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Glaciological Literature

Published online by Cambridge University Press:  30 January 2017

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Copyright © International Glaciological Society 1975

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

Conferences

Karlsson, T. ed. Proceedings, the second international conference on port and ocean engineering under Arctic conditions. University of Iceland. Dept. of Engineering and Science. Reykjavík, Iceland. August 27–30, 1973. [Reykjavík, University of Iceland, 1974.] viii. 801 p. [Includes the following papers: D. Bajzak, “A remote sensing program in sea ice and current studies”, p. 321; Ashton, G. D.,DenHartog, S. L.,Hanamoto, B. “Icebreaking by tow on the Mississippi River with mv Renee G”, p. 6379; Edwards, R. Y.,German, J. G.,Lawrence, R. G. A “Comparative model tests of the icebreaker performance of two Canadian Coast Guard icebreakers”, p. 8099;Legerer, F. J. “Design Strategy for ice navigation”, p. 10114; Mäkinen, K. “Ship model testing in ice. Possibilmes and reliability”, p. 11537;Lewis, J. W.,Ehrlieh, N. A. andLecourt, E. J. “Development of a craft capable of preparing an ice free channel through solid iee cover”, p. 13861; Bárðarson, H. R. “Icing of ships”, p. 185202;Lewis, E. L. “Arcticfjord flushing”, p. 233 37;Walker, H. J. “Changes occurring in the oceanic portion of the Colville River delta, Alaska during spring flooding”. p. 26673; Hirayama, K.,Schwarz, J. andWu, H. C. “Model technique for the investigation of ice forces on structures”, p. 33244; Sundararajan, C. andReddy, D. V. “Stochastic analysis of ice-structure interaction”, p. 34553; Holdsvvorth, G.,Traetteberg, A. “The deformation of an Arctic ice island”, p. 41940;Murty, T. S.,Barber, F. G. “An assessment of ice transport in the Hudson Bay region”, p. 44150;Mills, D. A. “Ridges and rafted ire on Lake Melville”, p. 45172;Nemec, A. O.,Mills, D. A.,Langford, C. J. andJesseau, S. L. “Lake Melville ice investigation, Labrador”, p. 47289;Parmerter, R. R. “Dimensionless strength parameters for floating ice sheets”, p. 490501;Benedict, C. P. “Underwater profiling of icebergs”, p. 60107;Chari, T. R. andAllen, J. H. “Iceberg grounding problems in the North Atlantic”, p. 60816;Croasdale, K. R. “The movement of Arctic landfast ice; its measurement and influence on offshore drilling”, p. 61736;Dehn, W. S. andHughes, F. D. “Sea ice versus Arctic operations in the Alaskan area”, p. 63758; English, J. andDempster, R. T. “Underwater laboratory in sub-Arctic waters”, p. 65970; P. Jumppanen, “Ice thermal loads against walls of water reservoirs”, p. 679702.]Google Scholar

General Glaciology

Hofmann, W. Die Internationale Glaziologische Grönland-Expedition (EGIG). 1. Das Forschungsprojekt und seine Ausführung. Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 9, Ht. 1–2. 1973, p. 23952 [Describes conception, foundation and research programmes of the Expédition Glaciologique Internationale au Groenland from its beginnings to the second expedition in 1967–68.]Google Scholar
Ives, J. D. Barry, R. G. ed. Arctic and alpine environments. London, Methucn, [e1974]. xviii, 999 p., 49 plates. [Articles relevant to glaciology are listed separately.]Google Scholar
Langway, C. C. Ice core storage facility. Antarctic Journal of the United States, Vol. 9, No. 6.1974. p. 32224. [Describes briefly storage of cores by the U.S. Army Cold Regions Research and Engineering Laboratory at their facilities in New Hampshire.]Google Scholar
Mukai, T. Mukai, S. Temperature and motion of the grains in interplanetary space. Publications of the Astronomical Society of Japan, Vol. 25, No. 4,1973, p. 48188. [Equilibrium temperatures of interplanetary iee grains deduced. Radiation pressure is less than gravitational force for all sizes.]Google Scholar
Williams, R. S., Environmental studies of Iceland wilh ERTS-1 imagery, by Williams, R. S. [and 8 Others]. Proceedings of the ninth International Symposium on Remote Sensing of Environment … 1974. … Ann Arbor, Center for Remote Sensing Information and Analysis, Willow Run Laboratories, Environmental Research Institute of Michigan, Vol. 1, [1974]. p. 3181. [Use of ERTS imagery is particularly valuable in studying geophysical phenomena of Iceland, including aspects of glaciology.]Google Scholar

