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Glaciological Literature

Published online by Cambridge University Press:  30 January 2017

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Journal of Glaciology , Volume 18 , Issue 79 , 1977 , pp. 345 - 355
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Copyright © International Glaciological Society 1977

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 Recent Polar Literature (supplement to the Polar Record). For Russian material the system of transliteration used is that agreed by the U.S. Board on Geographic Names and the Permanent Committee on Geographical Names for British Official Use in 1947. Readers can greatly assist by sending reprints of their publications to the Society, or by informing Dr J. W. Glen of publications of glaciological interest. It should be noted that the Society does not necessarily hold copies of the items in this list, and also that the Society does not possess facilities for microfilming or photocopying.

References

General Glaciology

Chizhov, O.P. Olcdcneniye severnoy polyarnoy oblasti [Glaciation of the north polar area] Rezul'laly Issle-dovaniy po Mezkdimarodnym Geofizickeskim Proyektam (Unnumbered series), 1976 24. p. [Describes present-day land and sea glaciation in Soviel and non-Soviet areas, glacial geology, and causes and effects of glacio-climatic fluctuations during the Pleistocene. English summary, p. 21314.]Google Scholar
Fenwick, J.K. Anderton, P.W. comp. Dry valleys Antarctica, 1972- 73 Wellington, Ministry of Works and Development for the National Water and Soil Conservation Organisation, 1975. 37.p. (Hydrological Research: Annual Report No. 34.) [Describes hydrological and glaciological research programme carried out in this region of southern Victoria Land. Glaciological studies included mass balance and flow measurements and glacier margin studies.]Google Scholar
Fink, U. Infrared spectra of the satellites of Saturn; identification of water ice on lapetus. Rhea, Dione. and Telhys, [by] Fink, U., Larson, H.P., Gautier III, T.N., Treffers, R.R.. A strophyskal Journal,Vol.207No.1 Pt. 2, 1976 p. L63L67. [AU four show absorption bands. Extent of coverage and surface temperature discussed.]Google Scholar
Hope, G.S. ed. The equatorial glaciers of New Guinea. Results of the 1971-1973 Australian Universities' Expeditions to Irian Jaya: survey, glaciology, meteorology, biology and palaeoenvironments. Edited by Hope, G.S., James A., Peterson, Radok, U., Allison, I.. Rotterdam, Ralkema, 1976. xii, 244.p. [Contents include: Allison, I., James A., Peterson, “Ice areas on Mt. Jaya: their extent and recent history”, p. 2738; Allison, I., “Glacier regimes and dynamics”, p. 3959; Kol, E., Judy A., Peterson, “Cryobiology”, p. 8191; James A., Peterson, “The lakes”, p. 93112; G. S. Hope and James A. Peterson, “Palaeoenvironments”, p. 173205.]Google Scholar
Keene, Patrick, J ed. Report of the Nottingham University Explorers Club Erdalsbreen Expedition 1975 northwest Josledalsbreen, Norway. [Nottingham], Nottingham University Explorers Club in conjunction with [Nottingham] Expeditions Co-ordinating Committee, 1976. [162] p. [Includes sections on geomorphology, p. 2637 and glaciology, p. 3869.]Google Scholar
Kunzi, K.F. Snow and ice surfaces measured by the Nimbus 5 microwave spectrometer, [by] Kunzi, K.F., Fisher, A.D. Staelin, D.H., Waters, J.W.. Journal of Geophysical Research, Vol.81 No.27 1976496580· [Information about global distribution and character of various types of snow and ice is provided by 22.2 and 31.4 GHz channels of spectrometer on board satellite. Well-defined spectral signatures for snow, sea ice and land ice in Greenland and Antarctica.]CrossRefGoogle Scholar
White, G.F. ed. Natural hazards; local, national, global. New York, etc., Oxford University Press, 1974. xvi, 288.p. [Includes: Ward, R.M., “Decisions by Florida citrus growers and adjustments to freeze hazards”, p. 13746; R- H. Jackson, “Frost hazard to tree crops in the Wasatch Front: perception and adjustments”, p. 14651; Earney, F.C.F, Knowles, B.A., “Urban snow hazard: Marquette, Michigan”, p. 16774; Ramsli, G., “Avalanche problems in Norway”, p. 17580; Visvader, H., Burton, I., “Natural hazards and hazard policy in Canada and the United States”, p, 21931;Gerasimov, I.P., Zvonkova, T.V., “Natural hazards in the territory of the USSR: study, control, and warning”, p. 24351. The last two articles contain sections on avalanches, hail, snow and glacier surges.]Google Scholar
Yokoyama, K Geomorphological and glaciological survey of the Minami-Yamalo nuuataks and ihe Kabuto nunalak, east Antarctica. Nankyoku Shiryö; Antarctic Record, [No.] 56 1976 p. 1419 [Presents results of survey of these nunataks, situated near the Yamato mountains, Dronning Maud Land, and observations on them and surrounding ice. Glacial striae and surface slope of ice sheet indicate direction of ice flow is north-westerly.]Google Scholar

