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Glaciological Literature

Published online by Cambridge University Press:  30 January 2017

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Copyright © International Glaciological Society 1971

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

Conferences

Van Zinderen Bakker, E.M. sr., ed. Palaeoecology of Africa and of the surrounding islands and Antarctica. Vol. 5. International Council of Scientific Unions. Scientific Committee on Antarctic Research. Conference on Quaternary Studies held at the Scott Polar Research Institute, Cambridge, England, 24-27 July 1968. Cape Town, Balkema, A.A., 1969. xiv, 240 p. [Contents: L. M. Cranwell, “Palynological intimations of some pre-Oligocene Antarctic climates”, p. 119; Lamb, H.H, “Investigation of the climatic sequence: a meteorological-empirical approach”, p. 2163;Linton, D.L., “The abandonment of the term “periglacial “, p. 6570; Linton, D.L., “Evidence of Pleistocene cryonival phenomena in South Africa”, p. 7189;Wilson, A.T., “Ice age theories and Antarctica”, p. 9196; Wilson, A.T., “Chemistry and the Quaternary in the Antarctic”, p. 97108; Hollin, J.T., “The Antarctic ice sheet and the Quaternary history of Antarctica”, p. 109–38;Hays, J.D., “Climatic record of Late Cenozoic Antarctic ocean sediments related to the record of world climate”, p. 139–63;Bellair, P., “Données actuelles sur les Archipels des Crozet et des Kerguelen”, p. 165–73; van Zinderen Bakker, E.m., Sr., “Quaternary pollen analytical studies in the southern hemisphere with special reference to the sub-Antarctic”, p. 175212;Wace, N.M., “The terrestrial biogeography of Antarctica”, p. 213–38; van Zinderen Bakker, E.M., Sr., and Holdgate, M.W., “Proposals for future Quaternary studies in the Antarctic”, p. 239-40.]Google Scholar

Glaciological Instruments and Methods

Alkezweeny, A. J. The millipore filter technique for ice nuclei measurement. Journal of Applied Meteorology, Vol. 9, No. 5, 1970, p. 796–99. [Investigation of this method.]2.0.CO;2>CrossRefGoogle Scholar
Bogorodskiy, V. V. ed.Radiofizicheskiye metody v issledovaniyakh Severncgo Ledovitogo Okeana i Antarktiki [Radiophysical methods in studies of the Arctic Ocean and the Antarctic]. Trudy Arkticheskogo i Antarkticheskogo .Nauchno-Issledovatel’skogo Instituta, Tom 284, 1968, 216 p. [Includes radio-echo sounding of land ice and radar tracking of sea ice movement. English translation: Radiophysical methods of research in the Arctic Ocean and Antarctica. Jerusalem, Israel Program for Scientific Translations, 1970. v, 212 p. (Published for the National Science Foundation, Washington, D.C.)]Google Scholar
Catchpole, A. J. W.,. Content analysis: a method for the identification of dates of first freezing and first breaking from descriptive accounts, by Catchpole, A.J.W.,Moodie, D.W.,Kaye, B..Professional Geographer, Vol. 22, No. 5, 1970, p. 252–57. [Method described and discussed for extracting quantitative data on environmental conditions from historical accounts.]CrossRefGoogle Scholar
Hobbs, P. V. Comparison of ice nucleus concentrations measured with an acoustical counter and Millipore filters. Journal of Applied Meteorology, Vol. 9, No. 5, 1970, p. 828–29. [Comparison between two techniques reveals wide discrepancies.]2.0.CO;2>CrossRefGoogle Scholar
Parshin, V. N. O popravkakh k izmerennym znacheniyam tverdykh osadkov [Corrections to measured values of solid precipitation]. Meteorologiya i Gidrologiya, 1970, No 7, p. 9299. [Critical analysis of methods of calculating correction factors.]Google Scholar
Parungo, F. P. Rhea, J. O. Field use of a simple technique for identifying silver iodide particles as snow crystal nuclei. Journal of Applied Meteorology, Vol. 9, No. 4, 1970, p. 651–56. [Method of identifying those AgI particles in ice crystals that have acted as nuclei.]2.0.CO;2>CrossRefGoogle Scholar
Romanov, A. A. Ulitin, V. I. O prostranstvennoy izmenchivosti tolshchiny antarkticheskogo pripaya I vysoty snezhnogo pokrova [Spatial variability of the thickness of Antarctic fast ice and of snow cover]. Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 76, 1970, p. 3742. [Technique of making observations.]Google Scholar
Schmidt, R. A. Sommerfeld, R. A. A photoelectric snow particle counter. Proceedings of the Western Snow Conference, 37th annual meeting, 1969, p. 8891. [Instrument for measuring mass concentration of snow at several heights above snow surface. Tests not yet complete.]Google Scholar
Shannon, W. G. Snow surveying by electronic telemetry. Proceedings of the Western Snow Conference, 36th annual meeting, 1968, p. 9598. [Describes briefly some systems now in operation.]Google Scholar
Tarble, R. D. California Federal-State snow sensor investigations, problems and rewards. Proceedings of the Western Snow Conference, 36th annual meeting, 1968, p. 106–09. [Discusses results of tests on various sizes of robber pillows, metal disks, and platforms.]Google Scholar
Vershinina, L. K. Dimaksyan, A. M. , ed. Issledovaniya metodov, apparatury i tochnosti opredeleniya zapasov vody v snezhnom pokrove [Study of methods, instruments and accuracy in determining water content of snow cover]. Trudy Gosudarstvennogo Gidrologicheskogo Instituta, Vyp. 178, 1969, 174 p. [Collected papers on use of airborne gamma survey method.]Google Scholar

