Hostname: page-component-7c8c6479df-8mjnm Total loading time: 0 Render date: 2024-03-29T11:55:30.572Z Has data issue: false hasContentIssue false

Glaciological Literature

Published online by Cambridge University Press:  30 January 2017

Rights & Permissions [Opens in a new window]

Abstract

Type
Other
Copyright
Copyright © International Glaciological Society 1964

This is a selected list of glaciological literature on the scientific study of snow and ice and of their effects on the earth; for the literature on polar expeditions, and also on the “applied” aspects of glaciology, such as snow ploughs, readers should consult the bibliographies in each issue of the Polar Record. For Russian material the system of transliteration used is that agreed by the U.S. Board on Geographic Names and the Permanent Committee on Geographical Names for British Official Use in 1947. Readers can greatly assist by sending reprints of their publications to the Society, or by informing Dr. J. W. Glen of publications of glaciological interest It should be noted that the Society does not necessarily hold copies of the items in this list, and also that the Society does not possess facilities for microfilming or photocopying.

References

General Glaciology

Gerdel, R. W. Filling the gap in cold regions environmental data. Proceedings of the Institute of Environmental Sciences, 1963, p. 22940. [Summary of recent work by Cold Regions Research and Engineering Laboratory.]Google Scholar
Linton, D. L. Some contrasts in landscapes in British Antarctic Territory. Geographical Journal, Vol. 129, Pt. 3, 1963, p. 27482. [Includes the contrasts in glacierization in various districts, details of rime accumulations and contrasts in glacial structures.]CrossRefGoogle Scholar
Miller, M. M. A field institute of glaciological and expeditionary sciences in Alaska. Appalachia, New Series, Vol. 29, No. 7, 1963, p. 499508. [Establishment in 1961 of Summer Institute of Glaciological Sciences, Juneau, Alaska.]Google Scholar
Pillewizer, W. Zur Gletscherkartographie im Internationalen Geophysikalischen Jahr. Petermanns Geographische Mitteilungen, Jahrg. 106, Quartalsheft 1, 1962, p. 6970. [Review.]Google Scholar
[Union Géodésique et Géophysique Internationale.] Colloque d’Obergurgl (suite). Bulletin de l’Association Internationale d’Hydrologie Scientifique, 8e An., No. 2, 1963, p. 50142. [Discussions, excursion notes and list of participants for the symposium “Variations du régime des glaciers existants”, the papers for which were printed in a separate volume.]Google Scholar

Glaciological Instruments and Methods

Ambach, W. Isotopenforschung in der Glaziologie. Die Pyramide, Jahrg. 11, Ht. 1, 1963, p. 1923. [Review of isotopic dating methods and their use in glaciology.]Google Scholar
Aver’yanov, V. G. O metodike izmereniya osadkov v tsentral’noy Antarktide . Akademiya Nauk SSSR. MezhduvedomStvennyy Geofizicheskiy Komitet. IX Razdel Programmy MGG: Glyatsiologicheskiye Issledovaniya. Sbornik Statey , No. 9, 1963, p. 19597. [Discussion of methods used at Soviet stations and of changes needed to get reliable results. English summary.]Google Scholar
Blachut, T. J. Photogrammetric determination of glacier movement, rate of ablation, and profiles. Canadian Surveyor, Vol. 17, No. 2, 1963, p. 11222. [Experience with Jacobsen-McGill University Arctic Research Expedition to Axel Heiberg Island, 1959–62.]CrossRefGoogle Scholar
Cheremnykh, G. D. Yeshche o metodike opredeleniya skorosti dvizheniya poverkhnosti lednika po materialam aerofotos”yemki . Akademiya Nauk SSSR. MezhdUvedomstvennyy Geofizichesksy Komitet. IX Razdel Programmy MGG: Glyalsiologicheskiye Issledovaniya. Sbornik Statey , No. 9, 1963, p. 17982. [Discussion of accuracy of the method compared with terrestrial triangulation. English summary.]Google Scholar
Dolgushin, L. D. Skorosti dvizheniya lednikov Antarktidy po povtornym aerofotos”yemkam i morfologicheskim priznakarn . Akademiya Nauk SSSR. Mezhduvedonsstvennyy Geojzicheskry Komitet. IX Razdel Programmy MGG: Glyatciologicheskiye Issledovaniya. Sbornik Staley , No. 9, 1963, p. 16478. [Principles of method and results. English summary.]Google Scholar
Evans, S. Radio techniques for the measurement of ice thickness. Polar Record, Vol. 11, No. 75, 1963, p. 795. [Draws attention to early attempts by W. Stern in 1927.]CrossRefGoogle Scholar
Haumann, D. Surveying glaciers on Axel Heiberg Island. Canadian Surveyor, Vol. 17, No. 2, 1963, p. 8193, maps [in end-pocket]. [During Jacobsen-McGill University Arctic Research Expedition, 1959–62.]Google Scholar
Lorius, C. Le deutérium: possibilités d’application aux problèmes de recherche concernant la neige, le névé et la glace dans l’Antarctique. CNFRA (Comité National Français des Recherches Antarctiques), No. 8, 1963, viii, 102 p. [Application of deuterium analysis to Antarctic glaciology.]Google Scholar
McKortel, T. A. The reproduction of the Thompson Glacier map. Canadian Surveyor, Vol. 17, No. 2, 1963, p. 9395, map [in end-pocket]. [Axel Heiberg Island. Methods, techniques, problems.]CrossRefGoogle Scholar
Mason, B. J. Ice. (In Gilman, J. J., ed. The art and science of growing crystals. New York, London, John Wiley and Sons, Inc., [e 1963], p. 11950.) [Survey of methods of growing ice crystals from the vapour.]Google Scholar
Müller, F. An Arctic research expedition and its reliance on large-scale maps. Canadian Surveyor, Vol. 17, No. 2, 1963, p.96112, maps [in end-pocket]. [Jacobsen-McGill University Arctic Research Expedition to Axel Heiberg Island, 1959–62.]CrossRefGoogle Scholar
Nottarp, K. Hochantennen für Tellurometermessungen in der Antarktis. Allgemeine Vermessungsnachrichten, 1963, Ht. 8, p. 30407. [Description and use of a mast to record tellurometer measurements.]Google Scholar
Shumskiy, P. A. K metodike opredeleniya skorosti pitaniya lednikov . Akademiya Nauk SSSR. Mezhduvedomstuennyy Geofzicheskiy Komitet. IX Razdel Programmy MCG: Glyatsiologicheskiye Issledovaniya. Sbornik Stacey , No. 9, 1963, p. 18391. [Discussion of method of determining accumulation where refreezing is important. English summary.]Google Scholar