Glaciolocical Instruments and Methods

Balandin, V.N. DrabkiN, V.V. Metodika izmereniya dreyfa l'da s pomoshrh'yu radiogcodezicheskoy sistemy [A technique for measuring ice drift with the aid of a radiogeodetic system]. Vestnik Leningradskogo Uninersiteta, 1975 No.12 Seriya Geologii i Geografii, Vyp. 4, p. 14144. [Describes technique, used for air survey, English summary, p. 143-]Google Scholar
Barendkfgt, R. W. Differentiation of tills in the Pakowki-Pinhorn area of southeastern Alberta on the basis of their magnetic susceptibility. Project 650027, [by] Barendregt, R.W., Stalker, A.M., Foster, J.H.. Canada. Geological Survey. Paper 761C, 1976 p. 18990. [Method proved.]Google Scholar
Bryant, R.S. INDAPS, integrated navigation, data acquisition and processing system, by Bryant, R.S., Doekes, C., Tripe, R.L.K.. International Hydrographie Review,Vol.53 No.2 1976, p. 6585. [Describes survey system deployed already in two vessels and in tracked vehicle operating on ice in the Canadian Arctic]Google Scholar
Davis, J.L. Impulse radar experiments on permafrost near Tuktoyaktuk, Northwest Territories, [by] Davis, J.L., Scott, W.J., Morey, R.M., Annan, A.P.. Canadian Journal of Earth Sciences Vol.13 No.11 1976. p. 158490. [Detects ice-sand interfaces at depths of 30 m. Resolves ice lenses embedded in sand and separated by 3 m.]Google Scholar
Elias, R.W. Improved techniques for studies of mass balances and fraelionations among families of” metals within terrestrial ecosystems, [byj Elias, R.W., Hinkley, T.K., Hiro, Y.,Patterson, C.C.. Geochimica et Cosmochimica Acta, Vol.40 No.6 1976 p. 58387. [Includes method of collecting a snow sample for trace element analysis that is representative of the entire accumulated snow-pack.]CrossRefGoogle Scholar
Ferrari, R.L. The 1976 Combridge-Reykjavik Universities Expedition to Vatnajokull, Iceland, [by] Ferrari, R.L., Miller, K.J., Owen, G. Cambridge University of Cambridge Dept. of Engineering, 1976. 62 leaves. (Special Report 5.) [Mainly testing of radio-echo sounding equipment in preparation for 1977 expedition to study jökulhlaups.]Google Scholar
Johansen,, Ø . Thermal conductivity of soil and rock. Frost i Jordan. 16, 1975. p. 1321. [Describes new method of prediction and presents chart for prediction of thermal conductivity of frozen soils.]Google Scholar
Judge, A.S. An application of hydraulic jet drilling techniques to mapping of sub-seabottom permafrost. Project 740102, Iby Judge, A.S., MacAulay, H.A., Hunter, J.A.. Canada. Geological Surrey. Paper 761C, 1976 p. 7578. [Jet drilling technique provides simple method of drilling holes for thermal profiling to depths of 50 m beneath water depth of up to 20 m (Vom platform of winter ice. Tested in Beaufort Sea.]Google Scholar
Lowry, R.T. Brochij, C. J. A system for the treatment of airborne laser profilometer data of ice. Ottawa, Dept. of National Defence. Research and Development Branch. Defence Research Establishment Ottawa, 1975. vii, 53.p. (DREO Report No.725.) [Sea ice. Outlines system used to reduce data to form suitable for manipulation and some of the analytical methods used to study data.]Google Scholar
Maciieret, YU. YA. Izmcrcniyc tolshchiny lednikov [Measurement of the thickness of glaciers]. Priroda1976, No.10 p. 9091. [Outlines radio-echo methods used by Russians in Svalbard.JGoogle Scholar
Merrill, K.M. Infrared observations of ices and silicates in molecular clouds, [by] Merrill, K.M., Russell, R.W., Soifer, B.T. Aslrophyacal Journal Vol.207 No.3 Pt. I 1976. p. 76369. [All clouds show presence of ice but features do not fit predictions of Mie theory for pure ice.]Google Scholar
NAκλτλ, T. Kanetsusuikei sekisetsumitsudokci no kairyô [Improved snow covet densimeter of heated plummet type]. Seppyô Vol. 37 No.4 1975 p. 17073. [Measurements may now be carried out quickly and in rain or snow up to 10°C. English summary, p. [173.]Google Scholar
Sinha, A.K. A field study for sea-ice thickness determination by electromagnetic means. Project 730004. Canada. Geological Survey. Paper 761C 1976 p. 22528. [Two portable double-dipole instruments were tested. Found that results were reliable for thicknesses up to 4 or 5 m in saline sea-water, but not for fresh sea-water.]Google Scholar
Splettstoessfr, J.F. ed. Ice-core drilling. Proceedings of a symposium. University of Nebraska, Lincoln, 28–30 August 1974 Lincoln, London University of Nebraska Press, [e 1976]. x, 189.p [Includes the following papers: Bird, I.G., “Thermal ice drilling: Australian developments and experience”, p. 118; Gillet, F., 1). Donnou and G. Ricou, “A new electrothermal drill for coring in ice”, p. 1927; Hansen, B.L.. “Deep core drilling in the east Antarctic ice sheet: a prospectus”, p. 2936; Harrison, W.D., Kamb, [VV.]B., “Drilling to observe subglacial conditions and sliding motion”, p. 3743; Higashi, A., Shoji, H., “Mechanical properties of Antarctic deep core ice”, p. 45 (abstract only); Hooke, R.L., “University of Minnesota ice drill”, p. 4757; Johnsen, S.J., “Near-surface snow sampling devices”, p. 5961; Korotkevich, Ye.S., Kudryashov, B.B., “Ice sheet drilling by Soviet Antarctic expeditions”, p. 6370; Langway, C.C.jr. “The polar ice-core storage facility at USA CRREL”, p. 7175; Mellor, M., Sellmann, P.V.. “General considerations for drill system design”, p. 77111; Paterson, W.S.B., “Thermal core drilling in ice caps in Arctic Canada”, p. 11316; Philberih, K., “The thermal probe deep-drilling method by EGIG in 1968 at station Jarl-Joset, central Greenland”, p. 11731; Rand, J.H., “The USA CRREL shallow drill”, p. 13337; Rufli, H., Stauffer, B., Oeschger, H., “Lightweight 50-meter core drill for fini and ice”, p. 139153; Suzuki, Y., “Deep core drilling by Japanese Antarctic research expeditions”, p. 15566; Taylor, P.L.. “Sohd-nose and coring thermal drills for temperate ice”, p. 16777; P- Theodorsson, “Thermal and mechanical drilling in temperate ice in Icelandic glaciers”, p. 17989.]Google Scholar
Venifr, G. O Cross, F. R. An airborne linear-sweep FM radar system for measuring ice thickness. Ottawa. Dept, ol Communications. Communications Research Centre 1975. iv 28.p. (CRC Report No.1269.) [Describes method designed for quick installation on helicopter and used for measuring fresh-water ice thickness.]Google Scholar
Wiesnet, D.R. Matson, M. A possible forecasting technique for winter snow cover in the northern hemisphere and Eurasia Monthly Weather Review, Vol.104 No.7 1976 p. 82835. [Scheme based on analysis of monthly mean charts compiled from weekly snow and ice charts. Offers reasonable method for 30, 60 and 90 d forecasts.]Google Scholar
Yahagi, H. Denryökcikei sekisan ondokei . Teion-kagaku: Low Temperature Science Ser. A, [No.] 33 1975 p. 21526. [Describes two thermometers, with operational temperatures of — 10 to 35 °C and 0 to -20 °C. English summary, p. 226.]Google Scholar

