Hostname: page-component-8448b6f56d-m8qmq Total loading time: 0 Render date: 2024-04-23T10:46:22.813Z 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 3 , Issue 27 , 1960 , pp. 663 - 668
Copyright
Copyright © International Glaciological Society 1960

This selected list of glaciological literature has been prepared by J. W. Glen with the assistance of T. H. Ellison, W. B. Harland, Miss D. M. Johnson, and the Staff of the Scott Polar Research Institute. Its field is 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. Glen of publications of glaciological interest.

References

General Glaciology

SirJones, H. S. The inception and development of the International Geophysical Year. Annals of the International Geophysical Year, Vol. 1, 1959, p. 383446.Google Scholar
Schytt, V. Några preliminära forskningsresultat från främst den glaciologiska aktiviteten i Antarktis under det Internationella Geofysika Året. Ymer, Årg. 79, Ht. 1, 1959, p. 6367. [Preliminary results, especially glaciological, from International Geophysical Year in Antarctic.]Google Scholar

Glaciological Instruments and Methods

Kolesnikov, A. G. Speranskaya, A. A. Pribor dlya opredeleniya teplovykh potokov . Izvestiya Akademii Nauk SSSR. Seriya Geofizicheskaya , 1958, No. 11, p. 135159. [Apparatus for determining heat flow without disturbing the medium.]Google Scholar
Pound, T. N. Calibration of snow gauges for the Antarctic Division. Australian Defence Scientific Service, Aeronautical Research Laboratories, Aerodynamics Technical Memorandum 139, 1958, [11] leaves. [Gauges developed at Mawson, Antarctica, to measure quantity of snow carried in snow bearing winds at various heights above ground.]Google Scholar
Vladimirov, O. K. Chernigov, V. A. Opyt ispol’zovaniya oslableniya γ-luchey dlya opredeleniya plotnosti l’da i snega v usloviyakh Antarktidy . Atomnaya Energiya , Tom 4, Vyp. 5, 1958, p. 47475. [Laboratory and field tests of apparatus.]Google Scholar

