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Glaciological Literature

Published online by Cambridge University Press:  30 January 2017

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Copyright © International Glaciological Society 1963 

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 snowploughs, 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

Apollonio, S. The Devon Island expedition 1960–64. Preliminary report for September 1961 to September 1962. Arctic, Vol. 15, No. 4, 1962, p. 317–21.CrossRefGoogle Scholar
Fitch, F. I. The University of London 1961 Beerenburg expedition. Nature, Vol. 194, No. 4829, 1962, p. 624–26. [Geology and glaciology.]CrossRefGoogle Scholar
Hattersley-Smith, G. Glaciology. Canadian Geophysical Bulletin, Vol. 14. 1961, p. 91104. [Summary of glaciological work carried out by Canadian organizations in 1961.]Google Scholar

Glaciological Instruments and Methods

Butyagin, I. P. Ledoreznaya mashina dlya ustroystva prorezcy v ledyanom pokrovye i prigotovleniya obraztsov . Trudy Transportno-Energeticheskogo Instituta . 1961, Vyp. 11, p. 107–10. [Power-driven saw for cutting samples from floating ice covers.]Google Scholar
Philberth, K. Remarque sur une sonde thermique pour mesurer la température des couches de glace. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences (Paris). Tom. 255, No. 22, 1962, p. 3022–24. [Modification of self-drilling temperature probe to obtain more rapid readings.]Google Scholar

Physics of Ice

Barnes, G. T. Sänger, R. An investigation into the mechanism of ice crystal nucleation by proton spin resonance spectroscopy. Zeitschrift für artgewandle Mathematik and Physik, Bd. 12, Ht. 2. 1961, p. 159–64. [Method indicating liquid or solid nature of adsorbed water layer on AgI and CuO.]CrossRefGoogle Scholar
Brill, R. The structure of ice. Angewandte Chemie International Edition in English, Vol. 1, No. 11, 1962, p. 563–67. [Review of crystallography of ice and the formation of mixed crystals with NH4F.]CrossRefGoogle Scholar
Butyagin, I. P. Prochnost’ ledyanogo pokrova v ledovykh nagruzkakh na gidrosooruzheniya . Trudy Transportno-Energeticheskogo Instituta , 1961. Vyp. 11. p. 2548. [Laboratory tests on compressive, bending and shear strength.]Google Scholar
Danford, M. D. Levy, H. A. The structure of water at room temperature. Journal of the American Chemical Society, Vol. 84, No. 20, 1962, p. 3965–66. [X-ray diffraction study indicating ice-like structure of water.]CrossRefGoogle Scholar
Gissler, W., and others. Untersuchung des Neutronenstreuquerschnittes von schweren Eis in der Umgebung der Braggschen Grenzwellenlänge. von W. Gissler. C. Reinsch. T. Springer. W. Wiedemann. Zeitschrift für Kristallographie. Bd. 116. Ht. 3–6, 1961, p. 328–44. [Study of neutron scattering from D2O gives results consistent with Pauling’s model for ice structure.]CrossRefGoogle Scholar
Head, R. B. Ice nucleation by α-phenazinc. Nature. Vol. 196, No. 4856. 1962. p. 736–38. [Compound comparable with AgI as ice nucleator.]CrossRefGoogle Scholar
Head, R. B. Ice nucleation by some cyclic compounds. Physics and C,hentislry of Solids, Vol. 23, October 1962, p. 1371–78. [Discussion of nature of organic compounds which act as ice nuclei.]CrossRefGoogle Scholar
Jellinek, H. H. G. Lee adhesion. Canadian Journal of Physics, Vol. 40. No. 10, 1962, p. 12941309. [Results of shear tests on ice—stainless steel and ice—fused quartz interfaces.]CrossRefGoogle Scholar
Jellinek, H. H. G. Plastic deformation of thick-walled snow-ice cylinders under hydrostatic pressure. Canadian Journal of Physics, Vol. 40, No. 10, 1962, p. 1310–18. [Results of tests on hollow cylinders subjected to external pressure.]CrossRefGoogle Scholar
Koptev, A. P. Pyatenkov, B. A. O pogloshchenii i proniknovenii solnechnoy radiatsii y sneg i led v Arktiki . Problemy. Arktiki i Anlarkliki. Vyp. 10, 1962, p. 7176. [Measurements at Mys Sterlegova, 1949–50. and at drifting station SP-6, 1958–59.]Google Scholar
Madonna, L. A., and others. Low temperature cloud chamber studies on water vapour, by L. A. Madonna. C. M. Sciulli. L. N. Canjar. G. M. Pound. Proceedings of the Physical Society (London), Vol. 78, No. 505, 1961. p. 1218–22. [Study of homogeneous nucleation of water vapour from 0° C. to−75° C.]CrossRefGoogle Scholar
Power, B. A. Power, R. F. Some amino-acids as ice nucleators. Nature, Vol. 194, No. 4834, 1962, p. 1170–71. [Experiments show four of these organic compounds to be active above −10° C.]CrossRefGoogle Scholar
Ratcliffe, E. H. The thermal conductivity of ice: new data on the temperature coefficient. Philosophical Magazine, Eighth Ser., Vol. 7, No. 79, 1962, p. 11971203. [Results from 0° C. to −180° C.]CrossRefGoogle Scholar
Williams, G. P. Evaporation from water, snow and ice. National Research Council of Canada. Associate Committee on Geodesy and Geophysics. Proceedings of Hydrology Symposium No. 2, Toronto. March 1961, [1962], p. 3154. [Review, emphasizing differences between water, snow and ice.]Google Scholar
Zajac, A. Degree of perfection of ice crystals determined from primary and secondary X-ray extinctions. Journal of Applied Physics, Vol. 33, No. 6, 1962, p. 2059–61. [Experiments on crystals from Mendenhall Glacier, Alaska, to deduce their sub-grain structure and misorientation.]CrossRefGoogle Scholar

