Abstract
Forest patterns along topographical gradients were compared between second- and old-growth forested watersheds in a warm-temperate zone of Mt Kiyosumi, central Japan. Three community types were distinguished depending on the topographical habitat type in each watershed, for example, conifer forest was dominated byAbies firma andTsuga sieboldii on ridge sites, evergreen broad-leaved forest was dominated byQuercus acuta, Q. salicina andCastanopsis cuspidata var.sieboldii on slope sites, and deciduous forest was dominated byEuptelea polyandra andCornus controversa in valley sites. Beta diversity and distinctiveness of each topographical community type increased with progression of secondary succession. Conifers and evergreen broad-leaved trees, which were intermingled with each other on ridges and slopes of the second-growth watershed, were in turn restricted to the ridge and slope habitat type, respectively, in the old-growth watershed. The process of this differentiation can be explained by the continuous regeneration of conifers on ridge sites, and its absence on slope sites due to different light conditions caused by progressive canopy closure of evergreen trees on the slope sites toward the old-growth watershed. In the valley type habitat, frequent soil disturbance, such as landslides and soil creep, hinder the continuous growth of late successional evergreen trees, and thus seral or pioneer deciduous trees can persist in the habitat.
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References
Christensen N. L. &Peet R. K. (1984) Convergence during secondary forest succession.Journal of Ecology 72: 25–36.
Harcombe P. A. (1987) Tree life tables.BioScience 37: 557–568.
Hill M. O. (1979)TWINSPAN: A FORTRAN Program for Arranging Multivariate Data in an Ordered Two-way Table by Classification of the Individuals and Attributes. Cornell University, Ithaca.
Iijima A. &Ikeya N. (1976) Geology of the Tokyo University Forest in Chiba.Miscellaneous Information, Tokyo University Forests 20: 1–38 (in Japanese).
Kabaya H., Sakura T., Watanabe R., Iwata Y., Mototani K., Ishikawa H. & Satoo T. (1976) Forest vegetation of Arakashizawa. In:Human Impacts on Natural Environment on Mt Kiyosumi and Mt Takago Area, Boso Hills (V) Chiba Prefecture, Chiba, pp. 2–31 (in Japanese).
Kira T. (1948) On the altitudinal arrangement of climatic zones in Japan: A contribution to the rational land utilization in cool highlands.Kanti-Nougaku 2: 143–173 (in Japanese).
Margalef R. (1968)Perspectives in Ecological Theory. University of Chicago Press, Chicago.
Matthews J. A. (1979) A study of the variability of some successional and climax plant assemblage-types using multiple discriminant analysis.Journal of Ecology 67: 255–271.
Muller R. N. (1982) Vegetation patterns in the mixed mesophytic forest of eastern Kentucky.Ecology 63: 1901–1917.
Ninomiya I., Tomita, E., Tsujita A. &Ogino K (1985) Diversity of species composition and stand structure in a natural secondary fir-hemlock forest.Bulletin of the Ehime University Forest 23: 59–76 (in Japanese with English summary).
Odum E. P. (1971)Fundamentals of Ecology. W. B. Saunders Company, Philadelphia.
Ohsawa M. (1981) A basic unit in forest community dynamics: A case study in the subalpine forest of Japan. In:Forest Regeneration in Southeast Asia pp. 43–62. BIOTROP special publication No. 13, Bogor.
Ohsawa, M. (1984) Differentiation of vegetation zones and species strategies in the subalpine region of Mt Fuji.Vegetatio 57: 15–52.
Ohsawa M. (1991a) Montane evergreen broad-leaved forests of the Bhutan Himalaya. In.Life Zone Ecology of the Bhutan Himalaya, II (ed. M. Ohsawa) pp. 89–156. Chiba University, Chiba.
Ohsawa M. (1991b) Structural comparison of tropical montane rain forests along latitudinal and altitudinal gradients in south and east Asia.Vegetatio 97: 1–10.
Ohtsuka T., Sakura T. &Ohsawa M. (1993) Early herbaceous succession along a topographical gradient on forest clear-felling sites in mountainous terrain, central Japan.Ecological Research 8: 329–340.
Oldeman R. A. A. (1990)Forests: Elements of Silvology. Springer-Verlag Berlin.
Peet R. K. &Loucks O. L. (1977) A gradient analysis of southern Wisconsin forests.Ecology 58: 485–499.
Pielou E. C. (1977)Mathematical Ecology. Wiley, New York.
Robertson P. A., Weaver G. T. &Cavanaugh J. A. (1978) Vegetation and tree species patterns near the northern terminus of the southern floodplain forest.Ecological Monographs 48: 249–267.
Romme W. H. &Knight D. H. (1981) Fire frequency and subalpine forest succession along a topographic gradient in Wyoming.Ecology 62: 319–326.
Sakai A. &Ohsawa M. (1993) Vegetation pattern and microtopography on a landslide scar of Mt Kiyosumi, central Japan.Ecological Research 8: 47–56.
Sokal R. R. &Rohlf F. J. (1972)Introduction to Biostatistics. W. H. Freeman & Company, San Francisco.
Stewart G. H. &Harrison J. B. J. (1987) Plant communities, landforms, and soils of a geomorphically active drainage basin, Southern Alps, New Zealand.New Zealand Journal of Botany 25: 385–399.
Suzuki E. (1979) Regeneration ofTsuga sieboldii forest I: Dynamics of development of a mature stand revealed by stem analysis data.Japanese Journal of Ecology 29: 375–386 (in Japanese with English summary).
Suzuki E. (1980) Regeneration ofTsuga sieboldii forest II: Two cases of regenerations occurred about 260 and 50 years ago.Japanese Journal of Ecology 30: 333–346 (in Japanese with English summary).
Tange T., Matsumoto Y., Mashimo Y. &Sakura T. (1989) Courses of height growth ofCryptomeria japonica trees planted on a slope. Comparison among the near ridge, the mid-slope and the near bottom in the Tokyo University Forest in Chiba.Bulletin of the Tokyo University Forest 81: 39–51 (in Japanese with English summary).
TUFC (Tokyo University Forest in Chiba) (1976) Meteorological data of the Tokyo University Forest in Chiba (1960–1974).Miscellaneous Information, Tokyo University Forests 20: 65–80 (in Japanese).
TUFC (Tokyo University Forest in Chiba) (1987) Meteorological data of the Tokyo University Forest in Chiba (1975–1984).Miscellaneous Information, Tokyo University Forests 25: 49–59 (in Japanese).
TUFC (Tokyo University Forest in Chiba) (1988)Materials for Observing the University Forest in Chiba. The University of Tokyo, Tokyo.
Whittaker R. H. (1960) Vegetation of the Siskiyou Mountains, Oregon and California.Ecological Monographs 30: 279–338.
Whittaker R. H. (1972) Evolution and measurement of species diversity.Taxon 21: 213–251.
Whittaker R. H. (1975)Communities and Ecosystems, 2nd edn. The Macmilland Company, New York.
Wilson M. V. &Shmida A. (1984) Measuring beta diversity with presence-absence data.Journal of Ecology 72: 1055–1064.
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Ozaki, K., Ohsawa, M. Successional change of forest pattern along topographical gradients in warm-temperate mixed forests in Mt Kiyosumi, central Japan. Ecol. Res. 10, 223–234 (1995). https://doi.org/10.1007/BF02347848
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DOI: https://doi.org/10.1007/BF02347848