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Glaciological Literature

Published online by Cambridge University Press:  30 January 2017

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Journal of Glaciology , Volume 2 , Issue 15 , 1954 , pp. 373 - 376
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Copyright © International Glaciological Society 1954

This bi-annual list of glaciological literature aims to cover the scientific aspects of snow and ice in all parts of the world. Attention is drawn to the bibliographies in each number of the Polar Record (Cambridge), which aim to cover the significant work dealing with expeditions, research, equipment and conditions of living in the Polar regions. Both journals, however, deal with Polar literature having specific glaciological interest and with general matters of a practical nature such as snowcraft.

Readers will greatly assist the Editor by notifying him of their own, or any other, publication of glaciological interest.

References

Allen, C. R. Smith, G. I. Seismic and gravity investigations on the Malaspina Glacier, Alaska.Transactions, American Geophysical Union, Vol 34, No. 5, 1953, p. 75560.Google Scholar
Ångeby, O. Dubbla moräner och submoräna sediment i Ångermanälvena övre flodområde; med bidrag av Kaj Nilsson och Göran Ljungberg. Geologiska Föreningens i Stockholm Förhandlingar, Bd. 73, Ht. 4, No. 467, 1951, p. 65381. [Moraines and glacial deposits in Jämtland and Ångermanland (Sweden). English summary.]CrossRefGoogle Scholar
Atwater, M. M. Avalanche study in the U.S.A. Appalachia, New Series, Vol. 17, No. 7. 1951, p. 38893. [Experiences of a snow ranger with the U.S. Forest Service at Alta, Wasatch National Forest, Utah.].Google Scholar
Barckeroot, G. Le rôle des actions cryonivales quaternaires dans la formation des paysages du Sidobre de Castres. Bulletin de l’Association de Géographes français, Nos. 226–27–28, 1952, p. 12125. [Solifluction phenomena.]Google Scholar
Barker, H. Radiocarbon dating: large-scale preparation of acetylene from organic material. Nature, Vol. 172, No. 4379, 1953, p. 63132.CrossRefGoogle Scholar
Beater, B. E. A recently uncovered glacial pavement near Maidstone, Natal. Transactions and Proceedings of the Geological Society of South Africa, Vol. 55, 1952, p. 32930.Google Scholar
Beaujeu-Garnier, J. A propos du modelé périglaciaire du Limousin. Bulletin de lAssociation de Géographes français, Nos. 226–27–28, 1952, p. 12833. [Solifluction phenomena in the Central Massif of France differ in form with altitude.]Google Scholar
Becker, J. Sittler, C. Age de la dénivation dans les niches glaciaires des Vosges gréseuses. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences (Paris), Tom. 234, No. 11, 1952, p. 119192. Google Scholar
Bergdahl, A., Israndsbildningar i östra Syd—och Mellansverige med siirskild hänsyn till åsama. Meddelanden från Lunds Universitäts Geografiska institution. Avhandlingar, 23, 1953, 208 p. [Route of retreating ice in south-east Sweden. Reprinted as: Marginal deposits in south-eastern Sweden with special reference to the oses. Lund Studies in Geography. Ser. A. Physical Geography, No. 4, 1953. 24 p.]Google Scholar
Bergsaröm, E. Som glaciolog på Ruwenzori. Ymer. Årg. 73, Ht. 1, 7953, p. 123. [Glacier retreat on Ruwenzori is not as catastrophic as often asserted.]Google Scholar