Land Ice. Glaciers. Ice Shelves

Akademiya Nauk Kazakhskoy SSR. Otdel Geografii. MezManarodnyy Geoflzicheskÿ God. Clyatsiologicheskiye issledovaniya v period MGG: Zailiyskiy i Dzhungarskiy Alatau . Vyp. 2. Alma-Ata, Izdatel’stvo Akademii Nauk Kazakhskoy SSR [Publishing House of the Academy of Sciences of the Kazakh SSR], 1962. 209 p. [Second volume of papers on results of I.G.Y. studies in Zailiyskiy and Dzhungarskiy Alatau, Kazakhstan.]Google Scholar
Avsyuk, G. A. Iskusstvennoye usileniye tayaniya gornykh lednikov s tsel’yu uvelicheniya stoka rek sredncy Azii . Izvesliya Akademii Nauk SSSR. Seriya Geugrafti . 1962, No. 5, p. 8389. [Soviet and Chinese experiments reported. Future research outlined.]Google Scholar
Behrendt, J. C., and others. Results of a geophysical traverse from Mount Murphy to the Hudson Mountains, Antarctica, by J. C. Behrendt, T. S. Laudon and R. J. Wold. Journal of Geophysical Research, Vol. 67, No. 10, 1962, p. 3973–80. [Results on ice depth and bedrock geology, Marie Byrd Land.]CrossRefGoogle Scholar
Ch’ui, Chih-Chiu. Mu-shih-t’a-ko—Kung-ko-er ping ch’uan ti mou hsüeh t’e tien chi ch’i kai fa li yung ti t’iao chien . Ti-Ii Hsüeh-pao , Vol. 26, No. 1, 1960, p. 35944. [Description of glaciers of Murtagh and Kungur mountains and of their possible use for irrigation.]Google Scholar
Davey, A. Changes in Blue Glacier, Mount Olympus, Washington. Ohio State University. Institute of Polar Studies. Report, No. 1, 1962, [i], 12 p. (RF Project 1278.) [Preliminary report, including maps of changes 1939–52 and 1952–57, with data.]Google Scholar
Fristrup, B. Overvintringsstationer på indlandsisen. Cronland, 1962, No. 7, p. 255–65; No. 8, p. 298–304; No. 9, p. 321–34. [Review of expeditions which have wintered on the Greenland Ice Sheet.]Google Scholar
George, D. -J. The Gornergletseher glaciological expedition, 1959–60. Weather, Vol. 17, No. 5, 1962, p. 162–67. [Work during May June 1960.]CrossRefGoogle Scholar
Gunn, B. M. Warren, G. Geology. 4. Geology of Victoria Land between the Mawson and Mulock glaciers, Antarctica. Trans-Antarctic Expedition, 1955–1958. Scientjic Reports, No. 11, 1962, 157 p[Includes chapter on glaciology. Also published as Geological Survy of New Zealand. Bulletin 71.]Google Scholar
Kartashov, S. N. Fiziko-mekhanicheskiye svoystva i protsessy formirovaniya snezhna-flrnovogo pokrova vostochnoy Anlarktidy . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House ofthe Academy of Sciences of the U.S.S.R.], 1962. 107p. [Results of field and laboratory work during Second Soviet Continental Expedition to Antarctica, 1956–58.]Google Scholar
Kizaki, K. Icefabric studies on Hamna Ice Fall and Honhörbrygga Glacier, Antarctica. Antarctic Record, No. 16, 1962, p. 5474. [In English with Japanese abstract.]Google Scholar
