참고문헌
- Ala, T., Y. Ishii, K. Sakamoto, N. Miki, M. Hirobe and K. Yoshikawa(2009) Physiological responses of leaves in Pleioblastus pubescens Nakai to light stress under different light conditions. J. Jpn. Soc. Reveg. Tech. 35(1): 51-56. (in Japanese with English abstract)
- Braun-Blanquet, J.(1964) Pflanzensoziologie, Grundzfige der Vegetationskunde, 3rd ed. Springer, Wien-New York, 865pp.
- Cha, Y.J.(2001) Physiological characteristics and ecological roles of dwarf bamboo(Sasa borealis) along the developmental stages of deciduous forests after clearcutting in Mt. Baekwoon, Chonnam province, Korea. Seoul National Univ., Seoul, Korea, 105pp. (in Korean with English abstract)
- Cha, Y.J. and K.J. Lee(2002) Morphological and physiological characteristics of dwarf bamboo(Sasa borealis) growing at different stand types of deciduous forests after clearcutting in Mt. Baekwoon, Jeollanam-do, Korea. Joul. Korean For. Soc., 91(3): 396-404. (in Korean with English abstract)
- Cha, Y.J. and S.H. Chun(2002) Vegetational structure of dwarf bamboo and its effects on the developmental stages of deciduous forests in clearcutting sites. Kor. J. Env. Eco. 16(2): 149-159. (in Korean with English abstract)
- Denslow, J.S.(1987) Tropical rainforest gaps and tree species diversity. An. Rev. Ecol. Syst. 18: 431-451.
- Dierssen, K.(1990) Einfuhrung in die Pflanzensoziologie (Vegetationskunde) Wissenschaftliche Buchgesellschaft, Darmstadt. 241pp.
- Friedman, D. and P. Alpert(1991) Reciprocal transport between ramets increases growth of Fragaria chiloensis when light and nitrogen occur in separate patches but only if patches are rich. Oecologia 86: 76-80.
- Gratzer, G., P.B. Rai and G. Glatzel(1999) The influence of the bamboo Yushania microphylla on regeneration of Abies densa in central Bhutan. Can. J. For. Res. 29: 1,518-1,527.
- Ishibashi S.(1998) The relationship between natural regeneration and land/forest description in natural cool-temperate and boreal forests. J. Jpn. For. Soc. 80(2): 74-79. (in Japanese with English abstract)
- Iwamoto, S., and J. Sano(1998) Standing crop of Sasa and the growth patterns of seedlings in a deciduous broad-leaved secondary forest. J. Jpn For. Soc. 80:311-318. (in Japanese with English abstract)
- Kawahara, T. and Y. Tadaki(1978) Studies on Sasa communities(III) : Relationship between light intensity and biomass of Sasa nipponica. J. Jpn For. Soc. 60: 244-248. (in Japanese with English abstract)
- Kikuzawa, K.(1986) Leaf survival strategy of forest trees. Jpn. J. Ecol. 36(3): 189-203. (in Japanese with English abstract)
- Kim, H.C.(2009) Ecological characteristics and management methods of Sasa quelpaertensis Nakai. Ph. D. thesis, Jeju National Univ. Jeju, Korea, 103pp. (in Korean with English abstract)
- Kunisaki, T.(2004) Effects of the density of midstory deciduous hardwood trees on understory vegetation in Pinus densiflora plantations in Ohshuku district, Iwate prefecture, northern Japan. J. Jpn. For. Soc. 86(3): 258-264. (in Japanese with English abstract)
- Lei, T.T. and T. Koike(1998) Functional leaf phenotypes for shaded and open environments of a dominant dwarf bamboo(Sasa senanensis) in northern Japan. Inter. J. Plant Sci. 159: 812-820.
- Li, H.H., H. Nishimura, K. Hasegawa and J. Mizutani(1992) Allelopathy of Sasa cernua. J. Chem. Ecol. 18: 1,785-1,796.
- Nakashizuka, T.(1984) Regeneration process of climax beech(Fagus crenata) forests I. Structure of a beech forest with the undergrowth of Sasa. Jpn. J. Ecol. 32: 57-67.
- Peter P., T. Nakashizuca and T. Ohkubo(1992) Regeneration and development in beech-dwarf bamboo forest in Japan. For. Ecol. and Manag. 55: 35-50.
- Pitelka, L.F. and J.W. Ashmun(1985) Physiology and integration of ramets in clonal organisms, (eds Jackson, J. B. C, Buss, L. W. and Cook, R.E.), 399-437, Yale University Press, New Haven, 530pp.
- Saijoh, Y.(1990) Some observations on the above-ground standing crop and its related characteristics of Sasa senanensis(FRANCH et SAVAT.) REHDER occcurring in and out of forest. J. Jpn. Soc. of Gras. Sci. 35(4): 358-362. (in Japanese with English abstract)
- Saitoh, T., K. Seiwa, A. Nishiwaki, H. Kanno and S. Akasaka(2000) Spatial distribution patterns of Sasa palmata in relation to light conditions across gap-understory continuum in a beech(Fagus crenata) forest. J. Jpn. For. Soc. 82(4): 342-348.
- Saitoh, T., S. Kenji and A. Nishiwaki(2002) Importance of physiological integration of dwarf bamboo to persistence in forest understorey: a field experiment. J. Ecol. 90: 78-85.
- Spark, D.L., A.L. Page, P.A. Helmke, R.H. Loepppert, P.N. Soltanpour, M.A. Tabatabai, C.T. Johnston and M.E. Sumner(1996) Methods of Soil Analysis. Part 3: Chemical methods, SSSA, Madison, Wisconsin(USA), 1,264pp.
- Stuefer, J.F., H.J. During and H. de Kioon(1994) High benefits of clonal integration in two stoloniferous species, in response to heterogeneous light environments. J. Ecol. 82: 511-518.
- Tadokoro, K. and T. Yajima(1990) Growth and activity of rhizomes of Sasa nipponica. J. Jpn. For. Soc. 72: 345-348. (in Japanese with English abstract)
- Yamamoto, S.I.(1989) Gap Dynamics in climax Fagus crenata forests. Botanical Magazine-Tokyo 102: 93-114.
- Yun, J.H., J.H. Kim, K.H. Oh and B.Y. Lee(2010) Vertical Distribution of vascular plants in Jungsanri, Mt. Jiri by temperature gradient. Kor. J. Env. Eco. 24(6): 680-707. (in Korean with English abstract)
- Yuruki, T., K. Aragami and S. Inoue(1977) Ecological Studies of Suzutake(Sasa borealis) Bulletin of the Kyushu University Forest 50: 83-122. (in Japanese with English abstract)