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NTIS 바로가기시설원예ㆍ식물공장 = Protected horticulture and plant factory, v.29 no.2, 2020년, pp.130 - 140
최규성 (국립백두대간수목원 식물양묘실) , 성환인 (건국대학교 산림조경학과) , 김종진 (건국대학교 산림조경학과) , 송기선 (국립백두대간수목원 식물양묘실)
This study was conducted in order to closely examine about optimum shading for superior seedling production a container seedling of Tetradium daniellii, which is being increased the demand for a seedling due to being used for alternative energy, ecological restoration and honey plant. The experiment...
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
시설양묘의 한계점은? | 시설양묘는 시설을 통해 생육환경을 조절할 수 있어 노지양묘의 고질적인 문제들을 해결하는 효과적인 대안이다(Edwards와 Huber, 1982). 하지만 시설양묘를 통해 생산되는 용기묘는 제공된 환경에서 묘목이 생육되기 때문에 제공되는 생육환경에 따라 묘목이 광조건, 양분의 과부족 등으로 식물의 생장이 저하될 수 있어 우량묘목을 생산하기 위해서는 각수종별로 생육에 적합한 환경조절이 필요하다(Grossnickle, 2005). | |
쉬나무란? | G. Hartley)는 건조에 대한 내성이 강하며 벼랑이나 경사면과 같은 척박한곳에서도 식재가 가능한 낙엽활엽소교목이다. 원산지는 한국으로 중부(강화도, 경기도, 강원도 원주 부근)와 북부, 울릉도에도 분포중이며, 중국에도 분포하고 있다(Lee, 1980; Ri, 1997). | |
차광수준은 전광과 전광의 35%, 55%, 75%로 처리하였을 때, 쉬나무 옹기묘의 간장과 근원경 생장 양상은? | 차광수준은 전광과 전광의 35%, 55%, 75%로 처리하였다. 실험결과, 간장과 근원경 생장은 전광에서 현저히 높은 값을 보였으며, 차광수준이 강해질수록 낮은 생장값으로 조사되었다. 묘목의 뿌리형태특성을 측정한 결과 전광에서 뿌리발달이 가장 왕성하게 조사되었다. |
Bouma, T.J., K.L. Nielsen, and B. Koutstal. 2000. Sample preparation and scanning protocol for computerised analysis of root length and diameter. Plantand Soil 218:185-196.
Choi, J.H., K.W. Kwon, and J.C. Chung. 2002. Effect of artificial shade treatment on the growth and biomass production of several deciduous tree species. Journal of Korean Forest Energy 21:65-75 (in Korean).
Choi, J.I., J.H. Seon, K.Y. Pack, and T.J. Kim. 1998. Photosynthesis and stomatal conductance of eight foliage plant species as affected by photosynthetic photon flux density and temperature . Horticultural Science & Technology 39:197-202 (in Korean).
Choi, S.M., H.C. Shin, K.S. Lee, E.G. Bae, K.O. Choi, and K.Y. Huh. 2012. Effects of shading rates on growth characteristics and photosynthesis in four broad-leaved evergreen trees. Journal of Korean Society for People, Plants and Environment 15:99-106 (in Korean).
Cornelissen, J.H.C., P.C. Diez, and R. Hunt. 1996. Seedling growth, allocation and leaf attributes in a wide range of woody plant species and types. Journal of Ecology 84:755-765.
Diekmann, F and G. Fischbeck. 2005. Differences in wheat cultivar response to nitrogen supply. II : Differences in NMetabolism-Related traits. Journal of Agronomy and Crop Science 191:362-376.
Edwards, I.K and R.F. Huber. 1982. Contrasting approaches to containerized seedling production. In: J.B. Scarratt, C. Glerum, and C.A. Plexman (eds.). Proceedings of the Canadian Containerized Tree Seedling Symposium. Canadian Forestry Service, Great Lakes Forest Research Centre, Ontario, Canda. p. 123-127.
Evans, J.R. 1994. Developmental constrains on photosynthesis: effects of light and nutrition. In : Photosynthesis and the environment. Baker, N.R. (ed.). Kluwer Academic Press, Dordrecht. p. 281-304.
Faria, T., J.I. Garcia-Plazaola, A. Abadia, S. Cerasoli, J.S. Pereira, and M.M. Chaves. 1996. Diurnal changes in photoprotective mechanism in leaves of cork oak (Quercus suber) during summer. Tree Physiology 16:115-124.
Fitter, A.H. and R.K.M. Hay. 1987. Environmental Physiology of Plants. Academic Press, San Diego. p. 423.
Fox, J.E.D., I.K. Surata, and S. Suriamidhardja. 1990. Nursery potting mixture for Santalum album L. in Timor. Mulga Research Centre Journal 10:38-44.
Grossnickle, S.C. 2005. Importance of root growth in overcoming planting stress. New Forests 30:273-294.
Hong, S.G. 1991. Biomass studies of reproductive and vegetative twigs of Evodia daniellii. Forest Bioenergy 11: 11-17 (in Korean).
Hong, S.G., K.H. Choi, and S.K. Lee. 1987. Studies on development of fuel substitute for diesel engine with seed oil of Evodia daniellii - on the emphasis of fuel properties and heat consumption rates - Forest Bioenergy 7:40-48 (in Korean).
Jang, J.W. 2008. A study on honey plants in korea : the kind of honey plants in korea and around a former scanning electron microscope form structure of the pollen. PhD Thesis. Daegu University. p. 134 (in Korean).
