Abstract
Structural changes in altitudinal vegetation zones along a 30° N parallel were studied based on vegetation data from 20 mountains in East Asia, from 85° E to 130° E longitude. The altitude of comparable vegetation zones showed a sharp increase of 1400–1900 m from east to west. Forest limit reached an altitude of 4400–4600 m in the eastern Tibetan Plateau, being the highest forest limit in the world. The limidng factor for the upper limit of a vegetation zone was different in the east and west. Low temperature in winter controlled the upward distribution of the evergreen broadleaf forest in the east, whereas the limiting factor was growing season warmth in the west. A close correlation was found between the climatic indices and annual range of monthly mean temperature (ART) at the upper limit of a vegetation zone.
Component genera of each vegetation zone along the 30° N parallel were analyzed, and it was found that the alternation of component genera from east to west was much more apparent in cool-temperate forests, reflecting their response to macrotopography and air masses. The distribution of Fagus extended into winter-cold regions, whilst Tsuga occurred principally in oceanic and warm climates. The northern limit of Tsuga corresponded well to an ART isotherm of 23 °C and its southern limit coincided with that of Fagus. According to the distribution of Fagus and Tsuga, the cool-temperate forests in East Asia along the 30° N belt were divided into three types: deciduous broadleaf forest (represented by Fagus), mixed forest (dominated by Fagus, Tsuga and others), and mixed evergreen forest (consisting mainly of Tsuga and sclerophyll oaks).
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References
Callaghan, T. V. & Emanuelsson, U. 1985. Population structure and processes of tundra plants and vegetation, pp. 399–439. In: White, J. (ed.), The Population Structure of Vegetation. Kluwer Acad. Publ., Dordrecht, the Netherlands.
Chang, K. W. & Chiang, S. 1973. A primary study on the vertical vegetation belt of Mt. Jolmo-lungma region and its relationship with horizontal zone. Acta Bot. Sinica 15: 221–235.
Chang, H. S. 1983. The Tibetan Plateau in relation to vegetation of China. Ann. Missouri Bot. Gard. 70: 564–570.
Chen, Y. Z., Song, Y. C. & Zhang, S. 1965. The features, types. J. East China Teacher Univ. 1: 77–90.
China Meteorological Administration. 1984. Climatological data of China, Beijing.
Chow, C. L. 1965. A study of the vegetation of Mt. Hwangshan, pp. 208–266. In: Chen, B. J. (ed.), Botanical study of Mt. Hwangshan. Shanghai Publ. House of Sci. and Tech., Shanghai, China.
Deng, M. B., Wei, H. T. & Yao, G. 1983. Flora and vegetation of Baimajian, Anhui Province. Acta Phytoecol. Geobot. Sinica 7: 113–121.
Deng, M. B., Wei, H. T. & Yao, G. 1985. Evergreen plants and of the Dabei Mountain region. Acta Phytoecol. Geobot. Sinica 9: 142–149.
Editorial Committee for Physical Geography of China. 1985a. Physical geography of China — General remarks. Sci. Press, Beijing, China. 413 p.
Editorial Committee for Physical Geography of China. 1985b. Physical geography of China — Climate, Sci. Press, Beijing, China. 161 p.
Editorial Committee for Vegetation of China, 1980. Vegetation of China. Press, Beijing, China. 1375 p.
Editorial Group for Vegetation of Sichuan. 1980. Vegetation of Sichuan, pp. 64–225. Sichuan People's Publishing House, Changdu, China.
Fang, J. Y. 1989. Distribution of vegetation and climate in China. Doctoral Dissertation of the Osaka City Univ., Osaka, Japan.
Fang, J. Y. 1991. Ecoclimatological analysis of the forest zone in China. Acta Ecol. Sinica 11: 377–387.
Fang, J. Y. 1995, Three-dimension distribution of forest zones in East Asia. Acta Geograph. Sinica 50: 160–167.
Fang, J. Y. & Yoda, K. 1990. Climate and vegetation in China. IV. Distribution of tree species along the thermal gradient. Ecol. Res. 5: 291–302.
Fang, J. Y. & Yoda, K. 1991. Climate and vegetation in China. V. Effect of climatic factors on the upper limit of distribution of evergreen broadleaf forest. Ecol. Res. 6: 113–125.
Gao, G. M. 1986. The vertical nature zone of Shenlongjia Mountain. Mountain Res. 4: 282–287.
Hämet-Ahti, L., Ahti, T. & Koponen, T. 1974. A scheme of vegetation zones for Japan and adjacent regions, Ann. Bot. Fenn. 11: 59–88.
Han, Y. L. (ed.) 1990. Science Investigation in Natural Conservation of Guniujiang. China Zhengwuang Press, Beijing, China. 452 p.
