kaser, G and H. Osmaston. 2002. Tropical glaciers, 323
King, M., see Padman, L. and others
Kirkbride, M. P. and A. J. Dugmore, (paper: Glaciological response to distal tephra fallout from the 1947 eruption of Hekla, south Iceland) 420-428
Klok, E. J., W. Greuell andj. Oerlemans, (paper: Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images) 491-502
Koerner, R. M., (review: Dowdeswell, J. and M. Hambrey. 2002. Islands of the Arctic) 324
Koerner, R., see Pinglot, J. F. and others
Kongsvegen (Svalbard):
Glacier surge mechanisms inferred from ground-penetrating radar: Kongsvegen, Svalbard, 473-480
Koryto glacier (Russia):
Initial investigations of dynamics of the maritime Koryto glacier, Kamchatka, Russia, 173—178
Krabill,W. B., see Thomas, R. H. and others
Krantz, W. B., see R. A. Peterson andW. B. Krantz
Krimmel, R. M., see Harrison, W. D. and others
L. W. Gold, (paper: Statistical behaviour of the deformation for first loading of polycrystalline ice) 37-49
Lakes:
The snow cover on lakes of the Arctic Coastal Plain of Alaska, U.S.A., 370-380
Landsat images:
New velocity map and mass-balance estimate of Mertz Glacier, East Antarctica, derived from Landsat sequential imagery, 503-511
Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images, 491—502
Lasers:
Laser profiling over Antarctic ice streams: methods and accuracy, 315—322
Thickness changes onWhillans Ice Stream and Ice Stream C,West Antarctica, derived from laser altimeter measurements, 223-230
Lawson, W.:
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand by B. Goodsell, B. Anderson and W. Lawson, 469—470
Le Meur, E. and C. Vincent, (paper: A two-dimensional shallow ice-flow model of Glacier de Saint-Sorlin, France) 527-538
Lead, J. R.:
Correspondence. Imaging of suspended macromolecules and colloids in glacial and alpine streams by atomic force microscopy by D. M. Hannah, D. Muirhead andj. R. Lead, 607-609
LeConte Glacier, Alaska (U.S.A.):
Short-term variations in calving of a tidewater glacier: LeConte Glacier, Alaska, U.S.A., 587-598
Leonard, K C. and A. C. Fountain, (paper: Map-based methods for estimating glacier equilibrium-line altitudes) 329—336
Li Gang, see Liu Shiyin, SunWenxin, ShenYongping and Li Gang
Liston, G. E., see Sturm, M. and G. E. Liston
Liu Caohai, see Ye Baisheng and others
Liu Fengjing, see Ye Baisheng and others
Liu Shiyin, see Yang Jianping and others
Liu Shiyin, SunWenxin, ShenYongping and Li Gang, (paper: Glacier changes since the Little Ice Age maximum in the western Qilian Shan, northwest China, and consequences of glacier runoff for water supply) 117-124
Lopez, I., see Chueca, J. and others
Lowe, A. L. andj. B. Anderson, (paper: Evidence for abundant subglacial meltwater beneath the paleo-ice sheet in Pine Island Bay, Antarctica) 125-138
Lu Anxin, see Yangjianping and others
Luchininov, V S., see Popov, S. V and others
Luckman, A., see Pritchard, H. and others
Lukin,V V, see Popov, S. V and others
MacAyeal, D. R., E. A. Scambos, C. L. Hulbe and M. A. Fahnestock, (paper: Catastrophic ice-shelf break-up by an ice-shelf-fragment-capsize mechanism) 22-36
Madsen, S. N, see Mohr, J. J. and others
Madsen, S. N, see Reeh, N. and others
Mair, D., I.Willis, U. H. Fischer, B. Hubbard, P. Nienow and A. Hubbard, (paper: Hydrological controls on patterns of surface, internal and basal motion during three "spring events": Haut Glacier dArolla, Switzerland) 555-567
Manizade, S., seeThomas, R. H. and others