Glaciological Instruments and Methods

Blincow, D. W. Dominey, S. C. A portable profiling snow gauge. Proceedings of the Western Snow Conference, 42nd annual meeting.1974, p. 5357. [Describes gauge, and discusses results from field studies.]Google Scholar
Chudoblak, W. J., Radar remote sensors for iee thickness and soil moisture measurements, by Chudobiak, W. J. [and 6 Others]. (In Thompson, G. E. ed. The applications of remote sensing and benefits to Canada. Proceedings [of the] second Canadian symposium on remote sensing, University af Guelph, Guelph, Ontario, Canada. April 29–May 1,1974. Vol. 2. Ottawa, Canadian Remote Sensing Society,1974, p. 41724.) [Fresh and saline ice. Five systems having very high-range resolution capabilities described.]Google Scholar
Goodman, D. J., Wire strainmeters on ice, [by] Goodman, D. J. Allan, A. J.,Bilham, R. G. Nature, Vol. 255, No. 5503,1975, p. 4546. [Deseription of instrument for recording strain continuously and its use on sea ice and a glacier.]CrossRefGoogle Scholar
KovÁcs, G. MolnÁr, G. Determination of snow water equivalent and snowmelt water by thickness of snow cover data. Hydrological Sciences Bulletin, Vol. 19, No. 4,1974, p. 43547. [New method derived.]Google Scholar
Meteor, R. E. Leader burst communication. Proceedings of the Western Snow Conference, 42nd annual meeting,1974, p. 2936. [Discusses application of technique to remote data collection, such as hydrological and meteorological data.]Google Scholar
Schreck, R. I., A simple, airborne, ice particle collector, [by] Schreck, R. I.,Touienhoofd, V.,Knight, C. A. Journal of Applied Meteorology, Vol. 13, No. 8,1974, p. 94950. [Device for collecting particles in cold silicone oil and bringing them back to the laboratory.]2.0.CO;2>CrossRefGoogle Scholar
Veillette, J. Helicopter portable drill for high Arctic programs. Project 730019. Canada. Geological Survey, Paper 751, Pt. A,1975, p. 42729. [Describes drill for permafrost coring.]Google Scholar
Veillette, J. Modified CRREL ice coring augers. Project 730019. Canada. Geological Survey, Paper 751, Pt. A,1975, p. 42526. [Describes modification for use in permafrost, which provides additional storage room for cuttings and permits longer core run.]Google Scholar
Watanabe, Z. Kongöeki ni yoru sekisetsu hakuhen no tsukurikata [A method of making thin sections of deposited snow by mixed solution]. Seppyö, Vol. 36, No. 3,1974, p. 9195. [Solutions of caprylic and capric acids and methyl cinnamate and of caprylic acid and ethyl cinnamate used at temperatures, respectively, of −8 to −10° C and −10 to −12° C. English summary, p. 9495]Google Scholar