Bigg, E. K. The formation of atmospheric ice crystals by the freezing of droplets. Quarterly Journal of the Royal Meteorological Society, Vol. 79, No. 342, 1953, p. 51019.Google Scholar
Bird, J. Brian. Southampton Island. Canada. Department of Mines and Technical Surveys. Geographical Branch, Memoir 1, 1953, 84 p. [Ice conditions, etc.]Google Scholar
Boivin, B. Les décharges du glacier continental à travers la Prairie canadienne. Revue Canadienne de Géographie, Vol. 7, Nos. 1–2, 1953, p. 2325. [Retreat of ice left a complex system of furrows on the Canadian Prairies.]Google Scholar
Black, Robert F. Permafrost—a review. Transactions of the New York Academy of Sciences, Ser. 2, Vol. 55, 1953, p. 12631.Google Scholar
Bonacina, L. C. W. Snow lying and snow lingering. Weather, Vol. 8, No. 2, 1953, p. 63.Google Scholar
Bond, G. Evidence of glaciation in the lower part of the Karroo system in Southern Rhodesia. Transactions and Proceedings of the Geological Society of South Africa, Vol. 55. 1952, p. 112.Google Scholar
Bowden, F. P. Friction on snow and ice. Proceedings of the Royal Society, Series A, Vol. 217, 1953, p. 46278.Google Scholar
Boyé, M. Gélivation et cryoturoation dans le Massif du Mont-Perdu (Pyrénes centrales). Pirineos, Año 8, Núm. 23, 1952. p. 529.Google Scholar
Brockamp, B. Nachtrag zu den wissenschaftlichen Ergebnissen der Deutschen Grönlandexpedition Alfred Wegener. Neues Jahrbuch fur Mineralogie, Geologie und Paläontologie. Abhandlungen, Bd. 93, Ht. 2, 1951, p. 177232. [Temperature and pressure readings made during German Greenland Expedition, 1930–31].Google Scholar
Büdel, Julius. Die periglazial”-morphologischen Wirkungen des Eiskeitklimas auf der ganzen Erde. Erdkunde, Bd. 7, Ht. 4, 1953, p. 24966.CrossRefGoogle Scholar
Bullard, E. C. Niblett, E. R. Terrestrial heat flow in England. Monthly Notices of the Royal Astronomical Society. Geophysical Supplement, Vol. 6, No. 4, 1951, p. 22238.Google Scholar
Cailleux, A. Polissage et surcreusement glaciaires dans l’hypothèse de Boyé. Revue de Géomorphologie Dynamique , 3e An., No. 5. 1952, p. 24756. [Glaciers do not break hard rock, this being done by previous frost.]Google Scholar
Casteret, N. Un mondo glaciale sotterraneo. Club Alpino Italiao. Revista Mensile, Vol. 71, Fasc. 7–8, 1952, p. 2226. [Largest ice cave in Europe, near Salzburg.]Google Scholar
Chapman, Sydney. The International Geophysical Year, 1957–58. Nature, Vol. 172, No. 4373. 1953. p. 32729. [Preliminary plans.]Google Scholar
Charlesworth, J. K. The Ice Age and the future of man. Science Progress, Vol. 41, No. 161, 1953, P. 121. [Not one of the many hypotheses put forward to account for the Pleistocene Ice Age is so obviously right as to command general acceptance.]Google Scholar
Dightman, R. A. Beatty, M. E. Recent Montana glacier and climate trends. Monthly Weather Review, Vol. 80. May 1952, p. 7781.Google Scholar
Donner, J. Pollen-analytical studies of late-glacial deposits in Finland. Bulletin de la Commission Géologique de Finlande, No. 154, 1951, p. 192.Google Scholar
Dufour, L. Defay, R Sur la formation des germes de condensation et de solidification autour d’un noyau solide insoluble. Tellus , Vol. 5, No. 3, 1953, p. 293301.Google Scholar
Dumoré, J. M., and others . Heat transfer from water to ice by thermal convection. [By] Dumoré, J. M. Merk, H. J. Prins, J. A.. Nature, Vol. 172, No, 4375, 1953, P. 46061.Google Scholar