Mark, B. G. and G. O. Seltzer, (paper: Tropical glacier meltwater contribution to stream discharge: a case study in the Cordillera Blanca, Peru) 271-281
Martma,T A., see Granskog, M. A. and others
Masolov, V N., see Popov, S. V and others
Mass balance:
New velocity map and mass-balance estimate of Mertz Glacier, East Antarctica, derived from Landsat sequential imagery, 503-511
Satellite retrieval of mass balance: comparing SAR images with albedo images and in situ mass-balance observations, 437—448
Temporal and spatial variability of the surface mass balance in Dronning Maud Land, Antarctica, as derived from automatic weather stations, 512-520
Matsumoto, T, seeYamaguchi, S. and others
Meijer, H. A. J., see Pinglot, J. F. and others
Meltwater:
Evidence for abundant subglacial meltwater beneath the paleo-ice sheet in Pine Island Bay, Antarctica, 125-138
Meltwater circulation and permeability of Arctic sea ice, 349—358
Tropical glacier meltwater contribution to stream discharge: a case study in the Cordillera Blanca, Peru, 271-281
Mendenhall Glacier, Alaska (U.S.A.):
Subglacial environment inferred from bedrock-coating siltskins, Mendenhall Glacier, Alaska, U.S.A., 568-576
Mertz Glacier (Antarctica):
New velocity map and mass-balance estimate of Mertz Glacier, East Antarctica, derived from Landsat sequential imagery, 503-511
Miller, D. A., see Adams E. E. and D. A. Miller
Mohr, J. J., N Reeh and S. N. Madsen, (paper: Accuracy of three-dimensional glacier surface velocities derived from radar interferometry and ice-sounding radar measurements) 210-222
Mohr, J. J., see Reeh, N. and others
Montagnat, M. and E. M. Schulson, (paper: On friction and surface cracking during sliding of ice on ice) 391—396
Morris, E. M. andj. D. Cooper, (instruments and methods. Density measurements in ice boreholes using neutron scattering) 599-604
Morteratschgletscher (Switzerland):
Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images, 491—502
Motyka, R. J. and K. A. Echelmeyer, (paper: Taku Glacier (Alaska, U.S.A.) on the move again: active deformation of proglacial sediments) 50-58
Motyka, R. J., see O'Neel and others
Muirhead, D.:
Correspondence. Imaging of suspended macromolecules and colloids in glacial and alpine streams by atomic force microscopy by D. M. Hannah, D. Muirhead andj. R. Lead, 607-609
Murav'yev, Y. D., seeYamaguchi, S. and others
Murray, T., see Pritchard, H. and others
Murray, T., see Woodward, J. and others
Naruse, R., see Pattyn, F. and R. Naruse
Naruse, R., seeYamaguchi, S. and others
Neutron scattering:
Density measurements in ice boreholes using neutron scattering, 599-604
New Zealand:
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand, 469-470
Newton, R. L., see Carter, C. L and others
Ng, F and H. Bjornsson, (paper: On the Clague—Mathews relation for jokulhlaups) 161-172
Nienow, P.W., see Copland, L. and others
Nienow, P., see Copland, L. and others
Nienow, P., see Mair, D. and others
North Sea (Germany):
Correspondence. Bowling mermaids; or, How do beach ice balls form? 605-606
Norway:
Oxygen isotopes in glacier-river water, Austre Okstindbreen, Okstindan, Norway, 282-292
O'Neel, S., K. A. Echelmeyer and R. J. Motyka, (paper: Short-term variations in calving of a tidewater glacier: LeConte Glacier, Alaska, U.S.A.) 587-598
Oerlemans, J., see de Ruyter deWildt, M. S. andj. Oerlemans
Oerlemans, J., see Klok, E. J. and others
Oerter, H., see Reeh, N. and others
Oilan Shan:
Glacier changes since the Little Ice Age maximum in the western Qilian Shan, northwest China, and consequences of glacier runoff for water supply, 117-124
Okstindan (Norway):
Oxygen isotopes in glacier-river water, Austre Okstindbreen, Okstindan, Norway, 282-292
Padman, L., M. King, D. Goring, H. Corr and R. Coleman, (paper: Iceshelf elevation changes due to atmospheric pressure variations) 521 — 526
Palsson, F, see Flowers, G E. and others
Patterned-ground formation:
A mechanism for differential frost heave and its implications for patterned- ground formation, 69—80
Pattyn, F and R. Naruse, (paper: The nature of complex ice flow in Shirase Glacier catchment, East Antarctica) 429-436
Peru:
Tropical glacier meltwater contribution to stream discharge: a case study in the Cordillera Blanca, Peru, 271-281
Pettit, E. C. and E. D. Waddington, (paper: Ice flow at low deviatoric stress) 359-369
Pine Island Bay:
Evidence for abundant subglacial meltwater beneath the paleo-ice sheet in Pine Island Bay, Antarctica, 125-138
Pinglot, J. F, R. A. Vaikmae, K. Kamiyama, M. Igarashi, D. Fritzsche, F Wilhelms, R. Koerner, L. Henderson, E. Isaksson, J.-G. Winther, R. S. W. van deWal, M. Fournier, P. Bouisset and H. A. J. Meijer, (paper: Ice cores from Arctic sub-polar glaciers: chronology and post-depositional processes deduced from radioactivity measurements) 149-158
Polythermal glaciers:
Links between short-term velocity variations and the subglacial hydrology of a predominantly cold polythermal glacier, 337—348
The distribution of basal motion beneath a High Arctic polythermal glacier, 407-414
Popov, S.V, A. N Sheremet'yev,V N. Masolov,VV Lukin, A.V. M. andV. S. Luchininov, (paper: Velocity of radio-wave propagation in ice at Vostok station, Antarctica) 179-183
Pritchard, H.,T Murray, T Strozzi, S. Barr and A. Luckman, (paper: Surge-related topographic change of the glacier Sortebrse, East Greenland, derived from synthetic aperture radar interferometry) 381-390
Proglacial sediments:
Taku Glacier (Alaska, U.S.A.) on the move again: active deformation of proglacial sediments, 50—58
R. A. Peterson and W. B. Krantz, (paper: A mechanism for differential frost heave and its implications for patterned-ground formation) 69—80
Rack,W:
Correspondence. Bowling mermaids; or, How do beach ice balls form? by O. Eisen, J. Freitag, C. Haas,W. Rack, G Rotschky andj. Schmitt, 605-606
Radar:
Accuracy of three-dimensional glacier surface velocities derived from radar interferometry and ice-sounding radar measurements, 210—222
Glacier surge mechanisms inferred from ground-penetrating radar: Kongsvegen, Svalbard, 473-480
Satellite retrieval of mass balance: comparing SAR images with albedo images and in situ mass-balance observations, 437-448
Surge-related topographic change of the glacier Sortebree, East Greenland, derived from synthetic aperture radar interferometry, 381-390
Three-dimensional surface velocities of Storstrommen glacier, Greenland, derived from radar interferometry and ice-sounding radar measurements, 201-209
Radioactivity:
Ice cores from Arctic sub-polar glaciers: chronology and post-depositional processes deduced from radioactivity measurements, 149-158
Radio-echo sounding, see Ground-penetrating radar (GPR)
Radio-waves:
Velocity of radio-wave propagation in ice at Vostok station, Antarctica, 179-183
Ramage, J. M. and B. L. Isacks, (paper: Interannual variations of snowmelt and refreeze timing in southeast-Alaskan icefields, U.S.A.) 102—116