Physics of Ice

Atkins, A.G. Mat, Y.W. Effect of water and ice on strength and fracture toughness of intermittently bonded boron-epoxy composites. Journal of Materials Science. Vol.11 No.12 1976. p. 2297306. [Strength of uncoated composites disastrously affected. Explanation in terms of absorption on uncoated.areas.]CrossRefGoogle Scholar
Bartley, D. L. Ice crystal growth in water vapor at high saturation. Journal of Chemical Physics Vol.65 No.5 1976 p. 187682[Theory of development of new layers on different crystal faces provides explanation for strongly anisotropic growth at high supersaturations.]Google Scholar
Bonacci, J.C. The evaporation and condensation coefficient of water, ice, and carbon tetrachloride, by Bonacci, J.C., Myers, A.L., Nongbri, G., Eagleton, L.C.. Chemical Engincerig Science Vol.31. No.8 1976 p. 60917 [High values found when evaporating or condensing times were very short. Low values under other conditions attributed to surface temperature errors.]Google Scholar
Boutron., P. De la glace amorphe à la cryobiologie. Recherche Vol.7 No.68 1976 p. 56567. [Review of role of amorphous ice in cryohiology]Google Scholar
Chaichanavong, T. Dynamic properties of ice and frozen clay under cyclic triaxial loading conditions. Dissertation Abstracts International· B, Vol.37. No.2 1976. p. 888-B89-B. [Measurement of dynamic Young's modulus and damping ratio of polyrryslalline ice and frozen clay. Abstract of Ph.D. thesis. Michigan State University, 1976. University Microfilms order No.76-18604.]Google Scholar
Corrin, M.L. Barnes, R. Ih-situ silver iodide coated titanium dioxide as an ice nuclcant. Journal of Applied Meteorology. Vol.15 No.4. 1976p. 41314. [Method of replacing up to 90% of Agi with TiO2 without reducing iee nuclcation efficiency.]Google Scholar
Epstein, M Cho, D. H. Laminar film condensation on a vertical melting surface. Journal of Heat Transfer, Vol.98 No.1 1976 p. 10813. [Theoretical study. Includes as illustrative example condensation of a refrigerant vapour on melting ice.]CrossRefGoogle Scholar
Gilpin, R.R. The influence of natural convection on dendritic ice growth Journal of Crystal Growth Vol.36 No.1 1976 p. 10108. [Study of dendritic growth in large vessel of supercooled water. Natural convection important for supercoolings <2 deg.]Google Scholar
Grossman, G. Melting, freezing, and channeling phenomena in ice counterwashers A.I.Ch.E, Journal Vol.22 No.6 1976 p. 103342. [These phenomena, due to temperature difference between wash water and ice, are modelled and analysed and scaling laws derived.]CrossRefGoogle Scholar
Huang., J. S The effect of natural convection on ice crystal growth in salt solutions Dissertation Abstracts International. B, Vol.37 No.4 1976 p. 1793-B94-B. [Study of a-axis linear growth rate of ice in three orientations and different fluid flow rates and coolings. Abstract of Ph.D. thesis, Syracuse University, 1975. University Microfilms order No.76-18524.]Google Scholar
Iwai, K. Ice whiskers grown in silicone oil Journal of Crystal Growth Vol.34 No.2 197G, p. 31924. [Reproducible method of growing ice whiskers which are single crystals but curved.]Google Scholar
Joharl, G. P. Jones, S.J Infrared polarisability of hexagonal ice Nature. Vol.263 No.5579 1976 p. 67273. [Theory of pressure dependence of polarizability and of high-frequency dielectric permittivity leads to prediction of decrease with pressure.]Google Scholar
Kavvabata, K. Electron traps in irradiated crystalline ice Journal of Chemical Physics. Vol.65 No.5 1976 P- p. 223542· [Pulse radiolysis used to study traps and their annealing. Suggests traps are radiation-produced molecular vacancies.]Google Scholar
Krastanov, L Levkov, L. Crystallization of supercooled fog by means of powdered synthetic zeolites Doklady Bolgarskay Akademii Nauk Tom. 29, No.9 1976. p. 128183. [Laboratory experiments.]Google Scholar
Lebedev, D.P. Le Que, Kl . Issledovaniye teplo- i massoobmena pri sublimatsii l'da metodorn “teplovogo udara” [Heat and mass transfer during sublimation of ice studied by the method of “heat shock") Inzhenerno-Fizicheskiy Zhurnal Tom 29, No.5 1975 p. 808 13. [Equations for temperature distribution and sublimation rate when radiant energy pulse is given to ice under vacuum. English summary, p. 813.]Google Scholar
Levkov, L. Über die Eisbildung in untergekühltem Nebel unter der Einwirkung von Pbj2-aerosolen Doklad, Holgarskoy Akademii. Xauk Tom. 29 No.7 1976 p. 97577. [Study of ice nucleating ability of lead iodide in drops and in a supercooled fog.]Google Scholar
Lin, K. Y. Tanu, D. L. Residual entropy of two-dimensional iee on a Kagomé lattice Journal of Physics A Vol.9. No.7. 1976 p. 110107. [Calculation by series expansion.]Google Scholar
Morachevskiy, V. G. Dubrovicii, N.A. Molecular studies of the ice-forming capabilities of different surfaces Journal of the Atmospheric Sciences Vol.33 No. 10 1976 p. 198994. [Study of nucleation on salts of silver and lead and suggestions on surface modifications to stimulate ice-forming ability.]Google Scholar
Petit, J.-R. Duval, P. La luminescence de la glace; les effets de la deformation plastique Solid State Communications Vol.19 No.5. 1976 p. 47577. [Thermoluminescence of polycrystalline ice irradiated by ultraviolet light at liquid nitrogen temperature. Effect of plastic deformation and annealing.]Google Scholar
Reischel, M.T. Influences of chemical environments on ice nucleation Dissertation Abstracts International B, Vol.37 No.5 1976. p. 2327-B28-B. I Drop-freezing experiments on effect of other chemical species in solution or in the vapour. Abstract Γ Ph.D. thesis. University of Wyoming, 1976. University Microfilms order No.76-24732.]Google Scholar
Romanov, V. P. Izmereniye elektrokineticheskikh potentsialov na granitse razdela led-rastvor elektro-lita [Measurement of elertrokinetie potentials at the ice-electrolyte solutions interface]. [By] Romanov, V. P., Nechayev, Ye.A., Zvonareva, G.V. Kolloidnyy ZhurnalTom 38 Vyp. 5 1976. p. 100912. [Values of potential for 0.01.N KC1, NaCl, NH4CI, NaCH,COO, BaCl2 MgS04 solutions'determincd by microelcctro-phoresis. English abstract, p. 1012.]Google Scholar
Shiraishi, H. Electron spin resonance studies on hydrogen atoms formed in pure and acidic ices under electron irradiation. Motional narrowing and electron spin polarization effect, [by] Shiraishi, H., Kadoi, H., Katsurnura, O., Tabata, Y., Oshima, K. Journal of Physical Chemistry Vol.80 No.21 1976 p. 240007 [Observation of these effects, differences between pure and acidic ices, theoretical explanation.]Google Scholar
Sixou, P. DansaS, P. Molion of guest molecules in clathrates Berichte des Bunsengestllschafl für Physikalische Chemie. Bd. 80 Nr. 5 1976 p. 364C9. [Calculations and comparison with data on ice clathrates among others.]Google Scholar
Wu, RAY-SHING Cheng, K.C. Maximum density effects on thermal instability induced by combined buoyancy and surface tension International Journal of Heat and Mass Transfer. Vol.19 No.5 1976 p. 55965. [Theory of convection in water near the freezing point where density passes through maximum.]Google Scholar