Physics of Ice

Addison, J. R. Electrical properties of saline ice at 1 kHz down to −150° C. Journal of Applied Physics, Vol. 46, No. 2,1975, p. 51322. [Laboratory measurements on artificial sea ice and comparison with earlier work on pure and doped ice.]CrossRefGoogle Scholar
Anderson, B. J. Nucleation and epitaxial growth of ice crystals from the vapor. Dissertation Abstracts International, B, Vol. 35, No. 9,1975, p. 4580-B. [Experiments on growth of ice on covellite and AgI single crystals. Differences attributed to inherited strain which can also affect habit of snow crystals. Abstract of Ph.D. thesis, University of Nevada, Reno,1974. University Microfilms order no. 75-5307].Google Scholar
Browell, E. V. UV optical constants of water and ammonia ices. Dissertation Abstracts International, B, Vol. 35, No. 8,1975, p. 4105B. [Determination from 1610 Å to 3200 Å for amorphous and Ih ice; 1925 Å to 3200 Å for amorphous ammonia ice. Abstract of Ph.D. thesis, University of Florida,1974. University Microfilms order no. 75-3478.]CrossRefGoogle Scholar
Carras, J. N. Macklin, W. C. Air bubbles in accreted ice. Quarterly Journal of the Royal Meteorological Society, Vol. 101, No. 427,1975, p. 12746. [Theory of formation of air bubbles in accreted ice and comparison with experiments.]CrossRefGoogle Scholar
Carras, J. N. Macklin, W. C. The opacity of accreted ice. Quarterly Journal of the Royal Meteorological Society, Vol. 101, No. 428,1975, p. 20306. [Method of measurement described. Also suitable lor studying air bubble structures of hailstones.]CrossRefGoogle Scholar
Davis, C. I. The ice-nucleating characteristics of various silver-iodide aerosols. Dissertation Abstracts International, B, Vol. 35, No. 7,1975, p.4374-B75-B. [Experiments in cloud seeding in Wyoming and their relation to cloud chamber tests. Abstract of Ph.D. thesis, University of Wyoming,1974. University Microfilms order no. 74-23689.]Google Scholar
Doolittle, J. B. Vali, G. Heterogeneous freezing nucleation in electric fields. Journal of the Atmospheric Sciences, Vol. 32, No. 2,1975, p. 37579. [Experiments using AgI and organic nuclei show no effect oi electric field up to 6 kV cm−1.]2.0.CO;2>CrossRefGoogle Scholar
Evrard, G., Influence de la température sur le comportement diélectrique des émulsions de glace dans le domaine des ondes kilométriques, note Evrard,, de G.,Lagourette, B. et Montfort., J.-P. Comptes Rendus Hebdomadaires des Séances de l’Académie des Sciences, Sér. B, Tom. 279, No. 19,1974, p. 49193. [Measurements of dielectric dispersion of ice emulsions from 0 to −60° C.]Google Scholar
Falciglia, F., Positronium formation in ice, [by] Falciglia, F.,Iaci, G.,LoSavio, M.,Turrisi, E. Applied Physics, Vol. 5, No. 2,1974, p. 17980. [Broadening of narrow component in γ-annihilation distribution curve for positrons in ice attributed to Bloch slates.]CrossRefGoogle Scholar
Gibson, R. A. Wright, P. G. Dielectric Pippard plots for ferroelectric transitions in certain solid solutions, including impure ice. Journal of the Physics and Chemistry of Solids, Vol. 36, No. 4,1975. p. 32124. [Application of the theory to data for the 100 K transition in F-doped ice used to predict field dependence ot transition temperature.]CrossRefGoogle Scholar
Hale, B. N. Molecular, P. L. M Plumber model for ice clusters in a supersaturated vapor. Journal of Chemical Physics, Vol. 61, No. 10,1974, p. 401219. [Theory of ice Ih embryos shows this structure less stable than clathrate-like clusters.]CrossRefGoogle Scholar
Hale, B. N. On, P. L. M Plumber nucleation phenomena 1: a molecular model. Journal of the Atmospheric Sciences, Vol. 31, No. 6,1974, p. 161521. [Molecular model of cluster nucleation in supersaturated vapour.]2.0.CO;2>CrossRefGoogle Scholar
Jones, D. R. H Determination of the kinetics of ice-brine interfaces from the shapes of migrating droplets. Journal of Crystal Growth, Vol. 26, No. 1,1974, p. 17779. [Elongation of layer droplets migrating under a temperature gradient used to deduce kinetic solidification at the ice-droplet interface.]CrossRefGoogle Scholar
Kelland, S. B. Twenty-vertex model on a triangular lattice. Australian Journal of Physics, Vol. 27, No. 6,1974, p. 81329. [Solution of a theoretical model connected with the ice polarization problem.]CrossRefGoogle Scholar
King, W. D. Freezing rate of water droplets. Journal of the Atmospheric Sciences, Vol. 32, No. 2,1975, p. 40308. [Theory developed and compared with experiments.]2.0.CO;2>CrossRefGoogle Scholar
Kiselev, V. F., Poverkhnostnyye yavleniya na granitse led-gaz i led-tverdoye telo [Surface phenomena at the ice-gas and ice-solid interfaces]. [by] Kiselev, V. F.,Kvlividze, V. I.,Kurzayev, A. B. (In Tsytovich, N. A., ed. Vtoraya Mezhdunarodnaya Konferentsiya po Merzotovedeniyu. Doklady i soobshchemya. [Edited by]Tsytovich, N. A.,A, B. Savel’yev,Votyakov, I. N. Vyp. 4. Yakutsk, Yakutskoye Knizhnoye Izdalel’stvo,1973, p. 199202.) [Review of liquid-like layer on ice surface.]Google Scholar
Kobayashi, T. VLS [vapour–liquid–solid] growth on ice surfaces treated with AgI-NH4I. Journal of Crystal Growth, Vol. 26, No, 1,1974, p. 612. [Formation of terraces on basal plane and later growth rate of steps observed and discussed.]CrossRefGoogle Scholar
Lamy, P. L. Interaction of interplanetary dust grains with the solar radiation field. Astronomy and Astrophysics, Vol. 35, No. 2,1974, p. 197207. [Investigation of this interaction for, among others, ice spheres.]Google Scholar