Rasmussen, L. A. and H. B. Conway (paper: Using upper-air conditions to estimate South Cascade Glacier (Washington, U.S.A.) summer balance) 456-462
Raup, B., see Berthier, E. and others
Raymond, C. F, seeThorsteinsson,T and others
Raymond, K. A., see Harrison, W D. and others
Reeh, N., J. J. Mohr, S. N0rvang Madsen, H. Oerter and N. S. Gundestrup, (paper: Three-dimensional surface velocities of Storstrommen glacier, Greenland, derived from radar interferometry and ice-sounding radar measurements) 201-209
Reeh, N., see Mohr, J. J. and others
Rees,W. G, see Arnold, N. S. andW. G Rees
Reijmer, C. H. and M. R. van den Broeke, (paper: Temporal and spatial variability of the surface mass balance in Dronning Maud Land, Antarctica, as derived from automatic weather stations) 512—520
Remote sensing:
New velocity map and mass-balance estimate of Mertz Glacier, East Antarctica, derived from Landsat sequential imagery, 503-511
Satellite retrieval of mass balance: comparing SAR images with albedo images and in situ mass-balance observations, 437—448
Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images, 491—502
Rempel, A. W. andj. S. Wettlauffer, (paper: Isotopic diffusion in polycrystalline ice) 397-406
Reviews:
Dowdeswell, J. and M. Hambrey. 2002. Islands of the Arctic, 324
Kaser, G and H. Osmaston. 2002. Tropical glaciers, 323
Rotschky, G:
Correspondence. Bowling mermaids; or, How do beach ice balls form? by O. Eisen, J. Freitag, C. Haas, W. Rack, G Rotschky andj. Schmitt, 605-606
Russia:
Initial investigations of dynamics of the maritime Koryto glacier, Kamchatka, Russia, 173—178
Scambos, C. L., see MacAyeal, D. R and others
Scambos, E. see Berthier, E. and others
Scapozza, C. and P. Bartelt, (paper: Triaxial tests on snow at low strain rate. Part II. Constitutive behaviour) 91-101
Schmitt, J.:
Correspondence. Bowling mermaids; or, How do beach ice balls form? by O. Eisen, J. Freitag, C. Haas, W. Rack, G Rotschky andj. Schmitt, 605-606
Schulson, E. M., see Montagnat, M. and E. M. Schulson
Sea ice:
Development, structure and composition of land-fast sea ice in the northern Baltic Sea, 139-148
Energy exchange processes in the marginal ice zone of the Barents Sea, Arctic Ocean, during spring 1999,415-419
Meltwater circulation and permeability of Arctic sea ice, 349—358
Sediment:
Correspondence. Imaging of suspended macromolecules and colloids in glacial and alpine streams by atomic force microscopy, 607-609
Seltzer, G O., see Mark, B. G and G O. Seltzer
SEM/EDS:
SEM/EDS observations of impurities in polar ice: artifacts or not?, 184-190
Sharp, M. J., see Copland, L. and others
Shen Yongping, see Liu Shiyin, Sun Wenxin, Shen Yongping and Li Gang
Sheremet'yev, A. N., see Popov, S. V and others
Shirase Glacier (Antarctica):
The nature of complex ice flow in Shirase Glacier catchment, East Antarctica, 429-436
Snow:
Ice crystals grown from vapor onto an orientated substrate: application to snow depth-hoar development and gas inclusions in lake ice, 8-12
The snow cover on lakes of the Arctic Coastal Plain of Alaska, U.S.A., 370-380
Triaxial tests on snow at low strain rate. Part I. Experimental device, 81-90
Triaxial tests on snow at low strain rate. Part II. Constitutive behaviour, 91-101
Snowmelt:
Interannual variations of snowmelt and refreeze timing in southeast-Alaskan icefields, U.S.A, 102-116
Sortebrae (Greenland):
Surge-related topographic change of the glacier Sortebrse, East Greenland, derived from synthetic aperture radar interferometry, 381-390