Land Ice. Glaciers Ice Shelves

Ambach, W. Zum Wärmehaushalt im Akkumulationsgebiet des grönländischen Inlandeises: Interpretation der thermischen Stabilität von kalten Schnceschichten Polarjorschung Jahrg. 46 Nr. 1 1976 p. 4659. [Presents observations on heat balance of accumulation area of Greenland ice sheet, interpreting thermal stability of cold snow covers.]Google Scholar
Anderton, P.W. camp. Tasman Glacier, 1971-73. Wellington, Ministry of Works and Development for the National Water and Soil Conservation Organisation, 1975. 28.p. (Hydrological Research: Annual Report No.33.) [Summarizes main results of glaciological studies.]Google Scholar
Avek'yanov, V.G. Klokov, V.D. Polozheniye glyalsiologicheskikh /on v rayone oazisa Molodezhnaya [Position of glaciological zones in the area of Molodezhnaya oasis] Trudy Souetskoy Anlarklicheskoy Ekspeditsii Tom 65 1975 p. 153 57. [Structure of upper horizons of the ice sheet.]Google Scholar
Barrett, P.J. Dry Valley Drilling Project,1975-1976: firs core drilling in McMurdo Sound,[by] Barrett, P.J., [and 7 others]Antarctic Journal of the United States Vol.11No2 1976 p.7880. [Using annual sea ice as drill rig platform, hole was drilled to depth of 65 m 10 investigate history of east Antarctic ice sheet.]Google Scholar
Campbell, I.B. ClaridgE, G.G.C. Occurrence of dirt cones in Antarctica New Zealand Journal of Geology and Geophysics Vol.18 No.2 1975 p.34955 [Describes occurrences along length of Transantarctic Mountains and discusses mode of formation.]Google Scholar
Croot., D. G. Escritt, E.A. Scourge of surging glaciers Geographical Magazine Vol.48 No.6 1976 P- 32834-[Describes phenomenon of glacier surging with particular reference to occurrences in Iceland.]Google Scholar
Giogenbagh, W.F. Geotherma! ice caves on Ml Erebus, Ross Island,Antarctica New Zealand Journal of Geology and Geophysics Vol.19 No.3 1976 p. 365 72. [Describes cave system, 400 m in length.]Google Scholar
Haakensen, N. Materialtransport i norska glaeiärälvar 1973 av Haakensen, N., Olsen, H.C., Østrem, G.. Stockholms Unwersitet. Naturgeografiska Institutionen.Forsbüngsrapport 20, 1975 107.p. [Sediment transport studies in selected glacier streams in Norway in 1973. English summary, p.90103.]Google Scholar
Haebekli, W. Eistemperaluren in den Alpen. Z eitschriftlfür Gletscherkunde und GlazialgeologieBd.11 Ht. 2 1975 [pub.1976], p. 20320.[Presents temperature measurements made at various depths in Alpine glaciers and relates to factorsuch as local permafrost conditions,firn temperatures and heating by melt-water percolation.]Google Scholar
Haeberli, W. Röthlisberger, H Beobachtungenzum Mechanismus und zu den Auswirkungen von Kalbungen am Grubengletscher (Saastat,Schweiz). zeitschrift fürGletscherkunde und GlazialgeologieBd.11Ht.2 1975 [pub.1976], p. 221 28.[Discusses effects of calving of glacier into ice-dammed marginallake, caused by undercutting of ice cliff by circulation of lakewater.]Google Scholar
Hasholt, B. Hydrology and transport of material in the Sermilik area1972 GeografiskTidsskrift Bd.75 1975 p.3039. [Investigations on discharge from Mitrfluagkat glacier, east Greenland.]Google Scholar
Hughes, T.J. IS the west Antarctic ice sheet disintegrating? ISCAP Bulletin (University of Maineat Orono), No.4 1975 vi,141.p. [Discusses role of ice streams.]Google Scholar
Krass, M.S. Shumskiy, P.A. Thermodynamisches Modell eines äusseren Eisschells PolarforschungJahrg. 46 Nr. 1 1976ρ. 3445. [Theory of deformation and temperature distribution in unrestricted ice shelves.]Google Scholar
Mae, S. Thermal drilling and temperature measurements in Khumbu glacier, Nepal Himalayas, [by] Mae, S., Wushiki, H. [i.e. Ushiki], Ageta, Y., Higuchi, K. SeppyôVol.37 No.4 1975 p.16169. [Drilling to 20.3 m depth at 5 360 m a.s.l. in upper part of ablation area. Results suggest glacier might be classified as polar rather than temperate.]Google Scholar
MäLZER, H. Seckel, H Internationale Glaziologische Grönland-Expedition (EGIG). 3. Das geometrische Nivellement über das Inlandeis—Höhenänderungen zwischen 1959 und 1968 im Ost-West-Profil der EGIG Zeitschrift für Gletscherkunde und Glazialgeologie Bd.IIHt.2 1975 [pub. 1976], p.24552. [Presents further measurements from surveyson Greenland ice sheet,]Google Scholar
MüLLER, F Firn und Eis der schweizer Alpen. Gletscherin vetitar.—Ergaenzungsband t Fotoliste. [By] Müller, F., Caflisch, T., Müller, G. Eidgenössische Technisch Hochschule Zßkeh, Geographisches Institut.PublikationNr. 57 57a, 1976iii, [223J p.-[96] p. [Presents detailed inventory of present status of permanent firn and ice masses in Switzerland in relation todistribution of water reserves. English summary, p. 16769.]Google Scholar
Orheim, O. Bremalingar pâ Jan Mayen Norsk Polarinstitutt. Arbok 1974 (pub.1976), p. 24952.[Study of mass balance ofSorbrccn on Jan Maycn in 1972-74.]Google Scholar
Portnov, V.G. Stroyeniyc lednikovogo pokrova v rayone stantsii Vostok [Ice sheet structure in the Vostok area] Trudy Sovetskoy Antarkticheskay Ekspeditsii Tom 65, 1975 p.6676. [Distinguishes two stages in metamorphosis of ice,]Google Scholar
Richer, K. Tchaikazan Valley earth science notes Canadian Alpine Journal Vol.59 1976 p.1619. [Includes observations on retreat of Tchaian, Friendly, Miserable, Hourglass and Patheticglaciers, Coast Mountains, British Columbia,Canada.]Google Scholar
Ricker, K. Tupper, B Conception, birth and labour: Wedgemount Lake, northern Garibaldi Park Canadian Alpine Journal Vol.59 1976 p.3435. [Presents regular observations made since 1965 11 “Wedgemount Glacier”,Coast Mountains, British Columbia, Canada. In 1965 it was estimated to have retreated 1 km since 1927 and the lake had grown correspondingly.]Google Scholar
Rotnicki, K. The theoretical basis for and a model of (he origin of glaciotectonic deformations Quaestiones Geographicae(Poznan), No.3 1976 p. 1039. [Theoretical considerations concerning the causes and location of the formation of glaciotectonic deformations by inland in the substratum.]Google Scholar
Schneider, H. Die Karte des Kesselwandfcrncrs 1971 und die Grundlagen der Vermessungen Zeitschrift für Gletscherkunde und Glazialgeologie Bd. II Ht.2 1975 [pub. 197G], p. 22944. [Presents map, scale 1:5 000, of Austrian glacier, based on 1971 survey (which is described in some detail), to be used as basis for mass balance and movement studies. Also includes sketch-map, scale 1: 25 000, of Kessehvand-and Hintereis-ferner between 1850 and 1971 showing several positions of tongue]Google Scholar
Sevast'yanov, D.V. Sovrcmeruioye i drevneye oledebiye khrebla Atbashi [Present-day and ancient glaciation of Khrcbet Atbashi] Izvesliya Vsesoyuznogo Geugrajicheskogo Obshchestva Torn 108. Vyp. 6,1976 p. 55462.[Effect of interrelation of climate and relief on Tyan'-Shan'glaciers, Kirgiskaya S.S.R.JGoogle Scholar
Stober, M. Zur Bestimmung der Deformation des grönländischen Inlandeises beiCrête Polarforschung Jahrg.46 Nr. 1 1976 p.6061. [Corrected method for calculating strain-rates.]Google Scholar
Suslov, V. F. ed. Glyaisiologiya Sredney Asü (ledniki) [Glaciology of Central Asia (glaciers)] Sredneaziatskiy Regional’nyy.Nauchno-Issledovatel’skiy Gidrometeorologicheskiy Institut. Trudy.Vyp. 27(108),1975 [132] p.[Fifteen articles on glacier regimes, melt-water flow, hydiochemistry of glaciers and methods of research.]Google Scholar
T öKAIRIN, A. Wakahama, G. Iroiro na füsoku-ka ni okeru kôri noshôka sokudo to zen hôshutsu netsu no sokutei[Measurement of the sublimation-evaporation rate of tee and the total heat loss from the ice surface under various wind speeds] Teion-kagaku: Low Temperature Science. Ser. A, [Supplement to No.] 33,Shiryô Shù: Data Report 1975 p. 716.[Describes apparatus and presents tables showing results of measurements.]Google Scholar
Vivian, R. Glaciers alpins et chronologie Holocène Bulletin de l'Association de Géographes Français 53e An.,No.433 1976' P·10518. [Radiocarbon datingshows three major events during posi-Würm period. Most recent advance took place between A.D. 1500 and 1850. Discussion, p.11518.]Google Scholar
Whillans, I.M. Radio-echo layer's and the recent stability of the west Antarctic ice sheet, nature Vol.264No.5582 1976 p.15255. [New method for studying polar ice sheets confirms generally accepted concepts of ice sheet flow and finds that region near ice crest of west Antarctic ice sheet has been stable for about 30 000 years.]Google Scholar
Wushiki [i.e. Wushiki], H. Chügoku ni okeru Hiniaraya-hyôga 110 kenkyü—ronbun “Chûgoku, Chibeito-jichikunanbu. Chomo. Runmu-hÔ (Eberesuto-hö) chiku 110hyôga no kihon-tokusei” no hon'yaku-shôkai [Chinesresearch on the Himalayan glaciers (translation of Chinese scientific papers)] SeppyäVol.38 No 1 1976.P- 32 51 Google Scholar

