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Bibliography
Aaltonen, V. T. Boden und Wald. 1948.
Allen, P. H. Florida longleaf pine fail in Virginia. Jour. For.59: 453–454. 1961.
Amann, H. Birkenvorwald als Schutz gegen Spätfroste. Forstwiss. Centr.52: 492–503, 581–592. 1930.
Asahina, E. The freezing process of plant cell. Contr. Inst. Low Temp. Sci.10: 83–126. 1956.
Aulitzky, H. Waldbaulich-ökologische Fragen an der Waldgrenze. Centralbl. Ges. Forstwesen.75: 18–33. 1958.
Avdoshin, E. M. Frost resistance of the root system of some woody plants. Fiziol. Rast.6: 91–93. 1959.
Badanova, K. A. Dependence of resistance of plants to high and low temperatures on the quality of nitrogen nutrition. Fiziol. Rast.5: 349–352. 1958.
Bailey, I. W. The spruce budworm biocaenose. I. Frost rings as indicators of the chronology of specific biological events. Bot. Gaz.80: 93–100. 1925.
Bailey, R. A. Summer frosts: a factor in plant range and timber succession. Wis. Acad. Rev.7: 153–156. 1960.
Bates, C. G. Physiological requirements of Rocky Mountain trees. Jour. Agr. Res.24: 97–164. 1923.
-. Forest types in the Central Rocky Mountains as affected by climate and soil. U.S. Dept. Agr., Bul. 1233. 1924.
Beach, S. A., andAllen, F. W. Hardiness in the apple as correlated with structure and composition. Iowa Agr. Exp. Sta., Res. Bul.21: 159–204. 1915.
Beal, J. A. Frost killed oak. Jour. For.24: 949–950. 1926.
Becquerel, P. La cryosyérèse cytonucléoplasmique et sa distinction de la plasmolyse, de la congelation et de la solidification du protoplasm congele. Compt. Rend. Acad. Sci. [Paris]237: 1473. 1953.
—. La cryosynérèse cytonucléoplasmique jusq’aux confins du zero absolu, son rôle pout la végétation polaire et la conservation de la vie. Ville Congr. Int. Bot. Secs. 11 &12: 269–270. 1954.
Belyea, H. C., andMacAloney, H. J. Weather injury to Scotch pine and other conifers. Jour. For.24: 685–690. 1926.
Bergh, F. Formation of ice in tissues in freezing foods. Ingeniørvidenskabelige Skrifter1948: 3–28. 1948.
Bersa, E., andWeber, Fr. Reversible Viskositätserhöhung des Cytoplasmas unter der Einwirkung des elektrischen Stromes. Ber. Deut. Bot. Ges.40: 254–258. 1922.
Biebl, R. Über die Temperaturresistenz von Meeresalgen verschiedener Klimazonen und verschidenen tiefer Standorte. Jahrb. Wiss. Bot.88: 389–420. 1939.
—. Temperatur und osmotische Resistenz von Meeresalgen der bretonischen Küste. Protoplasma50: 217–242. 1958.
Birdseye, C. Some scientific aspects of packaging and quick-freezing perishable flesh products. I. More rapid freezing means better preservation. Ind. & Eng. Chem.21: 414–417. 1929.
Bourdeau, P. F. Seasonal variations of the photosynthetic efficiency of evergreen conifers. Ecology40: 63–67. 1959.
Boyce, J. S. Forest Pathology. 1961.
Boyko, H. On the role of plants as quantitative climate indicators and the geo-ecological law of distribution. Jour. Ecol.35: 138–157. 1947.
Bradfield, A. E., andFlood, A. E. Soluble carbohydrates of fruit plants. Nature166: 264–265. 1950.
Breuer, W. Frostschäden im Obstbau. Ber. Deut. Wetterdienstes32: 75–77. 1951.
Brierly, W. G. A note on an unusual case of cold injury to the Haralson apple. Proc. Amer. Soc. Hort. Sci.40: 236. 1942.
Bruce, E. S. Frost checks and wind shakes. For. & Irrig.8: 159–164. 1902.
Busse, 1910. Frost-, Ring-, und Kernrisse. Forstwiss. Centralbl.32: 74–84. 1910.
Campbell, T. E. Freeze damages shortleaf pine flowers. Jour. For.53: 452. 1955.
Cartellieri, E. Jahresgang von osmotischem Wert, Transpiration, und Assimilation einiger Ericacean der Alpen Zwergstrauchheide und vonPinus cembra. Jahrb. Wiss. Bot.82: 460–506. 1935.
Chalmers, B. How water freezes. Sci. Amer.200: 114–122. 1959.
Chambers, R., andHale, H. P. The formation of ice in protoplasm. Proc. Roy. Soc. [London] B,110: 336–352. 1932.
Chandler, W. H. The killing of plant tissue by low temperature. Mo. Agr. Exp. Sta., Res. Bull.8: 141–309. 1913.
—. Sap studies with horticultural plants. Mo. Agr. Exp. Sta., Res. Bull.14: 491–552. 1914.
—. Cold resistance in horticultural plants: a review. Proc. Amer. Hort. Sci.64: 552–572. 1954.
Chaplin, C. E. Some artificial freezing tests of peach fruit buds. Proc. Amer. Soc. Hort. Sci.52: 121–129. 1948.
Childs, T. W. Delayed killing of young-growth Douglas fir by sudden cold. Jour. For.59: 452–453. 1961.
Clarke, W. S. Effect of low temperature on vegetation of Barrens in central Pennsylvania. Ecology27: 188–189. 1946.
Clements, H. F. Mechanisms of freezing resistance in the needles ofPinus ponderosa andPseudotsuga mucronata. State Col. Wash., Res. Stud.6: 3–45. 1938.
Conant, J. B. Modern science and modern man. 1952.
Cope, J. A. 1935. Winter injury to hardwoods in 1933–1934. Jour. For.33: 939–940. 1935.
Cottam, W. P. Has Utah lost claim to the lower Sonoran zone? Science85: 563–564. 1937.
Craig, J. Observations and suggestions on the root killing of fruit trees. Iowa Agr. Exp. Sta., Bul.44. 1900.
Cullinan, F. P., andWeinberger, J. H. Studies on the resistance of peach buds to injury at low temperatures. Proc. Amer. Soc. Hort. Sci.32: 244–251. 1934.
Curry, J. R., andChurch, T. W. Jr. Observations on winter drying of conifers in the Adirondaks. Jour. For.50: 114–116. 1952.
Dansereau, P. Introdução à Biogeografia. Separata da revista Brasilieira de Geografia. 1:(Ano XI) 1–92. 1949.
Daubenmire, R. Climate as a determinant of vegetation distribution in eastern Washington and northern Idaho. Ecol. Monog.26: 131–154.
—. Injury to plants from rapidly dropping temperature in Washington and northern Idaho. Jour. For.55: 581–585. 1957.
Day, W. R. Damage by late frost on Douglas fir, Sitka spruce and other conifers. Forestry2: 19–30. 1928a.
—. Frost as a cause of disease in trees. Quart. Jour. For.22: 179–191. 1928b.
—. Variations in susceptibility of European larch of differing seed origin in Scotland to injury by experimental freezing. Scot. For.12: 143–146. 1958.
