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ISSN : 2287-8327
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Factors affecting the vertical distribution of Betula platyphylla var. japonica and Betula ermanii on Mt. Neko in Nagano Prefecture, Japan
Mariko Shigeru (University of Tsukuba)
Hayashi Ichiroku (University of Tsukuba)
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Abstract
Betula platyphylla var. japonica and Betula ermanii segregate vertically at an elevation of approximately 1,850 m on Mt. Neko in Nagano Prefecture, Japan. B. platyphylla var. japonica and B. ermanii were the dominant species below and above this altitude, at which the mean-annual and growing-season air temperatures were 4°C and 14.1°C, respectively. Based on a modification of Kira's warmth index which employs cumulative temperature represented as °C day, leaf unfolding in both species was observed to be initiated at 58°C day and 169°C day, respectively. In 1996, leaf unfolding was initiated on 18 May in B. platyphylla var. japonica (+/-6 days) and on 5 June in B. ermanii (+/-8 days), shortly after the last frost which occurred on 5 May 1995 above 1,850 m; below this elevation there was no risk of frost at the time. At elevations above 1,850 m, the unfolded leaves of B. platyphylla were damaged by late frost, while B. ermanii escaped injury because the leaves were still protected by winter buds. The optimum temperature for seed germination in both B. platyphylla and B. ermanii was 30°C. Temperature alternation from 10 to 30°C and moist storage of seeds at 4°C (stratification) prior to incubation increased germination rates in both species. The seedlings of B. ermanii had a greater survival rates than those of B. platyphylla var. japonica when planted above 1,850 m. Comparisons of the timing of leaf unfolding and the latest frost at a site appeared to be the main factors affecting the vertical distribution of these species.
- keywords
- Betula ermanii, Betula platyphylla var. japonica, germination, leaf phenology, vertical distribution
Reference
Arora VK, Boer GJ. 2005. A parameterization of leaf phenology for the terrestrial ecosystem component of climate models. Grobal Change Biol 11: 39-59
Chuine I, Beaubien EG. 2001. Phenology is a major determinant of tree species range. Ecol Lett 4: 500-510.
Imanishi K. 1949. Theoretical consideration of bio-community. Mainichi Shinbunn-sha, Tokyo. (in Japanese)
Kato J, Hayashi I. 2008. Phenological studies of deciduous trees in the cool temperate region of Japan. J Ecol Field Biol 31: 193-200.
Kikuzawa K. 1983. Leaf survival of woody plants in deciduous broad-leaved forests: 1. Tall trees. Can J Bot 61: 2133-2139.
Kojima H, Mariko S, Nakamura T, Hayashi I. 2003. Bud burst process and late-frost experiments on Fagus crenata and Quercus mongolica ssp. crispula. Veg Sci 20: 55-64.
Kojima S. 1994. Vegetation and environment of Betula ermanii forest on the Kamchatka Peninsula. Jpn J Ecol 44: 49-59. (in Japanese)
Kudo G. 1995. Altitudinal effects on leaf traits and shoot growth of Betula platyphylla var. japonica. Can J For Res 25: 1881-1885.
Larson PR. 1965. Stem form of young Larix as influenced by wind and pruning. For Sci 11: 412-424.
Lawton RO. 1982. Wind stress and elfin stature in a montane rain forest tree: an adaptive explanation. Am J Bot 69: 1224-1230.
Linkosalo T, Carter TR, Häkkinen R, Hari P. 2000. Predicting spring phenology and frost damage risk of Betula spp. under climatic warming: a comparison of two models. Tree Physiol 20: 1175-1182.
Maruyama K. 1978. Shoot elongation characteristics and phenological behaviour of forest trees in natural beech forest. Ecological studies on natural beech forest (32). Bull Niigata Univ For 11: 1-30. (in Japanese with English summary)
Neel PL, Harris RW. 1971. Motion-induced inhibition of elongation and induction of dormancy in Liquidamabar. Science 173: 58-59.
Numata M. 1987. Papers of theoretical consideration on Plant Ecology. Tokai-daigaku Shuppann, Tokyo. (in Japanese)
Ohsawa M. 1984. Differentiation of vegetation zones and species strategies in the sub-alpine region of Mt. Fuji. Vegetatio 57: 15-52.
Okitsu S.1999. Distribution of the forest of the boreal zone of north eastern Asia and conditions for the establishment of the forest boundary. Vegetation Science 16:83-97. (in Japanese with English summary)
Okitsu S, Satomi I. 1989. Relationship between tree height and diameter of Betula ermanii growing at the forest limit on the high mountains of central Japan. J Phytogeogr Taxon 37: 149-153. (in Japanese with English summary)
Raulier F, Bernier PY. 2000. Predicting the date of leaf emergence for sugar maple across its native range. Can J For Res 30: 1429-1435.
Takahashi K. 1962. Studies on vertical distribution of the forest in middle Honshu. Bull Gov For Exp Stat 142: 1-171. (in Japanese)
Tanouchi H, Hayashi I. 1981. Analytical study on the vegetation of Sugadaira, Central Japan. Hikobia Suppl 1: 265-276. (in Japanese)
Watanabe R. 1996. Individual and annual variation on the phenology of B. ermanii. Bull Inst Nat Educ Shiga Heights Shinshu Univ 33: 15-26. (in Japanese)
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