Icebergs. Sea, River and Lake Ice

Adams, W.P. A classification of freshwaterice Musk-Ox No.18 1976 p. 99102.[Presents flow diagram showing interrelationships between majorevents, processes and forms in development and wastage of freshwater ice in various hydrometeorological situations. Refers to specificexamples.]Google Scholar
Adams, < W. P. Diversity of lake cover and its implications Musk-OxNo.18 1976 p. 86 98. [Discusses variability in quality and quantity of ice and snow with reference tobiological, engineering, gcomorphological and hvdro-logical implications, focusing on relatively large dimictic lake with considerable snowfall.]Google Scholar
Barthelemy, J. L.. Ice engineering—a heal sink method for subsurface icethickening. Porl Hueneme, California, Civil Engineering Laboratory. Naval Construction Battalion Center, 1976. 25.p. (Technical Report R845.) [Describes thickening of sea ice sheets by use of freezing cells to accelerate ice growth on underside. Used at coastal polar locations for platform foundations.Google Scholar
Catchpole, A.J.W. Freeze-up and break-up of esluaries on Hudson Bay in the eighteenth and nineteenth centuries, [byl Catchpole, A.J.W., Moodie, D.W., Milton, D. Canadian Geographer Vol 20,[No.] 3,.1976p-·27997. [Analyses changes 111 these dates at four river esluaries between 1714 and 1871 Data derived from daily journals kept by personnel of Hudson's Bay Company.]CrossRefGoogle Scholar
Efroimson, V. O. Uproshchennyy meiod rascheta narastaniyal'da v Azovskom more [A simplified method for calculating ice growth111 the Sea of Azov] MeUimdogiya iGidrologiya 1075. No.8 p.6560 [English summary, p. 69.]Google Scholar
Fayko, L.I Ledyanoy pokrov i sposoby upravleniya yego rezhimom (na primere rek i vodoyemou Takutii) [Ice cover and ways aj controlling its regime (e.g. in some rivers and reservoirs of Yakutiya)]. Novosibirsk “Nauka” 1975 138.p [Includes ice jams.]Google Scholar
Ishida, T Rêdâ-jôhô no sûchikaiseki ni yoru ryuhyö no ryûdô [Numerical analyses of ice field movement with data processing of sea iceradar| Teion-kagaku: Low Temperature Science. Ser. A, [No.] 33 1975 p17377 [English summary, p.17677.]Google Scholar
Kawamura, T. Ryühyöya no hassan to kaiten ni tsuite [On the divergence and rotation of an ice field of Tthe Okhotsk Sea coast of Hokkaido], [By] Kawamura, T., M, Aota., Tabata, T. Teion-kagaku Low Temperature Science Ser. A, [No.] 33, 1975 p.17990. [Radar study of movement of ice field. English summary, p.18990]Google Scholar
Kheysin, D. YE Ivciienko, V. O. Rasprostraneniye ledovykh szhatiy v splochennykh I'dakh [Distribution ni pressure in concentrated ice] Okeanologiya Tom 15, Vyp. 5,1975 p. 80312.[Presents mathematical model 01 movement of floating ice. Knglishsummary, p. 812.]Google Scholar
Klokov., V. D. Ledovyyeusloviya v more Kosmonavtov v navigatsiyu1972 g. [Ice conditions in the Sea of Cosmonauts in the1972 navigation season] Trudy Sovetskoy Antarkticheskoy Ekspeditsii. Tom 65,1975 , p13342[Seasonal distribution of ice in Alasheycv Bay.]Google Scholar
Kohnen, H. On the DC-resistivity oisea ice Zeitschrift für Gletscherkunde und Glazialgeologie. Bd.11 Ht, 2, 1975 [pub.1976], p. 14354.[Presents and discusses results of geoelectric soundings on profile of 23 km across ice from Pond Intel, Baffin Island, to Byiot Island,Northwest Territories, Canada.]Google Scholar
Krutskikh, B. A. ed. Ice forecasting techniques for the Arctic seas. Editors: Krutskikh, B. A., Gudkonc, Z.M., Sokolov, A.L.. Translated from Russian by Geli Saad. New Delhi, Amerind Publshing Co. Pvt Ltd for the Office of Polar Programs and the National Science Foundation, Washington, D.C., 1976. [viii] 230.p.[Translation Γ Voprosy metodiki ledovykh prognozov diva arkticheskikh morey Trudy Arkttcheskogo i Antarkticheskogo. Nauchno-Issledovatel’skogo Institude Torn 292, 1970]Google Scholar
Kusunoki, K. NankyokuShôwa-kichi-shûhen no kaihyôsen no hendö [Variation of pack ice edge off Syowa station,Antarctica] SeppyôVol.37 No.4 1975 P-192200. [Includes observations on speed of advance and retreat of ice edge at latitude 40” and onmorphological features and drift characteristics. English summary, p.200.]Google Scholar
Lutsenko, E I. Ledovaya obstanovka v Antarktika v navigatsiyu 1972/73g. (podannym sputmkovoy mtor-matsii [Ice conditions in the Antarctic during the navigation period of 1972-73 (from satellite information data)] Trudy Soveiskoy Antarklicheskoy Ekspeditsii Tom 65, 1975 p.12732. [Distribution and characteristicsGoogle Scholar
Moulton, K. N. Cameron, R.L. Bottle-green iceberg near the South Shetland Islands Antarctic Journal of the United States Vol.11 No.2 1976 p. 9495.[Colour non-biological in origin; iceberg is probably basal glacierice coloured by enclosed fine rock material.]_Google Scholar
Neill, C. R Dynamic ice forces on piers and piles. An assessment of design guidelines 111 thelight ol recent research Canadian Journal of Civil Engineering Vol.3No.2. 1976 p. 30541. [Advice directed mainly to practising engineers unfamiliar with ice mechanics. Restricted to consideration of horizontal dynamic forces on single structures.]Google Scholar
Ono, N. Tabata, T Bosunia-wan kaihyö chösa. 3.Daikesshô-hyô no kan satsu [Ice study in the Gull otBothnia 3, Observations on large grains of ice crystal] Teion-kagaku: Low Temperature Science Ser. A, [No.] 33 1975 p.20713. [Considers that low salinity of sea-water and cycles of melting and refreezing are causes'of formation of large grains. English summary, p.21213.]Google Scholar
Sadifr, H E The fine of water and heat through Nares Strait. Ottawa Dept. of National Defence. Research and Development Branch. Defence Research Establishment Ottawa, 1976. [xviii], 184.p. (DREO Report No 736 [Describes flow of water from Polar Ocean through Nares Strait by means of observations ot water characteristics, including ice movement and formation, in the strait and current meter observations in Robeson Channel.]Google Scholar
TABATA, T Bosunia-wan kaihyö chösa flee study in the Gulf of Bothnia] Teion-kugaku: Low Temperature Science Ser. A, [No.] 33 1975 p.19198. [Comparison of mechanical and thermal properties oflow saline sea ice with those of normal sea ice. English summary, p. 198.]Google Scholar
Tabata, T. Bosunia-wan kaihyöchösa. 2. Magekyôdo. 10 sokutei [Ice study m the Gulf ol Bothnia. 2. Measurements of flexural strength]. [By] Tabata, T., Suzuki, Y., Aota, M. Teion-kagaku: Low Temperature Scwnce Ser. A, [No.] 33 1975 p.199206. [Presents results,commenting on effect ol low salinity. English summary, p. 206.]Google Scholar
TaN, F. C. Frasfr, W. D. Oxygen isotope studies on sea ice in the Gulf of St.Lawrence Journal of the Fisheries Research Board of Canada Vol.33 No.6 1976 p. 1397401-[Presents results on direction and magnitude of oxygen isotopic fractionation between sea ice and sea-water. Discusses application ol results to identification of sources and movements of ice.].Google Scholar
Tsurikov, V. L. O formirovanii poristosti morskogo I'da [On the formation of sea ice porosity] Okianologiya Tom 15 Vyp.5 1975 p- 81319.[Porosity due chielly to gases isolated from freezing sea-water.English summary, p. 819.].Google Scholar
Wadhams, P. Oil and ice in the Beaufort Sea Polar Record Vol.18 No.114 1976 p.23750· [Discusses aims and achievements of Beaufort Sea Project and, especially,consequences of major oil spill.]Google Scholar

