Hostname: page-component-84b7d79bbc-2l2gl Total loading time: 0 Render date: 2024-07-30T16:22:21.743Z Has data issue: false hasContentIssue false
  • English
  • Français

Glaciological Literature

Published online by Cambridge University Press:  30 January 2017

Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content. As you have access to this content, full HTML content is provided on this page. A PDF of this content is also available in through the ‘Save PDF’ action button.
Type
Other
Information
Journal of Glaciology , Volume 5 , Issue 41 , 1965 , pp. 763 - 769
Copyright
Copyright © International Glaciological Society 1965

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

Barclay, L. W. Sledging and surveying. (In SirBrunt, D., ed. The Royal Society International Geophysical Year Antarctic Expedition. Halley Bay, Coats Land, Falkland Islands Dependencies, 1955–59. Vol. 4. London, Royal Society, 1964, p. 32938.) [Navigation and surveying, Coats Land and Brunt Ice Shelf.]Google Scholar
Dralkin, A. G. Nekotoryye itogi rabot sed’moy sovetskoy antarkticheskoy ekspeditsii . Problemy Arktiki i Antarktiki , Vyp. 46, 1964, p. 3540. [Summary of scientific results, 1961–63.]Google Scholar
Dubrovin, L. I., ed. Pyataya kontinental’naya ekspeditsiya 1959-1961 gg. Materialy glyatsiologicheskikh issledovaniy na stantsii Lazarev . Trudy Sovetskoy Antarkticheskoy Ekspeditsii , Tom 34, 1964, 89 p. [Snow and firn studies, structure and dynamics of the ice shelf, fast ice.]Google Scholar
MacDowall, J. GIaciological observations. Part I. Glaciological observations at the base. (In SirBrunt, D., ed. The Royal Society International Geophysical Year Antarctic Expedition. Halley Bay, Coats Land, Falkland Islands Dependencies, 1955–59. Vol. 4. London, Royal Society, 1964, p. 31425.) [Snow accumulation measurements; height and temperature of, and wind profile immediately above, the ice shelf; daily summary of glaciological observations.]Google Scholar
MacDowall, J., and others. Glaciological observations. Part II. Glaciological observations during sledging journeys, by J. MacDowall L. W. Barclay J. M. C. Burton. (In SirBrunt, D., ed. The Royal Society International Geophysical Tear Antarctic Expedition. Halley Bay, Coats Land, Falkland Islands Dependencies, 1955–59. Vol. 4. London, Royal Society, 1964, p. 31425.) [Snow accumulation, ice-hill investigations and the surface of the ice shelf.]Google Scholar
[Odishaw, H., and others, ed.] Catalogue of data in the World Data Centers for the period of the International Geophysical Year and International Geophysical Cooperation-1959 (1 July 1957–31 December 1959). [Edited by H. Odishaw P. J. Hart R. Y. Dow.] Annals of the International Geophysical Year, Vol. 36, 1964, 744 p. [Glaciology, p. 295–343. Includes list of stations and titles of reports received.]Google Scholar
Schytt, V. Scientific results of the Swedish glaciological expedition to Nordaustlandet, Spitsbergen, 1957 and 1958. Geograftska Annaler, Vol. 46, No. 3, 1964, p. 24381. [General account of expedition; account of previous work. Detailed account of work done at Ahlmann station, and at Vestfonna, Sørfonna and Austfonna.]CrossRefGoogle Scholar
Ya-Feng, Shih. Wu nien lai te Chung-kuo ping-ch’uan-hsüeh, tung-t’u-hsüeh yü kan-han ch’u-shui-wen yen-chiu . Kexue Tongbao (K’o-hsüeh T’ung-pao) , 1964, No. 3, p. 21825. [Summary of work done principally in relation to water resources. English translation: Dept. of Commerce, Office of Technical Services, Washington, D.C., JPRS:25,016, 10 June 1964.]Google Scholar
Stevenson, C. F., comp. A list of named glaciological features in Canada. Gazetteer of Canada. Special Supplement No. 1. Ottawa, Canada. Department of Mines and Technical Surveys. Geographical Branch, 1964. vii, 14 p. [Includes latitude, longitude and map reference.]Google Scholar

