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Index Vol. 49 No.164-167, 2003

Published online by Cambridge University Press:  08 September 2017

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Copyright © International Glaciological Society 2003

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