Mehrer, H. Theory of tracer diffusion in the Wurtzite structure with applications to hexagonal ice. Zeitschrift für Physik B, Vol. 20, No. 3,1975, p. 28188. [Theory of diffusion by vacancy mechanism.]CrossRefGoogle Scholar
Meschi, D. J. Searcy, A. W. Kinetics of dissociative vaporization reactions. High Temperature Science, Vol. 6, No. 3,1974, p. 22136. [Theory of evaporation from solids developed and compared with data on ice and NaCl.]Google Scholar
Miloshev, G. N. Todorova, S. V. Adsorption effect on the appearance of the primary water product in the atmosphere. Doklady Bolgarskoy Akademii Nauk, Tom. 26, No. 11.1973, p. 148184. [Adsorption increases temperature at which ice crystals form by sublimation.]Google Scholar
Nevskiy, A. S. Malysheva, A. I. vliyanii sposoba barbotazha vanny na teploobmen pri plavlenii l’da [Effect of the manner of bath bubbling on the heat transfer in ice melting]. Inzhenerno-Fizicheskiy Zhurnal, Tom 28, No. 1,1975, p. 14143. [Experiments on ice cylinders in water and NaCl solutions.]Google Scholar
Olinger, B. Halleck, P. M. Compression and bonding of ice VII and an empirical linear expression for the isothermal compression of solids. Journal of Chemical Physics, Vol. 62, No. 1,1975, p. 9499. [Measurement of density from 3–8 GPa and 298 K.]CrossRefGoogle Scholar
Onuki, A., First-order phase transition with a moving boundary. II. Theory of ice formation, [by] Onuki, A.,Shibuya, Y.,Kozaki, S. Journal of Law Temperature Physics, Vol. 15, Nos. 1–2,1974, p. 16168. [Exact solution of differential equation for moving boundary found and applied to ice freezing from water.]CrossRefGoogle Scholar
Passarelli, R. E., Ice nucleation in a supercooled cloud by CuI–3AgI and AgI aerosols, [by] Passarelli, R. E.,Chessin, H.,Vonnegut, B. Journal of Applied Meteorology, Vol. 13, No. 8,1974, p. 94648. [Experiments on numbers of active nuclei produced.]2.0.CO;2>CrossRefGoogle Scholar
Rosinski, J. Nagamoto, C. T. Silver halides and iodine monobromide systems as freezing nuclei. Journal of Applied Meteorology, Vol. 13, No. 7,1974, p. 77882. [Experimental study of enhancement of ice nucleability by exchange of I ions on surface of AgI.]2.0.CO;2>CrossRefGoogle Scholar
Ryan, B. F., The densities and growth rates of ice crystals between −5 C and −9 C, [by] Ryan, B. F.,Wishart, E. R.,Holroyd, E. W. III. Journal of the Atmospheric Sciences, Vol. 31, No. 8,1974, p. 213641. [Measurements and comparison with theory.]2.0.CO;2>CrossRefGoogle Scholar
Rye, P. J. Macklin, W. C. Crystal size in accreted ice. Quarterly Journal of the Royal Meteorological Society, Vol. 101, No. 428,1975, p. 20715. [Measurement of preferred orientation and dimensions of ice crystals resulting from freezing supercooled droplets on ice substrates.]CrossRefGoogle Scholar
Shipman, L. L. Scheraga, H. A. Computation of the intermolecular vibrational modes of a tetrahedral water pentamer at the core of an ice-like water cluster. Journal of Physical Chemistry, Vol. 79, No. 4,1975, p. 38083. [Calculations reported and compared with infra-red and neutron scattering spectra of ice Ih.]CrossRefGoogle Scholar
SmedskjÆr, L. Trumpy, G. Temperature dependence of the narrow component for positronium in ice. Applied Physics, Vol. 5, No. 1,1974, p. 4952. [Interpretation of results in terms of delocalized and localized positronium ice, the latter possibly trapped by L-defects.]CrossRefGoogle Scholar
Stephen, T. Freezing potentials and electrical conductivities of LiF, LiCl, and amine group ices. Dissertation Abstracts International, B, Vol. 35, No. 5,1974, p. 2379-B. [Measurement and interpretation. Abstract of Ph.D. thesis, Saint Louis University,1974. University Microfilms order no. 74-24146.]Google Scholar
Stillinger, F. H. Lemberg, H. L. Symmetry breaking in water molecule interactions. Journal of Chemical Physics, Vol. 62, No. 4,1975, p. 134046. [Discusses how dipole-dipole forces between water molecules at large separation cause a change in symmetry as they approach.]CrossRefGoogle Scholar
Sullivan, D. E. Deutch, J. M. Molecular theory of dielectric relaxation. Journal of Chemical Physics, Vol. 62, No. 6,1975, p. 213038. [New theory of frequency-dependent dielectric permittivity in terms of a dipole “memory function“.]CrossRefGoogle Scholar
Tatibouet, J., Influence de la déformation plastique sur les propriétés ultrasonores de la glace Ih , [par]Tatibouet, J.,Vassoille, R.,Perez, J.,Gobin, P. F. Journal de Physique, Tom. 36, No. 1,1975, p. 6973. [Measurement of attenuation and velocity of ultrasonic waves in ice single crystals after plastic deformation and during annealing.]CrossRefGoogle Scholar
Vasconcellos, K. F. Beech, J. Development of blow-holes in the ice–water–carbon dioxide system. Journal of Crystal Growth, Vol. 28, No. 1,1975, p. 8592. [Formation of blow-holes considered in relation to solute profile. Effect of freezing rate.]CrossRefGoogle Scholar
Venkatesh, C. G., Amorphous solid water: an X-ray diffraction study, [by] Venkatesh, C. G.,Rice, S. A.,Narten, A. H. Science, Vol. 186, No. 4167,1974, p. 92728. [O atom pair correlation function determined for amorphous ice deposited at 10 K.]CrossRefGoogle Scholar
Whitworth, R. W. Charged dislocations in ionic crystals. Advances in Physics, Vol. 24, No. 2,1975, p. 203304. [Revies. Includes section on charged dislocations in ice, p. 29193.]CrossRefGoogle Scholar