—, andPeace, T. R. The influence of certain accessory factors on frost injury to forest trees. II. Temperature conditions before freezing. Forestry11: 13–29. 1937
DeLong, W. A., Beaumont, J. H., andWillaman, J. J. Respiration of apple twigs in relation to winter hardiness. Plant Physiol.5: 509–534. 1930.
Dexter, S. T. Effect of several environmental factors on the hardening of plants. Plant Physiol.8: 123–140. 1933.
Dimpflmeier, R. Winterfrostschäden 1955/56 im forstlichen Exotenversuchsgelände Grafrath. Forstwiss. Zentralbl.76: 174–187. 1957.
Dorf, E. Changing climates—past and present. Seminar, Oct.27, 1959 at Yale Univ. 1959.
—. Climatic changes of the past and present. Amer. Sci.48: 341–364. 1960.
Dorsey, M. J. Ice formation in the fruit bud of the peach. Proc. Amer. Soc. Hort. Sci.31: 22–27. 1934.
Doyle, J., andClinch, P. The pentosan theory of cold-resistance applied to conifers. Sci. Proc. Roy. Dub. Soc.18: 219–235. 1926.
Duffield, J. W. Damage to western Washington forests from November 1955 cold wave. U.S. Dept. Agr., For. Serv., Pac. Northwest For. Range Exp. Sta., Circ.129. 1956.
Dunn, S. Value of the dye absorption test for predetermining the degree of hardiness. Plant Physiol.12: 869–874. 1937.
—, andBakke, A. L. Adsorption as a means of determining relative hardiness in the apple. Plant Physiol.1: 165–178. 1926.
DuSablon, L. Recherches physiologiques sur les matières de reserves des arbres. Deuxième memoire. Rev. Gen. Bot.18: 5–25, 82–96. 1904/1906.
Ernst, F. Die Bedeutung der Klimaextreme für den Waldbau in Mitteleuropa. Forstwiss. Centralbl.78: 86–102. 1934.
Ewart, M. H., Siminovitch, D., andBriggs, D. R. Studies on the living bark of the black locust tree in relation to frost hardiness. VI. Amylase and phosphorylase systems of the bark tissues. Plant Physiol.28: 629–643. 1953.
Fabricius, L. Untersuchungen über den Stärke- und Fettgehalt der Fichte auf der oberbayerischen Hochebene. Bot. Centralbl: 29–30. 1906.
Fergus, C. L. Frost cracks on oak. Phytopath.46: 297. [Biol. Abstr. 32806. 1956.]
Fernholz, D. L., andPotter, G. F. Preliminary experiments on the resistance of the tung tree to low temperature. Proc. Amer. Soc. Hort. Sci.39: 167–172. 1941.
Filippenko, I. M. Water uptake by plant roots during the period of sap movement in spring. Fiziol. Rast.5: 166–168. 1958.
Firbas, F. Spät und nacheiszeitliche Waldgeschichte Mitteleuropas nördlich der Alpen. Band I. Allg. Waldgeschichte. 1949.
Fischer, A. Beiträge zur Physiologie der Holzgewächse. Jahrb. Wiss. Bot.22: 73–160. 1891.
Fischer, F. Ergebnisse von Anbauversuchen mit verschiedenen Fichtenherkunften. Mit. Schweiz. Anstalt Forstl. Versuchswesen31: 153–204. 1949.
Fosberg, F. R. The lower Sonoron zone in Utah. Science87: 39–40. 1938.
Franke, I. Untersuchungen über den Einfluss des Frostes auf Blattparenchymzellen vonPolypodium vulgare. Protoplasma55: 63–88. 1962.
Fraser, J. W., andFarrar, J. L. Frost resistance of white spruce and red pine seedlings in relation to soil moisture. Canad. For. Br., Tech. Bul.59:(3–5). 1957.
Fukuda, Y. [Rev. in Bot. Centralbl.24: 17 from Jap. Jour. Bot.6: 191–223. 1932].
Gail, F. W. Osmotic pressure of cell sap and its probable relation to winter killing and leaf fall. Bot. Gaz.81: 434–445. 1926.
Galston, A. W., andKaur, R. Interactions of pectin and protein in the heat coagulation of proteins. Science138: 903–904. 1962.
Garavel, L. A. À. la recherche de noyers resistants aux froid. Rev. For. Franc.1956: 572–575. 1956.
Gaussen, H., andBarruel, P. Montagnes. La vie aux hautes altitudes. 1955.
Genevés, L. Recherches sur les effets cytologiques du froid. Rev. Cytol. et Biol. Veg.16: 1–207. 1955.
Genkel, P. A., andBarskaya, E. I. Seasonal changes in spruce chloroplasts Fiziol. Rast.7: 535–542. 1961.
—, andZhivukhnia, G. M. The process of protoplasm isolation as the second phase of hardening in winter wheat. Doklady Akad. Nauk. S.S.S.R.127: 216–219. 1959.
Gerhold, H. D. Seasonal discoloration of Scotch pine in relation to microclimatic factors. For. Sci.5: 333–343. 1959.
Goldsmith, G. W., andSmith, J. H. C. Some physico-chemical properties of spruce sap and their seasonal and altitudinal variation. Colorado Col., Pub. Sci. Ser.13: 13–71. 1926.
Goode, J. P. Goode’s school atlas. 1939.
Göppert, H. R. Über die Wärmeentwicklung in den Pflanzen; deren Gefrieren und die Schutzmittel gegen dasselbe. 1830 [Cited by Chandler, 1913].
Gordon, M. S., Amdur, B. H., andScholander, P. F. Freezing resistance in some northern fishes. Biol. Bull.122: 52–62. 1962.
Gortner, R. A. Outlines of biochemistry. 1938.
Graves, A. H. Some diseases of trees in greater New York. Mycologia11: 111–124. 1919.
Guilliermond, A. The cytoplasm of the plant cell. [Trans. by L. R. Atkinson]. 1941.
Gunar, andSileva, M. N. Fiziol. Rast.1: 141. 1954. [Cited by Liashchenko et al., 1958].
Gurr, C. G., Marshall, T. J., andHutton, J. T. Movement of water in soil due to a temperature gradient. Soil Sci.74: 335–345. 1952.
Gysel, L. W. Measurement of acorn crops. For. Sci.2: 305–313. 1956.
Haberlandt, G. Ueber den Einfluss des Frostes auf die Chlorophyll-Körner. Oesterr. Bot. Zeits.26: 249–255. 1876a.
—. Untersuchungen über die Winterfärbung ausdauernder Blätter. Wien Akad. Wiss. Sitz.72: 267–296. 1876b.
—. Über den Einfluss des Frostes auf die Chlorophyllkörner. Österr. Bot. Zeits.26: 249–255. 1876c.
Hales, S. Vegetable staticks. 1727.
Halma, F. F. Leaf sap concentration and cold resistance in the avocado. Proc. Amer. Soc. Hort. Sci.40: 231–235. 1942.
Harris, J. A. Frost ring formation in some winter-injured deciduous trees and shrubs. Amer. Jour. Bot.21: 485–498. 1934.
Hartig, R. Innere Frostspalten. Forst. Naturwiss. Zeits.5: 483–488. 1896.
Harvey, R. B. Hardening process in plants and developments from frost injury. Jour. Agr. Res.15: 83–112. 1918.