Physics of Ice

Bass, R. Zur Theorie der mechanischen Relaxation des Eises. Zeitschrift für Physik, Bd. 153, Ht. 1, 1958, p. 1637. [Calculation of damping of mechanical vibrations in ice.]Google Scholar
Bogorodskiy, V. V. Uprugiye kharakteristiki l’da . Akusticheskiy Zhurnal , Tom 4, No. 1, 1958, p. 1923. [Description of ultrasonic apparatus and results obtained for sea, river and lake ice.]Google Scholar
Brill, R., and others. Dielektrisches Verhalten von Eis-Ammoniumfluorid-Mischkristallen. [Von] R. Brill H. Ender A. Feuersanger. Zeitschrift für Elektrochemie, Berichte der Bunsengesellschaft für physikalische Chemie, Bd. 61, Nr. 8, 1957, p. 107175. [Results of experiments on dielectric relaxation interpreted in terms of molecular structure.]CrossRefGoogle Scholar
Day, J. A. On the freezing of three to nine micron water droplets. Journal of Meteorology, Vol. 15, No. 2, 1958, p. 22628. [Experiments on supercooling of very small water droplets.]Google Scholar
Gränicher, H. Gitterfehlordnung und physikalische Eigenschaften hexagonales und kubischer Eiskristalle. Zeitschrift für Kristallographie, Bd. 110, Ht. 5/6, 1958, p. 43271. [Discussion of possible defects in the molecular structure of ice crystals and their effects on physical properties.]CrossRefGoogle Scholar
Hillig, W. B. The kinetics of freezing of ice in the direction perpendicular to the basal plane. (In Growth and perfection of crystals. Proceedings of the International Conference on Crystal Growth, Cooperstown, New York, Aug. 27–29, 1958. New York, John Wiley and Sons, 1958, p. 35060.) [Experiments show that rate of growth was strongly affected by impurities and crystal imperfections. Kinetics of growth are discussed.]Google Scholar
Kachurin, L. G. Sravneniye razlichnykh uravneniy zamerzaniya pereokhlazhdennykh vodnykh aerozoley . Izvestiya Akademii Nauk SSSR. Seriya Geofizicheskaya , 1959, No. 1, p. 12230.Google Scholar
Kleber, W. Weis, J. Keimbildung und Epitaxie von Eis (I). Zeitschrift für Kristallographie, Bd. 110, Ht. 1, 1958, p. 3046. [Study of shapes of ice crystals formed by epitaxy and comparison with those of other crystals.]CrossRefGoogle Scholar
Lafargue, C. Sur le rôle joué par les ions dans le phénomène de la surfusion de l’eau. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Tom. 246, No. 12, 1958, p. 189496. [Experiments on supercooling of water with various salts dissolved in it.]Google Scholar
Lafargue, M. Millecamps, R. G. Sur les propriétés électromagnétiques de la glace des glaciers. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Tom. 247, No. 12, 1958, p. 88486. [Results of experiments on propagation of radio waves in ice of the Mer de Glace.]Google Scholar
Lisgarten, N. D. An electron diffraction study of ice deposits formed on silver iodide. Philosophical Magazine, Eighth Ser., Vol. 3, No. 35, 1958, p. 130611. [Study of oriented deposits down to −100° C. and of cubic or amorphous ice deposits at lower temperatures.]Google Scholar
Luyet, B. Rapatz, G. Patterns of ice formation in some aqueous solutions. Biodynamica, Vol. 8, No. 156, 1958, p. 168. [Observations of habit of ice crystals formed in various solutions.]Google Scholar
Maybank, J. Mason, B. J. The production of ice crystals by large adiabatic expansions of water vapour. Proceedings of the Physical Society (London), Vol. 74, No. 475, 1959, p. 1116. [Experiments on formation of ice crystals in expansion chamber.]Google Scholar
Nakaya, U., and others. Physical investigations on the growth of snow crystals. [By] U. Nakaya M. Hanajima J. Muguruma. Journal of the Faculty of Science, Hokkaido University, Ser. 2, Vol. 5, No. 3, 1958, p. 87118. [Experiments using cine-microphotography to study attachment of droplets to snow crystals.]Google Scholar
Nikandrov, V. Ya. Priroda obrazovaniya kapelek i l’dinok v usloviyakh bol’shikh peresyshcheniy . Trudy Glavnoy Geofizicheskoy Observatorii , Vyp. 73, 1958, p. 311. [Theoretical study of effect of solid CO2 on supersaturated water vapour.]Google Scholar
Niven, C. D. A proposed mechanism for ice friction. Canadian Journal of Physics, Vol. 37, No. 3, 1959, p. 24755.Google Scholar
Roulleau, M. Influence de la pureté de l’eau sur la production de charges électriques accompagnant la congélation. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Tom. 248, No. 13, 1959, p. 202425. [Experiments showing that potential difference between water and ice is larger the purer the water.]Google Scholar
Schiller, P. Die mechanische Relation . Zeitschrift für Physik, Bd. 153, Ht. 1, 1958, p. 115. [Experiments of the damping of mechanical vibrations in ice crystals and analysis of results in terms of activation energy and relaxation time.]Google Scholar
Steinemann, S. Experimentelle Untersuchungen zur Plastizität von Eis. Beiträge zur Geologie der Schweiz. Geotechnische Serie. Hydrologie, Nr. 10, 1958, 72 p. [Experiments on plastic deformation and recrystallization of ice and discussion of application to temperate glaciers.]Google Scholar
Takamura, T. On the melting and freezing behaviors of liquid held in the very narrow capillary. Science Reports of the Tôhoku Imperial University, Ser. 1, Vol. 42, No. 1, 1958, p. 1621. [Theory of supercooling in fine capillaries.]Google Scholar
Taramura, T. Studies on the melting and freezing temperatures of benzene and water condensed in the micro-pores of silica gel. Science Reports of the Tóhoku Imperial University, Ser. 1, Vol. 42, No. 1, 1958, p. 2230. [Measurement of supercooling.]Google Scholar
Yermakova, Ye. A. O mekhanizme teplo- i massoobmena pri sublimatsii l’da pod vakuumom . Inzhenerno-Fizicheskiy Zhurnal , 1958, No. 11, p. 7379. [Theoretical discussion.]Google Scholar
Yermakova, Ye. A. Nekotoryye rezul’taty eksperimental’nogo issledovaniya teploobmena pri sublimatsii lido . Inzhenerno-Fizicheskiy Zhurnal , 1958, No. 12, p. 5458. [Results of experiments both with and without radiant heat.]Google Scholar