Hatsusima, S. 1991. Flora of the Northern RYUKYUS. Asahi-Insatsu, Kagosima, Japan. 256 p.
Hattori, T. & Nakanishi, S. 1985. On the distribution limit of the lucidophyllous forest in the Japanese Archipelago. Bot. Mag. Tokyo 98: 317–333.
Holdridge, L. R. 1947. Determination of world plant formations from simple climatic data. Science 105: 367–368.
Holdridge, L. R. 1967. Life zone ecology. San Jose, Costa Rica.
Hou, X. Y. 1982. Vegetational geography and chemical components of dominant plants in China. Sci. Press, Beijing, China. 418 p.
Hou, X. Y. 1988. Vegetation Geography of China. Study Series for Physical Geography of China. Sci. Press, Beijing, China. 318 p.
Hu, W. G. 1964. Flora of Mt. Emei. J. Sichuan Univ. 3: 150–164.
Huang, W. L. (ed.) 1982. Scientific Survey of the Fanjingshan Mountain Preserve. Guizhou Province, Guiyang, China. 278 p.
Huang, W. L. (ed.) 1988. Vegetation of Guizhou. Guizhou People's Publishing House, Guiyang, China.
Imanishi, K. 1953. Life in Nepal Himalaya. Kagaku (Science) 23: 464–468.
Irikura, S. 1984. Altitudinal zonation of vegetation at west part of Yakushima Island, pp. 317–351. In: Conservation report of the Yakushima Wilderness area, Kyushu, Japan. Environmental Agency of Japan, Tokyo, Japan.
Japan Meteorological Agency, 1981. Climatic Table of Japan, Japan Meteorological Agency, Tokyo, Japan.
Jiang, D. L. (ed.) 1991. Climate of middle and lower reaches of Changjiang River. Meteorological Publ. House, Beijing, China.
Jin, Y. X., Zheng, Z. & Xu, T. Q. 1987. Vegetation of the Xiling gorge region in Hubei. J. Wuhan Bot. Res. 5: 147–158.
Kawakita, J. 1956. Vegetation, pp. 1–65. In: Kihara (ed.) Land and crops of Nepal Himalaya: Scientific results of the Japanese expedition to Nepal Himalaya (1952–1953), Kyoto Univ., Kyoto, Japan.
Kira, T. 1945. A new classification of climate in eastem Asia as the basis for agricultural geography. Horticultural Institute Kyoto Univ., Kyoto, Japan. 23 p.
Kira, T. 1948. On the altitudinal arrangement of climatic zone in Japan. Kanti-Nougaku (Tokyo) 2: 143–173.
Kira, T. 1977. A climatological interpretation of Japanese vegetation zones, pp. 21–30. In: Miyawahi, A. & Tüxen (eds), Vegetation science and environmental protection. Maruzen, Tokyo, Japan.
Kira, T. 1991. Forest Ecosystems of East and Southeast Asia in a global perspective. Ecol. Res. 6: 185–1991.
Köppen, W. 1931. Grundriss der klimakunde. Berlin. Leipzig.
Li, B. S. 1984. The vertical spectra of vegetation in the Mt. Namjagbarwa region. Mountain Res. 2: 174–181.
Li, B. S. 1985. The zonation of vegetation in the Mt. Namjagbarwa region. Mountain Res. 3: 291–298.
Li, W. H. & Han, Y. F. 1985. Forest of Xizang. Sci. Press, Beijing, China. 375 p.
Li, X. G. 1984. The preliminary investigation on the vertical distribution of the forest vegetation on Emei Mountain, Sichuan. Acta Phytoecol. Geobot. Sinica 8: 52–66.
Liu, Z. G. (ed.) 1985. Vegetation of Mt. Gongga. Sichuan Publ. House of Sci. and Tech., Chengdu, China. 234 p.
Liu, Z. G. & Hu, X. H. 1985. The floristic characteristics of Gongga Mountains Region. Mount. Res. 3(2): 73–78.
Liu, L. H., Yu, Y. D. & Zhang, J. H. 1984. The division of vertical vegetation zone in Hengduanshan. Acta Bot. Yunnanica 6: 205–216.
Miyawaki, A. 1986. Relationships of the warmth and coldness indices to potential natural vegetation, pomiculture and forestry in central Japan. Int. J. Biometeor. 30: 197–209.
Murakami, T. 1986. The Monsoon. Tokyodou-syuppan, Tokyo, Japan.
Nepal Central Bureau of Statistics, 1987. Statistical Year Book of Nepal. Central Bureau of Statistics, Katmandu, Nepal.
Northwest Normal College. 1984. Physical Geography Atlas of China Chatographic, Publ. House, Beijing, China.