—. Length of the period of exposure to low temperature as a factor in the hardening process of tree seedlings. Jour. For.28: 5–53. 1930.
Hatakeyama, I. Studies on the freezing of living and dead tissues of plants, with special reference to the colloidally bound water in living state. Mem. Col. Sci. Kyoto, B.28: 401–429.
Havens, J. M. An annotated bibliography of meterological observations in the United States. 1715–1818. U.S. Weather Bur. Dept. Comm. Key to Meteorol. Doc. 5. 11.
Heber, U. Ursachen der Frostresistenz bei Winterweizen. I. Die Bedeutung der Zucker für die Frostresistenz. Planta52: 144–172. 1958a.
—. [Ursachen etc.] II. Die Bedeutung von Aminosäuren und Peptiden für die Frostresistenz. Planta52: 431–446. 1958b.
—. [Ursachen etc.] III. Die Bedeutung von Proteinen für die Frostresistenz. Planta54: 34–67. 1959a.
—. Beziehung zwischen der Grösse von Chloroplasten und ihrem Gehalt an löslichen Eiweissen und Zuckern in Zusammenhang mit dem Frostresistenz Problem. Protoplasma51: 284–297. 1959b.
Hedgecock, C. G. Notes on some diseases of trees in our National Forests. III. Phytopath.3: 111–114. 1913.
Heilbrunn, L. V. The viscosity of protoplasm. II. C1. Protoplasmologia. Handbuch Protoplasmaforschung. 1958.
Hemmenway, A. F. Late frost injury to some trees in central Kentucky. Amer. Jour. Bot.13: 364–366. 1926.
Henson, W. R. Chinook winds and red belt injury to lodgepole pine in the Rocky Mountain parks area of Canada. For. Chron.28: 62–64. 1952.
Henze, J. Untersuchungen über den Kohlenhydrat-Eiweiss-Haushalt der Rinde in seiner Beziehung zur Frostresistenz von Obsthölzen. Zeits. Bot.47: 42–87. 1958.
Hida, M., Ono, S., andHarada, E. 1962. Studies on the sugars in the leaves of conifers. Bot. Mag. Tokyo75: 153–157. 1962.
Hildreth, A. C. Determination of hardiness in apple varieties and the relation of some factors to cold resistance. Univ. Minn. Agr. Exp. Sta., Tech. Bul.42: (1–37). 1926.
Höfler, K. Zur Kälteresistenz einiger Hochmooralgen. Verhand. Zool.-Bot. Ges. Wien92: 234–242. 1951.
Holdridge, L. R. Determination of world plant formations from simple climatic data. Science105: 367–368. 1947.
Hooker, H. D. Pentosan content in relation to winter hardiness. A new theory of hardiness and suggestions for its applications to pomological problems. Proc. Amer. Soc. Hort. Sci.17: 204–207. 1920.
Hough, A. F. Frost pocket and other microclimates in forests of the northern Allegheny Plateau. Ecology26: 235–250. 1945.
Hubert, E. E. A report on the red belt injury of forest trees occurring in the vicinity of Helena, Montana. Mont. State For. Bien. Rep.5: 33–38. 1918.
—. Forest-tree diseases caused by meteorological conditions. U.S. Mo. Weather Rev.58: 455–459. 1930.
—. How weather causes tree diseases. Northwest Sci.6: 10. 1932.
Humboldt, A. F. Des lignes isothermes et de la distribution de la chaleur sur la globe Paris. 1817.
-. The trends and researches of Alexander von Humboldt: being a Condensed narative of his journeys in the equinoctal regions of America and in Asiatic Russia. 1832.
-. Asie Centrale. Recherches sur les châines de montagnes et la climatologie comparée. 1843.
Humphrey, C. J. Winter injury to white elm. Phytopath.3: 62–63. 1913.
Hutchinson, A. H. Limiting factors in relation to specific ranges of tolerance of forest trees. Bot. Gaz.66: 465–493. 1918.
Iljin, W. S. Über den Kältetod der Pflanzen und seine Ursachen. Protoplasma20: 105–124. 1934.
—. Die Veränderung des Turgors der Pflanzenzellen als Ursache ihres Todes. Protoplasma22: 299–311. 1935.
Ivanoff, L. Über die Transpiration der Holzgewächse im Winter. I. Ber. Deut. Bot. Ges.42: 44–49. 1924.
Jeremias, K. Zur Physiologie der Frosthärtung (unter besonderer Berücksichtigung von Winterweizen). Planta47: 81–104. 1956.
—. Über den Jahresgang einiger Zucker in den Blättern vonHedera helix L. Planta52: 195–203. 1958.
Jessen, K. F. W. Botanik der Gegenwart und Vorzeit in cultur-historischer Entwicklung. Leipzig. 1864.
Johnston, E. S. Moisture relations of peach buds during winter and spring. Md. Agr. Exp. Sta., Bul. 255. (59–86). 1923.
Jones, C. H., andBradlee, J. L. The carbohydrate contents of the maple tree. Vermont Agr. Exp. Sta., Bul.358: 1–147. 1933.
Jones, D. B., andPhillips, S. Protein content of the bark of black locust,Robinia pseudoacacia. Jour. Amer. Chem. Soc.59: 595–596. 1937.
Jones, I. D., andGortner, R. A. Free and bound water in elastic and nonelastic gels. Jour. Phys. Chem.36: 387–436. 1932.
Junack. Tod durch Winterfröste an einund zweijährigen Eichen. Forst. & Holzw.9A: 300–301. 1954.
Kamiya, N. Protoplamic streaming. [Seminar at Yale Univ., Oct.24, 1962].
Karmarkar, D. V. The seasonal cycles of nitrogenous and carbohydrate materials in fruit trees. I. The seasonal cycle of total nitrogen and of soluble nitrogen compounds in the wood, bark and leaf portions of terminal shoots of apple trees. Jour. Pomol. & Hort. Sci.12: 177–219. 1934.
Kawano, K., Tuzii, R., andHatakeyama, I. Studies on the seasonal change in the freezing point of the bud of mulberry tree. Bull. Fac. Textile Fibers [Kyoto]3: 32–36. 1960.
Kern, A. Über den im Rindenparenchym gespeicherten Eiweissstoff. Beih. Centralbl.40: 137–140. 1923.
Kessler, B. Effect of methyltryptophan and thiouracil upon protein and ribonucleic acid synthesis in certain higher plants. Nature178: 1337–1338. 1956.
Kessler, W., andRuhland, W. Weitere Untersuchungen über die inneren Ursachen der Kälteresistenz. Planta28: 159–204. 1938.
Khitrinskii, V. F. Importance of light for developing cold resistance and winter characteristics in spring rye and wheat. [Russian] Agrobiologiia6: 23–33. 1957.
Khristo, A. A. The dormant period and winter hardiness of apple trees in western Siberia. Fiziol. Rast.8: 39–44. 1961.
Kienholz, R. Frost damage to red pine. Jour. For.31: 392–399. 1933.
Kienitz, M. Ergebnis der Versuchspflanzung von Kiefern verschiedener Herkunft in der Oberforsterei Chorin. Zeit. Forst. & Jagdwesen.54: 65–93. 1922.