Eckford, R. J. A. Glacial phenomena in the West Linton-Dolphinton region. Transactions of the Edinburgh Geological Society, Vol. 15, 1952, p. 13349.Google Scholar
Emiliani, C. Edwards, G. Tertiary ocean bottom temperatures. Nature, Vol. 171, No. 4359, 1953, p. 88788.CrossRefGoogle Scholar
Epstein, S. Lowenstam, H. A. Temperature-shell-growth relations of recent and interglacial Pleistocene shoal-water biota from Bermuda. Journal of Geology, Vol. 61, No. 5, 1953. p. 42438. [Interglacial temperature conditions in Bermuda were very close to today’s temperatures.]Google Scholar
Erinç, S. Uludağ üzerinde glasyal morfoloji arastirmalari. Türk Coğrafya Dergisi, Vol. 6–8, 1949, p. 7994. [On the Uludağ mountain in N.W. Anatolia, height 2550 m., the mean altitude of the Pleistocene snow-line was 2175 m.]Google Scholar
Eythórsson, Jón. Fransk-lslenzki Vatnajökulsleidsngurinn, marz-aprll 1951. Jökull: Rrsrit Jöklarannsólmafélags islands (Reykjavik), Ht. 1, 1951, p. 1014. [General account of French-Icelandic Expedition to Vatnajökull, Iceland, 1951.]Google Scholar
Fels, E. Los Alpes y la epoca glacial. Tucumán. Universidad Nacional. Instituto de Estudios Geogrdficos. Publicaciones Especiales , 2, 1951, p. 8593. [German summary.]Google Scholar
Feyeling-Hanssen, R. W. Brief account of the ice-foot. Norsk Geografisk Tidsskrift, Bd. 14, Ht. 1–4, 1953. p. 4552. [General account of ice-foot occurrence and its influence on shore erosion.]Google Scholar
Field, William O. jr. Glaciological research in Alaska. (In Collins, Henry B., ed. Science in Alaska: selected papers of the Alaskan Science Conference of the National Academy of Sciences, National Research Council, Washington, November 9–11, 1950. [Washington,] Arctic Institute of North America, 1952. p. 12335.) [Bibliography, p. 131–35]Google Scholar
Fletcher, J. O. Koenig, L. S. Floating ice islands. Explorers Journal, Vol. 31, Nos. 1 & 2, 1953, p. 110.Google Scholar
Flint, R. F. Probable Wisconsin substages and late-Wisconsin events in northeastern United States and southeastern Canada. Bulletin of the Geological Society of America, Vol. 64, 1953, p. 897919.Google Scholar
Fristrup, Børge. Wind erosion within the Arctic deserts. Geografisk Tidsskrift, Bd. 52, 1952–53, p. 5165.Google Scholar
Gensler, G. A. Hundert Jahre Firnschwund dargestellt speziell am Biespiel der Berninagruppe. Jahresbericht der Naturforschenden Gesellschaft Graubündens, Bd. 84, 1952/53, p. 315.Google Scholar
Gibson, E. R. Thorington, J. M. Changes in Scott Glacier—1924–52. Canadian Alpine Journal, Vol. 36, 1953. p. 168.Google Scholar
Gjessing, J. Skuringsanalyse til belysning av isrecessionen ved Oslofjordev. Norsk Geografisk Tidsskrtft, Bd. 14, Ht. 1–4. 1953, p. 7799. [Analysis of ice-scourings in Oslofjord.]Google Scholar
Glen, J. W. Rate of flow of polycrystalline ice. Nature, Vol. 172, No. 4381, 1953, p. 72122.Google Scholar
Gravenor, C. P. The origin of drumlins. American Journal of Science, Vol. 251, No. 9, 1953, p. 67081. [Prefers modified erosional to depositional origin.]Google Scholar
Greenaway, K. R. Ice islands observed on R.C.A.F. polar flights. Arctic, Vol. 6, No. 2, 1953, p. 16465.Google Scholar
Groeber, P. Glacial, tardio y post-glacial en Patagonia. Revista del Museo Municipal de Ciencias Naturales y Tradicional de Mar del Plata, Vol. 1, Entrega 1, 1952, p. 79103.Google Scholar