Glaciological instruments and methods

Andersen, B. G. Deuterium variations related to snow pit stratigraphy in the Thiel Mountains, Antarctica. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 20001. The summer snow has a considerably higher deuterium content than winter snow.]Google Scholar
Bailey, J. T., and others. Radio echo sounding of Polar ice sheets, by J. T. Bailey S. Evans G. de Q. Robin. Nature, Vol. 204, No. 4957, 1964, p. 42021. [Echoes were obtained through 1,400 m. of ice by new apparatus.]CrossRefGoogle Scholar
Brandenberger, A. J. Aerial triangulation in the Antarctic. Photogrammetric Engineering, Vol. 30, No. 2, 1964, p. 197201. [Description of method used to determine ice flow between “Byrd” station and Whitmore Mountains.]Google Scholar
Chaillou, A. Vallon, M. Étude de la zone corticale des glaciers tempérés par prospection électrique, avec un potentionmètre d’impédance d’entrée infinie. Annales de Géophysique, Tom. 20, No. 2, 1964, p. 20105. [The electrical examination of the upper layers of a glacier is limited, but the method has considerable applications in spite of this.]Google Scholar
Kul’bitskiy, V. F. Bur dlya obrazovaniya kernov iz merzlogo grunta . Byullelen’ Izobreteniy , Tom 40, No. 15, 1963, p. 116.Google Scholar
Lorius, C. Isotopes in relation to polar glaciology. Polar Record, Vol. 12, No. 77, 1964, p. 21122. [Survey of use of radioactive isotopes in glaciology.]Google Scholar
Lorius, C. L’utilisation des isotopes dans l’étude glaciologique des calottes polaires. TAAF (Territoire des Terres Australes et Antarctiques Françaises), No. 25, 1963, p. 219. (Expéditions Polaires Françaises (Missions Paul-Émile Victor), Publication No. 253.) [Age of some ice caps estimated by isotopes corresponds with age determined stratigraphically, but not in every case; further research is necessary.]Google Scholar
Nottarp, K. Elektronische Distanzmessung hoher Genauigkeit im Polargcbiet. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 18081. [Use of tellurometers in Greenland and Antarctica, and modifications necessary. English abstract.]Google Scholar
Østrem, G. A method of measuring water discharge in turbulent streams. Geographical Bulletin (Ottawa), No. 21, 1964, p. 214.3. [Injection of brine into the river and downstream measurements of changes of electrical conductivity as the salt wave passes; includes a list of the field equipment needed.]Google Scholar
Walford, M. E. R. Radio echo sounding through an ice shelf. Nature, Vol. 204, No. 4956, 1964, p. 31719. [Method used and map of Brunt Ice Shelf with ice thicknesses along the route travelled.]Google Scholar

Physics of ice

Evans, D. G. Hutchinson, W. C. A. The electrification of freezing water droplets and of colliding ice particles. Quarterly Journal of the Royal Meteorological Society, Vol. 89, No. 381, 1963, p. 37075. [Measurement of charge produced when supercooled droplets freeze.]Google Scholar
Fischer, W. H. Perdue, C. R. Shock-induced freezing of “activated” supercooled water. Nature, Vol. 204, No. 4960, 1964, p. 76465. [Electromagnetic radiation emitted by mercury droplet in a bulb of neon gas raises temperature at which supercooled water freezes when agitated.]CrossRefGoogle Scholar
Garten, V. A. Head, R. B. A theoretical basis of ice nucleation by organic crystals. Nature, Vol. 205, No. 4967, 1965, p. 16062. [Study of possible factors affecting epitaxy of ice on organic crystals.]CrossRefGoogle Scholar
Hobbs, P. V. Mason, B. J. The sintering and adhesion of ice. Philosophical Magazine, Eighth Ser., Vol. 9, No. 98, 1964, p. 18197. [Experiments on small ice spheres in contact and theoretical interpretation.]Google Scholar
Kuroiwa, D. Netsufushokuhō de kansoku shits kōri no kemmamen no mamō . Teion-kagaku , Ser. A, Vol. 22, 1964, p. 2557. [Study of defects resulting from polishing procedures. English summary.]Google Scholar
Latham, J. Symposium on ice crystals and ice nucleation, Berkeley, California, August 1963. British Journal of Applied Physics, Vol. 14, No. 12, 1963, p. 82526. [Summary of recent work on properties of ice relevant to cloud physics.]Google Scholar
Latham, J. Saunders, C. P. R. Aggregation of ice crystals in strong electric fields. Nature, Vol. 204, No. 4965, 1964, p. 129394. [Letter. Experimental investigation of adhesion of ice crystals to ice spheres shows that strong fields greatly assist adhesion.]Google Scholar
Latham, J. Stow, C. D. Electrification produced by collision between ice crystals and soft hail pellets in a thunderstorm. Quarterly Journal of the Royal Meteorological Society, Vol. 91, No. 387, 1965, p. 99100. [Letter. Brief report on experiments and discussion of their implications for theory of thunderstorm electricity.]Google Scholar
Lliboutry, L. Nouveau calcul de la variation du point de fusion sous l’effet des contraintes et application au processus de fonte et regel sous-glaciaire. Comptes Rendus Hebdomadaires des Séances del’ Académie des Sciences (Paris), Tom. 258, No. 5, 1964, p. 157779. [Theory of depression of melting point of ice under a uniaxial stress.]Google Scholar
MacCready, P. B. Proudfit, A. Self-charging of melting ice. Quarterly Journal of the Royal Meteorological Society, Vol. 91, No. 387, 1965, p. 5459. [Laboratory observation of positive charge acquired by water droplets on freezing in an air stream.]CrossRefGoogle Scholar
Savel’yev, V. A. Sokolov, N. D. Raschet udlineniya vodorodnoy svyazi pri izotopicheskom zameshchenii vo l’du . Fizika Tverdogo Tela , Tom 5, Vyp. 11, 1963, p. 327375. [Translation in Soviet Physics Solid State, Vol. 5, No. 11, 1964, p. 2393–95.]Google Scholar
Stott, D. Hutchinson, W. C. A. The electrification of freezing water drops. Quarterly Journal of the Royal Meteorological Society, Vol. 91, No. 387, 1965, p. 8086. [Evidence for a charge separation across the boundary between freezing water and ice, water being positive and ice negative.]Google Scholar
Wakahama, G. Kōn no sosei henkei ni tsuite. V. Takesshōhyō no sosei henkei . Teion-kagaku , Ser. A, Vol. 22, 1964, p. 124. [Optical observation of deformations in individual grains in a polycrystalline specimen. English summary.]Google Scholar