Knizhnikov, Yu. F. Izmenyayetsya li skorost’ dvizheniya lednika na protyazhenii sutok Vestnik Moskovskogo Universiteta. Seriya 5. Geografiya , Tom 16, No. 5, 5961, p.7172. [Hourly measurements on the Irik glacier (Caucasus) show no change In rate.]Google Scholar
Kopanev, I. D. O rolI ispareniya v Antarktide . Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 33, 1962, p. 3234.Google Scholar
Kotlyakov, V. M. Pitaniye shel’fovykh lcdnikov Antarktidy i nekotoryye problemy ikh proishkozhdcniya . (In Akademiya Nauk SSSR. Institut Geogralii. Mezhduvedomstvennyy Komitet po Provedeniyu MGG. Issledovaniya lednikov i lednikovvkh rayonov . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], Vyp. 1, 1965, p. 522.) [General discussion on basis of Soviet and other I.G.Y. results.]Google Scholar
Kruchinin, Yu. A. Izucheniye stratigrafii verkhnikh sloyev snezhno-firnovoy tolshchi shel’fovogo lednika Lazareva . Inforrnatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii , No. 32, 1962, p. 1924. [Results from pits sunk in 1 959.]Google Scholar
Kruchinin, Yu. A. Mikrorel’yef snezhnoy povcrkhnosti shel’fovogo lednika Lazareva . Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 33, 1962, p. 2731. [Study of saslrugi in Dronning Maud Land.]Google Scholar
Lister, H. Heat and mass balance at the surface of the Ward Hunt Ice Shelf, 1960. Arctic hutitute of North America. Research Paper No. 19, 1962, viii, 54 p. [Results of mierometeorological study of heat balance and ablation.]Google Scholar
Loewe, F. Beiträge zum Massenhaushalt des antarktischen Inlandcises. Petermann Geographische Mitteilungen, Jahrg. 105, Quartalsheft 4, 1961, p. 269–74. [Observations on mass balance of Antarctic ice cap. Mass budget shows net gain.]Google Scholar
Loewe, F. Fortschritte in der physikalisch-geographischen Kenntnis der Antarktis. Erdkunde, Bd. 15, Ht. 2, 1961, p. 8192. [Review of current state of knowledge of Antarctica.]CrossRefGoogle Scholar
Loewe, F. On the mass economy of the interior of the Antarctic ice cap. Journal of Geophysical Research, Vol. 67, No. 13, 1962, p. 5171–77. [Discussion of mass balance of inner parts of Antarctic Ice Sheet.]CrossRefGoogle Scholar
Marcinkiewicz, A. Die zahlenmässige Erfassung des Gletscherrückganges während der Periode 1936–1958 an 2 Westspitzbergen-Gletschern. Bulletin de l’Académie Polonaise des Sciences. Série des Sciences Géologiques et Géographiques, Vol. 9, No. 4, 1961, p. 233–37. [Retreat and variations in thickness of two glaciers in Vestspitsbergen.]Google Scholar
Mercer, J. H. Glacier variations in the Andes. Glaciological Notes’, No. 12, 1962, p. 931. [Review of recent evidence and discussion of reasons for variations.]Google Scholar
Mercer, J. H. Glacier variations in New Zealand. Glaciological Notes, No. 12, 1962, p 33–44. [Review of knowledge.]Google Scholar