Physics of Ice

Battan, L. J. ,. Attenuation of microwaves by wet ice spheres, by Battan, L.J.,Browning, S.R.,Herman, B.M..Journal of Applied Meteorology, Vol. 9, No. 5, 1970, p. 832–34. [Data for wavelengths 3.21, 5.5 and 10.0 cm.]2.0.CO;2>CrossRefGoogle Scholar
Bogorodskiy, V. V. ed. Fizika l’da [Physics of ice]. Trudy Arkticheskogo i Antarkticheskogo Nauchno-Issledovatel’skogo Instituta, Tom 295, 1970, 189 p. [Dielectric, optical and acoustic properties of land and sea ice, largely from point of view of using echo-sounding techniques.]Google Scholar
Davy, J. G. Miller, K. W. The diffusion of helium through ice. Solid State Communications, Vol. 8. No. 18, 1970, p. 1459–61. [Measurement of diffusion coefficient parallel to c-axis.]CrossRefGoogle Scholar
Dekyagin, B. V. Superdense water. Scientific American, Vol. 223, No. 5, 1970, p. 5264, 6971. [Review of reasons for believing in polywater. Includes data on melting of ice in presence of polywater-water solutions.]Google Scholar
Edwards, G. R. ,. Nucleation of ice by mechanical shock, [by] Edwards, G.R.,Evans, L.F.,Hamann, S.D..Nature, Vol. 223, No. 5204, 1969, p. 390–91. [Study of effect of shock waves on supercooled droplets shows no nucleation without solid particles.]CrossRefGoogle Scholar
Fletcher, N. H. On contact nucleation. Journal of the Atmospheric Sciences, Vol. 27, No. 7, 1970, p. 1098–99. [Possibility that dry nucleus may cause freezing of a water droplet impacted upon it at temperature above that for freezing or direct contact deposition.]2.0.CO;2>CrossRefGoogle Scholar
Friedman, I. Smith, G. I. Deuterium content of snow cores from Sierra Nevada area. Science, Vol. 1969, No 3944, 1970 p 467–70. [Observed variations and their use as climatic indicator.]CrossRefGoogle Scholar
Gitlin, S. N. Shock waves and freezing. Journal of Applied Meteorology, Vol. 9, No. 4, 1970, p. 716–17. [Suggests cavitation is necessary for a disturbance to nucleate supercooled water.]2.0.CO;2>CrossRefGoogle Scholar
Hardy, S. C. Coriell, S. R. Morphological stability of ice cylinders in aqueous solution. Journal of Crystal Growth, Vol. 7, No. 2, 1970, p. 147–54. [Stability of shape of cylindrical ice crystals growing in HCl and other solutions.].CrossRefGoogle Scholar
Hase, H. Kevan, L. Scavenger effects on electrons produced by γ rays and photoionization in alkaline ices at 77°K. Journal of Physical Chemistry, Vol. 74, No. 18, 1970, p. 3358–61. [Study of effect of acrylamide on electron trapping in irradiated ice.]CrossRefGoogle Scholar
Huffman, P. J. Polarization of light scattered by ice crystals. Journal of the Atmospheric Sciences, Vol. 27, No. 8, 1970, p. 1207–08. [Measurement in laboratory cold chamber shows no measurable spectral variation.]2.0.CO;2>CrossRefGoogle Scholar
Jancso, G. ,. The vapor pressure of ice between +10-2 and -10+20 , by Jancso, G.,Pupezin, J.,Van Hook., W.A. Journal of Physical Chemistry, Vol. 74, No. 15, 1970, p. 2984–89. [New experimental data used to verify a new thermodynamic equation.]CrossRefGoogle Scholar
Kamp, W. B. Superheated ice. Science, Vol. 169, No. 3952, 1970, p. 1343–44. [Discussion of experiment reported by Schubert, G.,Lingenfelter, R.E., ibid., Vol. 168, No. 3930, 1970, p. 469–70.]CrossRefGoogle Scholar
Katayama, K. Hayashi, Y. Heat and mass transfer in the sublimation of ice (2nd report). Bulletin of JSME [Japan Society of Mechanical Engineers], Vol. 13, No. 58, 1970, p. 583–90. [Mechanisms of mass transfer in the three rate-determining steps of ice sublimation.]CrossRefGoogle Scholar
Katayama, K. ,. Researches on heat and mass transfer by sublimation of ice, by Katayama, K.,Hayashi, Y.,Kimura, T..Bulletin of JSME [Japan Society of Mechanical Engineers), Vol. 12, No. 50, 1969, p. 257–64. [Rate of sublimation of ice measured and found to be governed by three different processes in three pressure ranges.]CrossRefGoogle Scholar
Kitahara, T. ,. Kōri no kōdo sokutei ni tsuite—toku ni sukeeto kyōgi no tame ni [Hardness measurements of ice in a laboratory and skating rinks]. [By] Kitahara, T.,Kawamura, T.,Kobayashi, T..Teionkagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 289–93. [Modified Rockwell hardness tests on ice. English summary, p. 293.]Google Scholar
KvajiĆ, G. BrajoviĆ, V. Nucleation of parasite crystals in constitutionally supercooled water on the surface of growing ice. Canadian Journal of Physics, Vol. 48, No. 18, 1970, p. 2188–91. [Observation of nucleation ahead of ice growing vertically upwards or downwards.]CrossRefGoogle Scholar
Lavrov, V. V. Deformatsiya I prochnost’ l’da [Deformation and strength of ice]. Leningrad, Gidrometeorologicheskoye Izdatel’stvo, 1969. 206 p. [Structure, behaviour of ice under load, mechanical properties and shape.]Google Scholar
Lefebre, V. The pseudo melting potential effect. Journal of Colloid and Interface Science, Vol. 33, No. 4, 1970, p. 572–77. [No potential developed when ice with NH4+ or Cl- ions in it melts, but potential develops when melting stops.]CrossRefGoogle Scholar
Majoube, M. Fractionation factor of 18O between water vapour and ice. Nature, Vol. 226, No. 5252, 1970, p. 1242. [Letter. Determination between — 33.4°C and 0°C.]CrossRefGoogle Scholar
