On the Ecology of Mountainous Forests in a Changing Climate: A ...
On the Ecology of Mountainous Forests in a Changing Climate: A ...
On the Ecology of Mountainous Forests in a Changing Climate: A ...
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References 189<br />
Huntley, B. & Birks, H.J.B., 1983. An atlas <strong>of</strong> past and present pollen maps for Europe: 0–13'000 years<br />
ago. Cambridge Univ. Press, Cambridge a.o., 667 pp.<br />
Hurst, A., 1988. Wirkung von Bodenabkühlungen auf Wasserbilanz und Wachstum von Buchen (Fagus<br />
silvatica L.). Eidg. Anst. Forstl. Versuchswes., Mitt., 64: 477-634.<br />
Huston, M., DeAngelis, D. & Post, W., 1988. New computer models unify ecological <strong>the</strong>ory.<br />
Bioscience, 38: 682-691.<br />
IGBP, 1990. The <strong>in</strong>ternational geosphere-biosphere programme: A study <strong>of</strong> global change - The <strong>in</strong>itial<br />
core projects. IGBP Report No. 12, Stockholm, ca. 300 pp.<br />
Jahn, G., 1991. Temperate deciduous forests <strong>of</strong> Europe. In: Röhrig, E. & Ulrich, B. (eds.), Ecosystems<br />
<strong>of</strong> <strong>the</strong> world. Elsevier, Amsterdam a.o., 7: 377-502.<br />
Jenk<strong>in</strong>son, D.S. & Rayner, J.H., 1977. The turnover <strong>of</strong> soil organic matter <strong>in</strong> some <strong>of</strong> <strong>the</strong> Rothamsted<br />
classical experiments. Soil Sci., 123: 298-305.<br />
Jenny, H., Gessel, S.P. & B<strong>in</strong>gham, F.T., 1949. Comparative study <strong>of</strong> decomposition rates <strong>of</strong> organic<br />
matter <strong>in</strong> temperate and tropical regions. Soil Sci., 68: 419-432.<br />
Jones, E.W., 1945. The structure and reproduction <strong>of</strong> <strong>the</strong> virg<strong>in</strong> forests <strong>of</strong> <strong>the</strong> north temperate zone.<br />
New Phytol., 44: 130-148.<br />
Jouzel, J., Barkov, N.I., Barnola, J.M., Bender, M., Chappellaz, J., Genthon, C., Kotlyakov, V.M.,<br />
Lipenkov, V., Lorius, C., Petit, J.R., Raynaud, D., Raisbeck, G., Ritz, C., Sowers, T.,<br />
Stievenard, M., Yiou, F. & Yiou, P., 1993. Extend<strong>in</strong>g <strong>the</strong> Vostok ice-core record <strong>of</strong> palaeoclimate<br />
to <strong>the</strong> penultimate glacial period. Nature, 364: 407-411.<br />
Joyce, L.A. & Kickert, R.N., 1987. Applied plant growth models for graz<strong>in</strong>glands, forests, and crops. In:<br />
Wisiol, K. & Hesketh, J.D. (eds.), Plant growth model<strong>in</strong>g for resource management, Vol. I.<br />
CRC Press, Boca Raton, Florida, 17-55.<br />
Katz, R.W. & Brown, B.G., 1992. Extreme events <strong>in</strong> a chang<strong>in</strong>g climate: Variability is more important<br />
than averages. Clim. Change, 21: 289-302.<br />
Kauppi, P. & Posch, M., 1985. Sensitivity <strong>of</strong> boreal forests to possible climatic warm<strong>in</strong>g. Clim.<br />
Change, 7: 45-54.<br />
Kauppi, P. & Posch, M., 1988. A case study <strong>of</strong> <strong>the</strong> effects <strong>of</strong> CO 2 -<strong>in</strong>duced climatic warm<strong>in</strong>g on forest<br />
growth and <strong>the</strong> forest sector: A. Productivity reactions <strong>of</strong> nor<strong>the</strong>rn boreal forests. In: Parry,<br />
M.L., Carter, T.R. & Konijn, N.T. (eds.), The impact <strong>of</strong> climatic variations on agriculture,<br />
volume I: Assessments <strong>in</strong> cool temperate and cold regions. Kluwer Academic Publishers,<br />
Dordrecht a.o., 183-195.<br />
Keane, R.E., Arno, S.F., Brown, J.K. & Tomback, D.F., 1990. Modell<strong>in</strong>g stand dynamics <strong>in</strong> whitebark<br />
p<strong>in</strong>e (P<strong>in</strong>us albicaulis) forests. Ecol. Modell<strong>in</strong>g, 51: 73-95.<br />
Kellomäki, S. & Väisänen, H., 1991. Application <strong>of</strong> a gap model for <strong>the</strong> simulation <strong>of</strong> forest ground<br />
vegetation <strong>in</strong> boreal conditions. For. Ecol. Manage., 42: 35-47.<br />
Kellomäki, S. & Kolström, M., 1992. Simulation <strong>of</strong> tree species composition and organic matter accumulation<br />
<strong>in</strong> F<strong>in</strong>nish boreal forests under chang<strong>in</strong>g climatic conditions. Vegetatio, 102: 47-68.<br />
Kellomäki, S., Väisänen, H., Hänn<strong>in</strong>en, H., Kolström, T., Lauhanen, R., Mattila, U. & Pajari, B.,<br />
1992. SIMA: A model for forest succession based on <strong>the</strong> carbon and nitrogen cycles with<br />
application to silvicultural management <strong>of</strong> <strong>the</strong> forest ecosystem. Silva Carelica, 22: 91 pp.<br />
Ker, J.W. & Smith, J.H.G., 1955. Advantages <strong>of</strong> <strong>the</strong> parabolic expression <strong>of</strong> height-diameter relationships.<br />
For. Chron., 31: 235-246.<br />
Kercher, J.R. & Axelrod, M.C., 1984. Analysis <strong>of</strong> SILVA: a model for forecast<strong>in</strong>g <strong>the</strong> effects <strong>of</strong> SO 2<br />
pollution and fire on western coniferous forests. Ecol. Modell<strong>in</strong>g, 23: 165-184.