Land Ice. Glaciers. Ice shelves

Bentley, C. R., and others. Seismic measurements on the Greenland ice cap, by C. R. Bentley P. W. Pomeroy H. J. Dorman. Annales de Géophysique, Tom. 13, No. 4, 1957, p. 25385. [Refraction and reflection measurements along a ten mile line in vicinicy of lat. 76° 59′ N., long. 56° 05′ W.]Google Scholar
Bugayev, V. A. Tolstikov, Y. E. I. Profil’ poverkhnosti Antarktidy po llnii Mirnyy-yuzhnyy polyus- Mak-Merdo-Mirnyy . lzvestiya Akademii Ninth SSSR. Seriya Ceografrcheskaya , 159, No. 3, p. 7279. [Heights recorded during Soviet flight, October 1958.]Google Scholar
Caputo, M. La profondità del ghiacciaio Baltoro ad Urdukass determinata con metodo gravimetrico, e per mezzo della sua velocità superficiale (metodo di Somigliana). Geofísica e Meteorológia, Vol. 6, No. 3–4, 1958, p. 3336. [Determination of glacier depth from gravity measurements and comparison with depth deduced from surface velocity by Somigliana’s method.]Google Scholar
Carter, H. A. East of Mount McKinley. American Alpine Journal, Vol. 11, No. 2, 1959, p. 20107. [Narrative of mountaineering expedition, Alaska, 1958. Includes note on glaciological work.]Google Scholar
Crary, A. P. Trans-Antarctic trough. Transactions. American Geophysical Union, Vol. 40, No. 1, 1959, p. 4850. [Results of seismic sounding during I.G.Y. Ross Ice Shelf-Victoria Land oversnow traverse, 1958–59.]Google Scholar
Epstein, Sharp, R. P. Oxygen isotope studies. Transactions. American Geophysical Union, Vol. 40, No. 1, 1959, p. 8184. [Theory of method for dating ice and results from Greenland, South Pole and Blue Glacier, U.S.A.]Google Scholar
Eriksson, B. E. Glaciological investigations in Jotunheimen and Sarek in the years 1955 to 1957. Geographica, Nr. 34, 1958, 208 p. [Morphological and meteorological observations in these glacial areas and regime of Skagastelsbreen and Mikaglaciären.]Google Scholar
Fristrup, B. Gletscherundersøgelser i Grenland under det geofysiske år. Grønland, 1959, Nr. 5, p. 16172. [Glaciological investigations in Greenland during International Geophysical Year, 1957–58.]Google Scholar
Gajda, R. T. Cryoconite phenomena on the Greenland Icecap in the Thule area. Canadian Geographer, No. 12, 1958, p. 3544. [Measurements of shape and depth of cryoconite holes.]CrossRefGoogle Scholar
Gaskell, T. F. Characteristics of the Antarctic Ice-sheet. Nature, Vol. 183, No. 4675, 1959, p. 157577. [Summary of papers at joint meeting of British Glaciological Society and Royal Astronomical Society.]Google Scholar
Hannell, F. G. Ashwell, I. Y. The recession of an Icelandic glacier. Geographical Journal, Vol. 125, Pt. 1, 1959, p. 8488. [Hagafellsjökull Eystri, 1934–56. Includes assessment of mean annual rate of lowering of glacier surface, 1950–56.]Google Scholar
Hattersley-Smith, G. Glaciological research in northern Ellesmere Island. Canadian Geographer, No. 12, 1958, P-3234. [Observations of regime.]Google Scholar
Hattersley-Smith, G. Glaciological work on “Operation Hazen”, northern Ellesmere Island, 1958. Canadian Alpine Journal, Vol. 42, 1959, P-7374.Google Scholar
Imbert, B. Détermination de l’épaisseur de glace en Terre Adélie. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Tom. 248, No. 4, 1959, p. 57679. [Results of ice soundings at 27 stations on a line 480 km. to south of “Base Dumont d’Urville”, Terre Adélie.]Google Scholar
Ivan’kov, P. I. Sovremennoyc oledeneniye Zangezurskogo Khrebta . Priroda , 1959, No. 4, p. 114, [Location of small glaciers in southern Caucasus.]Google Scholar
Jacobs, J. A. Geophysical determinations of thickness of glaciers. Canadian Mining Journal, Vol. 78, No. 4, 1957, p. 13638. [Leader’s account of University of Toronto expedition to Salmon and Leduc glaciers, British Columbia, 1956.]Google Scholar
Kotlyakov, V. M. Osobennosti stroyeniya verkhney tolshchi lednikovogo pokrova tsentral’nykh rayonov Antarktidy . Izvestiya Akademii Nauk SSSR. Senya Geograftcheskaya , 1959, No. 4, p. 316. [Density, hardness and temperature observations down to depth of 12 m. in vicinity of Soviet stations “Vostok-I” and “Komsomol’skaya”, 1957.]Google Scholar
Kovalev, P. V. Geomorfologicheskiye issledovansya v tsentral’nom Kaukaze … . Kharkov, Izdatel’stvo Khar’kovskogo Universiteta [Publishing House of Kharkov University], 1957. 162 p. [Book on Quaternary geology and present glaciers of central Caucasus.]Google Scholar
Kovalev, P. V. Lednik Dykhsu. Izvestiya Vsesoyuznogo Geograficheskogo Obshchestva , Tom 91, Vyp. 2, 1959, p. 165–70. [Description and recent movement of Caucasian glacier.]Google Scholar
Kuznetsov, M. A. Glyatsioaktinometricheskiye nablyudeniya v Mirnom . Informatsionnyy Bynlleten’ Sovetskoy Antarkticheskoy Ekspeditsii , No. 5, 1959, p. 3538. [Summer 1957–58.]Google Scholar