Mascarenhas, S. Charge and polarization storage in solids. Radiation Effects, Vol. 4, Nos. 3–4, 1970, p. 263–70. [Studies of Costa Ribeiro effect, electrets and ferroelectricity in ice.]CrossRefGoogle Scholar
Miller, R. D. Ice sandwich: functional semipermeable membrane. Science, Vol. 169, No. 3945, 1970, p. 584–85. [Possibility of using ice between two filters as a semipermeable membrane for e.g. purifying water.]CrossRefGoogle ScholarPubMed
Mizuno, Y. Kuroiwa, D. Autoradiography de kansatsu shita kōri no naka no fujunbutsu no henseki [Solute segregation in ice observed by autoradiography]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 4145. [Use of radioactive tracers to see where NaCl or HCl appear when dilute solutions are frozen. English summary, p. 61.]Google Scholar
Otto, A. Lynch, M. J. Characteristic electron energy losses of solid benzene and ice. Australian Journal of Physics, Vol. 23, No. 4, 1970, p. 609–12. [Measurement of loss of energy of 1150 eV electrons in ice.]Google Scholar
Pernikova, T. E. ,. Kinetics of polaron decay in the pulse radiolysis of crystalline ice, [by] Pernikova, T.E. Kabakchi, S.A.,Shubin, V.N.,Dolin, P.I..Radiation Effects, Vol. 5, Nos. 1–2, 1970, p. 133–34. [Polaron decay as parallel first and second order processes; the bimolecular reaction having activation energy of proton motion in ice.]CrossRefGoogle Scholar
Pethica, B. A. ,. Anomalous water not polywater, [by] Pethica, B.A.,Thompson, W.K.,Pike, W.T..Nature, Physical Science, Vol. 229, No. 1, 1971, p. 2122. [Letter. Reasons why “anomalous water" is not likely to be a single substance.]CrossRefGoogle Scholar
Pikayev, A. K. ,. On the mechanism of low temperature radiolysis of crystalline ice, [by] Pikayev, A.K.,Yershov, B.G.,Puntezis, S..Radiation Effects, Vol. 5, Nos. 3–4, 1970, p. 265–68. [Electron paramagnetic resonance and optical spectroscopy used to study free radicals in ice.]CrossRefGoogle Scholar
Pinchukov, YU. YE. Mezhdumolecularnyy perenos protona po vodorodnoy svyazi i dielektricheskiye svoystva kristallov l’da [Intermolecular proton transfer at the hydrogen bond and the dielectric properties of ice crystals]. Zhurnal Strukturnoy Khimii, Tom II, No. 3, 1970, p. 415–20. [Theory of dielectric dispersion in see based on proton movements along hydrogen bonds and not involving Bjerrum delects at all.]Google Scholar
Schwerdtfeger, P. Absorption, scattering and extinction of light in ice and snow. Nature, Vol. 222, No. 5191, 1969. p. 378–79. [Letter. Relation between these quantities.]CrossRefGoogle Scholar
Sherby, O. D. ,. Calculation of activation volumes for self-diffusion and creep at high temperatures [by] Sherby, O.D.,Robbins, J.L.,Goldberg, A..Journal of Applied Physics, Vol. 41, No. 10, 1970, p. 3961–68. [Success of theoretical calculation of activation volume for diffusion and creep in, among other things, ice. Implications for mechanism of diffusion.]CrossRefGoogle Scholar
Shio, H. Magono, C. Tankesshō-hyō no masatsu denki, I [Frictional electrification of a single crystal, I]. Seppyō, [Vol.] 31, [No.] 1, 1969, p. 16. [Sign of charge developed when two single ice crystals are rubbed together with prism plane against basal plane. English abstract, p. 6.]Google Scholar
Standish, N. Lang, G. Some observations of macrosegregation in ice ingots. Journal of the Australian Institute of Metals, Vol. 15, No. 2, 1970, p. 120–26. [Study of freezing of NaCl solutions at various rates.]Google Scholar
Suzuki, S. Kōri no bikesshō no sodaika ni kansuru kenkyō, I [Grain coarsening of microcrystals of ice, I]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 5375. [Study of coarsening of two-dimensional layers of ice on a surface and variation with conditions including HF and NaCl doping and presence of fine solid particles. English summary, p. 7475.]Google Scholar
Tabor, D. Walker, J. C. F. Creep and friction of ice. Nature, Vol. 228, No. 5267, 1970, p. 137–39. [Study of creep over very wide range of strain-rates. Friction cannot be explained by creep data, but sliding re-crystallizes interface to give orientations favouring easy glide.]CrossRefGoogle ScholarPubMed
Tusima, K. Yosida, Z. Kōri no masatsu yūkai [Melting of ice by friction]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 1730. [Study of the water produced during friction of an acrylic resin ring on ice. English summary, p. 2830.Google Scholar
Yagi, T. Yosida, Z. Takesshōhyö no hanpuku ichiji bubun joka kuriipu [Creep of polycrystalline ice subjected to partial load removal at regular intervals]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 116. [Experimental study of effect of reducing load by 20% for periods of 1 min at various stages during a creep test at — 10°C. English summary, p. 1416.]Google Scholar
Yamada, T. Ōura, H. KŎri no kochaku genshŎ no kenkyū, I. Hyōkyu to hyōban no aida no fuchakuryoku no sokutei [Studies of ice cohesion, I. A measurement of the cohesive force between an ice sphere and an ice plate]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 3139. [Force required to separate sphere from plate after given time of contact. English summary, p. 39.]Google Scholar