Grunow, J. Zum Wasserhaushalt einer Schneedecke: Messungen der Schneedichte beim Observatorium Hohenpeissenberg. Berichte des Deutschen Wetterdienstes in der US-Zone, Bd. 6, Nr. 38, 1952, p. 38593. [Studies of formation and ablation of snow layer.]Google Scholar
Heintz, A. Noen iakttagelser over isbreenes tilbakegang i Hornsund, V. Spitsbergen. Norsk Polarinstitutt. Meddelelser, Nr. 73, 1953, 36 p. [In 50 years about 30 km.2 in Hornsund, Spitsbergen, have become free of ice.]Google Scholar
Higshi, A. On the thermal conductivity of soil, with special reference to that of frozen soil. Transactions. American Geophysical Union, Vol. 34, No. 5, 1953, p. 73748.Google Scholar
Hoel, Adolf. Flateinnholdet av breer og snofonner i Norge. Norsk Geografisk Tidsskrift, Bd. 14, Ht. 1–4, 1953, p. 1092 3. [Areas of Norwegian glaciers and snow fields.]Google Scholar
Hövermann, J., and others. Studien über die Periglazial-Erscheinungen in Mitteleuropa. Tail 1. Studien aus den Mittelgebirgen (Harz, Schwarzwald, Werratal). [Von] J. Hövetmann, F. Fezer und H. Mensching. Göttinger Geographische Abhandlungen, Ht. 14, 1953, 128 p.Google Scholar
Hofmann, W. Gletschermessungen in der Cascade Range des Staates Washington, U.S.A., 1952. Erdkunde, Bd. 7, Ht. 3, 1953, p. 21720. [Glacier measurements; photograrnmetry; English summary.]Google Scholar
Holdar, C. G. Problemet Torne-lssjön. Geografiska Annales, Arg. 34, Ht. 1–2, 1952, p. 7388. [Considers that there never has been a glacial Lake Tometriisk in northern Scandinavia.]Google Scholar
Jahn, A.W sprawie urygladów lodowcowych w Sudetach. Czasopismo Geograficzne, Tom. 21–22, Nr. 68, 1952, p. 36066, [Glaciation of the Sudeten Mountains.]Google Scholar
Johnson, G. A. L. A glacial erratic boulder of Shap granite in south Northumberland. Geological Magazine, Vol. 89, No. 5, 1952, p. 36164.Google Scholar
Jona, F. Scherrer, P. Determinazione delle costanti elastiche del ghiaccio. Nuovo Cimento (Pisa), Ser. 9, Tom. 8, Fasc. 12, 1951, p. 98193. [Methods of making large ice crystals and determination of all the elastic constants.]Google Scholar
Jona, F. Scherrer, P. Die elastische Konstanten von Eis-Einkristallen. Helvetica Physica Acta, Vol. 25, Fasc. 1/2, 1952, p. 3554. [Methods of making large single ice crystals and determination of all the elastic constants.]Google Scholar
Jost, Wilhelm. Das Grimselgebiet und die Gletscherkunde. Die Alpen, 29 Jahrg., No. 8, 5953, p. 20314. [Includes depth and speed of Unteraar Glacier.]Google Scholar
Kellaway, G. A. Taylor, J. H. Early stages in the physiographic evolution of a portion of the east Midlands. Quarterly Journal of the Geological Society of London, Vol. 508, Part 4, No. 432, 1953, p. 34375. [Relation to former glaciation and frozen ground.]Google Scholar
Kinzl, H. Gletscherschwund und Gletscherform. Mitteilungen des Naluruis:entchafn!ichen Vereines für Krirnten, Jahrg. 142, Ht. 2, 1953, p. 6272.Google Scholar
Kinzl, H. Schneider, E. Cordillera Blanca (Perú). Innsbruck, Universitätsverlag-Wagner, 1950. [iv], 167 p. 26 cm. [Text in German, English and Spanish, p. 1–47; photographs, p. 49–167. Map, scale 1:200,000, in pocket at end.]Google Scholar
Klebelsberg, R. Von. Der Langtauferer Gletscher. Jahrbuch des Österreichischen Alpenvereins, Ed. 76, 1951, p. 1724.Google Scholar