Nakano, T., and others. Some information on the glaciers and geology in the vicinity of Ongul Island, by T. Nakano. T. Koji, Y. Harada. Anlarclic Record, No. 10, 1960, p. 3236. [Study based on aerial photographs.]Google Scholar
Philberth, K. Écoulement de la glace groenlandaise. Revue de Géomorphologie Dynamique, An. 13, Nos. 1–3, 1962. p. 18– 25. [Review of state of knowledge on movement of Greenland Ice Sheet and suggestion for measuring temperature of lower layers.]Google Scholar
Ricker, K. Polar ice-dammed lakes. Canadian Alpine Journal. Vol. 45, 1962, p. 149–51. [Various types on Axel Heiberg Island, 1960.]Google Scholar
Rist, S. Rannsóknir á Vatnajökli 1960, Hitamalingar, snjómælingar o.fl. Jökttll. Ár 11, 1961, p. 111. [Investigations on Vatnajökull in 1960. Ice temperature, topographic and gravimetric surveys, 1959–60 winter accumulation. percolation of melt water. ablation 1960, snow stakes. English summary.]Google Scholar
Robin, G. de Q. The ice of the Antarctic. Scientific American, Vol. 207, No. 3, 1962, p. 132–46. [Techniques of measuring thickness of ice sheet: problems of accumulation and ablation.]CrossRefGoogle Scholar
Schmidt, R. A. Rate of spherule deposition on the Antarctic ice cap. Journal of Geophysical Research, Vol. 68, No. 2. 1963, p. 601–02. [Analysis of results.]CrossRefGoogle Scholar
Tangborn, W. V. Glaciological investigations on South Cascade Glacier. Mountaineer, Vol. 55, No. 4, 1962, p. 2432. [Description of methods employed in studying budget of this glacier.]Google Scholar
Tsomaya, V. Sh. K. voprosu o dvizhenii lcdnikov Kavkaza . Trudy Tbilisskogo Nauchno-Issledovatel’ skoga Gidrometeorologicheskogo Institute . Vyp. 7, 1960. p. 133–40. [Studies on two glaciers of variation of flow on surface of glacier and on seasonal changes in velocity.]Google Scholar
Tsukernik, V. B. Novyye dannyye o podlednom rel’yefe tsentral’nogo sektora vostochnoy Antarktidy po seysmo gravimetricheskim materialam . Informatsionnyy Byulleten’ Sovetskoy Antarklicheskoy Ekspeditsii, No. 32. 1962, p. to 14. [Region between Minty and lat. 80° S.]Google Scholar
Tsykin, Ye. N. Prikhod veshchestva v firnovykh zonakh lednikov (metod izucheniya s pomoshch’yu termozondirovaniya) . Rezul’taty Issledovaniy po Programme Mezhdunarodnogo Ceofizkheskogo Goda. Glyatsiologiya. IX Razdel Programmy MGG , No. 8, 1962, 95 p. [Method of calculating mass increase from temperatures. Results compared with those by other methods for some Tien Shan glaciers.]Google Scholar
Zabirov, R. D. Knizhnikov, Yu. F. Fototeodolitnaya s”emka lednikor Tyan’-Shanya v period MCC . Frunze, lzdatel’stvo Akademii Nauk Kirgizkoy SSR [Publishing House of the Academy of Sciences of the Kirgiz S.S.R.], 1962. 100 p. [Results for 24 glaciers.]Google Scholar