Physics of Ice

Ambach, W. Habicht, H. L. Untersuchungen der Extinktionseigenschaften des Gletschereises und Schnees. Archie für Meteorologie, Geophysik und Bioklimatologie, Ser. B, Bd. 11, Ht. 4, 1962, p. 51232. [Measurement of absorption of radiation as a function of depth and orientation in glacier ice and snow.]CrossRefGoogle Scholar
Cohan, N. V. Weissman, M. Valence defects in ice. Nature, Vol. 201, No. 4918, 1964, p. 490. [Calculation of properties of these defects. Errata in Nature, Vol. 202, No. 4930, 1964, p. 339.]Google Scholar
Fukuta, N. Mason, B. J. Epitaxial growth of ice on organic crystals. Journal of the Physics and Chemistry of Solids, Vol. 24, No. 6, 1963, p. 71518. [Experimental study and discussion of physical reasons for effect.]Google Scholar
Gold, L. W. Crack formation in ice plates by thermal shock. Canadian Journal of Physics, Vol. 41, No. 10, 1963, p. 171228. [Study of orientation, stress and penetration of cracks induced in ice by contact with a colder ice block. Also published as Canada. National Research Council. Division of Building Research. Research Paper No. 199, 1963.]CrossRefGoogle Scholar
Lyubomirova, K. S. Dependence of ice albedo on incidence angle of solar rays. Soviet Hydrology. Selected Papers, No. 2, 1962, p. 12427. [Translated from Russian. Experimental data used to formulate rules for measurement of albedo of dry and wet ice.]Google Scholar
Lyubomirova, K. S. O radialsionnykh svoystvakh l’da . (In Akademiya Nauk SSSR. Institut Geogralii. Issledovaniya lednikov i lednikovykh rayonov . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], Vyp. 2, 1962, p. 20009.) [Survey of previous work and analysis of measurements in the Polar Urals.]Google Scholar
Macklin, W. C. Ryan, B. F. On the formation of spongy ice. Quarterly Journal of the Royal Meteorological Society, Vol. 88, No. 378, 1962, p. 54849. [Experiments on the structure of ice formed in supercooled water.]CrossRefGoogle Scholar
Muguruma, J. Etch pits on prism planes of plastically deformed ice crystals. Journal of the Faculty of Science, Hokkaido University, Ser. 2, Vol. 6, No. 1, 1963, p. 1122. [Description and suggested method of formation. Also includes observations of slip lines by electron micrography.]Google Scholar
Muguruma, J. Higashi, A. Non-basal glide bands in ice crystals. Nature, Vol. 198, No. 4880, 1963, p. 573. [Observations of etch pits on basal planes, interpretation in terms of dislocations that move on non-basal slip planes.]CrossRefGoogle Scholar
Muguruma, J. Higashi, A. Observation of etch channels on the (0001) plane of ice crystal produced by nonbasal glide. Journal of the Physical Society of Japan, Vol. 18, No. 9, 1963, p. 126169.CrossRefGoogle Scholar
Pruppacher, H. R. The effect of an external electric field on the supercooling of water drops. Journal of Geophysical Research, Vol. 68, No. 15, 1963, p. 446374. [Experimental study to test how electric field triggers nucleation of ice.]Google Scholar
Readey, D. W. Kingery, W. D. Plastic deformation of single crystal ice. Acta Metallurgica, Vol. 12, No. 2, 1964, p. 17178. [Constant strain-rate tensile tests from –42° C. to 0° C. and analysis of results.]Google Scholar
Savel’yev, B. A. Uprugo-vyazko-plasticheskiye svoystva l’da . (In Doklady na mezhdunarodnoy konferentsii po merzlotovedeniyu . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1963, p. 22935.) [Includes numerical data for various kinds of ice.]Google Scholar
Telford, J. W. Turner, J. S. The motion of a wire through ice. Philosophical Magazine, Eighth Ser., Vol. 8, No. 87, 1963, p. 52731. [Measurement as function of temperature and discussion of phenomenon when temperature too low for pressure melting.]CrossRefGoogle Scholar
Voytkovskiy, K. F. Mekhanicheskiye svoystva l’da . (In Doklady na mezhdunarodnoy konferentsii po merzlolovedeniyu . Moscow, lzdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1963, p. 23644.) [Summary of properties.]Google Scholar