Kirchoff, F. Ueber das Verhalten von Stärke und Gerbstoff in den Nadeln unserer Koniferen im Laufe des Jahres. Bot. Centralbl.128: 154–155. 1915.
Kohn, H. Experimenteller Beitrag zur Kenntnis der Frostresistenz von Rinde, Winterknospen und Blüten verschiedener Apfelsorten. Gartenbauwiss.24: 314–329. 1959.
Konovalov, I. N., Lerman, R. I., Mikhaleva, E. N., Smetannikova, A. I., andShilova, N. V. Peculiarities of the changes of physiological processes in plants correlated with frost hardiness. IX Int. Bot. Congr. [Montreal] Vol.2: 198–199. 1959.
Korstian, C. F. Effect of a late spring frost upon forest vegetation in the Wasatch Mountains of Utah. Ecology2: 47–52. 1921.
—. Density of cell sap in relation to environmental conditions in the Wasatch Mountains of Utah. Jour. Agr. Res.28: 845–907. 1924.
Kramer, P. J. Photoperiodic stimulation of growth by artificial light as a cause of winter killing. Plant Physiol.12: 881–883. 1937.
—. Water content and water turnover in plant cells. Encyl. Plant Physiol. Vol.1: 194–222. 1955.
—. Bound water. Encyl. Plant Physiol. Vol.1: 223–242. 1955.
-, andKozlowski, T. T. Physiology of trees. 1960.
Krasavtsev, O. A., andKhvalin, N. N. Promotion of resistance of birch and black currant to-253° C. temperature by frost hardening. Doklady Akad. Nauk S.S.S.R. Not. Sci. Sec.127: 235–237. 1959.
Kraus, G. Über die winterliche Färbung der immergrünen Gewächse. Bot. Zeitg.30: 109–112, 127–128, 558–560, 588–590. 1872.
Kriebel, H. B. Patterns of genetic variation in sugar maple. Ohio Exp. Sta., Res. Bul. 791. 1957.
Kurimoto, T., Takada, H., andNagai, S. Physiology ofMetasequoia glyptostroboides and related species of conifers. I. Osmotic value and salt composition of leaf saps. Jour. Inst. Polytech. Osaka5: 55–65. 1954.
Küster, E. Die Pflanzenzelle. 1935.
Langlet, O. Studies on the physiological variability of pines and the connection with the climate. Report on oekotypes ofPinus sylvestris. Meddel. Staten Skogsförsök.29/4: 219–406. 1936.
Lantz, H. L., andPicket, B. S. Apple breeding: variation within and between progenies of Delicious with respect to freezing injury due to the November freeze of 1940. Proc. Amer. Hort. Sci.40: 237–240. 1942.
Larcher, W. Die Kälteresistenz Mediterraner Immergrüner und ihre Beeinflussbarkeit. Planta44: 607–635. 1954.
—, andEggarter, H. Anwendung des Triphenyltetrazoliumchlorids zur Beurteilung von Frostschäden in verschiedene Achsengeweben beiPirus-Arten, und Jahresgang der Resistenz. Protoplasma51: 595–619. 1960.
Lebedincev, E. Untersuchungen über die wasserbindende Kraft der Pflanzen im Zusammenhang mit ihrer Dürreund Kälte-resistenz. Protoplasma10: 53–81. 1930.
Lee, F. A., Gortner, W. A., andWhitcombe, J. Effect of freezing rate on vegetables. Ind. Eng. & Chem.38: 341–346. 1946.
Levitt, J. Frost, drought, and heat resistance. Ann. Rev. Plant Physiol.2: 245–268. 1951.
—. The role of carbohydrates in frost resistance. VIIIe Congr. Int. Bot. Secs. 11 & 12: 278–280. 1954.
-. The hardiness of plants. 1956.
—. Mechanism of freezing in [plant or animal?] living cells and tissues. Science125: 194. 1957a.
—. The role of cell sap concentration in frost hardiness. Plant Physiol.32: 237–239. 1957b.
—. Bound water and frost hardiness. Plant Physiol.34: 674–677. 1959.
—, andScarth, G. W. Frost hardening studies with living cells. I. Osmotic and bound water changes in relation to frost resistance and the seasonal cycle. Canad. Jour. Res. C.14: 267–285. 1936.
—, andSiminovitch, D. The relation between frost resistance and the physical state of protoplasm. Canad. Jour. Res. C.18: 550–561. 1940.
——. The relation etc., II. The protoplasmic surface. Canad. Jour. Res. C.19: 9–20. 1941.
—,Sullivan, C. Y., Johansson, N., andPetit, R. M. Sulfhydryls—a new factor in frost resistance. I. Changes in SH content during frost hardening. Plant Physiol.36: 611–616. 1961.
Lewis, F. J., andTuttle, G. M. Osmotic properties of some plant cells at low temperatures. Ann. Bot.34: 405–416. 1920.
——. On the phenomena attending seasonal changes in the organisation in leaf cells ofPicea canadensis (Mill.) BSP. New Phytol.22: 225–232. 1923.
Liashchenko, I. F., Sevastianov, V. N., andSiritsa, A. I. Dynamics of carbohydrates in leaves of Dvuruchki-wheats in the course of directed cultivation. Fiziol. Rast.5: 345–348. 1958.
Lidforss, B. Zur Physiologie und Biologie der wintergrünen Flora. Bot. Centralbl.68: 33–44. 1896.
Lipman, C. B. The tolerance of liquid air temperatures by dry moss protonema. Bull. Torrey Bot. Club63: 515–518. 1936.
Livingston, B. E., andShreve, F. The distribution of vegetation in the United States, as related to climatic conditions. Carnegie Inst. Wash., Pub. 284. 1921.
Lott, R. V. Correlation of chemical composition with hardiness in brambles. Missouri Agr. Exp. Sta., Res. Bull. 95. 1926.
Lucas, J. W. Subcooling and ice nucleation in lemons. Plant Physiol.29: 245–251. 1954.
Lundegårdh, H. Klima und Boden in ihrer Wirkung auf das Pflanzenleben. 1949.
Lupareva, T. F. The dormant state and physicochemical properties of the cells in roots and buds of red clover plants. Fiziol. Rast.5: 67–69. 1958.
Lusena, C. V. Ice propagation in systems of biological interest.III. Effect of solutes on nucleation and growth of ice crystals. Arch. Biochem. & Biophys.57: 277–284. 1955.
Luyet, B. J. Le mechanism du gel et la résistance au froid. 8eme Congr. Int. Bot., Secs. 11 & 12: 259–267. 1954.
Lyons, J. M., Wheaton, T. A. andPratt, H. K. A suggested relationship between the physical nature of mitochondrial membranes and chilling sensitivity in plants. Proc. Plant Physiol.37: LXXI 1962.
Maguire, W. P. Are ponderosa pine cone crops predictable? Jour. For.54: 778–779. 1956.
Maher, C. They’re enjoying mild summer down at U.S. Antarctic base. (Article) New Haven Register. December 14, 1958.
Manskaja, S., andSchilina, M. Der Fermentgehalt in den Baumpflanzen während der Winterruhe. Biochem. Zeits.240: 276–285. 1931.
Mason, S. C. The minimum temperature for growth of the date palm and the absence of a resting period. Jour. Agr. Res.31: 401–414. 1925.