Klein, A. Die Niederschläge in Europa im Maximum der letzten Eiszeit. Petermann Geographische Mitteilungen, Jahrg. 97, 2 Quartalsheft, 1953, p. 98104. [Comparison between former and present height of snow line.]Google Scholar
Knudsen, D. C. Alaska’s automatic lake drains itself. National Geographic Magazine, Vol. 99, No. 6, 5955, p. 83344.Google Scholar
Koenig, L. S., and others. Arctic ice islands. [By] L. S. Koenig, K. R. Greenaway, Moira Dunbar, and G. Hattersley-Smith. Arctic, Vol. 5, No. 2, 1052, p. 66103.Google Scholar
Kühn, A. Forschungen auf Baffin-Land 1950, Polarforschung, Bd. 3, Jahrg. 21, Ht. 2, 1951, p. 126. [Baffin Island Expedition, 1950.]Google Scholar
van Leckwijck, W. Macar, P. Nouvelles observations sur des phénomènes, périglaciaires dans la région de Liége. Annales de la Société Géologique de Belgique, Torn. 75, 1951–52 (Bulletin Nos. 1, 2, 3, 1951), p. 4968.Google Scholar
Lewlmair, A. Die jüngsten Gletscherschwankungen in ihrer Abhángigkeit von Niederschlag, Temperatur und Strahlung. Petermann Geographische Mitteilungen, Jahrg. 97, 3 Quartalsheft, 1953, p. 17981. [Dependence of recent glacier fluctuations on precipitation, temperature and radiation.]Google Scholar
Lewis, W. V. Tunnel through a glacier. The Times Science Review, No. 9, 1953, p. 1013. [Summary of investigations on ice flow in Jotunheimen by the Cambridge expeditions.]Google Scholar
Lliboutry, L. La région du Fitz-Roy (Andes de Patagonie). Revue de Géographie Alpine, Tom-41, Fasc. 4. 1953, p. 66794. [Climate, geology, glacial morphology and glaciology of the region.]Google Scholar
Lliroutry, L. Lorigine des pénitents de neige. Comptes Rendus Hebdomadaires des Séances de lAcadémie des Sciences (Paris), Tom. 236, No. 9, 1953, p. 95254.Google Scholar
Lliboutry, L. Les pénitents de glace et la transformation de la neige en glace dans les Andes de Santiago. Comptes Rendus Hebdomadaires des Séances de lAcadémie des Sciences (Paris), Tom. 236, No, 11, 1953, p. 119193. [A significant proportion of the year’s snowfall is transformed into ice.]Google Scholar
Loewe, Fritz, and others. Eine säkulare Klimaänderung im südlichen Indischen Ozean ? [Von] F. Loewe, U. Radok und Alison Grant. Berichte des Deutschen Wetterdienstes in der US-Zone, Bd. 7, Nr. 42, 1952, p. 1115. [Comparison of wind records made at Heard Island too years ago with present-day observations.]Google Scholar
Long, W. A. Recession of Easton and Deming Glaciers. Scientific Monthly, Vol. 76, No. 4, 1953, P. 24147. [Mount Baker region, Washington.]Google Scholar
Lougee, R. J. A chronology of postglacial time in eastern North America. Scientific Monthly, Vol. 76, No. 5, 1953, p. 25976. [Glacial deposits record orderly retirement of the southern border of the last ice sheet; evidence of successive uplifts permits of a tectonic chronology.]Google Scholar
Mccall, John Gooolet, G. A. Indicator stones from the drift of south Midlothian and Peebles. Transactions of the Edinburgh Geological Society, Vol. 14, Pt. 3, 1952, p. 40109. [Considers the drift in relation to ice from both the Highlands and Southern Uplands.]Google Scholar
Mccowan, D. Columbia Icefield highway. Canadian Geographical Journal, Vol. 46, No. 6, 1953, p. 25460.Google Scholar
Macura, E. Formy glacjalne w grupie Baraniej Góry, Czasopismo Geograficzne, Tnm. 25–22, Nr. 68, 1952, P. 44649. [Glacial forms in the Barania Góra.]Google Scholar