Lliboutry, L. Une théorie du frottement du glacier sur son lit. Annales de Géophysique, Tom. 15, No. 2, 1959, p. 25065. [Theory of friction of temperate glacier on its bed.]Google Scholar
Lorenzo, J. L. Los glaciares de México. México, Instituto de Geofísica, Universidad Nacional Autónoma de México, 1959. 114 p. (Monografías del Instituto de Geofísica, [No.] 1.) [Description of Mexican glaciers based on I.G.Y. survey. English version of text, p. 89-log.]Google Scholar
Mason, R. W. The McCall Glacier project and its Iogistics. Arctic, Vol. 12, No. 2, 1959, p. 7781. [Establishment of I.G.Y. glaciological and meteorological station, Brooks Range, Alaska, 1957.]Google Scholar
Mather, K. B. Goodspeed, M. J. Australian Antarctic ice thickness measurements and sastrugi observations, Mac-Robertson Land, 1957–58. Polar Record, Vol. 9, No.62, 1959, p. 43645.Google Scholar
Mellor, M. Variations of the ice margins in east Antarctica. Geographical Journal, Vol. 125, Pt. 2, 1959, p. 23035. [Long-term and recent fluctuations. Results of author’s studies in Australian Antarctic Territory, 1957–58.]CrossRefGoogle Scholar
Müller, F Eight months of glacier and soil research in the Everest region. Mountain World, 1958/59, p. 191208. [Narrative of expedition, measurement of surface speed, surface features, former extent of Khumbu Glacier, and of periglacial features.]Google Scholar
Neuburg, H. A. C., and others. The Filchner Ice Shelf. By H. A. C. Neuburg E. Thiel P. T. Walker J. C. Behrendt N. B. Aughenbaugh. Annals of the Association of American Geographers, Vol. 49, No. 2, 1959, p. 11019. [General description based on investigations made at United States I.G.Y. Ellsworth Station, 1957–58.]Google Scholar
Nozdryukhin, V. K. Freyfel’d, V. Y. A. Nekotoryye dannyye o poverkhnostom staivanii “mertvoy” chasti lednika Inyl’chek . Raboty Tyan’-Shan’skoy Fiziko-Geograftcheskoy Stantsii, Glyatsiologiya , Tom 1, 1958, p. 6578. [Results of ablation measurements and correlation with weather and ice surface conditions.]Google Scholar
Péwé, T. L. 1957 advance of Muldrow Glacier. American Alpine Journal, Vol. 11, No. 2, 1959, p. 294. [Alaska.]Google Scholar
Philberth, B. Stockage des déchets atomiques dans les calottes glaciaires de la Terre. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Tom. 248, No. 14, 1959, p. 209092. [Calculations to demonstrate possibility of storing atomic waste in ice sheets.]Google Scholar
Ramirez, J. E. Colombia y el Año Geofísico Internacional. Revista de la Academia Colombian de Ciencias Exactas, Fisicas y Naturales, Vol. 10, No. 40, 1958, p. 14562. [Includes observations on present extent and recent retreat of Colombian glaciers.]Google Scholar
Rausch, D. O. Studies of ice excavation. Colorado School of Mines Quarterly, Vol. 54, No. 2, 1959, p. 788. [In three parts: “Glacial features”, “Excavation studies”, ‘Behavior and utilization of the openings”.]Google Scholar
Rikhter, G. D. Proiskhozhdeniye i evolyutsiya “oazisov” Antarktidy . (In Voprosy fizicheskoy geografii . Moscow, Izdatel’stvo Akademu Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1958, p. 25884.)Google Scholar
Robin, G. de Q. Geophysical studies in polar regions. The antarctic ice sheet. Geophysical Journal of the Róyal Astronomical Society, Vol. 1, No. 3, 1958, p. 34751. [Work carried out during International Geophysical Year, 1957–581CrossRefGoogle Scholar
Sater, J. E. Glacier studies of the McCall Glacier, Alaska. Arctic, Vol. 12, No. 2, 1959, p. 8286. [Brooks Range, Alaska, 1957–58, by U.S. I.G.Y. party, 1957–58.]Google Scholar
Schlich, R. Interprétation d’un profil sismique de réfraction, à la station Charcot, en Terre Adélie. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Tom. 247, No. 20, 1958, p. 176164. [Results of seismic observations in Terre Adélie are analysed and compared with those obtained by Robin in Dronni’., Maud Land.]Google Scholar
Swithinbank, C. W. M. Glaciology. I. The morphology of the inland ice sheet and nunatak areas of western Dronning Maud Land. Norwegian-British-Swedish Antarctic Expedition, 1949–52 . Scientific Results, Vol. 3, L, 1959, p. 97117.Google Scholar
Swithinbank, C. W. M. Glaciology. I. The regime of the ice sheet of western Dronning Maud Land as shown by stake measurements. Norwegian-British-Swedish Antarctic Expedition, 1949–52. Scientific Results, Vol. 3, E, 1959, p. 12144.Google Scholar
Weidick, A. Glacial variations in West Greenland in historical time. Part I. Southwest Greenland. Meddelelser om Griøland, Bd. 158, Nr. 4, 1959, 196 p. [Lats. 6°-65° N.]Google Scholar
Zabirov, R. D. Oledeneniyc sredney Azii . Raboty Tyan’-Shan’skoy Fiziko-Geograficheskoy Stantsii, Glyatsiologiya , Tom 1, 1958 p. 941. [General description of distribution, classification and characteristics.]Google Scholar