Land ice. Glaciers. Ice shelves

Ahlmann, H. W. ,. Klimatologiska föröndringar omkring Nordatlanten under gammal och nyare tid. En artikelserie, [by]Ahlmann, H.W.,Wallén, C.C.,Fristrup, B.B.,Thorarinsson, S.,Liestøl, O.,Østrem, G.,Schytt, V..Ymer, Årg. 90, 1970, p. 219–42. [Climatological changes in North Atlantic region (Norwegian Sea, Denmark Strait, Greenland, Iceland, Svalbard, Norway and Sweden) from ninth century to present time. Glacier variations.]Google Scholar
Aleksandrov, M. V. Izucheniye evolyutsii oledeneniya v pribrezhnoy polose Zemli Enderbi [Study of the evolution of coastal glaciation in Enderby Land]. Informatsionnyy Byulleten Sovetskoy Antarkticheskoy Ekspeditsii, No. 76, 1970, p. 2329. [Changes between 1962 and 1967 near “Molodezhnaya" station.]Google Scholar
Ames, A. Control topográfico del movimiento glaciar en el Pucahirca norte y el Uruashraju. Boletín del Instituto Nacional de Glaciologia, Peru, 1969, No 1, p. 5859. [Movements of Pucahirca and Uruashraju glaciers, Peru, in 1968. Reprinted from Revista Peruana de Andinismo y Glaciologia, 1966-1967-1968, No 8.]Google Scholar
Van Autenboer, T. Decleir, H. Airborne radio-glaciological investigations during the 1969 Belgian Antarctic expeditions. Bulletin de la Société Belge de Géologie, de Paléontologie et d’Hydrologie, Tom. 78, Fasc. 2, 1969, p. 87100. [Describes and discusses results of detailed ice thickness survey of Jelbartisen-Trolltunga area.]Google Scholar
Bondarev, L. G. Basseyn r. Akshiyrak [Basin of the river Akshiyrak]. Katalog lednikov SSSR [Catalogue of glaciers of the U.S.S.R.], Tom 14, Vyp. 2, Chast’ 6. Leningrad, Gidrometeorologicheskoye Izdatel’stvo, 1970. 55 p. [Part of the I.H.D. catalogue of glaciers of the U.S.S.R. giving details of what is known of the glaciers in this part of Central Asia (Kirgiziya). The Tom and Vyp. numbers correspond with those of Resursy poverkhnostnykh vod SSSR [Surface water resources of the U.S.S.R.].]Google Scholar
Cherkasov, P. A. Basseyny rek Biyen, Aksu, Lepsy [Basins of the rivers Biyen, Aksu and Lepsa]. Katalog lednikov SSSR [Catalogue of glaciers of the U.S.S.R.], Tom 13, Vyp, 2, Chast’ 6. Leningrad, Gidrometeorologicheskoye Izdatel’stvo, 1970. 84 p. [Part of the I.H.D. catalogue of glaciers of the U.S.S.R. giving details of what is known of the glaciers in this part of central and southern Kazakhstan. The Tom and Vyp. numbers correspond with those of Resursy poverkhnostnykh vod SSSR [Surface water resources of the U.S.S.R.].]Google Scholar
Chernigovskiy, N. T. Al’bedo poverkhnosti Antarktidy [Albedo of the surface of Antarctica], Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 77, 1970, p. 68 72.Google Scholar
Clapperton, C ,M. Channels formed by the superimposition of meltwater streams. A reply to comments by Thorsten Stenborg, 1969: Channel formation and glacier drainage. Geografiska Annaler, Vol. 52A, No. 2, 1970, p. 9495. [Reply to Stenborg’s criticisms, ibid., Vol. 51A, No. 3, 1969, p. 112–13.]Google Scholar
Clarke, G. C. Classen, D. F. The Fox Glacier project. Canadian Geographical Journal, Vol. 81, No. 2, 1970, p. 2629. [Describes scientific programme on surge-type glacier in quiescent period.]Google Scholar
Denton, G. H. Porter, S. C. Neoglaciation. Scientific American, Vol. 222, No. 6, 1970, p. 101–09. [Discusses glacier fluctuations since hypsithermal interval following last major glaciation.]CrossRefGoogle Scholar
Dubinskiy, G. P. Minayeva, YE. N. Nekotoryye itogi meteorologicheskikh i mikroklimaticheskikh issledovaniy na Lednike Alibek v 1964 g. [Some results of meteorological and microclimatic investigations on Lednik Alibek in 1964]. Materialy Kavkazskoy Ekspeditsii (po Programme Mezhdunarodnogo Gidrologicheskogo Desyatiletiya), Tom 7, 1969, p. 336. [Results of University of Kharkov expedition, 1964, to the Caucasus.]Google Scholar
Epstein, S. ,. Antarctic ice sheet: stable isotope analyses of Byrd station cores and interhemispheric climatic implications, by Epstein, S.,Sharp, R.P.,Gow, A.J..Science, Vol. 168, No. 3939, 1970, p. 1570–72. [Anayses of ice samples from 99-2162 m depth enabled temperature variation, over last 75000 years to be defined.]CrossRefGoogle ScholarPubMed
Fateyev, V. P. Cheban, V.A. Basseyny pravykh pritokov r. Chu nizhe Boamskogo Ushchel’ya [Basins of the right tributaries of the river Chu below Boamskoye Ushchel’ya]. Katalog lednikov SSSR [Catalogue of glaciers of the U.S.S.R.], Tom 14, Vyp. 2, Chast’ 4. Leningrad, Gidrometeorologicheskoye Izdatel’stvo, 1969, 59 p. [Part of the I.HD catalogue of glaciers* of the U.S.S.R. ogiving details of what L known of the glaciers in this part of Central Asia (Kirgiziya). The Tom and Vyp. numbers correspond with those of Resursy poverkhnostnykh vod SSSR [Surface water resources of the U.S.S.R.].]Google Scholar
Federer, B. ,. Outflow and accumulation of ice in Jarl-Joset station, Greenland, by Federer, B.,Sury, H.V.,Philberth, K.,Quervain, M.de..Journal of Geophysical Research. Oceans and Atmospheres, Vol. 75, No. 24, 1970, p. 4567–69. [Results of geodetic surveys of EGIG profile in 1959 and 1968, and absolute measurements of deformations of inclined shaft “Dumont”, enabled vertical velocity and outflow of ice at 40 m depth to be determined.]CrossRefGoogle Scholar
Fedotov, V. I. Vliyaniye priboya na formirovaniye ledyanogo bar’year v. zalive Alasheyeva [Influence of surf on the formation of an ice cliff in “Alasheyev Bay”]. Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 76, 1970, p. 4348. [Observations near “Molodezhnaya” station for several seasons.]Google Scholar
Galon, R. SzupryczyŃski, J. Wyprawa Polskiego Towarzystwa Geograficznego na Islandie [Polish Geographical Soiciety expedition to Iceland]. Czasopismo Geograficzne, Tom 41, Zeszyt 1, 1970, p. 4155. [Describes some results of expedition to Skeidarárjökull and Sidujökull, Vatnajökull, in 1968. English summary.]Google Scholar
Govorukha, L. S. O tektonicheskoy structure lednikov Severnoy Zemli [Tectonic structure of the glaciers of Severnaya Zemlya]. Problemy Arktiki i Antarktiki, Vyp. 34, 1970, p 5562. [Study of ice caps in 1965.]Google Scholar
Grosval’D, M. G. Nekotoryye osobennosti oledeneniy materikovykh shel’fov [Some features of the glaciation of continental shelves]. Materialy Glyatsiologicheskikh Issledovaniy. Khronika. Obsuzhdeniya, Vyp. 16, 1970, p. 196207. [Barents Sea shelf.]Google Scholar
Grosval’D, M. G. Kotlyakov, V. M. Ledniki SSSR i issledovaniya byudzheta ikh massy [Glaciers of the U.S.S.R. and the study of their mass budget]. Geofizicheskiy Byulleten’, No. 21, 1970, p. 317.Google Scholar
Jonsson, S.. Structural studies of subpolar glacier ice. Geografiska Annaler, Vol. 52A, No. 2, 1970, p. 129–45. [Study of ice blocks from Isfallsgläciaren, Kebnekaise, north Sweden.]CrossRefGoogle Scholar
Kovalev, P. V. Serbina, Z. P. Katalog izmeneniya oledeneniya Bol’shogo Kavkaza s kontsa XIX v. (90 gg.) po 1964 g. [Catalogue of changes in the ice cover of the Great Caucasus from the end of the nineteenth century (1890’s) to 1964]. Materialy Kavkazskoy Ekspeditsii (po Programme Mezhdunarodnogo Gidrologicheskogo Desyatiletiya), Tom 7, 1969, p. 101–36.Google Scholar
Kruchinin, YU. A. Inversiya glyatsiologicheskoy zonal’nosti v vostochnoy chasti berega Printsessy Astrid [Inversion of glaciological zoning in the eastern part of Prinsesse Astrid Kyst.] Trudy Sovetskoy Antarkticheskoy Ekspeditsii, Tom 38, 1968, p. 6176. [Firn zone and ablations zone in reverse positions from those expected. Observations 1959-65.Google Scholar
Kruchinin, YU, A. Opyt geneticheskoy klassifikatsii form mikrorel’yefa antarkticheskikh lednikov [Attempt to make a genetic classification of forms of microrelief of Antarctic glaciers]. Informatsionny Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 77, 1970, p. 5156.Google Scholar
Kuznetsov, M. A. Izmeneniya poverkhnosti I radiatsionno-aktivnogo sloya snega I l’da v period tayaniya [Changes in the surface and in the radiation layer of snow and ice during the melt period]. Trudy Sovetskoy Antarkticheskoy Eksppeditsii, Tom 38, 1968, p. 3960. [Observations of melting processes in upper layers of snow and ice in coastal region Antarctica.]Google Scholar
Maksimov, N. V. ,. Basseyny rek Assa, Talas [Basins of the rivers Assa and Talas]. [By] Maksimov, N.V.,Fateyev, V.P.,Cheban, V.A.,Inyutin, I.Ya..Katalog lednikov SSSR [Catalogue of glaciers of the U.S.S.R.], Tom 14, Vyp. 2, Chast’ 1. Leningrad, Gidrometeorologicheskoye Izdatel’stvo, 1968, 67 p. [Part of the I.H.D. catalogue of glaciers of the U.S.S.R. giving details of what is known of the glaciers in this part of Central Asia (Kirgiziya). The Tom and Vyp. numbers correspond with those of Resursy poverkhnostnykh vod SSSR [Surface water resources of the U.S.S.R.].]Google Scholar
Miller, M. M. Glaciology of the Khumbu Glacier and Mount Everest. National Geographic Society Research Reports, 1961-1962 projects, 1970, p. 153–65. [Reviews results of glaciological programme of the American Mount Everest Expedition, 1963.]Google Scholar
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Icebergs. Sea, River and Lake Ice