Land ice. Glaciers. Ice shelves

Aitkenhead, N. An ice caldera in north-east Graham Land. British Antarctic Survey Bulletin, No. 1, 1963, p. 915. [Detailed description of probable process of formation.]Google Scholar
Ambach, W. Mechanik des Gletschervorstosses. Die Pyramide, Jahrg. 11, Ht. 4, 1963, p. 12128. [Explained in terms of flow law of ice and general account of glacier flow.]Google Scholar
Ambach, W. Untersuchungen zum Energieumsatz in der Ablationszone des grönländischen Inlandeises (Camp IV-EGIG, 69° 40’ 05′′ N, 49° 37’ 58′′ W). Meddelelser om Gronland, Bd. 174, Nr. 4, 1963, 311 p. [Study of energy balance in ablation zone of Greenland Ice Sheet. English summary.]Google Scholar
Ambach, W. Zur Bedeutung der Strahlungsextinktion im Gletschereis für Energieumsatzstudien. Acta Physica Austriaca, Bd. 16, Ht. 3–4, 1963, p. 38284. [The porosity of the ice layers near the surface can be measured by the absorption of the radiation falling on it.]Google Scholar
Behrendt, J. C. Seismic measurements on the ice sheet of the Antarctic Peninsula. Journal of Geophysical Research, Vol. 68, No. 21, 1963, p. 597390. [The Antarctic Peninsula is shown to be an island separated from the Sentinel Range.]Google Scholar
Belin, M. Sondage séismique du Glacier de Saint-Sorlin. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences (Paris), Tom. 255, No. 3, 1962, p. 54648. [Presents map showing bedrock contours of this glacier.]Google Scholar
Bull, C. Gravity observations in the Koettlitz Glacier area, southern Victoria Land, Antarctica. New Zealand Journal of Geology and Geophysics, Vol. 5, No. 5, 1962, p. 81019. [Includes measurement of thickness across three glaciers.]CrossRefGoogle Scholar
Chizhov, O. P. Balans massy l’da Novozemel’skogo lednikovogo pokrova po nablyudeniyam na lednike Shokal’-skogo v 1957–1959 gg. . Akademiya Nauk SSSR. Mezhduvedomstuennyy Geofizicheskiy Komitet. IX Razdel Programmy MGG: Glyatsiologicheskiye Issledovaniya. Sbornik Statey , No. 9, 1963, p. 7281. [Results of I.G.Y. study of this glacier. English summary.]Google Scholar
Crary, A. P. Chapman, W. H. Additional glaciological measurements at the abandoned Little America Station, Antarctica. Journal of Geophysical Research, Vol. 68, No. 21, 1963, p. 606465.Google Scholar
Falconer, G. Glaciers of northern Baffin and Bylot Islands, N.W.T. Canada. Department of Mines and Technical Surveys. Geographical Branch. Geographical Paper No. 33, 1962, [50] p. map [in end-pocket]. [Recent glacier variations.]Google Scholar
Fristrup, B. Indlandsisen. , Rhodos, 1963. 240 p. [Greenland Ice Sheet: history of exploration and summary of glaciological research.]Google Scholar
Giovinetto, M. B. Distribution of diagenetic snow facies in Antarctica and in Greenland. Arctic, Vol. 17, No. 1, 1964, p. 3340. [The “dry” snow line usually lies above 100 m. between lat. 85° and 67° S.]Google Scholar
Goldthwait, R. P., and others. Fluctuations of Crillon Glacier system, south-east Alaska, [by] R. P. Goldthwait I. C. McKellar C. Cronk. Bulletin de l’Association Internationale d’Hydrologie Scientifique, 8e An., No. 1, 1963, p. 6274. [Fluctuations of the glacier in the recent past and back to about 9,000 yr. ago.]Google Scholar
Hattersley-Smith, G. Rapid advance of glacier in northern Ellesmere Island. Nature, Vol. 201, No. 4915, 1964, p. 176. [Catastrophic advance of the Otto Fiord Glacier between 1950 and 1959.]Google Scholar
Hoinkes, H. C. Lang, H. Der Massenhaushalt von Hintereis- und Kesselwandferner (Ötztaler Alpen), 1957/58 und 1958/59. Archiv für Meteorologie, Geophysik und Bioklimatologie, Ser. B, Bd. 12, Ht. 1, 1962, p. 284320. [The mass balance of these two glaciers was estimated from direct measurement of accumulation and ablation, and by precipitation, discharge and evaporation. Both showed considerable negative balances.]CrossRefGoogle Scholar
[Italy: Glaciers.] Catasto dei ghiacciai italiani, Anna Geofisico 1957–1958. Vol. 4. Ghiacciai delle tre Venezie (esclusa Ortles-Cevedale) e dell’ Appennino (con carta schemalica dei ghiacciai delle Alpi Venete). Torino, Comitato Glaciologico Italiano, 1962. xxviii, 309 p. [Photographs, maps and information relating to glaciers of Venetian alps.]Google Scholar
Koerner, R. M. Glaciological observations in Trinity Peninsula and the islands in Prince Gustav Channel, Graham Land, 1958–60. British Antarctic Survey Scientific Reports, No. 42, 1964, 45 p. [Little sign of recession at present, although ice cover has decreased since the maximum. The most recent retreat appears to be due to a shift in the track of depressions.]Google Scholar
Kosiba, A. Changes in the Werenskiold Glacier and Hans Glacier in SW Spitsbergen. Bulletin de l’Association Internationale d’Hydrologie Scientifique, 8e An., No. 1, 1963, p. 2435. [Results of Polish I.G.Y. and I.G.C. expeditions.]Google Scholar
Kotlyakov, V. M. Zavisimost’ sovremennoy evolyutsii lednikov of ikh razmerov i geograficheskogo polozheniya . Akademiya Nauk SSSR. Mezhduvedomstvennyy Geofizicheskiy Komitet. IX Razdel Programmy MGG: Glyatsiologicheskiye Issledovaniya. Sbornik Statey , No. 9, 1963, p. 4156. [Inconsistency between mass budget of Antarctic Ice Sheet and behaviour of margins discussed in terms of synchronism between glaciations in different parts of the Earth. English summary.]Google Scholar
Krenke, A. N. Rayonirovaniye lednikov Arktiki v svyazi s tsirkulyatsiyey atmosfery . Akademiya Nauk SSSR. Mezhduvedomstvennyy Geofizicheskiy Komitet. IX Razdel Programmy MGG: Glyatsiologicheskiye Issledovaniya. Sbornik Statey , No. 9, 1963, p. 5771. [Suggestion of climatological grouping and implications for selection of glaciers for regular observation. English summary.]Google Scholar
Krenke, A. N., and others. Nakopleniye i preobrazovaniye snezhnogo pokrova na vershine lednikovogo kupola Churlyanisa (Zemliya Frantsa-Iosifa) . (In Akademiya Nauk SSSR. Institut Geografii. Issledovaniya lednikov i lednikovykh rayonov . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], Vyp. 2, 1962, p. 5065.)Google Scholar
Limbert, D. W. S. The snow accumulation budget at Halley Bay in 1959, and associated meteorological factors. British Antarctic Survey Bulletin, No. 2, 1963, p. 7392. [Observations on the Brunt Ice Shelf; details of the accumulation, settling of the snow, losses through evaporation and drift, and the annual accumulation budget.]Google Scholar