Land ice. Glaciers. Ice shelves

But, I. V. O sootvetstvii mezhdu obshchey tsirkulyatsiey atmosfery i sovremennym raspredeleniyem lednikov v severnom polusharii . Informatsionnyy Shornik o Rabolakh po Mezhdunarodny Geofizicheskiy Coda , No. 9, 1962, p. 1039. [Suggests classification of glaciers based on atmospheric circulation.]Google Scholar
Crozaz, G., and others. Antarctic snow chronology with 210Pb, by G. Crozaz E. Picciotto W. de Breuck. Journal of Geophysical Research, Vol. 69, No. 12, 1964, p. 2597604. [210Pb activity found to decrease exponentially with depth implying constant accumulation over last 100 years.]Google Scholar
Dieterlé, G. Peterschmitt, E. Sondages séismiques en Terre de la Reine Maud. Mémoires. Académie Royale des Sciences d’Outre-Mer. Classe des Sciences Techniques. Collection in-8° (Bruxelles), Tom. 13, Fasc. 4, 1964, p. 1101. [Through refraction the variation of velocity with depth is calculated and the content of the ice shelf determined.]Google Scholar
Förtsch, O. Die Talformen and die Talfüllung unter den Gletschern der Ötztaler Alpen. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 19596. [Measurements of seismic velocities in glaciers in Ötztal, Austria. Large thicknesses of ground moraine found. English abstract.]Google Scholar
Fristrup, B. Further investigations of the Greenland ice cap. Geografisk Tidsskrift, Bd. 63, No. 2, 1964, p. 12129. [Accumulation and ablation studies, mass balance studies, ice thickness, age of the ice, and formation and growth of the Greenland Ice Sheet.]Google Scholar
Fujiwara, K. Preliminary report on the morphology of the inland ice sheet of the Mizuho Plateau, East Antarctica. Antarctic Record (Tokyo), No. 23, 1964, p. 111. [General account of the inland ice sheet, morphology of ice sheet near the Yamamoto Mountains, and in the inland plateau.]Google Scholar
Gow, A. J. The mystery of the stranded fish. Antarctic (Wellington, N.Z.), Vol. 3, No. 10, 1964, p. 47071. [New suggestion to F. Debenham’s hypothesis that fish remains on top of the ice in McMurdo Sound worked up from the bottom through the ice owing to surface weathering.]Google Scholar
Grosval’d, M. G. Sovremennyye ledniki v gorakh severno-vostochnoy Tuvy . Issledovaniya Lednikov i Lednikovykh Rayonov , No. 3, 1963, p. 4855. [Description.]Google Scholar
Haefeli, R. Welche Zeit ist notwendig, um unter gegebenen Akkumulations- und Temperaturverhältnissen einen Eisschild von der Grösse des grönländischen Inlandeises oder der Antarktis aufzubauen ? Polarforschung, Bd. 5, Jahrg. 33, Ht. I-2, 1963 [pub. 1964], p. 17678. [Estimate of time needed to build up ice sheets.]Google Scholar
Kick, W. Der Chogo-Lungma-Gletscher im Karakorum. II. Zeitschnft für Gletscherkunde und Glazialgeologie, Bd. 5, Ht. 1, 1964, p. 159. [Results of the elaborations of the glaciological observations in the region in October 1954]Google Scholar
Koerner, R. M. An ice caldera near Hope Bay, Trinity Peninsula, Graham Land. British Antarctic Surrey Bulletin, No. 3, 1964, p. 3739. [Description, and explanation of mode of origin.]Google Scholar
Lewis, C. A. The glacier of Kaldalón, north-west Iceland. Geographical Journal, Vol. 130, Pt. 3, 1964, p. 39096. [General description, including temperatures, advances and retreats since 1931, and snowfall.]Google Scholar
Limbert, D. W. S. The absolute and relative movement, and regime of the Brunt Ice Shelf near Halley Bay. British Antarctic Survey Bulletin, No. 3, 1964, p. 111. [Absolute movement, strain-rates in the surface of the ice shelf and vertical strains. The probable regime is considered in relation to its environment.]Google Scholar
Lisignoli, C. A. Movement of the Filchner Ice Shelf, Antarctica. Transactions. American Geophysical Union, Vol. 45, No. 2, 1964, p. 39197. [Studies by Argentine scientists at “General Belgrano” and “Ellsworth” station. Antarctica, during the years 1957–62.]Google Scholar
Lliboutry, L. Instability of temperate ice-sheets owing to a feed-back mechanism. Nature, Vol. 203, No. 4945. 1964, p. 62729; Vol. 204, No. 4955, 5964, p. 231. [Letter. Temperate ice sheets fluctuate within areas of stability, and from time to time recede or advance from one area of stability to another. This illuminates the behaviour of glaciers. It explains the formation of recessional moraines during the last stage of the Ice Age.]CrossRefGoogle Scholar