Mason, B. J. The growth of ice crystals in a supercooled water cloud. Quarterly Journal of the Royal Meteorological Society, Vol. 79, No. 339, 1953, p. 10411.Google Scholar
Mathrws, W. H. Glacier study for the mountaineer. Canadian Alpine Journal, Vol. 36, 1953, p. 16167.Google Scholar
Meier, Mark F. Further studies of the Dinwoody Glaciers, Wind River Mountains, Wyoming. American Alpine Journal, Vol. 8, No. 3, 1953, P. 48992– [Increase in high-level thickening noted.]Google Scholar
Miercanton, P.-L. Renaud, A. Les variations des glaciers des Alpes suisses 1952. Die Alpen, 29 Jahrg., No. 9, 5953, p. 24448. [General report on state of glaciers.]Google Scholar
Newcomb, R. C. Origin of the Mima mounds, Thurston county. region, Washington. Journal of Geology, Vol, 60, No, 5, 1452, p. 46572. [Now attributed to permafrost under pertglacial conditions.]Google Scholar
Nichols, Robert L. Geomorphologic observations at Thule, Greenland and Resolute Bay, Cornwallis Island, N.W.T. American Journal of Science, Vol. 251, No. 4, 1953, p. 26875. [In Wisconsin time, Greenland ice sheet extended 20 to 30 miles beyond present coastline.)Google Scholar
Noe-Nygaard, A. Notes on the nature of some indurated moraines in south Iceland. Geografisk Tidsskrift, Bd. 52, 1952–53, p. 22231.Google Scholar
Nordes, S. Sund, T. Isaysmeltningen på Ssltfjellet. Norsk Geografisk Tidsskmft, Bd. 14, Ht. 1–4, 1953, p. 164204. [Wastage of inland ice in Saltfjeleet and glacial geology of Nordre Bjellävatn district, north Norway.] Norinder, H.Siksna, R. On the electrification of snow. Tellus, Vol. 5, No. 3, 5953, p. 260–68.Google Scholar
Nussbaum, F. Gygax, F. Glazial-morphologische Untersuchungen im Kantabrischen Gebirge (Nordspanien). Jahresbericht der Geographischen Gesellschaft von Bern, Bd. 41, 1951–52, P. 5419. [Similarities with the Pyrenees emphasized, including Pleistocene snowline.]Google Scholar
Nye, J. F. The flow law of ice from measurements in glacier tunnels, laboratory experiments and the Jungfraufirn borehole experiment. Proceedings of the Royal Society, Series A, Vol. 219, 5953, P. 47789.Google Scholar
Öpik, E. J. A climatological and astronomical interpretation of the Ice Ages and of the pastvariations of terrestrial climate. Contributions from the Armagh Observatory, No. 9, 5953, 79 p.Google Scholar
Ogiwara, S. Okita, T. Electron-microscope study of cloud and fog nuclei. Tellus, Vol. 4, No. 3, 1952, F. 23340.Google Scholar
Onde, H. Les verrous glaciaires: essai de classification. Pirineos. Revista del instituto de Estudios Pirenaicos (Zaragoza), Ani. 7, Nos. 19–22, 5955, p. 535. [Glacier sills.]Google Scholar
Perutz, M. F. The flow of glaciers. Nature, Vol. 172, No. 4386, 1953, p. 92932. [Substance of Royal Institution lecture.]Google Scholar
Phemister, T. C., and others. Pleistocene deep weathering in north-east Scotland. Nature, Vol. 164, No. 4164, 1949, p. 31819; No. 4183, 1949, p. 1130; Vol. 165, No. 4195, 5950, p. 488–89. [Discussion between T. C. Phemister, S. Simpson, E. B. Bailey, R. G. Carruthers and D. F. W. Baden-Powell ; includes arguments on relative strength of British and Scandinavian ice sheets.]Google Scholar
Pirrit, J. The Scottish Iceland Expedition, 5952. Geographical Magazine, Vol. 26, No. 5, 1953, p. 23543– [Includes study of distribution of cones on Langjökull.]Google Scholar