Mathews, J. D. The influence of weather on the frequency of beech mast years in England. Forestry28: 107–116. 1955.
Mayer, E. Beiträge zum Kenntnis des winterlichen Wasserhaushalts und der Winterknospen der Bäume. Jenaisch. Zeits. Naturwiss.66: 535–576. 1932.
Mazia, D., Brewer, P. A., andAlfert, M. The cytochemical staining and measurement of protein with mercuric bromphenol blue. Biol. Bul.104: 57–67. 1953.
McCulloch, W. S., andBerendsen, H. J. C. The structure of water in biological tissue. Neurophysiology22: 195–197. 1960.
McWilliam, J. R. Pollination, pollen germination, and interspecific incompatibility inPinus. Ph.D. Diss., Yale Univ. 1958.
Meader, E. M., andBlake, M. A. Seasonal trend of fruit-bud hardiness in peaches. Proc. Amer. Soc. Hort. Sci.43: 91–98. 1943.
Mer, M. E. De la constitution et des fonctions des feuilles hivernales. Bull. Soc. Bot. France23: 231–238. 1876.
Merriam, C. H. Results of a biological survey of the San Francisco Mountain region and desert of the little Colorado, Arizona. U.S. Dept. Agr., Gov’t Print. Off. 1890.
Meryman, H. T. Mechanisms of freezing in living cells and tissues. Science124: 515–521. 1956.
—. Tissue freezing and local cold injury. Physiol. Rev.37: 233–251. 1957.
Meyer, A. Die angebliche Fettspeicherung immergrüner Laubblätter. Ber. Deut. Bot. Ges.36: 5–10. 1918.
Meyer, B. S. Seasonal variations in the physical and chemical properties of the leaves of the pitch pine, with especial reference to cold resistance. Amer. Jour. Bot.15: 449–472. 1928.
—. Further studies on cold resistance in evergreens with special reference to the possible role of bound water. Bot. Gaz.94: 297–321. 1932.
Mirov, N. T., Duffield, J. W., andLiddicoet, A. R. Altitudinal races ofPinus ponderosa — a 12 year progress report. Jour. For.50: 825–831. 1952.
Mitchell, J. W. Winter hardiness in guayule. Bot. Gaz.106: 95–102. 1944.
Mix, A. J. The formation of parenchyma wood following winter injury to the cambium. Phytopath.6: 279–283. 1916a.
—. Sun-scald of fruit trees, a type of winter injury. Cornell Univ. Agr. Exp. Sta., Bull.382: 237–284. 1916b.
Miyaké, K. On the starch of evergreen leaves and its relation to photosynthesis during the winter. Bot. Gaz.33: 321–340. 1902.
Molisch, H. Untersuchungen über das Erfrieren der Pflanzen. 1897.
Mommaerts, W. F. H. M. Molecular physiology-analysis and synthesis. Amer. Sci.50: 497–504. 1962.
Moshkov, B. S. Photoperiodismus und Frosthärte ausdauernder Gewächse. Planta23: 774–803. 1935.
Mulay, A. S. Seasonal changes in total, soluble, soluble-protein, non-protein, and insoluble nitrogen in current year’s shoots of Bartlett pear. Plant Physiol.6: 519–529. 1931.
Müller-Thurgau, H. Über das Gefrieren und Erfrieren der Pflanzen. Landwirt. Jahrb.9: 133;15: 453–610. 1880/86.
Munger, T. T. Parch blight on Douglas fir in the Pacific Northwest. Plant World19: 46–47. 1916.
Murneek, A. E. Hemicelluloses as a storage carbohydrate in woody plants with special reference to the apple. Plant Physiol.4: 251–264. 1929.
Murray, J. S. An exceptional frost in east Anglia. Quart. Jour. For.49: 120–125. 1955.
Neish, A. C. Pungenin: a glucoside found in leaves ofPicea pungens (Colorado spruce). Canad. Jour. Biochem. & Physiol.35: 161–167. 1957.
—. Seasonal changes in metabolism of spruce leaves. Canad. Jour. Bot.36: 649–662. 1958.
Newton, R. A comparative study of winter wheat varieties with especial reference to winter-killing. Jour. Agr. Sci.12: 1–19. 1922.
Nikishin, F. M. Effect of differential action of temperature in the period of winter dormancy on apple seedlings. Fiziol. Rast.4: 339–346. 1957.
Niklewski, B. Untersuchungen über die Umwandlung einiger Stickstoff-freier Reservestoffe während der Winter Periode der Bäume. Beih. Bot. Centralbl.19: 68–117. 1906.
Oppenheimer, H. R. Frost effects on vegetation in 1948/1949. Palestine Jour. Bot.7: 36–40. 1949.
Orr, M. Y. The effect of frost on the wood of larch. Roy. Scot. Arb. Soc., Trans.39: 38–41. 1925.
Ozol, A. M. Directed “reconstruction” and adaptation of woody plants of southern origin under the influence of changed conditions of life. Akad. Nauk S.S.S.R.1953: 198–216. 1953.
Parker, J. Planting loblolly pine outside its natural range. Jour. For.48: 278–279. 1950.
—. Moisture retention in leaves of conifers of the northern Rocky Mountains. Bot. Gaz.113: 210–216. 1951.
—. Environment and forest distribution of the Palouse Range in northern Idaho. Ecology33: 451–461. 1952a.
—. Desiccation in conifer leaves: anatomical changes and determination of the lethal level. Bot. Gaz.114: 189–198. 1952b.
—. Some applications and limitations of tetrazolium chloride. Science118: 77–79. 1953.
—. Tetrazolium salts as viability indicators: radiation-catalysed reactions. Nature176: 647–648. 1955a.
—. Annual trends in cold hardiness of ponderosa pine and grand fir. Ecology36: 377–380. 1955b.
—. Survival of some southeastern pine seedlings in northern Idaho. Jour. For.53: 137. 1955c.
—. Effects of vital staining inPinus ponderosa. Plant Physiol. (supplement)30: X. 1955d.
—. Seasonal changes in some chemical and physical properties of living cells ofPinus ponderosa and their relation to freezing resistance. Protoplasma48: 147–163. 1957a.
-. Variations in sugars and starch in longleaf pine trees of different seed-producing capacity. Office Rpt., Mimeog. East Gulfcoast Branch, So. For. Exp. Sta., Marianna, Fla. 1957b.
—. Changes in sugars and nitrogenous compounds of tree barks from summer to winter. Naturwiss.45: 139. 1958a.
—. Sol-gel transitions in the living cells of conifers and their relation to resistance to cold. Nature182: 1815. 1958b.
—. Seasonal variations in sugars of conifers with some observations on cold resistance. For. Sci.5: 56–63. 1959a.
-. Seasonal changes in cold hardiness of eastern white pine and the relation to physical and sugar changes. IX Int. Bot. Congr. II. 295. 1959b.
—. Seasonal changes in white pine leaves: a comparison of cold resistance and free sugar fluctuations. Bot. Gaz.121: 46–50. 1959c.
—. Seasonal changes in the physical nature of the bark phloem parenchyma cells ofPinus strobus. Protoplasma52: 223–229. 1960a.
—. Survival of woody plants at extremely low temperatures. Nature187: 1133. 1960b.
—. Seasonal changes in cold resistance of some northeastern woody evergreens. Jour. For.59: 108–111. 1961a.