Icebergs. Sea. River and Lake Ice

Karwowski, J. Influence of waves on the movements of ice floes and icebergs. Bulletin de l’Académie Polonaise des Sciences. Série des Sciences Techniques. Vol. 10, No. 7, 1962, p. 437–40. [Laboratory model experiments.]Google Scholar
MacPherson, J. D. Some under-ice ambient noise measurements. Journal of the Acoustical Society of America. Vol. 34. No. 8. 1962, p. 1149–50. [Measurements of acoustic noise below sea ice.]CrossRefGoogle Scholar
Meguro, H. Plankton ice in the Antarctic Ocean. Antarctic Record, No. 14. 1962. p. 7279. [Brown sea ice analysed and process of formation discussed.]Google Scholar
Nazarov, Y. S. L’dy antarkticheskikh vod . Rezul’taly Is.sledovaniy po Programme Mezhdunarodnogo Geofizicheskogo Goda. Okeanologiya. X Razdel Programmy MGG , No. 6, 1962, 79 p. [Summary of distribution and behaviour of floating ice in Southern Ocean. based on data 17731960.]Google Scholar
Serikov, M. I. Izuchrniyc fiziko-mekhanichcskikh svoystv morskikh Tdov . Trudy Sonetskoy Antarklicheskoy Ekspeditsii . Tom 20, 1962. p. 155–64. [Laboratory studies aboard Ob’ during cruise in Southern Ocean, 1958–59.]Google Scholar
Smetannikova, A. V. Teploobmen mezhdu nkmanom i atmosferoy y Arktike v zimniy period . Trudy Arkticheskogo i AnfarkIirheskogo Nauchno-Issledovatel’skogo Instituta , Tom 229, 1961. p. 175–20. [Methods of calculating heat exchange through ice and snow covers.]Google Scholar
Suzuki, Y. Nankyoku chiki kansoku kaihyō chōsa hōkoku . Antarctic Record, No. 13, 1961, p. 2945.Google Scholar

Glacial Geology

Keller, W. D. Reesman, A. L. Glacial milks and their laboratory-simulated counterparts. Geological Society of America Bulletin, Vol. 74. No. 1, 1963, p. 6176. [Laboratory study of water from glacier outlet streams.]CrossRefGoogle Scholar
Liestøl, O. Discovery of a tree stump in front of Engabreen, Svartisen. Norsk Polarinstitutt. Årbok, 1960 [pub. 1962]. p. 6465. [Age of Betula odorata stump indicates glacier advance about A.D. 1600, Nordland. north Norway.]Google Scholar
Lundqvist, G. Beskrivning till karta över landisens aysmältning och högsta kustlinjen i Sverige. Sveriges Geologiska Undersökning. Avhandlingar och Uppsatser, Ser. Ba. No. 18. 1961, 148 p. [Text and description to accompany map, published simultaneously in three sheets on scale of 1 : 1,000,000, showing outline of deglaciation and highest shore line in Sweden. English summary.]Google Scholar
Möller, H. Annuella och interannurlla ändmoräner. Geologiska Föreningens i Stockholm Förhandlingar, Bd. 84. Ht. 2, No. 509, 1962. p. 134–43. [Investigations in and around Stockholm of presumed annual and inter-annual end moraines thought to have been built up at calving ice front. English summary.’CrossRefGoogle Scholar
Nichols, R. L. Geologic features demonstrating aridity of McMurdo Sound area, Antarctica. American Journal of Science, Vol. 261, No. 1, 1963, p. 2031.CrossRefGoogle Scholar