Lliboutry, L. Régime thermique et déformation de la base des calottes polaires. Annales de Géophysique, Tom.19, No. 2, 1963, p. 14956. [Thermal regime and deformation at base of polar ice sheets.]Google Scholar
Lliboutry, L. Sub-glacial “supercavitation” as a cause of the rapid advances of glaciers. Nature, Vol. 202, No. 4927, 1964, p. 77. [Theory of effect of melt water on catastrophic glacier advances.]CrossRefGoogle Scholar
Markin, V. A. Principal features of the radiation regime of glaciers on Franz-Joseph Land. Soviet Hydrology. Selected Papers, No. 1, 1962, p. 2227. [Translated from Russian. Study on glaciers of Ostrov Gukera.]Google Scholar
Mercer, J. H. Glacier variations in the Karakoram. Glaciological Notes, No. 14, 1963, p. 1933. [Advances and recessions.]Google Scholar
Nutt, D. C. Significance and techniques in the study of gas inclusions in glacier ice. Polarforschung, Bd. 5, Jahrg. 31, Ht. 1–2, 1961 [pub. 1963], p. 8287. [Origin of the gas inclusions; dating technique developed for determining nature of ancient air.]Google Scholar
Nye, J. F. The response of a glacier to changes in the rate of nourishment and wastage. Proceedings of the Royal Society, Ser. A, Vol. 275, No. 1360, 1963, p. 87112. [Theory of the change in thickness and length of a glacier due to sinusoidal variations in mass balance, and of the deduction of past mass balance from known history of glacier variation.]Google Scholar
Østrem, G. Litt om breene i Storsteinsfjell-området. Norsk Geografisk Tidsskrift, Bd. 18, Ht. 5–6, 1961–62, [pub.] 1963 p. 23945. [Glacier inventory of Storsteinsfjell region, Nordland, north Norway, based on aerial photographs. English summary. Also published as Hydrologiske Avdeling ved Norges Vassdrags- og Elektrisitetsvesen. Meddelelse Nr. 3.]CrossRefGoogle Scholar
Østrem, G. Liestøl, O. Glasiologiske undersokelser i Norge 1963. Norsk Geográfuk Tidsskrift, Bd. 18, Ht. 7–8, 1961–62, [pub.] 1964, p. 281340. [Results of mass balance studies on seven Norwegian glaciers and of start of studies on more. Variation of glacierization limit and firn line in Norway. Mapping of glaciers; map for Blåmannsisen-Sulitjelma area presented. English summary. Also published as Hydrologiske Avdeling ved Norges Vassdrags- og Elektrisitetsvesen. Meddelelse Nr. 4.]Google Scholar
Razumeyko, N. G., and others. Marshrutnoye termozondirovaniye na lednikakh Sovetskogo Soyuza . (In Akademiya Nauk SSSR. Institut Geografii. Issledovaniya lednikov i lednikovykh rayonov . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], Vyp. 2, 1962, p. 533.) [Temperature profiles of glaciers along a meridional profile from Zemlya Frantsa-Iosifa to Tyan Shan.]Google Scholar
Regensburger, K. Comparative measurements on the Fedtschenko Glacier. Bulletin de l’Association Internationale d’Hydrologie Scientifique, 8e An., No. 1, 1963, p. 5761. [Results of survey in 1958 compared with 1928.]CrossRefGoogle Scholar
Rudolph, R. Abflussstudien an Gletscherbächen. Methoden und Ergebnisse hydrologischer Untersuchungen in den zentralen Ötztaler Alpen in den Jahren 1953–1955. Veröffentlichungen des Museum Ferdinandeum in Innsbruck, Bd. 41, Jahrg. 1961, [pub.] 1962, p. 117266. [Detailed account of researches on Hintereisferner and Kessel-wandferner; methods, runoff, accumulation and ablation balance.]Google Scholar
Schatz, H. Observations on the Hintereis and Vernagtferner. Bulletin de l’Association Internationale d’Hydrologie Scientifique, 8e An., No. 1, 1963, p. 9496. [Continuation of measurements begun almost 80 years ago. Profiles of glaciers and velocity from displacement of stones.]CrossRefGoogle Scholar
Shinoda, G. Velocity of sliding of an ice-fall. Nature, Vol. 199, No. 4889, 1963, p. 16566. [Photographs of Himalayan ice fall used to deduce flow rate.]CrossRefGoogle Scholar
Shumskiy, P. A. Kinematika statsionarnogo lednika . Akademiya Nauk SSSR. Mezhduvedomstvennyy Geofizicheskiy Komilet. IX Razdel Programme MGG: Glyatsiologicheskiye Issledovaniva. Sbornik Statey , No. 9, 1963, p. 1940. [Theoretical study. English summary.]Google Scholar
Shumskiy, P. A. On the theory of glacier variations. Bulletin de l’Association Internationale d’Hydrologie Scientifique, 8e An., No. 1, 1963, p. 4556. [Theory and its application to ice cap on Drygalsky Island, Antarctica.]Google Scholar
Shumskiy, P. A. Potya davleniya i plotnosti lednikov . Akademiya.: Nauk SSSR. Mezhduvedomstvennyy Geofizicheskiy Komitet. IX Razdel Programmy MGG: Glyatsiologicheskiye Issledovaniya. Sbornik Statey , No. 9, 1963, p. 518. [Theory of relation between pressure, density and temperature in glaciers. English summary.]Google Scholar
Siffre, M., and others. Sur le glacier souterrain du gouffre de Scarasson, massif du Marguareis, [par] M. Siffre C. Lorius et L. Merlivat. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences (Paris), Tom. 256, No. 22, 1963, p. 470306. [Gives plan and section of cave with glacier in it.]Google Scholar
Swithinbank, C. W. M. The valley glaciers that feed the Ross Ice Shelf. Polar Record, Vol. 12, No. 76, 1964, p. 8082. [Place-names and relative sizes clarified. Reprinted from Polar Notes (Hanover, N.H.), No. 5, 1963, p. 51–56.]CrossRefGoogle Scholar
Thomas, R. H. Studies on the ice cap of Galindez Island, Argentine Islands. British Antarctic Survey Bulletin, No. 2, 1963, p. 2743. [Budget of accumulation and ablation, movement mechanism and temperature.]Google Scholar
Weidick, A. Differential behaviour of the ice cap margin in the Julianehåb district, West Greenland. Polarforschung, Bd. 5, Jahrg. 31, Ht. 1–2, 1981 [pub. 1963], p.9194. [Discussion of the geomorphological effects of the various ice ages.]Google Scholar
Weidick, A. Glacial variations in West Greenland in postglacial time. Bulletin de l’Association Internationale d’Hydrologie Scientifique, 8e An., No. 1, 1963, p. 7582. [Survey of fluctuations in last few centuries.]CrossRefGoogle Scholar
Yevteyev, S. A. Glyatsiologicheskiye issledovaniya na amerikanskoy antarkticheskoy stantsii Mak-Merdo v 1960–1961 gg. , 1960–61]. Izvestiya Vsesoyuznogo Geograficheskogo Obshchestva , Tom 95, Vyp. 6, 1963, p. 54447. [Summary of work done by Soviet exchange scientist.]Google Scholar
Zotikov, I. A. Bottom melting in the central zone of the ice shield on the Antarctic continent and its influence upon the present balance of the ice mass. Bulletin de l’Association Internationale d’ Hydrologic Scientifique, 8e An., No. 1, 1963, p. 3644.Google Scholar