Land Ice. Glaciers. Ice shelves

Ambach, W. Jochum, O. Zur Dispersion im offenen Gerinne: Einfluss von Randzonen bei Gletscherbächen. Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 9, Ht. 1–2,1973, p. 18188. [Discusses perturbation by boundary layers at margin of glacial streams when measuring discharge with tracers.]Google Scholar
Arkel Van, N. A. Die gegenwärtige Vergletscherung des Ararat. Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 9, Ht. 1–2,1973, p. 89103. [Results of survey of ice cover of Mt Ararat made in summer1966. Presents map, description and selection of photographs for future comparisons.]Google Scholar
Barkov, N. I., Izotopnyy khimicheskiy sostav materikovogo l’da v rayone stantsii Mirnyy [Isotopic chemical composition of continental ice in the Mirny station region]. [by] Barkov, N. I.,Polyakoy, V. A. Yu.Seletskiy, V.,Yakubovskiy, A. V.,Isayev, N. V. Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 89,1974, p. 1923.Google Scholar
Dean, W. W. Maclure Glacier. California. A contribution to the International Hydrological Decade. Proceedings of the Western Snow Conference. 42nd annual meeting,1974, p. 18. [Presents six years’ data from mass balance studies of this small (0.17 km2) glacier in the Sierra Nevada, altitude 3 600–3 800 m.]Google Scholar
Dewart, G., Analysis of the Byrd station strain net, Antarctica, by Dewart, G.,Whillans, I. M.,Brecher, H. H. Ohio State University. Institute of Polar Studies. Report No. 48,1974, iv l, 49 p. [Presents results of field investigations relating to study of glacier flow.]Google Scholar
Elachi, C. Brown, W. E. Imaging and sounding of ice fields with airborne coherent radars. Journal of Geophysical Research, Vol. 80, No. 8,1975, p. 111319. [Presents recent results from radar imagery of glaciers in south-eastern Alaska, imagery of coastal and sea ice in northern Alaska and Beaufort Sea, and sounding of layered continental ice in Greenland.]CrossRefGoogle Scholar
Finsterwalder, RÜdiger, Rentsch, H. Das Verhalten der bayerischen Gletscher in den letzten zwei Jahrzehnten. Erläuterungen zu den Gletscherstandskarten für die Jahre 1949(50)–1959–1970(71). Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 9. Ht. 1–2,1973, p. 5972, 5 maps [in end-pocket]. [The five small glaciers of the German part of the Alps were surveyed in these three years and documented in maps, scale 1: 5 000. Behaviour of glaciers during this period is discussed.]Google Scholar
Gloersen, P., Microwave maps of the polar ice of the Earth, [by] Gloersen, P.,Wilheit, T. T.,Chang, T. C.,Nordberg, W.,Campbell, W. J. Bulletin of the American Meteorological Society, Vol. 55, No. 12,1974, p. 144248. [By using scanning microwave radiometer at wavelength 1.55 cm on Nimbus-5 satellite, three different views of each pole were obtained at monthly intervals from December 1972 to January1973, Results analysed and discussed.]2.0.CO;2>CrossRefGoogle Scholar
Govorukha, L. S., Radiolokatsionnoye zondirovaniye lednikovogo pokrova o. King-Dzhordzh (Vaterloo) [Radio-echo sounding of the King George Island (Waterloo) ice sheet]. [by] Govorukha, L. S.,Chudakov, V. I.,Shalygin, A. M. Informatsionnyy Byulleten’ Sovetskoy Antarkticheskoy Ekspeditsii, No. 89,1974, p. 1518.Google Scholar
Hambrey, M. J. Oxygen isotope studies at Charles Rabots Bre, Okstindan, northern Norway. Geografiska Annaler, Vol. 56A, Nos. 3–4,1974, p. 14758. [Evaluates usefulness of oxygen isotope analysis in elucidating problems concerning flow and structure of this glacier.]CrossRefGoogle Scholar
Harrison, A. E. Mt. Baker, Washington. Coleman Glacier survey. Description and coordinates of programmetric control stations. [Seattle], Washington, University of Washington. College of Engineering. Dept. of Electrical Engineering,1974. 49 p. (Technical Report No. 181.) [Results summarized in table and maps; descriptions and data for each station are given individually.]Google Scholar
Hattersley-Smith, G. Present Arctic ice cover. (In Ives, J. D.,Barry, R. G. ed. Arctic and alpine environments. London, Methuen, [e1974], p. 195223.) [Surveys current state of knowledge of Arctic glaciers and their behaviour.]Google Scholar
Hughes, T. J. Is the west Antarctic ice sheet disintegrating? ISCAP Bulletin (University of Maine at Orono), No. 3,1974, iv, 93 p. [Study of unstable Ross Sea glacial episodes; mechanisms that may control rate and extent of disintegration.]Google Scholar
Iken, A. Srhwankungen der Oberflächengeschwindigkeit des White Ciacier, Axel Heiberg Island im Zusammenhang mit Schwankungen der Wasserführung von Gletscherbächen und des Wasserdruckes in Gletschermühlen. Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 9, Ht. 1–2,1973, p. 20719. [Results of field work relating variations of surface velocity of glacier to variations of discharge of subglacial streams and of water pressure in moulins.]Google Scholar