Glacial Geology

Adam, D P Hudson Bay, Lake Zissaga and the growth of Ae Laurentide ice sheet. Nature, Vol. 261, No. 5562,1076 p 67980. [Suggests that at times of formation of ice sheet, its mass balance depended on size, salinity and ice and snow cover of Hudson Bay, which in turn was controlled by the growing ice.]Google Scholar
Andersen,, B. G. Glacial geology of northern Nordland, north Norway. Norges Gtologiske Undersokelse, Nr. 320, Bulletin 33, 1075, 74 P- [General survey based on field work during last decade.]Google Scholar
Baranowski,, S., KARL éEN,, W. Remnants of Viking Age tundra in Spitsbergen and northern Scandinavia. Geografiska Annaler, Vol. 58A, Nod. 1-2, 1976, p. 35&–39· [Results indicate warm period with distinct glacier retraction and well-developed tundra on glacier forefield occurred between A.D. 800 and 1200. This was preceded and followed by marked glacier advances.]Google Scholar
Bray, J R. Volcanic triggering of glaciation. Nature, Vol. 260, No. 5550, 1976, p 41415· [Supports theory that large Pleistocene ice sheets were formed by sudden build-up and survival of permanent snow cover, suggesting that this survival could have resulted from massive volcanic ash eruptions.]Google Scholar
Carrara,, P. E., Andrews,, J. T. Holoccne glacial/pcrigiacial record; northern San Juan Mounams, southwestern Colorado. Zätschrift fur Gletscherkunde und Glazialgeologie. Bd. II, Ht. 2, 1975 [pub. 1970J, p. 155 74-[Suggests chronology of events based on field evidence.]Google Scholar
Coates,, D. R., ed. Glacial geomorphology. A proceedings volume of the fifth annual geomorphology symposia series held at Binghamtan, New York, September 26-28, 1974. Binghamton, New York, State University of New York, [e1974] [vi] 398P. + 6 p. errata. (Publications in Geomorphology.) [Includes the following articles. B Mears, “The evolution Γthe Rocky Mountain glacial model”, p.. .-40; Boulton, G.S, Processes and patterns of glacial erosion”, p. 4187; Dayton, L-, Moran, S. R.,, “A glacial process-form model”, p 8q no; C. Koteff, “The morphologic sequence concept and déglaciation of southern New England”, p. 121 44; C. A. M. King, “Morphometry in glacial geomorphology”, p. 14762 Goldthwait, R.P, Rates of formation of glacial features in Glacier Bay, Alaska”, p., 6385;.Muller, E.H., “Origins of drumlins p 187204; Coates,, D. R.,, “Reappraisal of the glaciated Appalachian Plateau p. 20543; K 1. BlacK, -Ice-wedge polygons of northern Alaska”, p. 247-75; Heroy, W.B., “History of glacia Lake VVawarsmg southeast New York”, p. 277 92; J.H., Moss, “The relation of river terrace formation to glaciation in the Shoshone River basin, western Wyoming”, p. 293314; Fairbridge, R.VV., “Glacial grooves and periglacia features in the Saharan Ordovician”, p, 31527; White, G.W. “Buried glacial geomorphology”, p. 331-50; Legget, R.F, “Glacial landforms and civil engineering”, p. 35174; Lafleur, R.G.“Glacial geology in rural land use planning and zoning”, p. 37588.]Google Scholar
Dennison, B. Mansfield, V.N. Glaciations and dense interstellar clouds. Mature, Vol. 261, No. 5555,1976, p. 3234. [Criticizes theory that Earth's ice ages may have been caused by interaction of Sun with dense interstellar clouds,]Google Scholar
Dredge, L.A. Moraines in the Godbout-Sept-Ues area, Quebec north shore. Project 710083. Canada. Geological Survey. Paper 76-1C, 1976, p. 18384. [Describes and discusses dates of these moraines along north shore of St Lawrence River.]Google Scholar
England, J. Late Quaternary glaciation of the eastern Queen Elizabeth Islands, N.W.T., Canada; alternative models. Quaternary Research, Vol. 6, No. 2, 1976, p, 185202. [Disputes previous interpretations of available data.]Google Scholar
Ford, D.C. Evidences of multiple glaciation in South Nahanni National Park, Mackenzie Mountains, Northwest Territories. Canadian Journal of Earth Sciences, Vol. 13, No. 10, 1976, p. 143345. [Description based on 1973 geomorphic mapping.]Google Scholar
Forrester, G.G. Niagara Falls and the glacier. Hicksvillc, N.Y., Exposition Press, [e1976], xv, 140 p. [Geological history of Niagara Falls for the amateur geologist and tourist.]Google Scholar
GüLUCKERT,, G, The second Salpausselkä at Karkkila, southern Finland. Bulletin ofllie Geological Society of Finland, No. 47, Pts 1 -2, 1975, p. 4553. [End moraine system examined.]Google Scholar
Grant, D.R. Late Wisconsinaii ice limits in the Atlantic provinces of Canada with particular reference to Cape Breton Island, Nova Scotia. Project 700056. Canada. Geological Survey. Paper 76-1C, 1976, p. 28992. [Interpretation of field data.]Google Scholar
Gravenor, G.P. Stupavsky, M. Magnetic, physical, and lithologie properties and age of till exposed along the east coast of Lake Huron, Ontario. Canadian Journal of Earlk Sciences. Vol. 13, No. 12, 1976, p. 165566,Google Scholar
Griffey, N.J. Stratigraphical evidence for an early neoglacial maximum of Steikvassbreen, Öksttndan, north Norway. Norsk Geologisk Tidsskrift, Vol. 56, No. 2, 1976, p. 18794, [End moraine deposited between 3500 and 3 000 years B.P.]Google Scholar
Griffey, N.J. The supposed major advance of Bsgisärjökull, northern Iceland, about 2,500 years ago. Geologiska Föreningens i Stockholm Förhandlingar, Vol. 98, Pt. 3, No. 566, 1976, p. 28082. [Presents evidence from study of end moraines that this advance cannot have occurred.]CrossRefGoogle Scholar