South Cascade Glacier (U.S.A.):
Using upper-air conditions to estimate South Cascade Glacier (Washington, U.S.A.) summer balance, 456-462
Spain:
Variations of Glaciar Coronas, Pyrenees, Spain, during the 20th century, 449-455
Spikes, V B., B. M. Csatho and I. M. Whillans, (paper: Laser profiling over Antarctic ice streams: methods and accuracy) 315-322
Spikes, V B., B. M. Csatho, G S. Hamilton and I. M. Whillans, (paper: Thickness changes on Whillans Ice Stream and Ice Stream C, West Antarctica, derived from laser altimeter measurements) 223—230
Spring-Hutter formulation:
Hydraulics of subglacial outburst floods: new insights from the Spring-Hutter formulation, 299-313
Steffen, K., see Thomas, R. H. and others
Stokes, C. R., see Clark, C. D. and others
Storglaciaren:
Spatial and temporal variations in albedo on Storglaciaren, Sweden, 59-68
Storstrommen glacier (Greenland):
Three-dimensional surface velocities of Storstrommen glacier, Greenland, derived from radar interferometry and ice-sounding radar measurements, 201-209
Strozzi, T, see Pritchard, H. and others
Stuart, G. W, see Woodward, J. and others
Sturm, M. and G E. Liston, (paper: The snow cover on lakes of the Arctic Coastal Plain of Alaska, U.S.A.) 370-380
Subglacial environment:
Subglacial environment inferred from bedrock-coating siltskins, Mendenhall Glacier, Alaska, U.S.A., 568-576
Subglacial meltwater:
Correspondence. Supraglacial routing of subglacial water at Franz Josef Glacier, South Westland, New Zealand, 469-470
Evidence for abundant subglacial meltwater beneath the paleo-ice sheet in Pine Island Bay, Antarctica, 125-138
Subglacial outburst floods:
Hydraulics of subglacial outburst floods: new insights from the Spring—Hutter formulation, 299-313
Sugiyama, S., seeYamaguchi, S. and others
Summer balance:
Using upper-air conditions to estimate South Cascade Glacier (Washington, U.S.A.) summer balance, 456—462
Sun Wenxin, see Liu Shiyin, Sun Wenxin, ShenYongping and Li Gang
Surface albedo:
Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images, 491—502
Surface cracking:
On friction and surface cracking during sliding of ice on ice, 391—396
Svalbard:
Glacier surge mechanisms inferred from ground-penetrating radar: Kongsvegen, Svalbard, 473-480
Sweden:
Spatial and temporal variations in albedo on Storglaciaren, Sweden, 59-68
Switzerland:
Hydrological controls on patterns of surface, internal and basal motion during three "spring events": Haut Glacier d'Arolla, Switzerland, 555-567
Temporal and spatial variation of the surface albedo of Morteratschgletscher, Switzerland, as derived from 12 Landsat images, 491-502
Taku Glacier:
Taku Glacier (Alaska, U.S.A.) on the move again: active deformation of proglacial sediments, 50—58
Tephra:
Glaciological response to distal tephra fallout from the 1947 eruption of Hekla, south Iceland, 420-428
Theakstone, W. H., (paper: Oxygen isotopes in glacier-river water, Austre Okstindbreen, Okstindan, Norway) 282-292
Thomas, R. H.,W. Abdalati, E. Frederick, W. B. Krabill, S. Manizade and K. Steffen, (paper: Investigation of surface melting and dynamic thinning onjakobshavn Isbree, Greenland) 231-239
Thorsteinsson, T, C. F. Raymond, G. H. Gudmundsson, R. A. Bindschadler, P. Vornberger and I. Joughin, (paper: Bed topography and lubrication inferred from surface measurements on fast-flowing ice streams) 481-490
Tibetan Plateau:
Causes of glacier change in the source regions of theYangtze and Yellow rivers on the Tibetan Plateau, 539-546
Tomasson, G. G., see Hakonardottir, K. M. and others
Triaxial tests:
Triaxial tests on snow at low strain rate. Part I. Experimental device, 81-90
Triaxial tests on snow at low strain rate. Part II. Constitutive behaviour, 91-101
Tulaczyk, S. M., see Clark, C. D. and others
United States:
Interannual variations of snowmelt and refreeze timing in southeast- Alaskan icefields, U.S.A., 102-116
The snow cover on lakes of the Arctic Coastal Plain of Alaska, U.S.A., 370-380
Short-term variations in calving of a tidewater glacier: LeConte Glacier, Alaska, U.S.A., 587-598
Subglacial environment inferred from bedrock-coating siltskins, Mendenhall Glacier, Alaska, U.S.A., 568-576
Taku Glacier (Alaska, U.S.A.) on the move again: active deformation of proglacial sediments, 50—58
Using upper-air conditions to estimate South Cascade Glacier (Washington, U.S.A.) summer balance, 456-462
Upper-air conditions:
Using upper-air conditions to estimate South Cascade Glacier (Washington, U.S.A.) summer balance, 456—462
Vaikmae, R. A., see Granskog, M. A. and others
Vaikmae, R. A., see Pinglot, J. F and others
van de Wai, R. S. W, see Pinglot, J. F and others
van den Broeke, M. R., see Reijmer, C. H. and M. R. van den Broeke
Vatnajokull (Iceland):
New insights into the subglacial and periglacial hydrology of Vatnajokull, Iceland, from a distributed physical model, 257—170
Satellite retrieval of mass balance: comparing SAR images with albedo images and in situ mass-balance observations, 437—448
Vaughan, D. G, (review: Kaser, G and H. Osmaston. 2002. Tropical glaciers) 323
Vincent, C, see Le Meur, E. and C.Vincent
Von Moos, M., P. Bartelt, A. Zweidler and E. Bleiker, (paper: Triaxial tests on snow at low strain rate. Part I. Experimental device) 81-90
Vornberger, P., see Thorsteinsson, T and others
Vostok Station (Antarctica):
Velocity of radio-wave propagation in ice at Vostok station, Antarctica, 179-183
Waddington, E. D., see Pettit, E. C. and E. D. Waddington
Wettlauffer, J. S., see Rempel, A.W andj. S. Wettlauffer
Whillans Ice Stream (Antarctica):
Thickness changes on Whillans Ice Stream and Ice Stream C, West Antarctica, derived from laser altimeter measurements, 223-230
Whillans, I. M., see Spikes, V B. and others
Wilhelms, F, see Pinglot, J. F and others
Willis, I., see Mair, D. and others
Winther, J.-G., see Ivanov, B. V and others
Winther, J.-G., see Pinglot, J. F and others
Woodward, J.,T Murray, R. A. Clark and G. W Stuart, (paper: Glacier surge mechanisms inferred from ground-penetrating radar: Kongsvegen, Svalbard) 473-480
Yamaguchi, S., R. Naruse, S. Sugiyama,T Matsumoto andY D. Muravyev, (paper: Initial investigations of dynamics of the maritime Koryto glacier, Kamchatka, Russia) 173—178
Yangjianping, DingYongjian, Chen Rensheng, Liu Shiyin and Lu Anxin, (paper: Causes of glacier change in the source regions of the Yangtze and Yellow rivers on the Tibetan Plateau) 539-546
Ye Baisheng, DingYongjian, Liu Fengjing and Liu Caohai, (paper: Responses of various-sized alpine glaciers and runoff to climatic change) 1-7
Yulong mountain (China):
Correspondence. What is the major reason for glacier retreat on Yulong mountain, China? by HeYuanqing, Gujuan and Zhang Dian, 325—26
Zhang Dian:
Correspondence. What is the major reason for glacier retreat on Yulong mountain, China? by HeYuanqing, Gujuan and Zhang Dian, 325-326
Zweidler, A., see Von Moos, M. and others