Krenke, A. N. Zony l’doobrazovaniya na lednikakh [Zones of ice formation on a glacier]. Geofizicheskiy Byulleten’, No. 25.1973, p. 4456. [Classification of glaciers and formation of firn.]Google Scholar
Krimmel, R. M. Tangborn, W. V. South Cascade Glacier: the moderating effect of glaciers on runoff. Proceedings of the Western Snow Conference, 42nd annual meeting,1974, p. 913. [Applies results obtained from this glacier, 1965–73, to illustrate mechanisms by which glaciers moderate stream flow.]Google Scholar
Lichti-Federovich, S. Pollen analysis of ice core samples from the Devon Island Ice Cap. Project 690064. Canada. Geological Survey. Paper 75–1, Pt. A,1975. p. 44144. [Spectra from all levels were dominated by pollen from distant sources.]Google Scholar
LiestØl, O. Glaciological work in 1973 . Norsk Polarinstitutt. Årbok 1973 [pub. 1975], p. 18192. [Mainly mass-balance studies on four glaciers in Norway and two in Spitsbergen.]Google Scholar
Loijens, H. S. Streamflow formation in the Mistaya River basin, Rocky Mountains, Canada. Proceedings of the Western Snow Conference, 42nd annual meeting,1974, p. 8695. [Discusses influence of glacier melt.]Google Scholar
Mokievsky-Zubok, O. Analysis of mass balance values and their accuracy fir Sentinel Glacier, British Columbia, Canada. Ottawa, Environment Canada. Inland Waters Directorate. Water Resources Branch,1974. v, 4 p. (Scientific Series, No.31.) [Method 1 based on determination of difference between measured winter and summer balances compared with method 2 based on difference between volume of remaining snow cover and ice and firn ablation. Latter more accurate.]Google Scholar
Mokievsky-Zubok, O. Determination of the mass balance on Sentinel Glacier, British Columbia, Canada. Ottawa, Environment Canada. Inland Waters Directorate. Water Resources Branch,1973. v, 39 p. (Scientific Series, No. 30.) [Two surface methods compared for entire glacier; terrestrial photogrammetry for tongue.Between 1966 and1971, four years with positive and two years with negative mass balantes. Total loss exceeded gain by 28 cm of water for entire surface.]Google Scholar
Mokievsky-Zubok, O. Study of Sentinel Glacier, British Columbia, Canada within the International Hydrological Decade program. Procedures and techniques. Ottawa. Environment Canada. Inland Waters Directorate. Water Resources Branch,1973. vii, 31 p. (Technical Bulletin No. 77.) [General description of field work on this glacier, situated in maritime climate and subject to high winter precipitation.]Google Scholar
Ostrem, G. Present alpine ice cover, (In Ives, J. D.,Barry, R. G. ed. Arctic and alpine environments. London. Methuen, [e1974], p. 22550.) [Conceptual discussion of alpine glaciers together with consideration of past and present conditions and interrelated aspects such as regional glaciation levels and snow-lines.]Google Scholar
Patzelt, G. Die neuzeitlichen Gletscherschwankungen in der Venedigergruppe (Hohe Tauern. Oslalpen). Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 9, Ht. 1–2,1973, p. 557. [Discusses glacier fluctuations from A.D. 1500 to present day.]Google Scholar
Peterson, J. A., Recession of snow and ice fields of Irian Java. Republic of Indonesia, by Peterson, J. A.,Hope, G. S.,Mitton, R. Zeitschrift für Gletscherkunde und Glazialgeologie, Bd. 9, Ht. 1–2,1973. p. 7487. [Discusses retreat of tropical ice masses during last 50 years, and compares behaviour of and factors affecting glaciers of New Guinea to those of the Andes and Africa.]Google Scholar
Ross Ice Shelf Project. Ross Ice Shelf Project (RISP) science plan. First edition (final draft). Prepared by Ross Ice Shelf Project steering group. Lincoln, Nebraska, University of Nebraska—Lincoln. Ross Ice Shelf Project,1974. viii, 91 p. [Describes project, objectives of which are to investigate conditions in ice shelf, in water beneath ice, and in sediments and bedrock on sea bottom, and to interpret from data past history and present conditions in this part of Antarctica.]Google Scholar
Rutford, R. H. Coordination of ice core drilling. Antarctic Journal of the United Slates, Vol. 9, No. 6, 1974 p. 32526. [Describes activities of the Polar Ice Core Office (PICO), established in March 1974 at the University of Nebraska, Lincoln.]Google Scholar
Savatyugin, L. M. O. “samooblamyvanii” shel’fovykh lednikov Antarktidy [On “self-calving” of Antarctic shelf ice]. Informatsionnyy Byulleten’ Sovetskoy Antarktkheskoy Ekspeditsii, No. 89,1974, p. 2426. [Based on theory of N. Reeh.]Google Scholar
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Icebergs. Sea, River and Lake Ice