**Ract-Madoux, M. Reynaud, M. Lexploration des glaciers en profondeur ; travaux de la Mer de Glace. La Houille Blanche, 60 An., Numéro Spécial A, 5951, p. 299308. [Thermo-electric, seismic and mechanical sounding methods.]Google Scholar
Ramsli, Gunnar. Litt om snoakred og sneskredkartlegging i Norge. Norsk Geografisk Tidsskrift, Bd. 14, Ht. 1–4, 1953, p. 22128. [Avalanches in Norway and their mapping.]Google Scholar
Rist, S. Snjómælingar á Vatnajökli 1951. Jökull, Ar. 1, 1951, p. 15. [Accumulation on Vatnajäkull; English summary.]Google Scholar
Roots, E. F. The Norwegian-British-Swedish Antarctic Expedition 1949–52. Science News, [No.] 26, 1952, P. 932. [Results summarized.]Google Scholar
Samuelsen, A. Innlandsisens aysmeltning i Fjellstroket mellom Gudbrandsdalen og østerdalen. Norsk Geografisk Tidsskrift, Bd. 14, Ht. 1–4, 1953, p. 22935. [Melting of the ice cap in Fjellstreket between Gudbrandsdalen and østerdalen.]Google Scholar
Schwarzacher, W. Untersteiner, N. Zum Problem der Bänderung des Gletschereises. Anzeiger der mathematiscknaturroissenschaftlichen Klasse der Österreichischen Akademie der Wissenschaften, 1953, No. 4, p. 5258. [Banding and crystal orientation.]Google Scholar
[Sea Ice: Terminology.] Hydrographie dictionary compiled by the International Hydrographie Bureau. Second edition. International Hydrographie Bureau. Special Publication No. 32, 1955, [vi, 178, lxxvii] p. [Definitions in English and French equivalents in 10 other languages. Includes sea ice terms.]Google Scholar
Serra, L. La mesure correcte des précipitations. Pluviomètre horizontal et pluviomitres inclinés. La Houille Blanche, 8e An., Numero Special A, 1953, p. 4652.Google Scholar
Sharp, Robert P. Deformation of bore hole in Malaspina Glacier, Alaska. Bulletin of the Geological Society of America, Vol. 64, 1953, p. 97100.CrossRefGoogle Scholar
Simon, W. Die Uhren der Erde. Natur und Volk, Bd. 83, Ht. 3, 1953, p. 6979. [Chronology of the Earth as evidenced by various agencies.]Google Scholar
Simon, W. Kalender von der Sonne geschrieben. Natur und Volk, Bd, 83, Ht. 2, 1953, p. 4454. [Geochronology, Ice Ages, varves.]Google Scholar
Simpson, S. The tunnelling stream and the melt-water channel at Muchalls, Kincardineshire. Transactions of the Edinburgh Geological Society, Vol. 14, Pt. 3, 1952 P. 396400. [Channel was formed at the edge of a mass of ice in the North Sea.]Google Scholar
Sumner, Lowell. Magnificent Katmai. Sierra Club Bulletin, Vol. 37, No. 10, 1952, p. 3751. New glaciers said to have developed in the last 40 years.]Google Scholar
Sverdrup, H. U. The currents off the coast of Queen Maud Land. Norsk Geografisk Tidsskrift, Ed. 14, Ht. 1–4, 1953, p. 23949. [Includes discussion on temperature and bottom melting of ice shelves.]Google Scholar
Synge, F. M. Retreat stages of the last ice-sheet in the British Isles. Irish Geography, Vol. 2, No. 4, 1952, p. 16871. [Suggests that the drumlin belt of Ireland may be indicative of an ice-sheet decaying in situ.]Google Scholar
Taber, Stephen. Origin of Alaska silts. American Journal of Science, Vol. 251, No. 5, 1953, p. 32136. [Silt, the most abundant superficial material in Alaska, is formed by glacial abrasion and still more by frost disintegration.]Google Scholar
Tabuteau, M. Le littoral et le pack dans lAntarctique français. LInformation Géographique, 16e An., No. 2, 1952, p. 5464. [Glaciology of Terre Adélie.]Google Scholar