Lorenzo, J. L. Los glaciares de México. Segcnda edición. Mexico, D.F., Universidad Nacional Autónoma de México, 1964. 124 p. (Monografias del Instituto de Geofisica, 1.) [Report of the Glaciology Section of the Mexican National Committee for the International Geophysical Year. Similar to first edition but adds details on glaciers of Iztattihuatl. English summary by J. V. Papworth, p. 97–124.]Google Scholar
McHugo, M. B. The mapping of British Antarctic Territory. British Antarctic Survey Bulletin, No. 4, 1964, p. 1314. [Map of British Antarctic Territory, South Georgia and South Sandwich Islands. Index to Directorate of Overseas Surveys maps.]Google Scholar
Mathews, W. H. Discharge of a glacial stream. Organisation Météorologique Mondiale et Association Internationale d’Hydrologie Scientifique. Symposium. Eaux de surface, tenu à l’occasion de l’assemblée générale de Berkeley de l’Union Géodésique et Géophysique Internationale, 19–8–31–8 1963, 1964, p. 290300. [Calculation of influence of meteorological variables on run-off for river fed principally by Athabasca Glacier.]Google Scholar
Mathews, W. H. Two self-dumping ice-dammed lakes in British Columbia. Geographical Review, Vol. 55, No. 1. 1965, p. 4652. [Description of Strohn Lake and Summit Lake in northern British Columbia which have recently started clearing themselves automatically.]Google Scholar
Mellor, M. Remarks concerning the Antarctic mass balance. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 17980. [New estimates of snow accumulation, ice velocities and iceberg discharge. Indirect evidence is considered.]Google Scholar
Miller, M. M. Inventory of terminal position changes in Alaskan coastal glaciers since the 1750’s. Proceedings of the American Philosophical Society, Vol. 108, No. 3, 1964, p. 25773. [Details of glaciers in many regions of this district. Necessity of taking into account oceanographic and meteorological factors, and of long-term glaciological and geophysical investigations.]Google Scholar
Robinson, E. S. Results of geophysical studies on the McMurdo to South Pole traverse. University of Wisconsin. Department of Geology, Geophysical and Polar Research Center. Research Report Series, No. 62–6, 1962, 49 p. [Includes barometric altimetry, seismic reflection and refraction, gravimetric and magnetic observations.]Google Scholar
Różycki, S. Z. Der Rhythmus der Veränderungen des antarktischen Inlandeises unter dem Einfluss der Klimaschwankungen. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 21315. [The cycle of changes of the Antarctic Ice Sheet under the influence of climatic variations is discussed.]Google Scholar
Sigvaldason, G. E. Influence of geothermal activity on the chemistry of three glacier rivers in southern Iceland. Jökull, Ar 13, No. 3, 1963, p. 1017.Google Scholar
Skinner, B. E. Measurement of twentieth century ice loss on the Tasman Glacier, New Zealand. New Zealand Journal of Geology and Geophysics, Vol. 7, No. 4, 1964, p. 796803. [At an altitude of 1,100 m. an average thickness of 82.1 m. of ice has been lost since 1890. The total mass loss over the whole ablation zone in this time is of the order of 3 × 1012 kg.]CrossRefGoogle Scholar
Smith, J. H. L. Bericht über glaziologische Untersuchungen des Amery-Schelfeises in der Antarktis. Polarforschung, Bd. 5, Jahrg. 33, Ht. I -2, 1963 [pub. 1964], p. 19139 1. [Amery Ice Shelf flows at about 1,500± 300 m. yr.–1, much faster than most other ice shelves.]Google Scholar
Swithinbank, C. W. M. To the valley glaciers that feed the Ross Ice Shelf. Geographical Journal, Vol. 130. Pt. 1, 1964, p. 3248. [1960–61 and 1961–62 seasons.]Google Scholar
Szupryczyński, J. Rzeiba strefy marginalnej i typy deglacjacji lodowców poludniowego Spitsbergenu. Prace Geograficzne, No. 39, 1963, 162 p. [Relief of marginal zone and types of deglaciation of glaciers in south Vestspitsbergen. Field work in 1959 and 1960. English and Russian summaries.]Google Scholar