Frost Action on Rocks and Soil. Frozen Ground. Permafrost

Ananyan, A. A. Mekhanizm l’dovydeleniya v mcrzlykh gruntakh v protsesse elektroosmosa , Vestnik Moskorskogo Universiteta. Seriya Matematiki, Mekhaniki. Astronmii, Fiziki, Khimii , Tom 14, No. 4, 1959, p. 149–51. [Study of ice formation in frozen ground subjected to an electric field.]Google Scholar
Csathy, T. I. Townsend, D. L. Pore size and field frost performance of soils. Bulletin. [U.S.] Highway Research Board, No. 331, 1962, p. 6780. [Importance of pore-size distribution in determining frost susceptibility of soils.]Google Scholar
Grave, N. A., ed. Mnogoletnemerzlyye parody i sopulstvuyushchiye im yacleniya na territorii Takutskoy ASSR . Moscow. Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.]. 1962. 128 p. [Collected papers on permafrost phenomena.]Google Scholar
Haas, W. M. Frost action theories compared with field observations. Bulletin. [U.S.] Highway Research Board, No. 331, 1962, p. 8197. [Discussion, p. 9597.]Google Scholar
Hamelin, L. E. Périglaciaire du Canada: idées nouvelles et perspectives globales. Cahiers de Géographie de Québec, 5e An., No. 10, 5961, p. 141–20. [Survey of periglacial studies and conditions. Includes glossary of new terms and English abstract.]Google Scholar
Ivanova, T. F. Geokriologicheskoye rayonirovaniye territorii Yevropeyskogc severa . Trudy Serernogo Otdeleniya Instituta Merzlatovedenya . Vyp. 2, 1962, p. 1317.Google Scholar
Jumikis, A. R. Experimental study on soil moisture transfer in the film phase upon freezing. Bulletin. [U.S.] Highway Research Board, No. 331, 1962, p. 2127. [Measurements of streaming potentials and amount of moisture transferred during freezing of various soils.]Google Scholar
Jumikis, A. R. Vapor diffusion in freezing soil systems of very large porosities. Bulletin. [U.S.] Highway Research Board, No. 331, 1962, p. 2845. [Experimental results on movement of water vapour during soil freezing.]Google Scholar
Lachenbruch, A. H. Mechanics of thermal contraction cracks and ice-wedge polygons in permafrost. Geological Society of America. Special Papers, No. 70, 1962, p. 169. [Theoretical study of mechanics of formation of cracks in permafrost.]Google Scholar
Müller, F. Analysis of some stratigraphie observations and radiocarbon dates from two pingos in the Mackenzie Delta area, N.W.T. Arctic, Vol. 15, No. 4, 1962, p. 278–88.CrossRefGoogle Scholar
Serpolay, R. Toye, M.-J. Reproduction en laboratoire du phénomène naturel de formation d’aiguilles de glace à la surface de sols nus et humides. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences (Paris), Tom. 255, No. 19, 1962, p. 2465–67. [Laboratory reproduction of conditions necessary for forming ice crystals on a soil surface.]Google Scholar

Meteorological and Climatological Glaciology

Cigna, A. A. Ricerche di meteorologia ipogca nee Gruppo delle Grigne (Lombardia). Alti della Society Italiana di Science Naturali e del Museo Civico di Scoria Naturale in Milano, Vol. 99, Ease. 1, 1960, p. 87104. [Temperature measurements and regimes in a series of potholes in the Italian Alps to the cast of Lake Como, some of which contain snow throughout the summer and some of which contain permanent ice. Studies of rate of ablation in some caves and of effect of snow and ice upon circulation in the caves.]Google Scholar
Facy, L. Conditions de formation de la grelc déduites du rapport deutérium hydrogène. Geofisica e Meteorologia. Vol. 10, Nos. 1–2, 1962. p. 15. [Suggested method using deuterium: hydrogen ratio for determining hailstone trajectories.]Google Scholar
Hanson, K. J. Some aspects of the thermal energy exchange on the South Polar snow field and Arctic ice pack. Monthly Weather Review, Vol. 89, No. 5, 1961, p. 173–77. [Radiation studies at South Pole and on a floating station in Arctic Ocean.]2.0.CO;2>CrossRefGoogle Scholar
List, R. Hail test tunnel. Weather, Vol. 17, No. 10, 1962, p. 317–19. [Description of this piece of equipment and of research done with it.]CrossRefGoogle Scholar
List, R. Über einen Einfluss des AgJ auf den atmosphärischen Vereisungsprozess. Zeitschrift fur angewandte Mathematik und Physik, Bd. 12, Ht. 5, 1961, p. 474–76. [Study using hail tunnel.]CrossRefGoogle Scholar