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Glacial. Geology

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Richmond, G. M. Comparison of the Quaternary stratigraphy of the Alps and Rocky Mountains. Quaternary Research, Vol. I, No. 1, 1970, p. 328. [Glacial and periglacial deposits and soils of the two regions are compared and discussed in relation to their glaciations and interglacials.]CrossRefGoogle Scholar
Tricart, J. Geomorphology of cold environments. Translated by Edward Watson. London, Macmillan, [c1970]. xvi, 320 p. [Translation of Géomorphologie des régions froides. Paris, Presses Universitaires de France, 1963.]Google Scholar
Troitskiy, L. S. O vliyanii struktury lednikov na formirovaniye kholmisto-gryadovogo morennogo rel’yefa na Shpitsbergene [Influence of glacier structure on formation of ridge moraine relief in Spitsbergen]. Materialy Glyatsiologicheskikh Issledovaniy. Khronika. Obsuzhdeniya, Vyp. 16, 1970, p. 178–83.Google Scholar
Wastenson, L. Spår av istid. Sreriges. Natur, Årsbok 1970, p. 3648. [Defines some concepts in glacial geology and gives examples of their occurrence in Sweden.]Google Scholar
Webber, P. J. Post-glacial uplift and substrate age at Cape Henrietta Maria, southeastern Hudson Bay, Canada, [by] Webber, P.J.,Richardson, J.W.,Andrews, J.T..Canadian Journal of Earth Sciences, Vol. 7, No. 2, 1970, p. 317–25. [Post-glacial emergence history of area obtained by fitting post-glacial emergence curve to a number of radiocarbon dated marine strandlines of known elevation.]CrossRefGoogle Scholar
Weidick, A. Brink, N. W, TEN. Quaternary deposits between the Sukkertoppen ice cap and Nordre Strømfjord. Grønlands Geologiske Undersøgelse. Rapport, No. 28, 1970, p. 2325. [Glacial and emerged marine deposits studied in West Greenland.]CrossRefGoogle Scholar