Icebergs. Sea, river and lake ice

Flatjord, S. Utvikling av isdekket på norske vassdrag samt litt om råkdannelse. Norsk Geografisk Tidsskrift, Bd. 19, Ht. 3–4,1963–64, [pub.] 1964, p. 14258. [Conditions under which frazil ice will attach itself to ice cover over flowing water. English summary, p. 15758.1Google Scholar
Heap, J., and others. Sea ice conditions, by Heap J. Dyer H. E. G. Limbert D. W. S.. (In SirBrunt, D., ed. The Royal Society International Geophysical Year Antarctic Expedition. Halley Bay, Coats Land, Falkland Islands Dependencies, 1955–59. Vol. 4, London, Royal Society, 1964, p. 33947.) [Ice conditions and ice cycle at Halley Bay, and sea ice thickness measurements.]Google Scholar
La Canal, L. M. de. Bases para el pronostico del estado de los hielos de mar en algunas regiones del sector Antártico Argentino. Buenos Aires, Servicio de Hidrografía Naval, 1963. 65 p. (H.412.) [Bases for forecasting sea ice conditions in Marguerite Bay, Antarctic Peninsula and South Orkney Islands. Includes abbreviated text in English.]Google Scholar
Leschack, L. A. Haubrich, R. A. Observations of waves on an ice-covered ocean. Journal of Geophysical Research, Vol. 69, No. 18, 1964, p. 381521. [Gravimeter observations on floating ice.]Google Scholar
Tabata, T. Fujino, K. Kaihyō no rikigakuteki seishitsu no kenkyū. VU. Genjō ni okeru mage kyōdo no sokutei . Teion-kagaku , Ser. A, Vol. 22, 1964, p. 14754. [Variation with rate of stressing. English summary.]Google Scholar
Thorén, R. Bildserie. Ph isrekognoscering över norra polarområdet. Ymer, Årg. 84, Ht. 1, 1964, p. 3957. [Series of pictures from American ice reconnaissance flights in July-August 1963 over north polar region. Text in Swedish and English.]Google Scholar
Untersteiner, N. Calculations of temperature regime and heat budget of sea ice in the central Arctic. Journal of Geophysical Research, Vol. 69, No. 22, 1964, p. 475566. [The equation of heat conduction, with variable parameters, internal heat source and an advective term, is integrated numerically for sea ice of equilibrium thickness. Magnitude of terms for central Arctic given.]Google Scholar
Wentworth, F. L. Cohn, M. Electrical properties of sea ice at 0.1 to 30 Mc/s. Radio Science, Vol. 68D, No. 6, 1964, p. 68193. [Measurements of dielectric constant and loss tangent.]Google Scholar
Williams, G. P. Gold, L. W. The use of dust to advance the break-up of ice on lakes and rivers. Proceedings. Eastern Snow Conference, 1963 annual meeting, 1963, p. 3160. [Also published as Canada. National Research Council. Division of Building Research. Technical Paper No. 165, 1963.]Google Scholar
Yeskin, L. L. O rasprostranenii aysbergov k severu ot beregov Vostochnoy Antarktidy v navigatsiyu 1962/63 g. . Infarmatsionnyy Byulleten’ Sovetskov Antarkticheskoy Ekspeditsii . No. 46, 1964, p. 3436.Google Scholar