Snow

Bellair, P. Poisson, A. La chute dc neige colorée du 16 avril 1962 clans les Alpes. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences (Paris), Tom. 255, No. 20, 1962. p. 2626–28. [Analysis of this coloured snow showed it to be highly radioactive. Suggests origin in nuclear explosion.]Google Scholar
Heine, A. J. Snow structure at Mount Ruapehu. New Zealand. Journal of Geology and Geophysics, Vol. 5, No. 3, 1962, p. 375–83. [Measurements on New Zealand ski fields give densities more like those in Antarctic than in the Alps.]CrossRefGoogle Scholar
Higuchi, K. A case study of snowfall from clouds under subsidence inversion. Journal of the Meteorological Society of Japan, Ser. 2, Vol. 40, No. 2, 1962, p. 6572. [Study of snow crystal forms and correlation with conditions of formation.]Google Scholar
Kopp, M. Conductivité électrique de la neige, au courant continu. Zeitschrift für angewandte Mathematik und Physik, Bd. 13, Ht. 5, 1962, p. 431–41. [Measurements for various temperatures and densities and interpretation of results.]CrossRefGoogle Scholar
Magono, C. Kishōgaku teki na yuki no kesshō no bunrui . Seppyō, Vol. 24, No. 2, 1962, p. 15. [Elaboration of Nakaya’s classification.]Google Scholar
Matveyev, A. A. Khimicheskiy sostav snega na profile Mirnyy-Vostok . Cidrokhimicheskiye Materialy , Tom 34, 1961, p. 311. [Analysis of snow and interpretation of results.]Google Scholar
Pavlov, A. V. Nekotoryye voprosy teplofiziki snczhnogo pokrova . (In Teplovoy balans lesa i polya . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1962, p. 186–20.) [Discussion of role of water vapour in heat transfer in a snow cover. Includes experimental measurements of vapour diffusion.]Google Scholar
Pavlov, A. V. Rauner, Yu. L. Teplovoy balans snezhnogo pokrova i ogolennoy pochvy v kontse zimy v Podmoskov’ye . (In Teplovoy balans lesa i palra . Moscow, Izdatel’stvo Akademii Nauk SSSR [Publishing House of the Academy of Sciences of the U.S.S.R.], 1962, p. 163–85.) [Experimental determination.]Google Scholar
Rubin, M. J. Giovinetto, M. B. Snow accumulation in central west Antarctica as related to atmospheric and topographic factors. Journal of Geophysical Research, Vol. 67, No. 13, 1962, p. 5163–70.CrossRefGoogle Scholar
Wegener, K. Die Verdunstung im Schnee Grönlands. Geofisica Pura e Applicata, Vol, 52, No. 2, 1962, p. 227–28. [Study of Sorge’s depth-density data leads to deduction that evaporation from snow is not merely a surface phenomenon.]CrossRefGoogle Scholar
Yen, Y. C. Heat transfer by vapor transfer in ventilated snow. Journal of Geophysical Research, Vol. 68, No. 4, 1963. p. 10931100. [Method for determining diffusivity of water vapour through snow. Results used to estimate contribution to heat transfer.] The next issue of the Journal will be published in February 1964.CrossRefGoogle Scholar