Kang, D.B. 2016. Effects of shading and fertilization treatment on the growth characteristics of Chamaecyparis obtusa seedlings. MS Thesis. Yeungnam University. p. 66 (in Korean).
Kim, D.E. 1989. Biomass productivity of Evodia daniellii seedlings. MS Thesis. Konkuk University. p. 23 (in Korean).
Kim, G.N., M.S. Cho, and S.W. Lee. 2010. Physiological responses of the three deciduous hardwood seedlings growing under different shade treatment regimes. Journal of Bio-Environment Control 19:36-48 (in Korean).
Kim, P.G., Y.S. Yi, D.J. Chung, S.Y. Woo, J.H. Sung, and E.J. Lee. 2001. Effects of light intensity on photosynthetic activity of shade tolerant and intolerant tree species. Journal of Korean Forestry Society 90:476-487 (in Korean).
Kim, S.J., C.W. Nam, H.S. Lee, D.L. Yoo, and S.Y. Ryu. 2003. Growth response and flower coloration of cut Iris as influenced by different shading levels and planting dates in highlands. Horticultural Science & Technology 21:336-340 (in Korean).
Kim, Y.C. 1986. Effect of inorganic environmental fFactors on the growth of Pinus koraiensis seedlings (I) - The influence of shading on the growth of seedlings grown on the seed bed -. Journal of Korean Forestry Society 73:43-54 (in Korean).
Korea Forest Service. 2015. Plant nursery management manual. Korea Forest Service. p. 770 (in Korean).
Kwon, K.W., G.N. Kim, and M.S. Cho. 2009. Physiological responses of the three wild vegetables under different shading treatment. Journal of Korean Forest Society 98:106-114 (in Korean).
Kwon, K.W., S.A. Kim, and D.K. Lee. 1996. Effect of light intensity on chlorophyll contents in the leaves of several species of conifers and hardwoods subjected to artificial shading treatment. Research Reports of Environmental Science and Technology 14:42-49 (in Korean).
Lee, T.B. 1980. Illustrated flora of korea. Hayngmunsa. p. 990 (in Korean).
Lee, Y.H., and S.G. Hong. 1991. Biomass studies of Evodia daniellii. Forest Bioenergy 11:1-10 (in Korean).
Lim, J.H., S.Y. Woo, M.J. Kwon, J.H. Chun, and J.H. Shin. 2006. Photosynthetic capacity and water use efficiency under different temperature regimes on healthy and declining korean fir in Mt. Halla. Journal of Korean Forest Society 95:705-710 (in Korean).
Ri, C.U. 1997. The structure of an isolated Evodia daniellii community. J. of Life Science. 7:24-29 (in Korean).
Song, K.S. 2013. Annual growth, physiological characteristics and production of Daphniphyllum macropodum container seedling. PhD Thesis. Konkuk University. p. 127 (in Korean).
Song, K.S., H.I. Sung, Y.G. Cha, J.J. Kim. 2011. Growth and physiological responses of 1-year-old containerized seedlings of Quercus myrsinaefolia by shading treatment. Journal of Bio-Environment Control. 20:373-381 (in Korean).
Suh, H.M. 2004. Studies on seed treatments of pelletized seeds for direct seeding. PhD Thesis. Konkuk University. p. 85 (in Korean).
Sung, H.I. 2011. Effects of shading and fertilizing treatment on qualities of 1-year-old container seedlings of Quercus myrsinaefolia. PhD Thesis. Konkuk University. p. 113 (in Korean).
Tanimoto, T. 1975a. Effects of artificial shading on the growth of forest trees. (I). Differences in growth of Cryptomeria japonica seedlings in shade during a growing season. Journal of the Japan Forest Society 57:407-411.
Tanimoto, T. 1975b. Effects of artificial shading on the growth of forest trees. (II). Differences in growth of Pinus densiflora seedlings during a growing season under shading. Journal of the Japan Forest Society 58:155-160.
Viji, M.M., M. Thangaraj, and M. Jayapragasam. 1997. Effect of low light on photosynthetic pigments, photochemical efficiency and hill reaction in rice(Oryza sativa L.). Journal of Agronomy and Crop Science 178:193-196.
Walters, M.B., P.B. Kruger, and P.B. Reich. 1993. Growth, biomass distribution and $CO_2$ exchange of northern hardwood seedlings in high and low light. : relationships with successional status and shade tolerance. Oecologia. 94:7-16.
Wang, M.B., and Q, Zhang. 2009. Issues in using the WinRHIZO system to determine physical characteristics of plant fine roots. Acta Ecologica Sinica. 29:136-138.
Wang, R.Z. 2001. Photosynthedid, transpiration and water use efficiency of vegetaive and reproductive shoots of grassland species from north-eastern China. Photisynthetica. 39:136-138.
Weaver, J.E., and F.E. Clements. 1938. Plant Ecology. 2nd Edition, McGraw-Hill Book Company, Inc., New York. p. 601.
Woo, B.M., G.S. Jeon, H.T. Choi, and D.H. Jeong. 1995. Studies on rehabilitation progress of vegetation on landslide scars. Korean Forest Society 84:31-40 (in Korean).
Woo, B.M., T.H. Kwon, and N.C. Kim. 1993. Studies on vegetation succession on the slope of the forest road and development of slope revegetation methods. Journal of Korean Forest Society 82:381-395 (in Korean).
Yoo, Y.K., and K.S. Kim. 1997. Effects of shading on the growth in Hibiscus syriacus L. Horticultural Science & Technology 38:520-526 (in Korean).
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