Icebergs. Sea, River and Lake Ice

Betin, V. V., and others. K metodike nablyudeniy nad morskimi l’dami s samoletov . [By] V. V. Belin S. V. Zhadrinskiy N. S. Uralov. Trudy Gosudarstvennogo Okeanograficheskogo Instituta , Vyp. 40, 1957, p. 14755. [Use of “perspective scale” instrument compared with results of ordinary visual observation.]Google Scholar
Browne, I. M. Ice drift in the Arctic Ocean. Transactions. American Geophysical Union, Vol. 40, No. 2, 1959, p. 195200. [Preliminary analysis of data from U.S. I.G.Y. drifting stations, 1957–58.]Google Scholar
Campbell, N. J. Collin, A. E. The discoloration of Foxe Basin. Journal of the Fisheries Research Board of Canada, Vol. 15, No. 6, 1958, p. 117588. [Origin of brown-coloured layer of sediment on surface of sea ice.]Google Scholar
Fel’zenbaum, A. I. Teoriya ustanovivshegosya dreyfa I’dov i raschet srednego rnnogoletnego dreyfa v tsentral’noy chasti Arkticheskogo basseyna . Problemy Severa , 1958, Vyp. 2, p. 1646. [Analysis of factors causing drift, and results of applying this to available data from drifting ships and stations.] Google Scholar
Gakkel’, Ya. Ya. Prirodnoye “modelirovaniye” tektonicheskikh deformatsiy na ledyanoy kore . Izvestiya Vsesoyuznogo Geograficheskogo Obshchestva , Tom 91, Vyp. 1, 1959, p. 2741. [Examples of tectonic deformation of floating ice and their use as analogues of geotectomc processes.]Google Scholar
Korotkevich, YE. S. Ledovyy rezhim morya Deyvisa . Izvestiya Vsesoyuznogo Geogra, ficlieskogo Obshchestva , Tom 91, Vyp. 2, 1959, p. 15255. [Observations of sea ice and icebergs during Soviet Antarctic Expedition, 1956–57.]Google Scholar
Mandrovsky, B. N., comp. Russian-English glossary and Soviet classification of ice found at sea. Washington, D.C., Library of Congress, 1959. vi, 30 p.Google Scholar
Piotrovich, V. V. Prichiny razmnozheniya kristallov vnutrivodnogo l’da v pereokhlazhdennoy vode . Meteoroíogiya i Gidrologiya , 1958, No. 12, p. 4.243. [Nucleation of ice below ice cover attributed to fragmenés of ice.]Google Scholar
Pounder, E. R. Little, E. M. Some physical properties of sea ice. I. Canadian Journal of Physics, Vol. 37, No. 4, 1959, p. 44379. [Observations on thickness, structure and physical properties.]Google Scholar
Savel’yev, B. A. Izuchenrye l’dov v rayone dreyfa stantsii SP-4 v period tayaniya i razrusheniya ikh v 1955 g. . Problemy Severa , 1958, Vyp. 2, p. 4779. [Thermal conductivity, temperature regime, composition, structure of floating ice in Arctic Ocean.]Google Scholar
Shesterikov, N. P. Kratkaya kharakteristika pripaya v more Deyvisa (po dannym 1957 g.) . Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditnii , No. 5, 1959, p. 4345. [Formation and decay.]Google Scholar
Shil’nikov, V. I. Metodika nablyudeniy za aysbergami . Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii , No. 5, 1959, p. 1114. [Proposed 0–9 ball scale indicating frequency of occurrence.]Google Scholar
Sychev, K. Tri goda dreyfa plavuchego ledyanogo ostrova “Sevemyy Polyus-6” . Morskoy Flot , 1959, No. 4, p. 2123. [Analysis of course followed by drifting station in Arctic Ocean, 1956–59.]Google Scholar