—. Seasonal trends in carbon dioxide absorption, cold resistance, and transpiration of some evergreens. Ecology42: 372–380. 1961b.
—. Seasonal changes in cold resistance and free sugars of some hardwood tree barks. For. Sci.8: 255–262. 1962a.
—. Relationships among cold hardiness, water-soluble protein, anthocyanins, and free sugars inHedera helix. Plant Physiol.37: 809–813. 1962b.
-.Causes of the winter decline in transpiration and photosynthesis in some evergreens. For. Sci. [in press] 1963.
—, andPhilpott, D. E. An electron microscopic study of chloroplast condition in summer and winter inPinus strobus. Protoplasma53: 575–583. 1961.
-, and -. Seasonal continuity of chloroplasts in white pine and Rhododendron. Protoplasma [in press]. 1963.
Pearson, G. A. Forest types in the south-west as determined by climate and soil. U.S. Dept. Agr., Tech. Bull. 247. 1931.
Pedersen, A. Frost damage in the pine forest. Carib. For.14: 93–96. 1953.
Perraudin, G. La sensibilité des arbres fruitiers au gel printanier. Rev. Romande Agr. Vit. et Arb.11: 87–88. 1955.
Perry, T. O., andWang, Chi-Wu. Genetic variation in the winter chilling requirement for date of dormancy break forAcer rubrum. Ecology41: 790–794. 1960.
Pfeiffer, M. Frostuntersuchungen an Fichtentrieben. Thar. Forstl. Jahrb.84: 664–695. 1933.
Phillips, F. J. Effect of a late spring frost in the Southwest. For. & Irrig.13: 485–492. 1907.
Pigman, W. W., andGoeppp, Jr., R. M. Chemistry of the carbohydrates. 1948.
Piney, M. M. Qualitative and quantitative varieties in the nitrogenous substances of a woody plant at the beginning of the vegetative period. Rev. Gen. Bot.41: 65–94. 1929.
Pisek, A. Frosthärte und Zusammensetzung des Zellsaftes beiRhododendron ferrugineum, Pinus cembra, undPicea excelsa. Protoplasma39: 129–146. 1950.
—. Versuche zur Frostresistenzprüfung von Rinde, Winterknospen, und Blüten einiger Arten von Obsthölzern. Gartenbauwiss.23: 54–74. 1958.
—, andLarcher, W. Zusammenhang zwischen Austrocknungsresistenz und Frosthärte bei Immergrünen. Protoplasma44: 3–46. 1954.
—, andSchiessl, R. Die Temperaturbeeinflussbarkeit der Frosthärte von Nadelhölzern und Zwergsträuchern an der alpinen Baumgrenze. Ber. Naturw. Med. Ver. Innsbruck47: 33–52. 1946.
—, andWinkler, E. Assimilationsvermögen und Respiration der Fichte (Picea excelsa Link) in verschiedener Höhenlage und der Zirbe (Pinus cembra) an der alpinen Waldgrenze. Planta51: 518–543. 1958.
Plank, R. Über den Einfluss der Gefriergeschwindigkeit auf die histologischen Veränderung tierischer Gewebe. Zeits. Allg. Physiol.17: 221–238. 1918.
Pomerleau, R. Observations sur quelques maladies non parasitaires des arbres dans le Quebec. Canad. Jour. Sci. C.24: 171–189. 1944.
Pojarkova, A. Winterruhe, Reservestoffe und Kälteresistenz bei Holzpflanzen. Ber. Deut. Bot. Ges.42: 420–429. 1924.
Pop, E., andSoran, V. Untersuchungen über die in den Zellen nach einer Vitalfärbung zu beobachtenden Körperchen und über die Bedeutung von Vakuolensubstanzen für deren Entstehung. Flora152: 91–112. 1962.
Preston, R. D. Theoretical and practical implications of the stresses in the water-conducting system. IX Int. Bot. Congr.II: 309–310. 1959.
Priestley, J. H. Studies in the physiology of cambial activity. III. The seasonal activity of the cambium. New Phytol.29: 316–354. 1930.
Reeks, W. A. Weather injury to trees in Manitoba. Div. For. Biol. Dept. Agr. Canad.14: (1–2). 1958.
Reifsnider, W. E. Seasonal variation in the moisture content of the green leaves of mountain laurel. For. Sci.7: 16–23. 1961.
Rein, R. Untersuchungen über den Kältetod der Pflanzen. Zeits. Naturwiss.80: 1–38. 1908.
Rhoads, A. S. The formation and pathological anatomy of frost rings in conifers injured by late frosts. U.S. Dept. Agr., Bull.1131: 1–15. 1923.
Riasanzew, A. W. Zur Frage über die Saisonveränderungen des Assimilationsapparates bei einigen von unseren wintergrünen Pflanzen. Bull. Inst. Rech. Biol. Perm.7: 105–132. 1930.
Richardson, S. D. The role of physiology in forest tree improvement. Proc. V World For. Congr.: 733–741. 1960.
Richardson, W. D., andScherubel, E. The deterioration and commercial preservation of flesh foods. Jour. Amer. Chem. Soc.30: 1515–1564. 1908.
Rigg, G. B., andCain, R. A. A physico-chemical study of the leaves of three medicinal plants in relation to evergreenness. Amer. Jour. Bot.16: 40–57. 1929.
Rippel, A. Die Frage der Eiweisswanderung bei herbstliche Vergelben der Laubblätter. Biol. Zentralbl.41: 508–523. 1921.
Rogers, W. S. Protection from frost by water sprinkling. Amer. Fruit Grower82: 14–15, 46–48. 1962.
Rosa, J. T. Jr. Pentosan content in relation to hardiness of vegetable plants. Proc. Soc. Hort. Sci.17: 207–210. 1920.
Rubner, K. Die Spätfrost und die Verbreitungsgrenzen unserer Waldbäume. Forstwiss. Centralbl.43: 41–49, 100–144. 1921.
Rudolf, T. D., andNienstaedt, H. Polygenic inheritance of resistance to winter injury in jack pine-lodgepole pine hybrids. Jour. For.60: 138–139. 1962.
Sablon, LeClerc du. Recherches physiologique sur les matières de reserves des arbres. Rev. Gen. Bot.16: 341–368, 368–401. 1904;18: 5–25, 82–96. 1906.
Sachs, J. von. Physiologie (III). Allgemeine Lebensbedingungen der Pflanzen. p. 702. 1860.
Sakai, A. The frost-hardening process of woody plant. II. Relation of increase of carbohydrate and water soluble protein to frost-resistance (2). Low Temp. Science, B.16: 24–34. 1958a.
—. The injury by extracellular freezing in plant cell. I. The critical temperature range at freezing state. Low Temp. Sci., B.16: 35–39. 1958b.
—. Survival of plant tissue at super-low temperature. II. Low Temp. Sci., B.16: 42–53. 1958c.
—. The frost-hardening process of woody plant. VI. Seasonal variations in sugars. Jour. Jap. For. Soc.42: 97–102. 1960a.
—. Survival of the twig of woody plants at —196° C. Nature185: 393–394. 1960b.
—. The frost etc. VIII. Relation of polyhydric alcohols to frost hardiness. Low Temp. Sci., B.18: 15–22. 1960c.
