참고문헌 (76)

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9. Han, Qingmin, Yamaguchi, Erica, Odaka, Naoko, Kakubari, Yoshitaka. Photosynthetic induction responses to variable light under field conditions in three species grown in the gap and understory of a Fagus crenata forest.. Tree physiology, vol.19, no.10, 625-634.

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14. Herrick, JD, Thomas, RB. Effects of CO2 enrichment on the photosynthetic light response of sun and shade leaves of canopy sweetgum (Liquidambar styraciflua) in a forest ecosystem.. Tree physiology, vol.19, no.12, 779-786.

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15. Research Bulletin of the Niigata University Forests Homma K. 1 34 2001 Effects of snowfall on the species composition and population structure of Siebold's beech (Fagus crenata Blume) forest in Echigo Mountains, central Japan 

16. HonmaS.(1995)Analysis of Structures and Regeneration Processes of Japanese Beech(Fagus crenata Blume). PhD Thesis Tokyo Metropolitan University Hachioji. 

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19. Japanese Journal of Ecology Hukushima T. 79 45 1995 New phytosociological classification of beech forests in Japan 

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22. Kobayashi, Tsuyoshi, Hori, Yoshimichi. Photosynthesis and water‐relation traits of the summer annual C₄ grasses, Eleusine indica and Digitaria adscendens, with contrasting trampling tolerance. Ecological research, vol.15, no.2, 165-174.

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23. Kobayashi, T., Okamoto, K., Hori, Y.. Differences in Field Gas Exchange and Water Relations Between a C₃ Dicot (Plantago Asiatica) and a C₄ Monocot (Eleusine Indica). Photosynthetica, vol.37, no.1, 123-130.

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24. Kobayashi, Tsuyoshi, Muraoka, Hiroyuki, Shimano, Koji. Photosynthesis and Biomass Allocation of Beech (Fagus crenata) and Dwarf-bamboo (Sasa kurilensis) in Response to Contrasting Light Regimes in a Japan Sea-type Beech Forest. Journal of forest research, vol.5, no.2, 103-107.

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25. Grassland Science Kobayashi T. 70 46 2000 Effects of elevated CO2 and low light on the growth and biomass allocation of Plantago asiatica from sunny and shady habitats of north‐Kanto, Japan 

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26. Northern Forestry, Japan (Hoppo Ringyo) Koyama H. 14 53 2001 New methods for the beech regeneration. IV. Detection of phenological gap 

27. Kubo, Takuya, Ida, Hideyuki. Sustainability of an isolated beech-dwarf bamboo stand: analysis of forest dynamics with individual based model. Ecological modelling, vol.111, no.2, 223-235.

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28. LEAKEY, A. D. B., PRESS, M. C., SCHOLES, J. D., WATLING, J. R.. Relative enhancement of photosynthesis and growth at elevated CO₂ is greater under sunflecks than uniform irradiance in a tropical rain forest tree seedling. Plant, cell and environment, vol.25, no.12, 1701-1714.

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29. Photosynthetica Liang N. 529 31 1995 Interactions of elevated CO2 and drought stress in gas exchange and water‐use efficiency in three temperate deciduous tree species 

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30. Photosynthetica Liang N. 257 31 1995 Growth, photosynthesis and nitrogen content in Japanese beech (Fagus crenata Bl.) seedlings grown under five irradiances 

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32. MURAOKA, H., HIROTA, H., MATSUMOTO, J., NISHIMURA, S., TANG, Y., KOIZUMI, H., WASHITANI, I.. On the convertibility of different microsite light availability indices, relative illuminance and relative photon flux density. Functional ecology, vol.15, no.6, 798-803.

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33. Japanese Journal of Ecology Nakashizuka T. 75 34 1984 Regeneration process of climax beech (Fagus crenata Blume) forests. IV. Gap formation 

34. Nakashizuka, Tohru. Regeneration dynamics of beech forests in Japan. Vegetatio, vol.69, no.1, 169-175.

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35. Nakashizuka, Tohru. Regeneration of beech (Fagus crenata) after the simultaneous death of undergrowing dwarf bamboo (Sasa kurilensis). Ecological research, vol.3, no.1, 21-35.

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36. Naramoto, M., Han, Q., Kakubari, Y.. The Influence of Previous Irradiance on Photosynthetic Induction in Three Species Grown in the Gap and Understory of a Fagus Crenata Forest. Photosynthetica, vol.39, no.4, 545-552.