Glacial geology

Birkeland, P. W. Pleistocene glaciation of the northern Sierra Nevada, north of Lake Tahoe, California. Journal of Geology, Vol. 72, No. 6, 1964, p. 81025. [Four major glaciations are recognized in this area, two of pre-Wisconsin age and two of Wisconsin age.]Google Scholar
Ewing, M. Donn, W. L. Polar wandering and climate. (In Munyan, A. C., ed. Polar wandering and continental drift. Society of Economic Paleontologists and Mineralogists. Special Publication No. 10, 1963, p. 9499.)Google Scholar
Harland, W. B. Rudwick, M. J. S. The great Infra-Cambrian Ice Age. Scientific American, Vol. 211, No. 2. 1964. p. 2836. [Considerable geological evidence for an extensive glaciation some 600 million years ago. Its end caused an alteration of climate that made possible the proliferation of animal life in Cambrian times.]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 ridges on northern Alaskan coast.]Google Scholar
Jones, O. T. The glacial and post-glacial history of the lower Teifi valley. Proceedings of the Geological Society of London, No. 1617 (session 1963–64), 1964, p. 97100. [Because the coastline of Cardigan Bay was under ice. an enormous volume of melt water from the ice surface made its way into the Teifi Valley and caused rapid erosion of the gorges there.]Google Scholar
Mayr, F. Untersuchungen über Ausmass und Folgen der Klima- und Gletscherschwankungen seit dem Beginn der postglazialen Wärmezeit. Zeitschrift für Geomorphologie, Neue Folge, Bd. 8, Ht. 3, 1964, p. 25785. [In the Stubai mountains stratigraphical evidence was found for the existence of 5 post-altithermal periods of glacier advance.]Google Scholar
Miller, M. M. Morphogenetic classification of Pleistocene glaciations in the Alaska-Canada boundary range. Proceedings of the American Philosophical Society, Vol. 108, No. 3, 1964, p. 24756. [A morphogenetic classification in cordilleran regions is especially helpful in delineating the repeated effects of Pleistocene glaciation.]Google Scholar
Østrem, G. Ice-cored moraines in Scandinavia. Geografiska Annaler, Vol. 46, No. 3, 1964, p. 282337. [Detailed field and laboratory study enables conclusions to be drawn on former size of glaciers and altitude of snow line throughout Scandinavia.]Google Scholar
Penny, L. F. A review of the last glaciation in Great Britain. Proceedings of the Yorkshire Geological Society, Vol. 34, Pt. 4, No. 20, 1964, p. 387411. [Comparison with Würm moraines on the Continent; the Highland re-advance; the Perth-Aberdeen readvance and Scottish readvance; and the “newer drift maximum”.]Google Scholar
Price, R. J. Land forms produced by the wastage of the Casement Glacier, southeast Alaska. Institute of Polar Studies, Ohio State University. Report No. 9, 1964, 24 p. [Description of processes producing melt-water channels and eskers.]Google Scholar
Schultz, G. Glaciers and the Ice Age. Earth and its inhabitants during the Pleistocene. New York, Holt, Rinehart and Winston Inc., [c 1963]. 128 p. (Holt Library of Science. Series 1, [No.] 4.) [Introductory account of the Pleistocene epoch in glaciated areas of North America and Eurasia.]Google Scholar
Suggate, R. P. New Zealand Quaternary chronology. Revue de Géomorphologie Dynamique, An. 14e, Nos. 10–11–12, 1963, p. 15359. [The Quaternary sequence conformably follows the Pliocene with Ross, Porika, Wainaunga. and Otira glaciations. The whole length of the Quaternary was probably as much as 5 million years.]Google Scholar
Undås, I. When were the heads of the Hardangerfjord and the Sognefjord ice-free? Norsk Geografisk Tidsskrift, Bd. 19, Ht. 5–6, 1963–64, [pub.] 1964, p. 29195. [The great terrace Moen at Øvre Årdal was deposited in the Boreal-Atlanticum transition and the first part of Atlanticum. Lærdal was ice-free before Øvre Årdal.]Google Scholar
Varjo, U. Über finnische Küsten und ihre Entstehung (unter besonderer Berücksichtigung der Bildungen ihrer trockenen Zone). Fennia, 91, No. 2; Publications Instituli Geographici Universitatis Ouluensis, No. 3, 1964, 104 p. [Includes section on the influence of ice, active and passive, on the development of the coast-line.]Google Scholar
Wilson, C. B. Harland, W. B. The Polarisbreen Series and other evidences of late Pre-Cambrian ice ages in Spitsbergen. Geological Magazine, Vol. 101, No. 3, 1964, p. 198219. [Polarisbreen Tillite Formation correlates with the neighbouring Sveanor Formation of Nordaustlandet and with other tillites in Vestspitsbergen. They are regarded as a product of the great Infra-Cambrian Ice Age and are correlated with world-wide tillite horizons of this age.]Google Scholar
Wright, H. E. The classification of the Wisconsin glacial stage . Journal of Geology, Vol. 72, No. 5, 1964, p. 62837. [Proposal to consider the 9,000-year retreat of ice from its Wisconsin maximum under four glacial phases: Tazewell, Cary, Port Huron (Mankato) and Valders.]Google Scholar
Yavteyev, S. A. Lazukov, G. I. O znachenii glyatsioizostazii v kvizheniyakh zemnoy kory oblastey oledeneniya . Doklady Akademii Nauk SSSR , Tom 155, No. 2, 1964. p. 33739. [Criticism of concept of glacial isostasy as principal source of vertical crustal movements.]Google Scholar