Ohsawa, M. 1984. Vegetation structure and dynamics in the Yakushima wilderness area, south Japan, pp. 317–351. In: Conservation report of the Yaku-shima Wilderness area, Kyushu, Japan. Environmental Agency of Japan, Tokyo, Japan.
Ohsawa, M. 1990. An interpretation of latitudinal patterns of forest limits in south and east Asian mountains. J. Ecol. 78: 326–339.
Ohsawa, M. 1993. Latitudinal pattern of mountain vegetation zonation in southern and eastern Asia. J. Veg. Sci. 4: 13–18.
Ohsawa, M. 1995. Latitudinal comparison of aldtudinal changes in forest structure, leaf-type, and species richness in humid monsoon Asia. Vegetatio 121: 3–10.
Ohwi, J. & Kitagawa, M. 1983. New flora of Japan. Shibundo, Tokyo, Japan.
Peng, Z. M. 1957. Vertical distribution of plants and conifer forest zone in Shenlongjia, Hubei. J. Agric. College Central China 2: 126–144.
Qian, H. & Wang, S. L. 1988. Major forest vegetation types and their distribution in Qingliang Mountain Natural Reserve of Jixi County, Anhui Province. Chin. J. Ecol. 7(2): 32–36.
Sakai, S. 1975. Freezing resistance of evergreen and deciduous broad-leaf trees in Japan with special reference to their distributions. Jap. J. Ecol. 25: 101–111.
Sakai, S. 1982. Plant cold hardiness and freezing stress-physiological ecology in winter. Academic Press Center, Tokyo, Japan.
Shen, C. Y. (ed.). 1986. Climatology of China. Science Press, Beijing, China.
Suzuki, T. 1976. Die vegetation der Insel Yaku, pp. 1–75. In: Usui, H. (ed.), Research Papers of forest ecology. Nourin-syuppan, Tokyo, Japan.
Tuhkanen, S. 1980. Climatic parameters and indices in plant geography, Acta Phytogeograph. Suecica 67. Uppsala.
Wang, C. W. 1961. The forests of China, with a survey of grassland and desert vegetation, Harvard Univ., Massachusetts, USA.
Walter, H. 1979. Vegetation of the earth ecological system of the geobiosphere (2nd ed.). Springer-Verlag, New York, USA.
Woodward, E. I. 1987. Climate and plant distribution. Cambridge Univ. Press, Cambridge, UK. 174 p.
Yang, Q. Z. 1990. The characteristics and classification of oak durisilvae in the Himalayan region of China. Acta Phytoecol. Geobot. Sinica 14: 197–211.
Yeh, T. C. & Chang, C. 1974. A preliminary experimental simulation on the heating effect of the Tibet Plateau on the general circulation over Eastern Asia in summer. Sci. Sinica 17 (3): 397–420.
Yeh, T. C. & Gao, Y. X. 1979. Meteorology of Qing-Zang (Tibet) Plateau. Science Press, Beijing, China.
Yim, Y. 1977. Distribution of forest vegetation and climate in the Korea Peninsula (III), Distribution of tree species along thermal gradient. Jap. J. Ecol. 27: 177–189.
Ying, T. S. & Hong, D. Y. 1978. A preliminary study on the major plant communities and its vertical distribution of Guhsiang region in southeastern Tibet. Acta Phytotaxo. Sinica 16: 48–60.
Ying, T. S., Ma, C. G. & Chang, C. S. 1979. Observation of the flora and vegetation of Mt. Shennungia in Western Hupeh, China. Acta Phytotaxo. Sinica 17: 41–60.
Zhang, J. W. (ed.). 1988. Vegetation of Xizang (Tibet). Science Press, Beijing, China.
Zheng, W. J. (ed.). 1983. Woody plants of China, Vol. 1. China Forestrey Publishers, Beijing, China.
Zheng, W. J. (ed.). 1985. Woody plants of China, Vol. 2. China Forestrey Publishers, Beijing, China.
Zhou, X. J. 1984. The main natural vegetation types of Shanghai and their distribution. Acta Phytoecol. Geobot. 8: 189–198.
Zhou, X. J. & Bao, X. C. 1991. The study of the numerical taxonomic system on the division of natural vegetation types of Jiulongshan in Zhejiang Province. Acta Phytoecol. Geobot. 15: 129–140.
Zhou, X. J., Ma, W. L. & Liu, Y. Q. 1987. Forest vegetation types of west Tianmu Mountains and their characteristics of distribution. Chin. J. Ecol. 6(3): 17–20.
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Fang, J.Y., Ohsawa, M. & Kira, T. Vertical vegetation zones along 30° N latitude in humid East Asia. Vegetatio 126, 135–149 (1996). https://doi.org/10.1007/BF00045600
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DOI: https://doi.org/10.1007/BF00045600