Harris, P.W. V. The seasonal temperature-salinity structure of a glacial lake: Jökulsärlon, south-east Iceland. Geografiska Annaler, Vol. 58A, No. 4, 1976, p. 32936. [Salinity of lake varies markedly at different times of year, increasing in winter and spring, decreasing in summer, due to intermittency in flow of sea-water into lake and to effect of ice melting.]Google Scholar
Karczewski, A. Morphomelric features of drumlins in western Pomerania. Quaestiones Geographicae (Poznań),No. 3, 1976, p. 3542, [Six morphomelric features analysed to study distribution of types of drumlins in north-west Poland.]Google Scholar
KARLÉéN,, W. Holocene climatic fluctuations indicated by glacier and tree-limit variations in northern Sweden. Stockholms Université!. Naturgeografiska Institutionen. Forskningsrapport. 23, 1976, 7 p. [Brief summary of four papers published inGeografiska Annaler, Vol. 551. No. 1. 1973, p. 2963, ibid., Vol. 58A, Nos. 1-2, 1976, p. 134Stockholms Universitet. Naturgeografiska Institutionen. Forskningsrapport 22, 75, and Boreas. Vol. 5, No. 1, 1976, p. 2556.]Google Scholar
Karlen, W. Lacustrine sediments and tree-limit variations as indicators of Holocene climatic fluctuations in Lappland, northern Sweden. Geografiska Annuler. Vol. 58A. Nos. 1-2, 1976, p. 134. [Presents conclusions of study which includes lichcnometric and C14 dating of glacier fluctuations.]Google Scholar
KARLÉN,, W. Denton,, G. H. Holocene glacial variations in Sarek National Park, northern Sweden. Boreas, Vol. 5, No. 1, 1976, p. 2556. [Moraine mapping and lichen studies in front of 17 small glaciers and resulting information on fluctuations of glaciers.]Google Scholar
Kelly, M. A note on the implications of two radiocarbon dated samples from Qaleragdlit imâ, south Greenland. Bulletin of the Geological Society of Denmark, Vol. 24, Pts 1-2, 1975, p. 2126. [Dating of two shell samples collected from zone of moraine of nineteenth-century ice advance suggests there was major recession of ice sheet in mid-Holocene to well behind present limits]Google Scholar
Kukla, G.J. Around the ice age world. Natural History, Vol. 85, No. 4, 1976. p, 5661. [Compares world-wide conditions 18 000 years B.P. with those today.]Google Scholar
Lawson, D.E. Observations on flutings at Spencer Glacier, Alaska. Arctic and Alpine Research, Vol. 8, No. 3, 1976, p. 28996. [Describes these depositional landforms of glacial origin produced by ablation of stratified basal ice of progressively retreating glacier.]Google Scholar
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Myaukov, S.M. Osnovnyye rezul'taty i problcmy issledovaniya neotcktonicheskoy i lednikovoy istorii Trans-antarkticheskikh gor i morya Rossa [Main results and problems of research into ncotectonic and glacial history of the Transantarctic Mountains and the Ross Sea]. Vestnik Maskovskoga Universileta. Seriya 5. Geografiya, 1975, No. 5, p. 3944. [Evaluates importance of glacio-isostasy to Transantarctic Mountains. Attempts to reconstruct climatic conditions and causes of onset of glaciation. English summary, p. 44.]Google Scholar
Nystuen, J.P. Late Prccambrian Moelv tillite deposited on a discontinuity surface associated with a fossil ice wedge, Rendalen, southern Norway. Norsk Geologisk Tidsskrift, Vol. 56, No. 1, 1976, p. 2550. [Discusses sedimentological and palaeoclimatic significance of tillite and its contact relations.]Google Scholar
Occhietti, S. Dépôts et faits quaternaires du Bas-St-Maurice, Québec (2e partie). Convention de recherche 1135/1)13-4-121/75. Canada. Geological Survey. Paper 76-1 G, 197Ö, p. 21720. [Study of tills and moraines.]Google Scholar
Parkin, D.W. Solar constant during a glaciation. Nature, Vol. 260, No. 5546, 1976, p. 2831. [Suggests that cause of ice ages may be some periodic behaviour in the Sun's interior.]Google Scholar
Schubert, C. Evidence of former glaciation in the Sierra de PerijA, western Venezuela. Erdkunde, Bd. 30, Ht. 3, 1976, p. 22224. [Typical features of glacial erosion observed in air photographs.]Google Scholar
Stalker,, Λ. M. Megablocks, or the enormous erratics of the Albertan prairies. Project 740089. Canada. Geological Survey. Paper 76-1C, 1976, p. 18588. [Describes six erratic blocks.]Google Scholar
Waters,, R. S. Scenery of Britain, Stamp of ice on the north. Geographical Magazine, Vol. 48, No. 6, 1976, p. 34248. [Describes effect of Pleistocene glaciation on landscape of northern England.]Google Scholar
Weidick, A. Glaciations of northern Greenland—new evidence. Polarforschung. Jahrg. 46, Nr, 1, 1970', p. 2633. [Evidence supports concept of small late Wisconsin (Wurm) glaciation.]Google Scholar
Worsley.,, P., Alexander,, M. J. Glacier and environmental changes—neoglacial data from the outermost moraine ridges at Engabreen, northern Norway. Geografiska Annaler, Vol. 58A, Nos. 1-2, 1976, p. 5569.[Evidence suggests maximum advance of glacier occurred before A.D. 1450.]Google Scholar
Worsley, P. Alexander, M.J. Neoglacial palacoenvironmental change at Engabrevaln, Svartisen Holands-fjord, north Norway. Marges Geologiske Undersekelse, No. 321,Bulletin 34, 1975, p. 3766. [Suggests that glacierization soon after A.D. 1000 may have been comparable to or greater than at present.]Google Scholar
Zhilkin, N.V. Sledy pokrovnogo oledeneniya na mczhdureeh'ye rek Nizhney Tunguski I Chuni [Traces of ice cap glaciation in the Nizhnaya Tunguska and Chuiiya river interfluve]. [By] Zhilkin, N.V., Onishchcnko, S.N., Rumyantseva, E.M., Sakharova, Ye.I.. Vestnik Moskovskogo Universileta. Seriya 5 Geograjiya, 1975, No. 5, p. 3238. [Study of deposits thought to result from glaciation advancing from north-north-west. English summary, p. 38.]Google Scholar