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Glacial. Geology

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Kneussl, W. H ohlenbarenknochen aus der Tischoferhohle (Kaisertal bei Kufstein-Nordtirol) mit 14C-Methode altersbes timmt. Zeitschrift für Gletscherbnde und Glazialgeologie, Bd. 9, Ht. 1–2,1973, p. 23738. [I4C dating of cave bear’s bone shows age of 27 875 ± 485 years B.P., further evidence of ice-free valley during Wlirm interstadial.]Google Scholar
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Frost Action on Rocks and Soil. Frozen Ground. Permafrost

Afanasenko, V. YE, Gidrogeologicheskiye usloviya Selennyakhskoy nalozhennoy vpadiny i sopredel’nykh s ney gornykhs ney gornykh sooruzheniy [Hydrological conditions of Selennyakh superimposed depression and adjacent mountain structures] . [By] Afanasenko, V. Ye.,Romanovskiy, N. N.,Koreysha, M. M. Merzlotnyye Issledovanrya, Vyp. 14,1974, p. 91104. [Permafrost conditions and underground water system in Yakutskaya A.S.S.R.]Google Scholar
Aguirre-PUENTE, J., Frost heaving and the classification of soils in accordance with their frost susceptibility, by Aguirre-Puente, J.,Dupas, A.,Philippe, A. Frost i jord, Nr. 14,1974, p. 4147. [Translated from the original French in Bulletin de Liaison des Laboratoires des Ponts et Chaussées, No. 68, 1973.]Google Scholar
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Apostolopoulos, C., Theoretical investigation of some possible frost-resistant pavement constructions in relation to their thermal properties, by Apostolopoulos, C.,Kuhle, H.,Schneider, W. Frost i jord, Nr. 12,1973, p. 3743. [Constructions considered, in descending order of frost resistance, were those with non-load bearing and load bearing insulations, conventional full-depth asphalt constructions. Text also in German, p. 2935.]Google Scholar
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Feroyvik, F. Frostsikre gulv på grunnen. Frost i jord, Nr. 14,1974, p. 4957. [Discusses development of simple frost-protected foundations for practical use, based on computer calculations for normally heated family houses in four Norwegian towns. English p. summary 57.]Google Scholar
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Fyrhake, L. Samband mellan tjälning och rörelser hos grundmurar i småhus; inverkan av markisolering med mineralull. Statens Institut för Byggnadsforskning. Rapport. R20:1973, [1973,] [iv], 26 p. [Discusses correlation between frost heave and movements in the foundation walls of houses and effect of ground insulalion using mineral wool. English summary, p, iii–iv,]Google Scholar
Gandahl, R. Styrencellplast i väg. Frost i jord, Nr. 10,1973, p. 512, [Presents results of field tests of polystyrene foam as road insulating material. English summary, p 1112.]Google Scholar
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Hansen, P. B. Frostbeskyttelse av eksisterende veger med toppisoleringsmetoden. Frost i jord. Nr. 9,1973, p. 719. [Describes frost protection of existing roads using boards of insulating material of high compressive strength placed directly on road with thin layer of asphaltic gravel on top of the boards. In p. English 15 19.] Google Scholar
Heidmann, L. J. An investigation into the causes and prevention of frost heaving of forest tree seedlings. Dissertation Abstracts International. B, Vol. 35, No. 3,1974, P. 1143-B. [Frost heaving was reduced by ploughing with and without addition of chemicals; survival was better on ploughed plus chemical plots. Abstract of ph.D). thesis, University of Arizona, 1974. University Microfilms order no. 74–20256.]Google Scholar
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Ivashenko, I. N. Vrachev, V. V. Vliyaniye moroznogo issusheniya na deformiruyemost’ merzlykh gruntov pri trekhosnom szhatii [Influence of frost drying in deformation of frozen soils under triaxial pressure], Merzlotnyye Issledovaniya, Vyp. 14,1974, p. 20408.Google Scholar
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Janson, L.-E. Undersokning av frysrisken för vattenledningar ovanför tjälgransen. Frost i jord, Nr. 14,1974, p, 5967. [Tests on water mains show foundation depths can be reduced if high quality frost insulation is used. English summary, p 67.]Google Scholar
Johansen, Ø. Beregningsmelode for varmeledningsevnen av fuktige og frosne jordater. Del 2. frost i jord Nr. 10,1973, p. 13—28) +[4] p. [Describes method for calculation of thermal conductivity of damp and frozen soils. English summary, p 2528.]Google Scholar
Kinosita, S.[i,e. Kinoshita],. Water migration in the soil during frost heaving. Frost ford. Nr. 11,1973, p. 3740. [Presents equation for calculation of water migration, based on experiments in Hokkaido.]Google Scholar
Knutson, Å. Praktisk bruk av bark i vegbygging. Frost i jord, Nr. 10,1973, p, 2944. [Results of held and laboratory work in Norway on use of bark as frost accumulating road base. Water in bark must freeze belore Host can penetrate into sub-soil. English summary, p 3944.]Google Scholar
Kondkat’yeva, K. A. K voprosu o sledakh promerzaniya i ottaivamya v nizhnechetvertichnykh otloznemyakh basseyna r. Khromy [On freezing and thawing traces in lower Quaternary deposits of the Khroma river basin]. Merzlotnyye Issledovaniya, Vyp. 14,1974, p. 6775. [Yakutskaya A.S.S.R.]Google Scholar
Kondrat’yeva, K. A. Novyye dannyye ob obnazhenii Mus-Khaya na r. Yane [New data on the Mus-Khaya outcrop on the Yana river]. Merzlotnyye Issledovaniya, Vyp. 14,1974, p. 5666. [Veins of ice in lake-alluvial deposits along river banks in Yakutskaya A.S.S.R.]Google Scholar
Korsunskiy, M. B., Determination of temperature and depth of frost penetration in pavements and subgrades, by Korsunskiy, M. B.,Gayvoronskiy, V. N.,Rossovskiy, P. D. Frost i jord, Nr. 13,1974, p. 4952. [Presents results of tests on road with asphalt surface.]Google Scholar
Korsunskiy, M. B., Moisture content and frost heaving of highway subgradc soils, by Korsunskiy, M. B.,Gayvoronskiy, V. N.,Rossovskiy, P. D. Frost i jord, Nr. 12,1973, p. 1316. [Results of investigations on test road.]Google Scholar
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Luk’yanov, V. S. Application of hydraulic analogue method to investigation of physical processes in soils. Frost i jord. Nr. 11,1973, p. 1114. [Method used for analysing thermal and filtration processes in soils in connection with construction work in permafrost environments.]Google Scholar
Mmcdonald, G. N. Snow and ice and the transAlaska pipeline. Proceedings of the Western Snow Conference, 42nd annual meeting,1974, p. 10305. [Very general outline of problems of constructing pipeline over peimafrost, icings and naleds, and effects on ecology.]Google Scholar
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Meteorological and Climatological Glaciology