Frost Action on Rocks and Soil. Frozen Ground. Permafrost

Allan, R. J. Clay mineralogy and geochemistry of soils and sediments with permafrost in interior Alaska. Dissertation Abstracts International, B, Vol. 30, No. 7, 1970, p. 2984-B85-B. [Investigation of poorly drained soils with permafrost and frozen sediments. Abstract of Ph.D. thesis, Dartmouth College, 1969. University Microfilms order no. 69-21223.]Google Scholar
Ball, D. F. Goodier, R. Morphology and distribution of features resulting from frost-action in Snowdonia. Field Studies, Vol. 3, No. 2, 1970, p. 193218. [Description and classification of phenomena in this area of Wales.]Google Scholar
Bashlavin, D. K. O roli pozharov v formirovanii sklonov v rayonakh razvitiya vechnoy merzloty (na primere Yakutii) [Role of fires in slope formation in permafrost (based on examples in Yakutiya)]. Izvestiya Sibirskogo Otdeleniya Akademii Nauk SSSR, 1970, No 11, p. 115–17.Google Scholar
Benedict, J. B. Downslope soil movement in a Colorado alpine region: rates, processes, and climatic significance. Arctic and Alpine Research, Vol. 2, No. 3, 1970, p. 165226. [Study of frost creep and solifluction.]CrossRefGoogle Scholar
Benedict, J. B. Frost cracking in the Colorado Front Range. Geografiska Annaler, Vol. 52A, No. 2, 1970, p. 8793. [Cracks are caused by tensional forces produced by differential frost heaving.]CrossRefGoogle Scholar
Brochu, M. Indice de gélivation de la roche en place et des formations meubles. Bulletin de l’Association des Géographes Français, Nos. 373–74, 1969, p. 469–77. [Defines quantitatively, for granites and limestones, freeze-thaw action on bedrock and on recently deposited material.]CrossRefGoogle Scholar
Corte, A. E. Geocryology and engineering. (In Varnes, D. J.,Kiersch, G.,ed. Reviews in engineering geology. Vol. 2. Boulder, Colorado, Geological Society of America, 1969, p. 119–85.) [Discusses seasonally and perennially frozen ground, and experimental and applied research dealing with engineering aspects.]CrossRefGoogle Scholar
Czudek, T. Demek, J. Thermokarst in Siberia and its influence on the development of lowland relief. Quaternary Research, Vol. 1, No. 1, 1970, p. 103–20. [Description.]CrossRefGoogle Scholar
Dionne, J-C. Bibliographie annotée du glaciel; aspects morpho-sedimentologiques: An annotated bibliography of “glaciel" [sic] studies; morpho-sedimentological aspects. Revue de Géographie de Montréal, Vol. 23, No. 3, 1969, p. 339–49.Google Scholar
Dionne, J-C..Nouvelles observations de fentes de gel fossiles sur la côte sud du Saint-Laurent. Revue de Géographie de Montréal, Vol. 23, No. 3, 1969, p. 307–16. [Describes 3 main types of fossil ice wedges found recently. Development related to retreating ice front during Quaternary.]Google Scholar
Foster, H. D. Establishing the age and geomorphological significance of sorted stone-stripes in the Rhinog Mountains, North Wales. Geografiska Annaler, Vol. 52A, No. 2, 1970, p. 96102.Google Scholar
Gravis, G. F. Sklonovyye otlozheniya Yakutii (usloviyo nakopleniya i promerzaniya, kriogennoye stroyeniye) [Slope deposits of Yakutiya (conditions of accumulation and freezing, permafrost structure)]. Moscow, Izdatel’stvo “Nauka”, 1969, 128 p. [Analysis of solifluction and associated processes.]Google Scholar
Hamelin, L-E. Le glaciel de Iakoutie, en Sibérie nordique. Cahiers de Géographie de Québec, 13e* An., No. 29, 1969, p. 205–16. [Periglacial phenomena in Yakutskaya A.S.S.R.]Google Scholar
Jahn, A. Najniższe stanowisko czynnych gruntów strukturalnych w Tatrach i problem dolnej granicy występowania zjawisk peryglacjalnych w górach [The lowermost site of active patterned ground in the Tatras and the problem of the lower limit of periglacial phenomena in mountains]. Acta Geographica Lodziensia, No. 24, 1970, p. 217–24. [Discusses factors causing development of patterned ground in this region. Suggests tree-line be regarded as lower limit of periglacial phenomena. English summary, p. 224.]Google Scholar
Journaux, A. Bardey, P. Réflexions sur les sols polygonaux, les sols striés et les nids de pierre. Acta Geographica Lodziensia, No. 24, 1970, p. 249–58. [Discusses mechanism of formation of various periglacial features.]Google Scholar
Kinosita, S. ,. Kitami Mombetsu ni okeru tōjō kansoku (Shōwa 43-44 tōki] [Frost heaves in Kitami and Mombetsu (1968-69)]. [By] Kinosita, S.,Suzuki, Y.,Horiguchi, K.,Tanuma, K.,Aota, M.,Ōno, T..Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 379–93. [Various observations discussed, including effect on pipes buried in ground, composition of frozen ground, and increase of moisture content during freezing. English summary, p. 392–93.]Google Scholar
Kinosita, S. ,. Tōjō to chika suii to no kankei, I [Change of water level during frost heaving, I]. [By] Kinosita, S.,Suzuki, Y.,Horiguchi, K.,Tanuma, K..Teion-kagaku: Low Temperature Science, Ser.. A, [No.] 27, 1960, p. 367–77. [Describes construction of water-resistant basin filled with frost-susceptible soil for studies of frost heaving under controlled conditions. Discusses results when no water was supplied after soil began to freeze. English summary, p. 376–77.]Google Scholar
Lewellen, R. Brown, J. Man induced erosion on permafrost. Science in Alaska 1969. Proceedings [of the] 20th Alaska Science Conference, College, Alaska, August 24 to August 27, 1969, 1970, p. 333–34. [Abstract. Effect of draining lakes and constructing roads.]Google Scholar
Lugovoy, P. N. Osobennosti geokriologicheskikh usloviy gornykh stran [Features of geocryological conditions of mountainous countries]. Moscow, Izdatel’stvo “Nauka”, 1970, 136 p. [Factors influencing presence of permafrost, with special reference to some mountain areas in the U.S.S.R.]Google Scholar
Markov, K. K. Le froid et le périglaciaire du Pléistocene. Acta Geographica Lodziensia, No. 24, 1970, p. 337–41. [Discusses briefly extent of cooling and periglacial features due to the Pleistocene.]Google Scholar
Nichols, R.L. Geomorphology of Inglefield Land, North Greenland. Meddelelser om Grønland, Bd. 188, Nr.1, 1969, 109 p. [Includes glaciation and periglacial features.]Google Scholar
Popov, A. I. Underground ice of northern Eurasia. Acta Geographica Lodziensia, No. 24, 1970, p. 365–69. [Describes present-day features, and formation during Pleistocene, of underground ice.]Google Scholar
Potter, N. jr. Rock glaciers and mass-wastage in the Galena Creek area, northern Absaroka Mountains. Wyoming. Dissertation Abstracts International, B, Vol. 30, No. 8, 1970, p. 3711-B-12 B. [Rock debris varies from 1-1-5 to 2-3 m thick over glacier ice. Rate of accumulation area to ablation area 1:7. Abstract of Ph.D. thesis, University of Minnesota, 1970. University Microfilms order no. 69-20049.]Google Scholar
Rinker, J. N. Frost, R. E. Application of remote sensing to arctic environmental studies.(In Welch, R. I., ed. The use of remote sensing in conservation, development, and management of the natural resources of the State of Alaska. Juneau, Alaska, Dept. of Economic Development, [1970], p. 105–16.) [Describes briefly how remote sensing may be applied to problems of engineering Construction on frozen ground.]Google Scholar
Sokolov, B. L. Raschet nalednogo stoka [Calculating run-off from icings]. Meteorologiya i Gidrologiya, 1970. No. 7, p. 8287.Google Scholar
Svensson, H. Fossila skandinaviska frostmarksformer. En jämförelse med recent permafrost på Spetsbergen och i Jakutien. Geologiska Föreningens i Stockholm Förhandlingar, Vol. 92, Pt. 3, No. 542, 1970, p. 323–35. [Compares fossil Scandinavian permafrost features and ice wedge polygons and pingos in recent permafrost areas in Spitsbergen and Yakutskaya A.S.S.R. English summary.]CrossRefGoogle Scholar
Svensson, H. Spår av “fluted surfaces" från den senaste nedisningen. Geologiska Föreningens i Stockholm Förhandlingar, Vol. 92, Pt. 1, No. 540, 1970, p. 7985. [Air photographs suggest fluted moraine surfaces were normal form of ground moraine in front of receding Scandinavian ice sheet. English summary.]CrossRefGoogle Scholar
Takagi, S. An analysis of ice lens formation. Water Resources Research, Vol. 6, No. 3, 1970, p. 736–49. [Suggests mechanism for ice lens formation which could assist in formulation of frost heaving process.]CrossRefGoogle Scholar
Tanuma, K. Töjö no sai no dochū suibun idō to kangekiritsu to no kankei [The relation between the soil moisture transfer and porosity during frost heaving]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969. p. 359–66. [Experimental method described and results discussed. English summary, p. 365–66.]Google Scholar
Thom, B. G. New permafrost investigations near Schefferville, P.Q. Revue de Géographie de Montréal, Vol. 23. No. 3, 1969, p. 317–27. [Reviews recent research: (1) development of techniques for mapping permafrost where it occurs near surface and to interpret variation in permafrost with depth; (2) relationship of permafrost in area to present and past environments.]Google Scholar
Tricart, J. Convergence de phénomènes entre l’action du gel et celle du sel. Acta Geographica Lodziensia, No. 24, 1970, p. 425–36. [Compares action of naturally occurring salt in soil with that of frost.]Google Scholar
Vtyurina, YE. A. Vtyurin, B. I. L’doobrazovaniye v gornykh porodakh [Ice formation in rocks]. Moscow, Izdatel’stvo “Nauka”, 1970, 280 p. [Includes genetic classification of ice types found in subsoil.]Google Scholar
Warder, D. L. Behavior and analysis of a model soil-ice barrier. Dissertation Abstracts International, B. Vol. 30. No. 11, 1970, p. 5038-B. [Investigation of artificially frozen soil as a barrier around the periphery of a model shaft with regard to stress-deformation characteristics of the soil-ice cylinder. Abstract of Ph.D. thesis, Michigan State University, 1969. University Microfilms order no. 70-9652.]Google Scholar
Washburn, A. L. An approach to a genetic classification of patterned ground. Acta Geographica Lodziensia. No. 24, 1970, p. 437–46. [Classification presented with author’s comments.]Google Scholar

