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http://dx.doi.org/10.12791/KSBEC.2014.23.4.342

Effects of Temperature and Shading on Germination and Early Growth in Pimpinella brachycarpa  

Jeon, Kwon Seok (Southern Forest Resources Research Center, Korea Forest Research Institute)
Song, Ki Seon (Southern Forest Resources Research Center, Korea Forest Research Institute)
Choi, Kyu Seong (Useful Plants Resources Center, Korea National Arboretum)
Kim, Chang Hwan (Southern Forest Resources Research Center, Korea Forest Research Institute)
Park, Yong Bae (Southern Forest Resources Research Center, Korea Forest Research Institute)
Kim, Jong Jin (Department of Environmental Design, Konkuk University)
Publication Information
Journal of Bio-Environment Control / v.23, no.4, 2014 , pp. 342-348 More about this Journal
Abstract
This study was carried out to determine the effects of temperature and shading on germination and early growth of Pimpinella brachycarpa. Experiment was performed by temperature controls ($5^{\circ}C$, $10^{\circ}C$, $15^{\circ}C$, $20^{\circ}C$, $25^{\circ}C$, and $30^{\circ}C$) and shading treatments (control, 35% shading, 50% shading, and 75% shading). Seed pre-treatment before the germination experiment was carried out by temperature (with low temperature and wetting treatments for 0day, 20days, and 40days). Seeds of P. brachycarpa were, 20days of seed pre-treatment, germinated well at $5^{\circ}C$ and the more temperature went up, the more germination rate went down. As a result of surveying shading treatments, the height, leaf area, leaf length, leaf width etc were the highest (7.3cm, $12.8cm^2$, 5.4cm, and 2.3cm, respectively) under 50% shading. Specially, the root was grown well under 35% and 50% shading. Fresh weight of shoot (leaves+stem) was the highest under 50% and 75% shading and dry weight of shoot (leaves+stem) was the highest under 35% and 50% shading. As a result of surveying the whole experiment, it is concluded that the production of P. brachycarpa seedling is more effective under 50% shading.
Keywords
dry weight; fresh weight; germination rate; leaf growth; root growth;
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1 Arsenault, J.L., S. Poulcur, C. Messier, and R. Guay. 1995. WinRHIZO, a root-measuring system with a unique overlap correction method. HortScience. 30:906.
2 Boardman, N.K. 1977. Comparative photosynthesis of sun and shade plants. Annual Review of Plant Physiology. 28:355-377.   DOI   ScienceOn
3 Bonner, F.T. 1988. Seeds of woody plants. Advances in Research and Technology of Seeds. 11:81-112.
4 Bouma, T.J., K.L. Nielsen, and B. Koutstaal. 2000. Sample preparation and scanning protocol for computerised analysis of root length and diameter. Plant and Soil. 218:185-196.
5 Chang, K.M., M.S. Chung, M.K. Kim, and G.H. Kim. 2007. Analysis of mineral and volatile flavor compounds in Pimpinella brachycarpa N. by ICP-AES and SDE, HS-SPMEGC/MS. Journal of The Korean Society of Dietary Culture. 22:246-253 (in Korean).
6 Choi, M.H. and G.H. Kim. 2002. A study on quality characteristics of Pimpinella brachycarpa Kimchi during storage at different temperatures. Journal of the Korean Society of Food Science and Nutrition. 31:45-49 (in Korean).   DOI
7 Choi, N.S., S.S. Oh, and J.M. Lee. 2001. Change of Biologically functional compounds of Pimpinella brachycarpa(Chamnamul) by blanching conditions. Journal of The Korean Society of Dietary Culture. 16:388-397 (in Korean).
8 Choi, S.J., M.Y. Sim, J.W. Kim, M.H. An, B.K. Choi, and Y.M. Mo. 2001. Effects of air humidity control on the quality and yield of Pimpinella brachycarpa Nakai. Korean Journal of Horticultural Science and Technology. 19:62-62 (in Korean).
9 Coolbear, P., A. Francis, and D. Grierson. 1984. The effect of low temperature pre-sowing treatment on the germination performance and membrane integrity of artificially aged tomato seeds. Journal of Experimental Botany. 35:1609-1617.   DOI
10 Gordon, A.G. 1971. The germination resistance test-a new test for measuring germination quality of cereals. Canadian Journal of Plant Science. 51:181-183.   DOI
11 Hiroki, S. and K. Ichino. 1998. Comparison of growth habits under various light conditions between two climax species, Castanopsis sieboldii and Castanopsis cuspidata, with special reference to their shade tolerance. Ecological Research 13:65-72.   DOI
12 Hong, J.K., S.S. Ham, C.H. Park, K.J. Chang, and W.B. Kim. 1999. Wild edible greens production and using. JS Press. p. 176-184 (in Korean).
13 Hyun, B.K., S.J. Jung, Y.K. Son, C.W. Park, Y.S. Zhang, K.C. Song, L.H. Kim, E.Y. Choi, S.Y. Hong, S.I. Kwon, and B.C. Jang. 2010. Comparison between methods for suitability classification of wild edible greens. Korean Journal of Soil Science and Fertilizer. 43:696-704 (in Korean).
14 Kim, E.S., H.J. Kim, J.H. Ahn, D.G. Kim, K.C. Lee, and K.W. Seo. 2012a. Effect of temperature on seed germination of Heracleum moellendorffii Hance. Conference of The Plant Resources Society of Korea. p. 131-131 (in Korean).