Glacial Geology

Auer, V. The Pleistocene of Fuego-Patagonia. Annales Academiae Scientiarum Fennicae, Ser. A, 3, 45, 1956, 227 p.; 50, 1958, 239 p.; 60, 1959, 247 p. [Study of the glacial, glacial-geological, and palaecobotanical features of Tierra del Fuego and Patagonia.]Google Scholar
Bergström, E. Problemet om glacial övervintring. Utgjorde Lofoten och Vesterålen ett refugicum, under sista istiden? Staten Naturvetenskapliga Forskningsrdds Arsbok, Årg. 12, 1959, p. 11622. [Critical discussion of evidence that Lofoten and Vestcrålen, north Norway, constituted a refuge during last ice age. English summary.]Google Scholar
Blackadar, R. G. Patterns resulting from glacier movements north of Foxe Basin, N.W.T. Arctic, Vol. 11, No. 3, 1958, p. 15665. [Physiographic features resulting from glaciation; marine features: results of field work, 1956, 1957.]Google Scholar
Bull, C. B. B. A gravity survey of a glacier-dammed lake in North Greenland. Proceedings of the Royal Society of Edinburgh, Sect. B, Vol. 67, Pt. 1, No. 3, 1958, p. 4253. [Dronning Louise Land, 1952–54.]Google Scholar
Derbyshire, E. The identification and classification of glacial drainage channels from aerial photographs. Geografiska Annaler, Årg. 40, Ht. 3–4, 1958 [pub. 1959], p: 188–95.Google Scholar
Gravenor, C. P. Kupsch, W. O. Ice-disintegration features in western Canada. Journal of Geology, Vol. 67, No. I, 1959, p. 4864. [Study of landforms resulting from retreating ice.]Google Scholar
Hoppe, G. Problemet om glacial övervintring. Några kritiska kommentarer till diskussionen om isfria refugier. Statens. Naturvetenskapliga Forskningsrcids rirsbok, Årg. 12, 1959, p. 12334. [Critical discussion of evidence in various polar regions, including Antarctic, of ice free refuges during last ice age. English summary.]Google Scholar
Péwé, T. L. Quaternary glaciation: McMurdo Sound region. Transactions. American Geophysical Union, Vol. 39, No. 4, 1958, p. 78789. [Summary of studies carried out in ice-free area, I December 1957–10 February 1958.]Google Scholar
Różycki, S. Z. Próba odtworzenia procesu formowania sic rzeiby polodowcowej . Acta Geologica Polonica, Tom 8, 1958, p. 1116. [Laboratory experiment on melting of a “glacier front” with morainic material in it.]Google Scholar
Shove, D. J., and others. The climatic geography of the Permian, by D. J. Schove A. E. M. Nairn N. D. Opdyke. Geografiska Annaler, Årg. 40, Ht. 3–4, 1958 [pub. 1959], p. 21631. [Correlation of evidence of climate in various parts of world during Permian, including discussion of location and type of Permian glaciation.]Google Scholar
Sharp, R. P., and others. Pleistocene-glaciers on southern California mountains. By R. P. Sharp C. R. Allen M. F. Meier. American Journal of Science, Vol. 257, No. 2, 1959, p. 81-94. [Results of field work, 1954–57.]Google Scholar
Sissons, J. B. Sub-glacial stream erosion in southern Northumberland. Scottish Geographical Magazine, Vol. 74, No. 3, 1958, p. 16374. [Interpretation of glacial retreat stages as deduced from glacial drainage channels.]Google Scholar
Sissons, J. B. Supposed ice-dammed lakes in Britain with particular reference to the Eddleston Vatey, southern Scotland. Geografiska Annaler, Årg. 40, Ht. 3–4, 1958 [pub. 1959), p. 15987. [Evidence that deposits usually attributed to ice-dammed lakes and their overflows were deposited by streams in, on, or under ice.]Google Scholar