—. Effect of polyhydric alcohols on frost hardiness in plants. Nature189: 416–417. 1961.
Salt, R. W. Principles of insect cold-hardiness. Ann. Rev. Ent.6: 55–74. 1961.
Sato, Y., Miyakoshi, N. M., andMuto, K. Factors affecting resistance to cold of tree seedlings. I. The effect of the length of a period of photoperiodic treatment. Res. Bull. Exp. For. Hokkaido Univ.15: 630–680. 1951.
Sattler, H. Beiträge zur Kenntnis des N-Stoffwechsels wintergrüner Pflanzen. Planta9: 315–333. 1930.
Scarth, G. W. Dehydration injury and resistance. Plant Physiol.16: 171–179. 1941.
—. Cell physiological studies of frost resistance. New Phytol.43: 1–12. 1944.
—, andLevitt, J. The frost-hardening mechanism of plant cells. Plant Physiol.12: 51–78. 1937.
Schellenberg, H. C. Über Hemicellulosen als Reservestoffe bei unseren Waldbäumen. Ber. Deut. Bot. Ges.23: 36–45. 1905.
Schimper, A. F. W., andFaber, F. C. von. Pflanzengeographie auf physiologischer Grundlage. II. 1935.
Schmidt, E. Baumgrenzenstudien am Feldberg im Schwarzwald. Thar. Forstl. Jahrb.87: 1–43. 1936.
Scholander, P. F.In: Thimann, K. V. [ed.] Physiology of Forest Trees. p. 122. 1958.
—,Flagc, W., Hock, R. J., andIrving, L. Studies on the physiology of frozen plants and animals in the arctic. Jour. Cell. & Comp. Physiol.42: 1–56. 1953.
—,Hemmingsen, E., andGarey, W. Cohesive lift of sap in the rattan vine. Science134: 1835–1838. 1961.
Scholander, Susan I., andKanwisher, Joan T. Latitudinal effect on respiration in some northern plants. Plant Physiol.34: 574–576. 1959.
Schreiner, E. J. Improvement of forest trees. U.S. Dept. Agr., Yearbook.1937:
Schubert, G. H. Freezing injury to young sugar pine. Jour. For.53: 732. 1955.
Schulz, E. Ueber Reservestoffe in immergrünen Blätter unter besonderer Berücksichtigung des Gerbstoffes. Flora71: 223–241, 243–258. 1888.
Schulz, H. Untersuchungen an Frostrissen im Frühjahr 1956. Forstwiss. Centralbl.76: 14–24. 1957.
Seifriz, W. Viscosity values of protoplasm as determined by micro-dissection. Bot. Gaz.70: 360–386. 1920.
-. The rheological properties of protoplasm.In: Frey-Wyssling, A. Deformation and Flow in Biological Systems. 1952.
—. Microscopic and submicroscopic structure of cytoplasm. Encyl. Plant Physiol. Vol.I: 301–382. 1955.
Shanks, R. E. Climates of the Great Smoky Mts. Ecology35: 354–361. 1954.
Sherman, J. K. Preservation of bull and human spermatozoa by freezing in liquid nitrogen vapour. Nature194: 1291–1292. 1962.
Shreve, F. The role of winter temperature in determining the distribution of plants. Amer. Jour. Bot.1: 194–202. 1914.
Siminovitch, D. Frost resistance with and without added synthesis of cytoplasmic protein in normal and girdled tree tissues of the black locust: manifestations in the nucleus and in the phospholipids of a duality in the protoplasmic mechanisms of frost resistance in trees. IX Int. Bot. Congr.II: 362. 1959.
—, andBriggs, D. R. The chemistry of the living bark of the black locust tree in relation to frost hardiness. I. Seasonal variations in protein content. Arch. Biochem.23: 8–17. 1949.
—. Studies etc., III. The validity of plasmolysis and desiccation tests for determining the frost hardiness of bark tissue. Plant Physiol.28: 15–34, 177–200. 1953.
—, andBriggs, D. R.. Studies etc., VII. A possible direct effect of starch on the susceptibility of plants to freezing injury. Plant Physiol.29: 331–337. 1954.
-, andChater, A. P. J. Biochemical processes in the living bark of the black locust tree in relation to frost hardiness and the seasonal cycle.In: Thimann, K. V. [ed.] Physiology of forest trees. pp. 219–250. 1958.
—, andScarth, G. W. A study of the mechanism of frost injury to plants. Canad. Jour. Res. C.16: 467–481. 1938.
Sinnott, E. W. Factors determining character and distribution of food reserve in woody plants. Bot. Gaz.66: 162–175. 1918.
Skinner, S. A. Effects of freezes in southern California on shade and ornamental trees. Science87: 279–280. 1938.
Smith, A. U. Life at low temperatures. Nature181: 911–913. 1958.
Stark, A. L. Unfrozen water in apple shoots as related to their winter hardiness. Plant Physiol.11: 689–711. 1936.
Stiles, W. On the cause of cold death of plants. Protoplasma9: 459–468. 1930.
Stoeckeler, J. H. A northeastward extension of the range of Douglas fir. Jour. For.50: 393. 1952.
-, andRudolf, O. Winter injury and recovery of conifers in the upper Midwest. Lake States For. Exp. Sta., Div. For. Man. Univ. Far, 1949.
—. Winter coloration and growth of jack pine in the nursery as affected by seed source. Zehs. Forstgenetik & Forstpflanzensüchtung.5: 161–165. 1956.
Stone, E. L. Jr. Frost rings in longleaf pine. Science92: 478. 1940.
Strausbaugh, P. D. Dormancy and hardiness in the plum. Bot. Gaz.71: 337–357. 1921.
Stocker, O. Kälte und dürrefeste Pflanzen. Die Umschau in Wiss. und Tech. 22/20: 1–4. 1951.
Stretkova, V. Y. Protoplasmic viscosity of leaves of some thermophilic plants rendered cold resistant by application of variable temperatures. Fiziol. Rast.7: 356–360. 1961.
Sun, C. N. The survival of excised pea seedlings after drying and freezing in liquid nitrogen. Bot. Gaz.119: 234–236. 1958.
—. A demonstration, by electron microscopy, of plasmodesmata in the embryonic cell walls ofCibotium chamissoi. Bull. Torrey Bot. Club87: 337–341. 1960.
Svilvinyi, A. von, Rosenkranz, U., andManschinger, H. Über den Einfluss von Sulfhydrylverbindungen auf Strahlungsschäden anCandida Berkhout. Naturwiss.15: 533. 1961.
Tamari, C. Variation in moisture content and reducing sugar concentrations in hardening process of Todomatsu (Abies sachalinensis Mast.) seedling with lammas shoot. Res. Bull. Coll. Exp. For., Col. Agr., Hokkaido21: 409–414. 1962.
Terumoto, I. The relation between the activity of phosphorylase and the frost hardiness in table beet. Low Temp. Sci. B.15: 31–38. 1957.
—. The relation between the cell sap concentration and the frosthardiness of the table beet. Low Temp. Sci. B.16: 7–21. 1958a.
—. On the fixed figures of the plant cell treated with a cold fixative. Low Temp. Sci. B.16: 1–5. 1958b.
Thimann, K. V. The synthetic auxins: relation between structure and activity.In: Skoog, F. [ed.] Plant growth substances. 1951.