Icebergs. Sea, river and lake ice

Dunbar, Moira. The drift of North Pole 7 after its abandonment. Canadian Geographer, Vol, 6, Nos. 3–4, 1962, p. 12942.Google Scholar
Heine, A. J. Ice breakout around the southern end of Ross Island, Antarctica. New Zealand Journal of Geology and Geophysics, Vol. 6, No. 3, 1963, p. 395401. [The known dates and extents of the breakout of the winter fast ice near the United States and New Zealand bases are listed.]Google Scholar
Hoel, A. Isfjell på kysten av Øst-Finnmark. Norsk Geografisk Tidsskrift, Bd. 18, Ht. 5–6, 1961–62, [pub.] 1963, p. 22838. [Unique observations of icebergs off east Finnmark, north Norway, in spring of 1929.]Google Scholar
Hume, J. D. Schalk, M. The effects of ice-push on Arctic beaches. American Journal of Science, Vol. 262, No. 2, 1964, p. 26773. [Description of ice-pushed mounds and ridges caused by wind or currents forcing ice on to beaches.]Google Scholar
Mackay, J. R. Process of break-up and freeze-up along the Mackenzie River. Geographical Bulletin (Ottawa), No. 19, 1963, p. 10316.Google Scholar
Palosuo, E. Pohjanlahti talvella. II. Jäätyminen ja jäälaadut. The Gulf of Bothnia in winter. II. Freezing and ice forms. Merentutkimuslaitoksen Julkaisu, No. 209, 1963, 64 p. [English and Finnish text.]Google Scholar
Peschanskiy, I. S. Ledovedeniye i ledotekhnika . Leningrad, Izdatel’stvo “Morskoy Transport” [“Morskoy Transport” Publishing House], 1963. 345 p. [Textbook on floating ice, with special reference to behaviour under load and methods of destruction.)Google Scholar
[Sea Ice.] Air photography in Soviet sea ice studies. Polar Record, Vol. 11, No. 75, 1963, p. 73132. [Review of two recent works.]CrossRefGoogle Scholar
Vowinckel, E. Ice transport between Greenland and Spitsbergen, and its causes. Arctic Meteorology Research Group, Department of Meteorology, McGill University. Publication in Meteorology, No. 59, 1963, v, 23 p. [Importance of ice transport in the energy balance of the Polar Ocean.]Google Scholar
Watanabe, K. Summary of sea ice conditions off the coast of Hokkaido. (Study on sea ice in the Okhotsk Sea, 1.) Oceanographical Magazine, Vol. 14, No. 1, 1962, p. 1528.Google Scholar
Watanabe, K. Drift velocities of ice measured from air and separately computed values of their wind-induced and current-induced components. (Study on sea ice in the Okhotsk Sea, 2.) Oceanographical Magazine, Vol. 14, No. 1, 1962, p. 2941.Google Scholar
Watanabe, K. On an estimation of the origin and drifting speed of ice appearing off the coast of Hokkaido. (Study on sea ice in the Okhotsk Sea, 3.) Oceanographical Magazine, Vol. 14, No, 2, 1963, p. 10116.Google Scholar