Frost Action on Rocks and Soil. Frozen Ground. Permafrost

Aikire, B.D. Winter earthwork: embankment construction using frozen soil, [by] Aikire, B.D., Hass, W.M., Botz, J.. Canadian Geotechnkal Journal, Vol. 13, No. 4, 1976, p. 36471. [Results from field tests analysed to assess effectiveness of field compaction of frozen soil and to quantify settlements that occur as soil thaws.]Google Scholar
Allen, C. R-The chemical and isotopic characteristics of some northeast Greenland surface and pingo waters, [by] Allen, C., O'Brien, R.M.G., Shoppard, S.M.F.. Arctic and Alpine Research, Vol. 8, No. 3, 1976, p. 297317. [Particular reference to problem of” pingo genesis.]Google Scholar
Andresen, A.A. Pilarer i telefarlig grunn bar forankes. Frost i Jord, No. 16, 1975, p. 4353. [Maintains that pillars in frost susceptible soil should be anchored due to adfreezing. English summary, p. 5253-]Google Scholar
Annan, A.P. Density of ice samples from “Involuted Hill” test site, District of Mackenzie. Project 750037. Canada. Geological Survey. Paper 76-1C, 1976, p. 9195. [Tests theory that air bubble entrapment at time of freezing causes density decrease in massive ice structures in permafrost.]Google Scholar
Barsch, D. Hell,, G. Photogrammetrische Bewegungsmessungen am Blockgletschcr Murtèl I, Oberengadin, Schweizer Alpen. Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 11, Ht. 2, 1975 [pub. 1976], p. 11142. [Observations made since 1932]Google Scholar
Barsch,, D., Treter,, U. Zur Verbreitung von Periglazialphänomenen in Rondanc/Norwegen. Geografiska Annaler, Vol. 581, Nos. 1-2, 1976, p. 8393. [Describes periglacial features of Rondane mountains, central Norway, presenting map showing distribution.]Google Scholar
Bermans, M.B. G. M.Water movement in porous media towards an ice front, [by] Bermans, M.B., Dijkema, K.M., Vries, D.A.de.. Mature, Vol. 264, No. 5582, 1976, p. 16667. [Letter. Presents experimental results on influence of pressure on ice growth. Application to movement of water in frozen soils.]Google Scholar
Frolov,, A. D. Elektricheskiye i uprugiye smyslva kriogennykk pared [Electric and elastic properties of cryogenic origin]. Moscow, “Nedra”, 1976. 254 p. [Deals with these properties and methods of studying them.]Google Scholar
Fukuda, M. Sakikawa,, S. Ryödo no netsudendöritsu no sokutei [Thermal conductivity of frozen soils].Teion-kagaku: Low Temperature Science, Ser. A, [No.] 33, 1975, p. 25963. [Considers importance of water content.]Google Scholar
Horiguchi, K. Funjôbusshitsu ni okeru reikyakusokudo to ryöjösokudo no kankei [Relations between the rate of frost heave and the rate of heat removal in freezing powdered materials]. Teion-kagaku: Low Temperature Science, Ser. A. [No.] 33, 1975, P- 227-35- [English summary, p. 235.]Google Scholar
Horiguchi, K. Funjôbusshitsu ni okeru ryöjöryö to hihyömciiseki to no kankei [Relations between amount of heave and the specific surface area of powdered materials]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 33, 1975, p. 23742. [Measurement of frost heave in frozen layers 4 mm thick of various powders. English summary, p. 24142.]Google Scholar
Hwang, C.T. Predictions and observations on the behaviour of a warm gas pipeline on permafrost. Canadian Geotechnkal Journal, Vol. 13, No. 4, 1976, p. 45280. [Verification of mathematical model was made using field data obtained from hot-berm module with natural gas temperature of 18.3°C.]Google Scholar
Inoue, M. Kinosita, S. Ryô do no asshukukyôdo to dötekiseishitsu [Mechanical properties of frozen soil]. Teion-kagaku: Low Temperature Science, Ser. A, [No.] 33, 1975, p. 24353- (Temperature range from —5 to —3°C, water contents from nearly dry to saturated, in sand, silt and clay. English summary, p. 253.]Google Scholar
Katsube, T.J. Electrical properties of permafrost samples. Project 630049, [by] Katsube, T.J., Wadleigh, M., Erickson, R.. Canada. Geological Survey. Paper-jô-iC, 1976, p. 83 90. [Measurements made in frequency range from 1.0 to to6 Hz at various températures. Discusses effect of ice content and temperature on electrical properties of samples.]Google Scholar
KURFüRST,, P. J. Ultrasonic wave measurements on frozen soils at permafrost temperatures. Canadian Journal of Earth Sciences, Vol. 13, No. II, 1976, p. 157176. [Describes results of ultrasonic measurements of com-pressional and shear wave velocities for tests carried out on frozen soil samples from Northwest Territories.JGoogle Scholar
KURFüRST,, P. J., Hunter,, J. A. Geological and geophysical surveys—Willowlakc River, Northwest Territories. Project 740046. Canada, Geological Survey. Paper 76-1G, 1976,0.161-64. [Combination of seismic, resistivity and density surveys and results from drilling programme provide interpretation of permafrost conditions.]Google Scholar
Nicholson, F.H. Permafrost amelioration tests near Schencrville, Quebec. Canadian Journal of Earth Sciences, Vol. 13, No. 12, 1976, p. 1694—1705. [Various measures tested over 4-year period, the most successful being use of snow fences to increase snow depth and hence reduce winter heat losses, which affect permafrost more than changing summer input conditions.]Google Scholar
Payette, S. The evolution of permafrost in the taiga and in the forest-tundra, western Quebec-Labrador Peninsula, [by] Payette, S., Samson, H., Lagarec, D.. Canadian Journal of Forest Research, Vol. 6, No. 2, 1976, P- 203-20. [Describes major permafrost landforms of this discontinuous permafrost zone and interprets within ecological perspective.]Google Scholar
Peketruhin, [i.e. Peretrukhin], N. Λ. Frost heaving forces in soils. Frost i jord. No. t6, 1975, p. 5560. [Reports on recent field investigations in U.S.S.R.]Google Scholar
Sissons,, J, B. A remarkable protalus rampart complex in Wester Ross. Scottish Geographical Magazine. Vol. 92, N°- 3, 1976, p· 182 90. [Accumulation is 1 km long, up to 55 m high, and formed in late glacial at foot of snow-bed in northern Scotland. Glimatic inferences made.]Google Scholar
Svensson, H. Relict ice-wedge polygons revealed on aerial photographs from Kaltenkirchen. Geografisk Tidsskrij't, Bd. 75, 1975, p. 812. [Description of findings.]Google Scholar
Takashi, T, Tôjô ni oyobosu mitôketsudonai no dösuiteiko no cikyô (toku ni ôryoku no chiisai baai) [Influence of permeability of unfrozen soil on frost heave (especially in the case of small-scale stress)]. [By] Takashi, T., Masuda, M., Yamamoto, H.. Seppyô, Vol. 38, No. I, 1976, p. 110. [English summary, p. 10.]Google Scholar
U.S. National Research Council Committee On Permafrost. Problems and priorities in offshore permafrost research. Washington, D.C., National Academy of Sciences, 1976. ix, 43 p. [Beaufort Sea, north of Alaska.]Google Scholar
Vorren, K.-D Vorren, B. The problem of dating a palsa, Two attempts involving pollen diagrams, determination of moss subfossils, and G14-datings. Asiarte, Vol. 8, No.2, 1975, p. 7381. [Method described and applied to palsas in north Finland and north Norway.]Google Scholar
Vtyurin, B.I. Podzenmyye Vdy SSSR [Underground ice of the U.S.S.R.J. Moscow, Izdatel'stvo “Nauka”, 1975. 215 p. [ Glass i lira lions of ice types in soil, with descriptions and distribution in U.S.S.R.]Google Scholar
Yegorova, G.N. Formirovaniyc sklonov i razmeshcheniye na nikh rastitel'nosti v usloviyakh mnogoletney merzloty [The process of formation Γ slopes and vegetation on them in permafrost conditions]. Izvestiya Vsesoyuznogo Geograficheskogo Obshchesiva, Tom 108, Vyp. 6, 1976, p. 49196. [North-eastern U.S.S.R.]Google Scholar

Meteorological and Climatological Glaciology

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Snow

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Fitzharris, B. B. An avalanche event in the seasonal snow zone of the Mount Cook region, New Zealand.Yew Zealand Journal of Geology and Geophysics, Vol. 19, No. 4, 1976, p. 44962. [Describes event involving 14 avalanches occurring July 1972.]Google Scholar
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Rvyakin, V.S. Popov, V.I. Poiyus snezhnosti Altaya [The snow pole of the Allay]. Izvestiya Vsesoyuznogo Geografichsskogo Obskchestva, Tom 108, Vyp. 6, 1976, p. 55054. [Effect of relief on snow cover conditions in Allayskiy Kray.]Google Scholar
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