Frost action on rocks and soil. Frozen ground. Permafrost

Andrews, J. T. The analysis of frost-heave data collected by B. H. J. Haywood from Schefferville, Labrador-Ungava. Canadian Geographer, Vol. 7, No. 4, 1963, p. 16373. [Describes apparatus for accurate measurement of soil movement over small selected plot and presents results from first year of operation.]Google Scholar
Black, R. F. Periglacial studies in the United States, 1959–1963. Binlelyn Peryglacjalny (Lódź), Nr. 54, 1964, p. 529. [Review and bibliography, including works on weathering, erosion and frost movements, active and inactive periglacial phenomena. and periglacial palaeoclimates.]Google Scholar
Brown, W. G., and others. Comparison of observed and calculated ground temperatures with permafrost distribution under a northern lake, by W. G. Brown G. H. Johnston R. J. E. Brown. Canadian Geotechnical Journal, Vol. 1, No. 3, 1964, p. 14754. [Computer used to estimate the thermal regime under and about a lake. The results show an unfrozen zone of roughly hour-glass shape under the lake. Also published as Canada. National Research Council. Division of Building Research. Technical Paper No. 186, 1964.]Google Scholar
Cook, F. A. Periglacial research in Canada, 1954–1963; a selected bibliography. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 3140. [122 works listed with brief comments.]Google Scholar
Czerwiński, J. Problèmes des structures périglaciaires dans les dépôts quaternaires en Basse-Silésie. Biuleyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 5967. [The amount of periglacial structure remaining in Lower Silesia depends on the progress of erosion and denudation in late Pleistocene and Holocene times.]Google Scholar
Dylik, J. Éléments essentiels de la notion de “périglaciaire”. Réponse à l’cnquéte. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 11132. [Response to an enquiry on the use of the term “periglacial”.]Google Scholar
Dylik, J. Nowe problemy wiecznej zmarzliny plejstoceńskiej [New problems of the Pleistocene permafrost]. Acta Ceographica Universitatis Lodziensia (Lódź), No. 17, Wyd. 3, 1963, 93 p. [French summary.]Google Scholar
Dylikowa, A. Etat des recherches périglaciaires en Pologne. Caractéristique générale des recherches périglaciaires dans la période de 1956–63. Biuletyn Peryglacjalny (Lódi), Nr. 14, 1964, p. 4160. [Survey with bibliography of periglacial research in Poland.]Google Scholar
Goździk, J. S. L’étude de la répartition topographique des structures périglaciaires. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 21749. [Study of relation between topography and periglacial structures in Poland.]Google Scholar
Hamelin, L.-E. La famille du mot “périglaciaire”. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 13352. [Account of what is meant by terms involving “periglacial”.]Google Scholar
Hamelin, L.-E. Le périglaciaire du massif Juneau en Alaska. Biuletyn Peryglacjalny (Lódź), Nr. 13, 1964, p. 514. [Description of the periglacial conditions of the mountains near Juneau and comparison with those further north.]Google Scholar
Maarleveld, G. C. Periglacial phenomena in the Netherlands during different parts of the Würm time. Biulelyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 25156. [Frost wedges and pseudo-frost wedges, wind-faceted stones, and wind direction discussed.]Google Scholar
Mary, G. Le périglaciaire des environs du Mans (Sarthe, France). Biuletyn Peryglacjalny (Lódź), Nr. 13, 1964, p. 5398. [The district of Le Mans has evidence of periglacial phenomena of Quaternary age. Polish summary.]Google Scholar
Mihǎilescu, V. Sur la limite du périglaciaire en Dobrogea. Biuletyn Peryglacjalny (Lódź). Nr. 14, 1964, p. 27577. [Limits of periglacial structures in this region of Rumania.]Google Scholar
Nangerons, G. Rapports sur les études et les travaux concernant les phénomènes périglaciaires apparus en Italie de 1956 1963. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 6165. [Examination of problems of periglacial phenomena and terminology in Italy from 1956 to 1963.]Google Scholar
Philberth, K. Recherches sur les sols polygonaux et striés. Biuletyn Peryglacjalny (Lódź), Nr. 13, 1964, p. 99198. [General account of soil polygons and stripes followed by criticisms of present theories and a proposed new theory.]Google Scholar
Piasecki, H. Les fentes accompagnant la dégradation du pergélisol pléistocène. Birdetyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 295301. [Description of contraction cracks formed in Pleistocene frozen soil.]Google Scholar
Pissart, A. Avancement des recherches périglaciaires en Belgique de 1956 à 1963. Biuletyn Peryglacjalny (Lódź). Nr. 14, 1964, p. 6774. [Periglacial research in Belgium since 1956.]Google Scholar
Pissart, A. Vitesses des mouvements du sol au Chambeyron (Basses Alpes). Biuletyn Peryglacjalny (Lódź), Nr. 14. 1964, p. 30309. [The size of the pebbles and blocks and existence of patterned ground influence the speed of movement under periglacial conditions.]Google Scholar
Pledger, P. L. Groeman-van Waateringe, W. Late glacial pingo and valley development in the Boorne region, near Wijnjeterp, Province of Friesland, Netherlands. Biulelyn Peryglacjalny (Lódź), Nr. 13, 1964, p. 199233. [The formation of peat in the pingo remnant at Wijnjeterp began in the Older Dryas period and continued until the Sub-Boreal period.]Google Scholar
Rapp, A. Rudberg, S. Studies on periglacial phenomena in Scandinavia, 1960–1963. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 7589. [Report and a bibliography of published and unpublished studies by Scandinavian authors, 1960–63.]Google Scholar
Raynal, R. Recherches de géomorphologie périglaciaire en Afrique du nord. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 9198. [Periglacial research in Morocco, Tunis, and the Massif de l’Atakor in the Algerian Sahara.]Google Scholar
Rotnicki, K. Periglacial slope planation in the south-eastern part of the Ostrzeszów hills. Biuletyn Peryglacjalny (Lódź), Nr. 13, 1964, p. 23559. [Poland; geomorphic investigations. Polish summary.]Google Scholar
Schweinfurth, U. Ein Polygonboden auf Mt. Allen, Stewart Island (Neuseeland)., Zeitschrift für Geomorphologie, Neue Folge, Bd. 8, Ht. 1, 1964, p. 16. [The polygonal pattern of the soil here may help to show the northern limit of this phenomenon in sub-Antarctic New Zealand.]Google Scholar
Sekyra, J. Cryogeological phenomena in the north Pamir (central Trans-Alai). Biuletyn Peryglacjalny Nr. 14, 1964, p. 31119. [Results of the investigations carried out at the close of the summer season, 1961.]Google Scholar
Sekyra, J. On the periglacial investigation in Czechoslovakia (1955–63). Biuletyn Peryglacjalny (Lódź), Nr. 14. 1964, p. 99108. [Report and bibliography.]Google Scholar
Svensson, H. Aerial photographs for tracing and investigating fossil tundra ground in Scandinavia. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 32125. [Evidence on which this paper is based has been obtained by the interpretation of aerial photographs followed by ground inspection.]Google Scholar
Thorarinsson, S. Additional notes on patterned ground in Iceland with a particular reference to ice-wedge polygons. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 32736. [Description of polygons in Iceland and their geographical distribution.]Google Scholar
Tyutyunov, I. A. An introduction to the theory of the formation of frozen rocks. Translated from the Russian by J. O. H. Muhlhaus, translation edited by N. Rast. Oxford, etc., Pergamon Press, 1964. xiv, 94 p. (International Series of Monographs on Earth Sciences, Vol. 6.)Google Scholar
Washburn, A. L., and others. Frost cracking in a middle-latitude climate, by A. L. Washburn D. D. Smith R. H. Goddard. Biuletyn Peryglacjalny (Lódź), Nr. 12, 1963, p. 17589. [Frost cracks and hummocky micro-topography at Hanover, New Hampshire, formed during the winter of 1958–591Google Scholar
Wasylikowa, K. Roślinność i klimat późnego glacjatu w środkowej Polsce na podstawie badań w Witowie kola Lçczycy . Biuletyn Peryglacjalny (Lódź), Nr. 13, 1964, p. 262417. [English version, p. 383–417.1Google Scholar
Westgate, J. A. Bayrock, I. A. Periglacial structures in the Saskatchewan gravels and sands of central Alberta, Canada. Journal of Geology, Vol. 72, No. 5, 1964, p. 64148. [A periglacial climate existed in central Alberta before the arrival of the Keewatin ice that deposited the Wisconsin till.]Google Scholar
Williams, R. B. G. Fossil patterned ground in eastern England. Biuletyn Peryglacjalny (Lódź), Nr. 14, 1964, p. 33749. [Fossil polygons and stripes notable for their large size and for the striking rendering by present vegetation. Origins are discussed. They cannot be matched with any present Arctic patterns.]Google Scholar