15 Kim, G.N., M.S. Cho, and K.W. Kwon. 2010a. Analysis growth performance and ascorbic acid contents of Allium victorialis var. platyphyllum, Ligularia fischeri, and L. stenocephala under changing light intensity. Journal of Korean Forest Society. 99:68-74 (in Korean).
16 Kim, G.T. 2004. A study on the seed characteristics and germination percent of several native herb species. Korean Journal of Environment and Ecology. 18:1-6 (in Korean).
17 Kim, G.T. and T.W. Um. 1997. A study on the distribution of wild edible herb species in Mt. Kariwang. Journal of Korean Forest Society. 86:422-429 (in Korean).
18 Kim, J.J. 2000. Studies on optimum shading for seedling cultivation of Cornus controversa and C. walteri. Journal of Korean Forest Society. 89:591-597 (in Korean).
19 Kim, J.J., K.J. Lee, K.S. Song, Y.G. Cha, Y.S. Chung, J.H. Lee and T.S. Yoon. 2010b. Exploration of optimum container for production of Larix leptolepsis container seedlings. Journal of Korean Forest Society. 99:638-644 (in Korean).
20 Kim, J.W., J.H. Yoon, K.S. Jeon, J.M. Jung, H.R. Jung, M.G. Cho, and H.S. Moon. 2012b. Growth characteristics of Adenophora triphylla var. japonicum by shading treatments. Journal of Agriculture & Life Science. 46:19-25 (in Korean).
21 Kuroiwa, S., T. Horoi, K. Takada, and M. Monsi. 1964. Distribution ratio of net photosynthate to photosynthetic and non photosynthetic systems in shade plants. Botanical Magazine Tokyo 77:37-42.   DOI
22 Lee, K.C., H.B. Lee, W.G. Park, and S.S. Han. 2012. Research Articles : Physiological Response and Growth Performance of Parasenecio firmus under Different Shading Treatments. Korean Journal of Agricultural and Forest Meteorology. 14:79-88 (in Korean).   DOI   ScienceOn
23 Kwon, T.R., J.H. Jo, Y.S. Kwon, and S.P. Lee. 1992. A Study on using of native plants. Kyungpook RDA (Research Project). p. 459-471 (in Korean).
24 Kwon, T.R., J.H. Jo, Y.S. Kwon, S.P. Lee, and B.S. Choi. 1993. Study on seed treatments to facilitate germination of some wild edible greens. Korean Journal of Soil Science and Fertilizer. 35:416-421 (in Korean).
25 Lee, J.J., M.H. Choo, and M.Y. Lee. 2007. Physicochemical compositions of Pimpinella brachycarpa. Journal of the Korean Society of Food Science and Nutrition. 36:327-331 (in Korean).   DOI
26 Na, H.Y. and C.H. Chun. 2009. Nutritional, chemical and physical factors affecting somatic embryo formation and germination in Pimpinella brachycarpa. Korean Journal of Horticultural Science and Technology. 27:280-286.
27 Park, B.M. and J.H. Bae. 2012. Effect of shading levels on the growth and chlorophyll contents of Allium victorialis L. var. platyphyllum Makino. Journal of Bio-Environment Control. 21:281-285 (in Korean).
28 Park, B.M., C.H. Kim, J.H. Bae, and J.R. Shin. 2011. Effect of shading levels on the soil properties, growth characteristics, and chlorophyll contents of Ligularia stenocephala. Journal of Bio-Environment Control. 20:352-356 (in Korean).
29 Park, S.B., M.J. Kim, Y.M. Park, S.I. Hwang, and E.G. Kim. 2012. Profitability analysis for Ligularia fischeri forest farming. Journal of Korean Forest Society. 101:426-433 (in Korean).
30 Park, Y.M. and M.J. Kim. 2011. Environmental and growth characteristics of Pimpinella brachycarpa habitat in Mt. Jeombong, Korea. Journal of Korean Forest Society. 100:687-692 (in Korean).
31 Schopmeyer, C.S. 1974. Seeds of Woody Plants in the United States. USDA Agric. Handb. No. 450. Forest Service USDA. Washington D.C. p. 883.
32 Suh, J.T. 1997. Physioecological characteristics of wild Pimpinella brachycarpa Nakai. Ph. D. Thesis. Kangwon University. p. 1-89 (in Korean).
33 Song, H.S., H.S. Choi, and M.S. Lee. 1997. Analysis of volatile flavor components of Pimpinella brachycarpa. Korean Journal of Food and Cookery Science. 13:674-680 (in Korean).
34 Song, K.S., K.S. Jeon, C.H. Kim, J.H. Yoon, Y.B. Park, and J.J. Kim. 2014a. Effect of shading level on growth and morphological characteristics of Ligularia fischeri seedling. Protected Horticulture and Plant Factory. 23:88-94 (in Korean).   DOI
35 Song, K.S., K.S. Jeon, J.H. Yoon, C.H. Kim, Y.B. Park, and J.J. Kim. 2014b. Growth and root development characteristics of Atractylodes japonica seedlings by different relative light intensity. Korean Journal of Medicinal Crop Science. 22:154-159 (in Korean).   DOI   ScienceOn
36 Wang, M.B. and Q. Zhang. 2009. Issues in using the Win-RHIZO system to determine physical characteristics of plant fine roots. Acta Ecologica Sinica. 29:136-138.   DOI   ScienceOn