Glacial Geology

Andrews, J. T. End moraines and late-glacial chronology in the northern Nain-Okak section of the Labrador coast. Geografiska Annaler, Vol. 45, Nos. 2–3, 1963, p. 15871.Google Scholar
Derbyshire, E. The deglaciation of the Howells River valley and the adjacent parts of the watershed region, central Labrador-Ungava. McGill Sub-Arctic Research Papers, No. 14, 1963, 23 p.Google Scholar
Holmsen, G. Glacial deposits in southeastern Norway. American Journal of Science, Vol. 261, No. g, 1963, p. 88089. Division of drift deposits in south-east Norway into those deposited by active ice and those from dead ice.]Google Scholar
Ives, J. D. Andrews, J. T. Studies in the physical geography of north-central Baffin Island, N.W.T. Geographical Bulletin (Ottawa), No. 19, 1963, p. 548. [Detailed description of maps of glacial features of this region (scale 1:500,000 and 1:250,000) and analysis of probable course of deglacierization of Baffin Island-Foxe Basin area.]Google Scholar
Ives, J. D. Sagar, R. B. Return to the ice age. Canadian Geographical Journal, Vol. 67, No. 2, 1963, p. 3847. [Description of effect of glaciation on Baffin Island, emphasis on Barnes Ice Cap.]Google Scholar
Løken, O. On the vertical extent of glaciation in north-eastern Labrador-Ungava. Canadian Geographer, Vol. 6. Nos. 3–4, 1962, p. 10619.CrossRefGoogle Scholar
Mathews, B. Glacial and post-glacial geomorphology of the Sugluk-Wolstenholme area, northern Ungava. McGill Sub-Arctic Research Papers, No. 12, 1962, p. 1746. [Study of deglaciation history of this area.]Google Scholar
Ostry, R. C. Deane, R. E. Microfabric analyses of till. Geological Society of America. Bulletin, Vol. 74, No. 2, 1963, p. 16568. [Microscopic analysis of orientation of small fragments in till as method of determining direction of ice movement.]Google Scholar
Szupryczyński, J. Relief of the marginal zone of the Werenskiold Glacier (Spitsbergen). Bulletin de l’Académie Polonaise des Sciences. Série des Sciences Géologiques et Géographiques, Vol. 11, No. 2, 1963, p. 10105. [Study of this glacier and especially its morainic forms below the tongue.]Google Scholar
Tomlinson, R. F. Pleistocene evidence related to glacial theory in northeastern Labrador. Canadian Geographer, Vol. 7, No. 2, 1963, p. 8390. [Evidence of erratics found on Kaumajet Mountains indicates inundation by Labradorean continental ice mass.]CrossRefGoogle Scholar
Wilson, A. T. Origin of ice ages: an ice shelf theory for Pleistocene glaciation. Nature, Vol. 205, No. 4915, 1964. p. 14749. [Suggestion that the Antarctic Ice Sheet is inherently unstable and that instability generates a large ice shelf which increases the Earth’s albedo and causes glacierization in the rest of the world.]Google Scholar