Thuaarinsson, Sigurour. Lagakipting L jökli L Reykjafjöllum. Jókull, Ar. 2, 1952, p. 45. [Dirt bands of accumulation in a glacier in Reykjafj611. English summary.]Google Scholar
Thorarinsson, Sigurdur. Tvöfaldar jadarurdir f Kangerdlugssuak. Jökull, Ar. 2, 1952, p. 89. [Double lateral moraines in the Kangerdlugssuak region, East Greenland. English summary.]Google Scholar
Thorarinsson, Sigurdur. Svigdur á Morsárjökli.,Jökull, Ar. 2, 1952, p. 2224. [Forbes’s bands on Morsárjökull and on the outlet glaciers of Öraefajäkull. English summary.]Google Scholar
Thwaites, F. T. Carbon 14: New approach to the Glacial Age. Wisconsin Magazine of History, Vol. 35, No. 4, 1952, p. 27779.Google Scholar
Undås, I. Drag av Bergensfeltets kvartaergeologi. II. Isens smelting fra Bergen. Norsk Geografisk Tidsskrfft, Bd. 14, Ht. 1–4, 1953, P. 25058. [Ice recession, Bergen district.]Google Scholar
Valentin, H. Das gegenwärtige Steigen des Meeresspiegels. Die Erde, 5950 /51, Ht. 3–4, p-34849. [Rise in sea-level since about 1880 is temporary, and due to present interglacial period.]Google Scholar
Valentin, H. Die Küsten der Erde: Beiträge zur allgemeinen und regionalen Küstenmorphologie. Petermams Geographische Mitteilungen. Ergánzungsheft No. 246, 5952, viii, 118 p. [Melting of all existing glaciers would raise sea-level 35–40 m.]Google Scholar
Valentin, H. Present vertical movements of the British Isles. Geographical Journal, Vol. 119, Part 3, 1953, p. 299305. [Present vertical movements probably date from pre-glacial times but intensified by the effects of the Pleistocene Ice Age.]Google Scholar
Valentin, H. Young morainic topography in Holderness. Nature, Vol. 172, No. 4385, 1953, p. 91920. [Würm glaciation reached east Holdemess.]Google Scholar
Victor, Paul-Émile_R, and others. Campagne au Groenland, 1950. Expédition Polaires Françaises. Publications PrEliminaires, [No.] 15, [1952,] 153 p. [Deals with many subjects, including seismic sounding and glaciology.]Google Scholar
Viers, G. Le relief de la Haute Soule et du Haut Batétous et les influences glaciaires. Revue Géographique des Pyrénées et du Sud-Ouest, Tom. 24, No. 2, 1953, p. 7395. [Glaciers have not spared any section, but subsequent erosion has disguised their action.]Google Scholar
Waard, D. de. Direction of the Pleistocene ice-flow as determined by measurements on folds. Geologie en Mijnbouw, N.S., 14e Jaarg., No. 2, 1952, p. 4445.Google Scholar
Wager, L. R. The extent of glaciation in the island of St. Kilda. Geological Magazine, Vol. 90, No. 3, 1953, p. 17781. [Small glaciers developed during the Quaternary glaciation but no evidence that main ice sheet reached St. Kilda.]Google Scholar
Wagner, J. Der alpine Gletscher. Geographische Rundschau, 5 Jahrg., Nr. 1, 5953, p. 2934. [General educational treatise.]Google Scholar
Zillmer, E. Die Durchbrüche der Weichsel und Oder. Geographische Rundschau, 5 Jahrg., Nr. 4, 1953, p. 12833. [Shows how the courses of these rivers were affected by the retreat of the ice.]Google Scholar
Zingg, T. Gletscherbewegungen der letzten 50 Jahre in Graubünden. Cours dEau et Energie, No. 5–6–7, 1952, p. 132–35. [Glacier movement in the Grisons in the last 50 years.]Google Scholar
Zumberge, J. H. Wilson, J. Tuzo. Quantitative studies on thermal expansion and contraction of lake ice. Journal of Geology, Vol. 61, No. 4, 1953, P. 37483.Google Scholar