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Snow

Adams, E. S. Uptake by brook trout of lead and hydrocarbons from snowmobile exhaust: I. Field study. II. Lead and hydrocarbon content of snow after snowmobiling. III. Laboratory study. IV. Stamina tests Dissertation Abstracts International, B, Vol. 35, No. 4,1974, p. 1980–B. [No abstract for part II received. Abstract of Ph.D. thesis, University of New Hampshire, 1974. University Microfilms order no. 74–21088.]Google Scholar
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Ives, J. D., Development of methodologyfor evaluation and prediction of avalanche hazard in the Sanfuan mountain Area of southhwestem Colorado, [by] Ives, F. D.,Harrison, F. C.,Armstrang, R. L. Boulder, Colora do, University of Colorado. Institute of Arctic and Alpine Research, 19 73. [viii], 122 p . (INSTAAR-14–06–7155–2.) [Study of rela tionship between terrain, clima te and snow stratigraphy.]Google Scholar
JernelÖv, A. Wallin, T.. Air-borne mercury fall-out on snow around five Swedish chlor-alkali plants. Atmospheric Environment, Vol. 7, No. 2,1973, p. 20914. [Only small fraction of total amount is deposited locall y.]CrossRefGoogle ScholarPubMed
Kol, E. Eurola, S. Red snow algae from Spitsbergen. Astarte, Vol. 7, No. 2,1974, p. 6166. [Twelve Arctic- alpine species, three of them new to Spitsbergen, recorded in ten localities.]Google Scholar
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Lang, H. Davidson, G. Beitrag zum Problem del' klima tischen Schneegren ze. Verhandlllngen der Schweizerischen N aturforschenden Gesellschaft, 1973, p. 15860. [Contribution to the problem of the climatic snow line, with reference to results obtained at Weissfluhjoch.]Google Scholar
Larson, F. R., Using aerial measurements of forest overstory and topography to estimate peak snowpack, [by] Larson, F. R.,Ffo lliott, P. F.,Moessner, K.E U.S. Dept. of Agriculture. Forest Service. Research Note RM-267,1974, 4 p. [Wher e slope steepness and aspect vary, and several forest overstory size and density classes are mixed, only topogra phic a ttributes need be measured.]Google Scholar
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Pearson, T. Simulating runoff to the Hungry Horse reservoir of western Montana. Proceedings of the Westem Snow COliferellce, 42nd annual meeting, 1974, p. 96102. [Shows that major basin with large snow-melt component can be reconstituted on annual basis with good results, and basin model can be used for planning Rood control, stream-Row forecasting, etc.]Google Scholar
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