Frost action on rocks and soil. Frozen ground. Permafrost

Ananyan, A. A. Osobennosti fazovykh perekhodov vody v zamerzayushchikh i merzlykh gornykh porodakh . (In Doklady na mezhdunarodnoy konferentsii po merzlotovedeniyu [Proceedings of international conference on frozen ground studies]. Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1963, p. 22328.) [Study of the liquid-solid transition of water in soils composed of rock particles.]Google Scholar
Brown, R. J. E. A review of permafrost investigations in Canada. Canadian Geographer, Vol. 6, Nos. 3–4, 1962, p. 16265.Google Scholar
Corte, A. E. The frost behavior of soils. I. Vertical sorting. Bulletin. [U.S.] Highway Research Board, No. 317, 1962, p. 934. [Field and laboratory tests.]Google Scholar
Hamelin, L.-E. Cartographic géomorphologique appliquée au périglaciaire. Cahiers de Géographie de Québec, 7e An., No. 14, 1963, p. 193209. [Proposal for a simple and practical set of symbols for use in the preparation of periglacial maps which can be constructed rapidly and at modest coat.]Google Scholar
Hamelin, L.-E. Clibbon, P. Vocabulaire périglaciaire bilingue (français et anglais). Cahiers de Géographie de Québec, 6e An., No. 12, 1962, p. 20126. [Glossary of terms and discussion of usages. English abstract.]Google Scholar
Haywood, B. H. J. Studies in frost-heave cycles at Schefferville. McGill Sub-Arctic Research Papers, No. 11, 1961, p. 610. [Observations through year indicate one major and one minor cycle.]Google Scholar
Nersesova, Z. A. Tsytovich, N. A. Nezamerzshaya voda v merzlykh gruntakh . (In Doklady na mezhdunarodnoy konferenlsii po merzlotovedeniyu [Proceedings of international conference on frozen ground studies]. Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1963, p. 6270.) [Conditions under which water may remain unfrozen and its role in frozen ground phenomena. English summary.]Google Scholar
Nougier, J. Observations périglaciaires dans l’Archipel de Kerguelen, Terres Australes et Antarctiques Françaises. Zeitschrift für Geomorphologie, Bd. 8, Sonderheft, 1964, p. 143*49*. [Shattering of moraines through frost and description of reticulated ground.]Google Scholar
Shumskiy, P. A. Vtyurin, B. I. Podzemnyye l’dy . (In Doklady na mezhdunarodnoy konferentsii po merzlotovedeniyu [Proceedings of international conference on frozen ground studies]. Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1963, p. 4153.) [General survey. English summary.]Google Scholar
Sukhodrovskiy, V. L. Fizicheskoye vyvetrivaniye gornykh porod v prilednikovoy zone Zemli Frantsa-Iosifa . (In Akademiya Nauk SSSR. Institut Geografii. Issledovaniya lednikov i lednikovykh rayonov . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], Vyp. 2, 1962, p. 21528.) [Description and data on rate of weathering.]Google Scholar
Svensson, H. Några iakttagelser från palsområden. Flygbildanalys och fältstudier i nordnorska frostmarksområden. Norsk Geografisk Tidsskrift, Bd. 18, Ht. 5–6, 1961–62, [pub.] 1963, p. 21227. [Study of palsa bogs in Finnmark, north Norway, based on aerial photographs and field studies in 1962. English summary.]Google Scholar
Tyutyunov, I. A. Fazovyye prevrashcheniya vody v gruntakh, priroda yeye migratsii i pucheniya . (In Doklady mezhdunarodnoy konferentsii po merzlotovedeniyu . Moscow, lzdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1963, p. 7180.) [Discussion of physico-chemical causes of water migration and relation to frost heaving. English summary.]Google Scholar
Vyalov, S. S. Reologiya merzlykh gruntov . (In Doklady na mezhdunarodnoy konferentsii po merzlotovedeniyu [Proceedings of international conference on frozen ground studies]. Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1963, p. 11832) [Survey of creep and fracture properties of frozen soils including effect of combined pressure and shear. English summary.]Google Scholar
Wiman, S. A preliminary study of experimental frost weathering. Geografiska Annaler, Vol. 45, Nos. 2–3, 1963, p. 11321. [Experiments at geomorphological laboratory of Geografiska Institutionen, Uppsala Universitet, Sweden.]Google Scholar

Meteorological and Climatological Glaciology

Aufdermaur, A. N., and others. Kristallachsenlagen in Hagelkörnern, von A. N. Aufdermaur R. List W. C. Mayes und M. R. de Quervain. Zeitschrift für angewandte Mathematik und Physik, Vol. 14, Fasc. 5, 1963, p. 57489. [Study of orientation of c-axes in hailstones.]Google Scholar
Hattersley-Smith, G. Climatic inferences from firn studies in northern Ellesmere Island. Geografiska Annaler, Vol. 45, Nos. 2–3, 1963, p. 13951. [Study of firn stratigraphy on ice cap of northern Ellesmere Island in 1958 and 1961 correlated with meteorological data from Upernavik, West Greenland, 1874–1961.]Google Scholar
Latham, J. The electrification of frost deposits. Quarterly Journal of the Royal Meteorological Society, Vol. 89, No. 380,. 1963, p. 26570.Google Scholar
List, R. On the effect of explosion waves on hailstone models. Journal of Applied Meteorology, Vol. 2, No. 4, 1963, p. 49497. [Laboratory tests show no appreciable effects.]Google Scholar
List, R. Macklin, W. C. The accretion of ice on rotating cylinders. Quarterly Journal of the Royal Meteorological Society, Vol. 89, No. 382, 1963, p. 55154. [Letter and reply concerning Macklin, “The density and structure of ice formed by accretion”, ibid., Vol. 88, No. 375, 1962, p. 30–50.]Google Scholar
Macklin, W. C. Heat transfer from hailstones. Quarterly Journal of the Royal Meteorological Society, Vol. 89, No. 381, 1963, p. 36069.Google Scholar
Mull, S. Kulshrestha, S. M. On the formation of hailstones. Indian Journal of Meteorology and Geophysics, Vol. 13, Special No., 1962, p. 95103. [Suggests theory to account for formation of various types of hailstone]Google Scholar
Nagel, J. F. On the shape of graupel and hailstones. Notos (Pretoria), Vol. 11, Nos. 1–4, 1962, p. 7788. [Results of model experiments.]Google Scholar
Phillpot, H. R. Some aspects of the climate of Antarctica. Polar Record, Vol. 11, No. 75, 1963, p. 73746. [Analysis of data on cloudiness, surface air temperature and surface wind.]Google Scholar
Saha, K. R. On the formation of large hailstones. Indian Journal of Meteorology and Geophysics, Vol. 13, Special No., 1962, p. 10408. [Theory of their origin.]Google Scholar
Scorer, R. S. Rare halo in “arctic smoke”. Weather, Vol. 28, No. 10, 1963, p. 305, 319. [Photographed by O. M. Ashford at Geneva, February 1956.]Google Scholar
Tareyeva, A. M. Radiatsionnyy balans o-va Vrangelya . (In Akademiya Nauk SSSR. Institut Geografii. Issledovaniya lednikov i lednikovykh rayonov . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], Vyp. 2, 1962, p. 21014.) [Results of measurements in various parts of the island.]Google Scholar