Meteorological and Climatological Glaciology

Auer, A. H.jr. Veal, D. L. The dimensions of ice crystals in natural clouds. Journal of the Atmospheric Sciences, Vol. 27, No. 6, 1970, p. 919–26. [Studies of replicas of over 1 500 natural crystals.]2.0.CO;2>CrossRefGoogle Scholar
Hoffer, T. E. Warburton, J. A. Observations of diffusional ice crystal growth in clouds. Journal of the Atmospheric Sciences, Vol. 27, No. 7, 1970, p. 1068–73. [Comparison of observed size with that predicted by diffusion growth theory.]2.0.CO;2>CrossRefGoogle Scholar
List, R. ,. Structural properties of two hailstone samples, by List, K.,Cantin, J.-G.,Ferland, M.G..Journal of the Atmospheric Sciences, Vol. 27, No. 7, 1970, p. 1080–90. [Density, crystal size and orientation, and opacity studied in detail.]2.0.CO;2>CrossRefGoogle Scholar
Reiter, R. On the causal relation between nitrogen-oxygen compounds in the troposphere and atmospheric electricity. Tellus, Vol. 22, No. 1, 1970, p. 122–36. [Uses laboratory data on NO3-, concentration gradients along growing ice needles in theory of thunderstorm electricity.]CrossRefGoogle Scholar
Wakahama, G. Fujino, K. Norikura korona kansokusho no chakuhyō no chōsa [Icing on the dome of the Norikura corona station]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 135–42- [Study of points of origin of riming and of structure. English summary, p. 141.]Google Scholar