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37. Naramoto, Masaaki, Han, Qingmin, Kakubari, Yoshitaka. Photosynthetic Responses to Lightflecks of Fagus crenata Seedlings Grown in a Gap and Understory of a Deciduous Forest. Journal of forest research, vol.7, no.4, 193-199.

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38. Naumburg, E., Ellsworth, D. S.. Photosynthetic sunfleck utilization potential of understory saplings growing under elevated CO2 in FACE. Oecologia, vol.122, no.2, 163-174.

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39. Naumburg, Elke, Ellsworth, David S. Short-term light and leaf photosynthetic dynamics affect estimates of daily understory photosynthesis in four tree species.. Tree physiology, vol.22, no.6, 393-401.

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40. Naumburg, Elke, Ellsworth, David S., Katul, Gabriel G.. Modeling dynamic understory photosynthesis of contrasting species in ambient and elevated carbon dioxide. Oecologia, vol.126, no.4, 487-499.

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41. Journal of the Japanese Agricultural Systems Society Nishimura S. 156 16 2000 Difference in diurnal courses of microclimate and gas exchange on rice (Oryza sativa L.) leaves with various orientations in a paddy field 

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44. Pearcy, R W. Sunflecks and Photosynthesis in Plant Canopies. Annual review of plant physiology and plant molecular biology, vol.41, 421-453.

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45. PEARCY, R. W., GROSS, L. J., HE, D.. An improved dynamic model of photosynthesis for estimation of carbon gain in sunfleck light regimes. Plant, cell and environment, vol.20, no.4, 411-424.

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46. Peters, R., Nakashizuka, T., Ohkubo, T.. Regeneration and development in beech-dwarf bamboo forest in Japan. Forest ecology and management, vol.55, no.1, 35-50.

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47. Porra, R.J., Thompson, W.A., Kriedemann, P.E.. Determination of accurate extinction coefficients and simultaneous equations for assaying chlorophylls a and b extracted with four different solvents: verification of the concentration of chlorophyll standards by atomic absorption spectroscopy. Biochimica et biophysica acta, Bioenergetics, vol.975, no.3, 384-394.

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48. SAITO, Hideyuki, SUTOH, Hiroshi, KAKUBARI, Yoshitaka. The Influence of Air Water Vapor Pressure Deficit on CO2 Assimilation Rate and Stomatal Behavior within a Beech (Fagus crenata Bl.) Crown. 日本綠化工學會誌 = Journal of the Japanese Society of Revegetation Technology, vol.26, no.3, 178-187.

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49. Journal of the Japanese Forestry Society Saitoh T. 342 82 2000 Spatial distribution patterns of Sasa palmata in relation to light conditions across gap-understory continuum in a beech (Fagus crenata) forest 

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50. Saitoh, Tomoyuki, Seiwa, Kenji, Nishiwaki, Aya. Importance of physiological integration of dwarf bamboo to persistence in forest understorey: a field experiment. The Journal of ecology, vol.90, no.1, 78-85.

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51. Sasaki, Yoshiyuki. Versuch zur systematischen und geographischen Gliederung der Japanischen Buchenwaldgesellschaften. Vegetatio, vol.20, no.1, 214-249.

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54. ShimanoK.(1996)Difference of Regeneration Dynamics between the Japan Sea Type and the Pacific Ocean Type Beech (Fagus crenata Blume) Forests and Its Causal Factors. PhD Thesis Chiba University Matsudo. 

55. Shimano, Koji. Analysis of the Relationship between DBH and Crown Projection Area Using a New Model. Journal of forest research, vol.2, no.4, 237-242.

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56. Journal of Phytogeography and Taxonomy Shimano K. 1 46 1998 What prevents Japanese beech from regenerating in Pacific Ocean type beech forests? 

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60. Shimano, Koji, Masuzawa, Tadashi. Effects of snow accumulation on survival of beech (Fagus crenata) seed. Plant ecology, vol.134, no.2, 235-241.

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64. Yanhong, Tang, Hiroshi, Koizumi, Mitsumasa, Satoh, Izumi, Washitani. Characteristics of transient photosynthesis in Quercus serrata seedlings grown under lightfleck and constant light regimes. Oecologia, vol.100, no.4, 463-469.

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65. Tang, Yanhong, Kachi, Naoki, Furukawa, Akio, Awang, Muhamad B.. Heterogeneity of Light Availability and its Effects on Simulated Carbon Gain of Tree Leaves in a Small Gap and the Understory in a Tropical Rain Forest¹. Biotropica, vol.31, no.2, 268-278.

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