-, [Ed.] The Physiology of Forest Trees. 1958.
-, andKaufman, D. Cytoplasmic streaming in the cambium of white pine.In: Thimann, K. V. [ed.] Physiology of forest trees. 1958.
Tischler, G. Über die Beziehungen der Anthocyanbildung zur Winterhärte der Pflanzen. Beih. Bot. Centralbl.18: 452–471. 1905.
Tomaszewski, M. Das Phenol/Phenoloxidase-System der Blätter einiger Obstgehölze und seine Beziehung zur Winterruhebereitschaft. Flora145: 146–166. 1957.
Tranquillini, W. Standortsklima, Wasserbilanz und CO2-Gaswechsel junger Zirben (Pinus cembra L.) an der alpinen Waldgrenze. Planta49: 612–661. 1957.
—, andHolzer, K. Über das Gefrieren und Auftauen von Coniferennadeln. Ber. Deut. Bot. Ges.71: 143–156. 1958.
Tryon, E. H. andTrue, R. P. Blister-shake of yellow poplar, West Va. Univ., Agr. Exp. Sta. Bull. 350T: 1–15. 1952.
Tubeuf, C. von. Frostwirkung auf Laubblätter. Naturw. Zeit. Land u. Forstwirtschaft2: 293–295. 1904.
Tumanov, I. I. Twigs reported growing after extreme freezing. Sci. News Letter77: 265. 1960.
—, andKrasavcev, O. A. The frost resistance of woody plants [In Russian] Fiziol. Rast.2: 320–333. 1955.
——. Hardening of northern woody plants by temperatures below zero. Fiziol. Rast.6: 663–673. 1959.
——, andTrunova, T. I. Hardening tissues of winter plants with sugar absorbed from the external solution. Fiziol. Rast.4: 379–388. 1957.
——. The effect of growth processes on the capacity for hardening. Fiziol. Rast.5: 108–116. 1958.
Tutayuk, V. K., andAgaev, Y. M. The behavior of green plastids in the cortex of long and short shoots of several fruit trees under conditions of a dry subtropical climate. Fiziol. Rast.6: 581–586. 1961.
Ullrich, H., andHeber, U. Über die Schutzwirkung der Zucker bei der Frostresistenz von Winterweizen. Planta48: 724–728. 1957.
——. Ursachen der Frostresistenz bei Winterweizen. IV. Das Verhalten von Fermenten und Fermentsystemen gegenüber tiefen Temperaturen. Planta57: 370–390. 1961.
—, andMäde, A. Studien über die Ursachen der Frostresistenz. II. Untersuchungen über den Temperaturverlauf beim Gefrieren von Blättern und Vergleichsobjecten. Planta31: 251–262. 1940.
Ulmer, W. Über den Jahresgang der Frosthärte einiger Immergrüner Arten der alpinen Stufe. Jahrb. Wiss. Bot.84: 553–592. 1960.
Vasil’yev, I. M. Wintering of Plants. [Trans. from Russ.] 1961.
Wagener, W. W. Top dying of conifers from sudden cold. Jour. For.47: 49–53. 1949.
Wahlenberg, W. G. Longleaf pine. Its use, ecology, regeneration, protection, growth, and management. 1946.
Wartenberg, H. Kälte und Hitze als Todes—und Krankheitsursache der Pflanze.In: Sorauer, P. Handbuch der Pflanzenkrankheiten. 1933.
Watt, R. F. Severe winter damage to conifers noted in portions of North Dakota, 1955–1956. U.S. Dept. Agr., Lake States Forest Exp. Sta., For. Serv. Tech. Note 466. 1956.
Weber, F. Die Zellsaftviskosität lebender Pflanzenzellen. Ber. Deut. Bot. Ges.39: 188–194. 1921.
—, andHohenegger, H. Reversible Viscositätserhöhung des Protoplasmas bei Kälte. Ber. Deutsch. Bot. Ges.41: 198–204. 1923.
Weberbauer, A. El mundo vegetal de los Andes peruanos. 2nd ed. Lima. 1945.
Wheaton, T. A., Lyons, J. M., andMorris, L. L. Fatty acid composition of plants sensitive and insensitive to chilling temperatures. Proc. Plant Physiol.37: LXXI. 1962.
Whipple, O. B. Winter injury to fruit buds of the apple and the pear. Montana Agr. Exp. Sta., Bull. 91. 1912.
Whittaker, R. H. A criticism of the plant association and climatic climax concepts. Northwest Sci.25: 17–31. 1951.
Wiegand, K. M. Some studies regarding the biology of buds and twigs in winter. Bot. Gaz.41: 373–424. 1906.
Wilner, J. Relative and absolute electrolytic conductance tests for frost hardiness of apple varieties. Canad. Jour. Plant Sci.40: 630–637. 1960.
—. Relationship between certain methods and procedures of testing for winter injury of outdoor exposed shoots and roots of apple trees. Canad. Jour. Plant Sci.41: 309–315. 1961.
Winkler, A. Über den Einfluss der Aussenbedingungen auf die Kälteresistenz ausdauernder Gewächse. Jahrb. Wiss. Bot.52: 467–506. 1913.
Wood, T. H., andRosenberg, A. M. Freezing in yeast cells. Acta Biochim. & Biophys.25: 78–87. 1957.
Woodroof, J. G. Microscopic studies of frozen fruits and vegetables. Georgia Agr. Exp. Sta., Bull. 201. 1938.
Worley, C. L. Carbohydrate changes within the needles ofPinus ponderosa andPseudotsuga taxifolia. Plant Physiol.12: 755–770. 1937.
Wrangell, F., von Narrative of an expedition to the Polar Sea in the years 1820, 1821, 1822, and 1823. Ed., E. Sabine. 2nd Ed. 1844.
Wright, J. W. Genotypic variation in white ash. Jour. For.42: 489–495. 1944a.
—. Ecotypic differentiation in red ash. Jour. For.42: 591–597. 1944b.
—. Local genetic variation in silver maple. Jour. For.47: 300–302. 1949.
Zacharowa, T. M. Über den Einfluss niedriger Temperaturen auf die Pflanzen. Jahrb. Wiss. Bot.65: 61–87. 1925.
—. Über den Gasstoffwechsel der Nadelholzpflanzen im Winter. Planta8: 68–83. 1929.
Zimmermann, M. H. Translocation of organic substances in the phloem of trees. I. The nature of sugars in the sieve tube exudate of trees. Plant Physiol.32: 288–291. 1957.
Zobel, B. J., Campbell, T. E., Cech, F. C., andGoddard, R. E. Progress report—survival and growth of native and exotic pines, including hybrid pines, in western Louisiana and East Texas. Texas For. Serv., Res. Note 17. 1956.
Zon, R. G. Effects of frost on forest vegetation. For. Quart.2: 14–21. 1904.
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The word “cold” is used in preference to “frost” since in America frost does not refer to very low temperatures as it does in Britain or Germany. Chilling injury, on the other hand, is not the subject of this review, although mentioned. “Woody plants” include here especially forest trees and some horticultural woody plants.
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Parker, J. Cold resistance in woody plants. Bot. Rev 29, 123–201 (1963). https://doi.org/10.1007/BF02860820
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DOI: https://doi.org/10.1007/BF02860820