Snow

Akitaya, E. Chichū kara sekisetsunai e nagareru neisuryū no sokutei [Measurement of heat Bow from ground into snow cover]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 409–13.Google Scholar
[Avalanches, J. Doklady po lavinnoy tematike [Papers on avalanches]. Malerialy Glyatsiologicheskikh Issledovaniy. Khronika. Obsuzhdeniya, Vyp. 16, 1970, p. 31161. [Read at meeting at Terskol, U.S.S.R., 1968. English summaries.]Google Scholar
Barnes, J. C. Bowley, C. , J. Operational snow mapping from satellite photography. Proceedings of the 26th annual Eastern Snow Conference, 1969, p. 79103. [Describes recent studies on methods of mapping snow cover distribution in Upper Mississippi-Missouri River basins region.]Google Scholar
Barnes, J. C. Bowley, C. J. Satellite photography for snow surveillance in western mountains. Proceedings of the Western Snow Conference, 37th annual meeting. 1969, p. 3440. [Describes application of previously developed satellite techniques to mountainous terrain. Discusses limitations.]Google Scholar
Barsch, R. E. Burnash, R. J. C. Forecasting short-term discharge from snowmelt. Proceedings of the Western Snow Conference, 36th annual meeting, 1968, p. 4145. |Compares temperature data and snow pillow data.]Google Scholar
Binder, L. Messungen der Schneedichte in Wien seit 1951 und insbesonders im schneereichen Winter 1969/70. Wetter und Leben, Jahrg. 22, Ht. 7-8, 1970, p. 158–60. [Compares mean values and frequencies of density of snow cover for winter 1969-70 and since 1951 in Vienna.]Google Scholar
Bradley, C. C. Collapsing snow. Proceedings of the Western Snow Conference, 37th annual meeting, 1969, p. 6368. [Discusses conditions leading to snowpack collapse and implications of this to avalanche safety and snowpack hydrology.]Google Scholar
Bryazgin, N. N. O vvedenii popravok v izmereniya osadkov v Arktike [On the introduction of corrections in measuring precipitation in the Arctic]. Problemy Arktiki i Antarktika, Vyp. 33, 1970, p. 6771. [Problem of distinguishing blowing snow from falling snow.]Google Scholar
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Chinn, T. J. Snow measurements, South Canterbury. New Zealand Alpine Journal, Vol. 23, No. 2, 1970, p. 470–74. [Outlines methods and results of snow surveys on snow courses and glaciers in this part of New Zealand.]Google Scholar
Dewalle, D. R. Disposition of selected late-lying snowpacks in forests of the Colorado Rockies. Dissertation Abstracts International, B, Vol. 30, No. 7, 1970, p. 3261-B. [Observations on ablation, and melt-water movements in snow, in soil, and at soil-snow interface during melt of late-lying snowpacks. Abstract of Ph.D. thesis, Colorado State University, 1969. University Microfilms order no. 69-22307.]Google Scholar
DinÇER, T. ,. Snowmelt runoff from measurements of tritium and ox.ygen-18, [by] Dinner, T.,Payne, B.R.,Florkowski, T.,Martinec, J.,Tongiorgi, E..Water Resources Research, Vol. 6, No. I, 1970, p. 110–24. [Two-thirds of the melt water infiltrated to the soil, pushing an almost equal amount of water toward the drainage network of the basin.]CrossRefGoogle Scholar
Doty, R. D. Johnston, R. S. Comparison of gravimetric measurements and mass transfer computations of snow evaporation beneath selected vegetation canopies. Proceedings of the Western Snow Conference, 37th annual meeting, 1969, p. 5762.Google Scholar
Drewry, D. J. Snow penitents. Weather, Vol. 25, No. 12, 1970, p. 556, cover photograph. [Describes formation and meteorological reason for development with reference to example from Iran.]CrossRefGoogle Scholar
Elkins, N. Linklater, D. Snow rollers at Kirkwall, Orkney. Meteorological Magazine, Vol. 98, No. 1169, 1969, p. 387, plate. [Describes rollers observed February 1969.]Google Scholar
Eschner, A. R. ,. Soil moisture priming, soil temperature and water available for snowmelt runoff, by Eschner, A.R.,Leonard, R.E.,Leaf, A.L.,Proceedings of the 26th annual Eastern Snow Conference, 1969, p. 1923. [Preliminary studies into relationship between soil moisture and snow-melt run-off, and possibility of forecasting snow-melt yield from soil moisture information.]Google Scholar
Farnes, P. E. Rompel, J. Montana telemetry system. Proceedings of the Western Snow Conference, 37th annual meeting, 1969, p. 102–07. [Describes recent improvements and modifications in apparatus for measuring snowpack in remote mountainous regions.]Google Scholar
Ffolliott, P. F. Thorud, D. B. Snowpack density, water content and runoff on a small Arizona watershed. Proceedings of the Western Snow Conference, 37th annual meeting, 1969, p. 1218. [Study of spatial and temporal variations in snowpack density and associated water content, and of relation of these variations to hydrograph characteristics.]Google Scholar
Harlan, R. L. Soil-water freezing, snow accumulation and ablation in Marmot Creek Experimental Watershed, Alberta, Canada. Proceedings of the Western Snow Conference, 37th annual meeting, 1969, p. 2933. [Results presented and discussed, with particular reference to run-off forecasting.]Google Scholar
Hasholt, B. En undersogelse af sneens vandækvivalent vinteren 1969-70. Geografisk Tidsskrift, Bd. 69, HalvBd. 1, 1970, p. 5792. [Investigation of water equivalent of snow in drainage area of river Vida, south Jylland, Denmark, in 1969-70. English summary, p. 8390.]Google Scholar
Haupt, H. F. A 2-year evaluation of the snowmelt lysimeter. Proceedings of the Western Snow Conference, 37th annual meeting, 1969, p. 99101. [Instrument which monitors directly volume of flow from base of column of undisturbed snow, either as surface melt or as rain percolate and surface melt combined.]Google Scholar
Hornbeck, J. W. Pierce, R. S. Changes in snowmelt runoff after forest clearing on a New England watershed. Proceedings of the 26th annual Eastern Snow Conference, 1969, p. 104–12. [Cumulative streamflow was advanced 4-8 days during periods of major snow melt, with peak flow in earlier part of season. Total volume not significantly changed.]Google Scholar
Huzioka, T. ,. Eniwadake sesshitsu chōsa hōkoku, II [Snow cover observations at Mt. Eniwa, II], [By] Huzioka, T.,Shimizu, H.,Akitaya, E.,Narita, H..Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27. 1969, p. 255–65. [Further investigations of physical properties of natural and artificially hardened snow. English summary, p. 265.]Google Scholar
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Kobayashi, D. Mizo no fuchi ni dekiru koyuki-bisashi [A small cornice on an edge of a trench]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 405–07.Google Scholar
Kobayashi, D., Mizo ni yoru jifubuki-ryŎ no sokutei [Measurement of snow-drift using parallel trenches]. [By] Kobayashi, D.,Kobayashi, S.,Ishikawa, N..Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 99106. [Describes and discusses method used; results inconclusive. English summary, p. 105–06.]Google Scholar
Kobayashi, S. Setsumen ni hataraku kaze no chikara no sokutei [Measurements of the wind drag force of the snow surface]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 8797. [Describes direct measurement, in laboratory and field, of drag force exerted on snow surface by wind and discusses results. English summary, p. 9697.]Google Scholar
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Kobayashi, T. Yuki no kesshŎ no nishoku kŎgen ni yoru kenbikyŎ satsueihŎ [Photomicrographs of snow crystals by means of two-coloured illustrations]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 395–97.Google Scholar
Kojima, K. KenbikyŎ ni yoru hisetsu ryūshi no kansoku [Microscopic observations of drifting snow particles]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 27, 1969, p. 115–29. [Describes and discusses series of observations on shapes and size distribution of drifting snow particles on campus of Hokkaido University. English summary, p. 128.]Google Scholar
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Kojima, K. ,. Sapporo no heichi sekisetsu danmen sokutei shiryō hōkoku, Shōwa 42-43 Ben tōki [Report of pit-wall observations of snow cover on flat ground in Sapporo, 1967-68]. [By] Kojima, K.,Kobayashi, D..Kobayashi, S.,Akitaya, E.,Narita, H.,Naruse, R..Teion-kagaku: Low Temperature Science, Ser. A, [Supplement to No.] 27, Shiryō Shū: Data Report, 1969, p. 113.Google Scholar
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