Meteorological and climatological glaciology

Andrews, R. H. Meteorology and heat balance of the ablation area, White Glacier, Canadian Arctic archipelago, summer 1960 (Lower Ice station: 79° 26′ N., 90° 39′ W., 208 m.). McGill University. Axel Heiberg Island Research Reports. Meteorology, No. 1, 1964, 107 p. (Jacobsen-McGill Arctic Research Expedition, 1959–1962.)Google Scholar
Havens, J. M. Saarela, D. E. Exploration meteorology in the St. Elias Mountains, Yukon, Canada. Weather, Vol. 19, No. 11, 1964, p. 34252. [In addition to the meteorological work in 1963 the following glaciological work was done: movement studies, snow stratigraphy and diagenesis and a geophysical study of snow/ice thickness by seismic and gravity methods.]Google Scholar
Kasten, F. Meteorologische-optische Untersuchungen auf dem grönländischen Inlandeis. Polarforschung, Bd. 5. Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 20207. [Measured values of albedo of the snow surface, luminescence and radiance in several spectral ranges. Their interdependence and their relation to the whiteout phenomenon are discussed.]Google Scholar
Kopanev, I. D. Gradiyentnyye nablyudeniya . Trudy Sovetskoy Antarkticheskoy Ekspeditsii , Tom 40, 1964, 66 p. [Temperature gradients and wind speeds immediately above and below snow surface at Mirny and “Pionerskaya”, 1957.]Google Scholar
Miller, M. M. Glacio-meteorology on Mt. Everest in 1963: the Khumbu Glacier of Chomolongma in northeastern Nepal. Weatherwise, Vol. 17, No. 4, 1964, p. 16789.Google Scholar
Schwarzbach, M. Climates of the past: an introduction to paleoclimatology. Translated and edited by R. O. Muir. London, New York, etc., D. Van Nostrand Co. Ltd., [c 1963]. xii, 328 p. (The University Series in Geology.)Google Scholar

Snow

Berger, H. Vorgänge und Formen der Nivation in den Alpen: ein Beitrag zur geographischen Schneeforschung. Klagenfurt, Verlag des Landesmuseums für Kärnten, 1964. 88 p., 20 plates. (Buchreihe des Landesmuseums für Kärnten, t 7. Bd.) [Geographical study of nivation processes in the Alps.]Google Scholar
Bossolasco, M., and others. Schnee-Metamorphose und Sonnenbestrahlung, von M. Bossolasco, G. Cicconi [und] C. E. G. Flocchini. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 21820. [Measurement of penetration of radiation into snow cover.]Google Scholar
Boyden, C. J. A comparison of snow predictors. Meteorological Magazine, Vol. 93, No. 1109, 1964, p. 35365. [Whether precipitation is likely to be rain or snow.]Google Scholar
Budd, W., and others. Schneefegen im Massenhaushalte der Antarktis, von W. Budd, R. Dingle, P. Morgan und U. Radek [sic, i.e. U. Radok]. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 18788. [Importance of drifting snow in assessing Antarctic mass balance and brief reports of recent drift measurements.]Google Scholar
Cornford, S. G. Fall speeds of precipitation elements. Quarterly Journal of the Royal Meteorological Society, Vol. 91, No. 387, 1965, p. 9194. [Calculation of terminal fall velocities of various shapes of snow and hail particles in air.]Google Scholar
Hershfield, D. M. Estimating the maximum 24-hour snowfall. Bulletin de l’Association Internationale d’Hydrologie Scientifique, 9e An., No. 4, 1964, p. 3239. [An attempt to estimate maximum snowfall in the United States.]Google Scholar
Hofmann, G. Wärmehaushalt und Ablation der Schneeoberfläche. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 21618. [Brief report of theory of heat content and ablation of snow cover.]Google Scholar
Ishida, T. Sekisetsu no onkyō tokusei . Teion-kagaku , Ser. A, Vol. 22, 1964, p. 5972. [Experimental measurements of attenuation. English summary.]Google Scholar
Kinosita, S. Yuki o heiban de osu toki no sesshokumen no kansatsu . Teion-kagaku , Ser. A, Vol. 22, 1964, p. 7382. [English summary.]Google Scholar
Konček, M. Briedoň, V. Sneh a snehová pokryvka na Slovensku . Vydavatelstvo Slovenskej Akademie Vied (Bratislava), 1964, 71 p. [Summary of data for 1921–51. German and Russian summaries.]Google Scholar
Lacy, R. E. Some measurements of snow density. Weather, Vol. 19, No. 11, 1964, p. 35356. [In southern England it appears that snow settles to the same density as in the Alps.]Google Scholar
Mellor, M. A brief review of the thermal properties and radiation characteristics of snow. Polarforschung, Bd. 5, Jahrg. 33, Ht. 1–2, 1963 [pub. 1964], p. 18687.Google Scholar
Takahashi, T. Chemical composition of snow in relation to their [sic] crystal shapes. Journal of the Meteorological Society of Japan, Vol. 41, No. 6, 1963, p. 32736. [Correlations found.]Google Scholar
Tribble, D. T. Snow surface studies. (In SirBrunt, D., ed. The Royal Society International Geophysical Year Antarctic Expedition. Halley Bay, Coats Land, Falkland Islands Dependencies, 1955–59. Vol. 4. London, Royal Society, 1964, p. 32628.) [Includes illustrations of sastrugi.]Google Scholar
Yosida, Z. Hokuriku gosetsu no sekishitsu chosa . Teion-kagaku , Ser. A, Vol. 22, 1964, p. 12946. [The water equivalent calculated from vertical distribution of density and compared with snowfall observed at the meteorological stations. English summary.]Google Scholar
Yosida, Z. Shamen sekisetsu no naihu ōryoku oyobi nensei ryūdō . Teion-kagaku , Ser. A, Vol. 22, 1964, p. 83127. [Paper in three parts: (1) snow cover on wavy ground of mean inclination, p. 83–100; (2) wedge-shaped snow cover on a planar slope, p. 101–17; (3) snow cover on slopes with circular curvature, p. 119–27. English summaries.]Google Scholar