Frost Action on Rocks and soil. Frozen Ground. Permafrost

Common, R. Galloway, R. W. Ice wedges in Midlothian: a note. Scottish Geographical Magazine, Vol. 74, No. 1, 1958, p. 4446. [Examples.]Google Scholar
Dylik, J. Raynal, R. Program prac Komisji Geomorfologii Peryglacjalne . Biuletyn Peryglacjalny , Nr. 6, 1958, p. 528, 177–93. [Problems needing study are outlined. French version, p. 177–93.]Google Scholar
Fraser, J. K. Freeze-thaw frequencies and mechanical weathering in Canada. Arctic, Vol. 12, No. 1, 1959, p. 40-53. [Relation between erosion and freezing frequency and dependence on earlier periglacial conditions.]Google Scholar
Gorazdovskiy, T. Ya. Opyt izmereniya absolyutnykh napryazheniy, deystvuyushchtkh v massive merzlykh gornykh porod . Trudy Instituta Merzlotovedenya imeni V. A. Obrucheva , Tom 14, 1958, p. 12934. [Apparatus for determining stress tensor in a frozen rock.]Google Scholar
Hamelin, L.-E. Matériaux de géomorphologie périglaciaire dans l’Espagne du nord. Revue Géographique des Pyrinles el du Sud-Ouest, Tom. 29, Fasc. 3, 1958, p. 24156. [Review of land forms arising from frost action in northern Spain.]Google Scholar
Johnsson, G. Periglacial wind and frost erosion at Klågerup, S.W. Scania. Geografiska Annaler, Årg. 40, Ht. 3–4, 1958 [pub. 1959, p. 23243. [Evidence of frost action and wind erosion in this region of southern Sweden and discussion of location of debris.]Google Scholar
Kretschmer, G. Die Ursache für Eisschichtenbildung im Böden. Wissenschaftliche Zeitschrift der Friedrich-SchillerUniversitfit, Jena. Math.-naturwiss. Reihe, Bd. 7, 1957–58, p. 27377. [Theoretical discussion of mechanism of ice layer formation in soil.]Google Scholar
Markov, K. K. Pereglyatsial Antarktidy . Inforntatsionnyy Byllleten’ Soveiskoy Antarkticlieskoy Ekspeditsii , No. 9, 1959, p. 911. [Types of weathering on rock and snow surfaces.]Google Scholar
Martin, R. T. Rhythmic ice banding in soil. Bulletin. [U.S.] Highway Research Board, 218, 1959, p. 1123. [Theory of formation of succession of ice lenses in freezing soil.)Google Scholar
Organov, M. G. O naledyakh v dolinakh rek Primor’ya i nekotorykh prichinakh ikh obrazovaniya . (In Sbornik materialov po voprosam sezonnoy merzlo y . Vladivostok, Dal’nevostochnyy Filial Akademii Nauk SSSR [Dal’nevostochnyy Division of the Academy of Sciences of the U.S.S.R.], 1957, p. 6770.) [Factors determining formation of ground icings or “naleds”.]Google Scholar
Wahrhaftig, C. Cox, A. Rock glaciers in the Alaska Range. Bulletin of the Geological Society of America, Vol. 70, No. 4, 1959, p. 383436. [Observations on structure and movement of rock glaciers.]Google Scholar

Meteorological and Climatological Glaciology

Adkins, C. J. Measurements of the atmospheric potential gradient on a Canadian glacier. Quarterly Journal of the Royal Meteorological Society, Vol. 85, No. 363, 1959, p. 6064. [Measurement of electric field strength during various meteorological conditions.]Google Scholar
Bashkirova, G. M. Krasikov, P. N. Nekotoryye mikrofizicheskiye kharakteristiki zimnikh angarskikh tumanov v rayone g. Irkutska . Trudy Glavnoy Geofizicheskoy Observatorii , Vyp. 73, 1958, p. 3749. [Results of studies of ice fogs.]Google Scholar
Gerdel, R. W. White-out in Greenland: cause and possibilities for control by weather modification. Eastern Snow Conference. Proceedings, Vol. 5, 15th meeting, Worcester, Mass., 1958, [pub.] 1958, p. 3145.Google Scholar
Hamilton, R. A. The meteorology of North Greenland during the midwinter period. Quarterly Journal of the Royal Meteorological Society, Vol. 84, No. 362. 1958, p. 35574. [Includes observations on drifting snow.]Google Scholar
Hamilton, R. A. The temperature gradient in the air above an ice sheet. Meteorological Magazine, Vol. 88, No. 1040, 1959, p. 3849. [Results of observations mainly at “Northice”, June and July 1953, by British North Greenland Expedition, 1952’54.]Google Scholar
Harker, G. S. Whiteout-a bibliographical survey. Bulletin of the American Meteorological Sociey, Vol. 40, No. 5, 1959, p. 22529.Google Scholar
List, R. Kennzeichen atmosphärischer Eispartikeln. 1. Teif: Graupeln als Wachstumszentren von Hagelkörner. —2. Teil: Hagelkörner. eitschrftfiir Angewandte Mathematik und Physik, Vol. ga, Fasc. 2, 1958, p. 18192; Fasc. 3, 1958, p. 217–34. [Results of experiments to study the process of growth and properties of large hailstones.]Google Scholar
Ludlam, F. H. The hail problem. Nubila (Verona), Vol. 1, No. I, 1958, p. 1296. [Theory of formation and growth of hailstones.]Google Scholar