Snow

Belyayev, V. I. K teorii rasprostraneniya kristallizatsii v pereokhlazhdennykh oblakakh . Doklady Akademii Nauk SSSR , Tom 151, No. 4, 1963, p. 84144. [English translation by Office of Technical Services, U.S. Department of Commerce, Washington, D.C., OTS-63-31961.]Google Scholar
Dunayeva, A. V. Rationalization of methods of analysis of snow survey data. Soviet Hydrology. Selected Papers, No. 1, 1962, p. 95106. [Translated from Russian. Method of analysis to show up variations due to local conditions.]Google Scholar
Gard, R. Insulation of a Sierra stream by snow cover. Ecology, Vol. 44, No. 1, 1963, p. 19497. [Study of effect of snow cover on stream temperature.]Google Scholar
Garten, V. A. Head, R. B. Carbon particles and ice nucleation. Nature, Vol. 201, No. 4924, 1964, p. 109192. [Study of efficiency of chars and other carbonaceous particles as ice nuclei and interpretation in terms of structure.]Google Scholar
Latham, J. Stow, C. D. Electrification of snowstorms. Nature, Vol 202, No. 4929, 1964, p. 28485. [Measurements in laboratory on charge acquired by blown snow as function of temperature difference between air and snow.]Google Scholar
Lobodin, T. V. Resul’taty atmosferno-elektricheskikh izmereniy nad okeanami i v Antarktide . Akademiya Nauk SSSR. Mezhduvedomstvennyy Geofizicheskiy Komitet. II Razdel Programmy MGG: Meteorologicheskiye Issledovaniya. Sbornik Statey , No. 5, 1963, p. 8999. [Measurements and analysis of results which show that at Mirny the electric charge carried by blizzard results in a net loss of negative charge during thunderstorms. English summary.]Google Scholar
Mathews, W. H. Mackay, J. R. Snowcreep studies, Mount Seymour, B.C.: preliminary field investigations. Geographical Bulletin (Ottawa), No. 20, 1963, p. 5875. [Methods used; rate of movement of creeping snow; pressure exerted against stationary objects.]Google Scholar
Matveyev, A. A. Khimicheskiy sostav atmosfernykh osadkov po nablyudeniyam v Mirnom . Akademiya Nauk SSSR. Mezhduvedomstvennyy Geof zicheskiy Komitet. II Razdel Programmy MGG: Meteorologicheskiye Issledovaniya. Sbornik Statey , No. 5, 1963, p. 10007. [Variation according to origin of cyclones.]Google Scholar
Porzig, W. Snow crystals. Zeiss Information, 11th Year, No. 47, 1963, p. 2829. [Reports deposit in archives of Carl Zeiss, Oberkochen, of collection of over 5,000 photomicrographs of snow crystals taken by Joseph Hell.]Google Scholar
Power, B. A. Summers, P. W. Snowflakes as instruments for weather research. New Scientist, Vol. 16, No. 318, 1962, p. 670-72. [Popular account of way in which snow crystal structure can be used to indicate processes in clouds.]Google Scholar
Quervain, M. R. de. Zur Bedeutung der Diffusion bei der Metamorphose des Schnees. Archiv für Meteorologie, Geophysik und Bioklimatologie, Ser. B, Bd. 12, Ht. 1, 1962, p. 15158. [Diffusion of water vapour in snow and its influence on mass exchange is calculated under simplified assumptions on the snow structure and mechanism of diffusion.]Google Scholar
Rakita, S. A. Otsenka velichiny i roli perenosa snega v formirovanii snezhnogo pokrova na territorii severovostoka SSSR . Sibirskiy Geografuheskiy Sbornik , No. 2, 1963, p. 6068.Google Scholar
Smalley, I. J. On the nature of twelve branched snow crystals. Current Science, Vol. 31, No. 10, 1962, p. 41718. [Suggestion that these crystals are not single but twinned.]Google Scholar
Smalley, I. J. Symmetry of snow crystals. Nature, Vol. 198, No. 4885, 1963, p. 108081. [Supports Tolansky’s theory of growth of complex crystal shapes and applies it to explain untwinned twelve-branched snow crystals.]Google Scholar
Taylor, C. B. Tritium content of Antarctic snow. Nature, Vol. 201, No. 4915, 1964, p. 14647. [Discussion of reason for high tritium content of Antarctic snow.]Google Scholar
[U.S. Department of Agriculture. Forest Service.] Snow avalanches: a handbook of forecasting and control measures. [Washington, D.C.], [U.S.] Department of Agriculture. Forest Service, 1961. 84 p. (Agriculture Handbook No. 194.)Google Scholar