Snow

Anisimov, M. I. Sneg i snezhnyye obvaly . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1958. 99 p. [Book on snow cover characteristics and their relation to avalanching based on observations in northern Russia near Murmansk.]Google Scholar
Aver’yanov, V. G. Dinamika snezhnogo pokrova na stantsii Vostok-I . Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii , No. 6, 1959, p. 1922. [Features of accumulation and drift noted in 1957.]Google Scholar
Chuter, I. H. Snow polygons. Weather, Vol. 14, No. 4, 1959, p. 13839. [Patterns observed on snow-drifts. Origin discussed.]Google Scholar
Dolgin, I. M. Rezul’taty, nablyudeniy nad snczhnym pokrovom na polyarnykh stantsiyakh 1936/37–1953/54 gg. . Trudy Arkticheskoga i Antarkticheskogo Nauthno-Issledovatel’skogo Instituta , Tom 227, 1959, 167 p. [Duration, thickness, density, water equivalent, at 95 Soviet polar stations.]Google Scholar
Elsner, R. W. Pruitt, W. O. jr. Some structural and thermal characteristics of snow shelters. Arctic, Vol. 12, No. 1, 5959, p. 2027.Google Scholar
Klinov, F. YA. Polyarnyy sneg . Izvestiya Akademii Nauk SSSR. Seriya Geofizicheskaya , 1958, No. 6, p. 79699. [Observations on snow crystals at temperatures below —401 C.Google Scholar
Kopanev, I. D. Ob osobennostyakh formirovaniya snezhnogo pokrova v Antarktide . Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii , No. 5, 1959; p. 3234.Google Scholar
Livshits, G. Sit. Yarkost’ bezoblachnogo neba pri snegovom pokrove . Izvestiya Astrofizicheskogo Instituta Akademii Nauk Kazakhskoy SSR , Tom 4, No. 5–6, 1957, p. 161218. [Results of experimental measurements on effect of snow cover on sky brightness.]Google Scholar
Nazarov, V. S. Snezhnyy smerch v Antarktike . Informatsionnyy Bynlieten’ Sovetskoy Antarkticheskoy Ekspeditsii , No. 5, 1959, p. 6465. [“Waterspout” of snow moo m. high seen near Dixson Island, King George V Land, February 1958.1Google Scholar
Nordman, A. F. Snöförhållanden och temperatur om hösten vid vinterns inträde och om våren dä snötäcket försvinner. Plus- och minus områden. Memoranda Societatis pro Fauna et Flora Fennica, 34, 1957–58 [pub. 1959], p. 93136. [Snow conditions and temperature in Finland in autumn at beginning of snow cover and in spring at its disappearance: significance for vegetation. German summary.]Google Scholar
Rapp, A. Om bergras och laviner i Alperna. γmer, Årg. 78, Ht. 2, 1958, p. 11231. [Discussion of rôle of avalanches in geomorphology in Alps and comparison with similar effects in Scandinavia.]Google Scholar
Roch, A. Rapport des recherches sur les ouvrages de protection contre les avalanches 1956–1957. Schweizerische Bauzeitung, jahrg. 76, Ht. 41, 1958, p. 60609. [Survey of recent Swiss research on avalanche countermeasures.]Google Scholar
Schrack, R. A. The electrostatic field and the symmetry of snowflakes. Journal of the Washington Academy of Sciences, Vol. 48, 1958, p. 27375, [Theory of development of snow flakes based on electrostatic field around surface.]Google Scholar
Shul’ts, V. L., and others. Nekotoryye voprosy usileniya tayaniya snega . Izvestiya Akademii Nauk UzSSR. Seriya Tekhnicheskikh Nauk , 1958, Vyp. 2, p. 6372. [Tests on efficacy of various materials spread on the surface.]Google Scholar
Vickers, W. W. Antarctic snow stratigraphy. Transactions. American Geophysical Union, Vol. 40, No. 2, 1959, p. 18184. [Includes profile of snow stratigraphy at Little America III, 1940–58.]Google Scholar
Vickers, W. W. Wind transport of Antarctic snow. Transactions. American Geophysical Union, Vol. 40, No. 2, 1959 p. 16267. [Similar to that of blowing sand; results of I.G.Y. studies.]Google Scholar
Williams, G. P. Evaporation from snow covers in eastern Canada. Eastern Snow Conference. Proceedings, Vol. 5, 15th meeting, Worcester, Mass., 1958, [pub.] 1958, p. 1830. [Method of measurement and results.]Google Scholar