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http://dx.doi.org/10.11625/KJOA.2012.20.4.589

Allelopathic Effect of Ganghwa mugwort (Artemisia spp.) on Seed Germination and Seedling Growth of Plants  

Lee, Joo-Hwa (동국대학교 바이오환경과학과)
Byeon, Ji-Hui (동국대학교 바이오환경과학과)
Lee, Jeong-Hoon (국립원예특작과학원 약용작물과)
Park, Chun-Geon (국립원예특작과학원 약용작물과)
Park, Chung-Berm (국립원예특작과학원 약용작물과)
Cho, Joon-Hyeong (동국대학교 바이오환경과학과)
Publication Information
Korean Journal of Organic Agriculture / v.20, no.4, 2012 , pp. 589-605 More about this Journal
Abstract
This study was conducted to identify allelopathic effect of Ganghwa domestic Artemisia spp., named Sajabalssuk and Ssajuarissuk, for various receptor plants including clover (Trifolium repens L.), alfalfa (Medicago sativa L.), lawn grass (Zoysia japonica Steud.), dandelion (Taraxacum platycarpum Dahlst.), and dahurianpatrinia (Patrinia scabiosaefolia Fisch. ex Trevir). Receptor plants were treated with the aqueous and essential oil extract of Artemisia plants. In consequence, their allelopathic effects were evaluated by measuring seed germination rates, seedling growth, and dry weights of the receptor plants. The seed germination and seedling growth of the receptor plants were inhibited by all treatments of both aqueous and essential oil extracts of the Artemisia plants, and, in addition, the inhibitory effects were increased according to the higher concentration. Among the donor plants, A. $sp.^*III$ showed most effective allelopathic effect. Comparing the alleopathic effect among the receptor plants, seed germination was most inhibited in lawn grass while inhibitory effect of seedling growth was comparatively higher in dandelion. Although inhibitory effects were comparatively lower, the allelopathic effects of Artemisia plants were identified in clover and alfalfa since the seedling growth of these plants were inhibited more than 70%. Thus, in result, Ganghwa domestic Artemisia spp. could be possibly used for weed control since natural products of the plants showed inhibitory effects on seed germination and seedling growth of various receptor plants.
Keywords
Artemisia spp.; Ganghwa mugwort; aqueous and essential oil extract; allelopathic effect; growth inhibition;
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1 Bang, M. H., M. C. Song, M. W. Han, D. Y. Lee, J. K. Jo, H. G. Chung, T. S. Jeong, K. T. Lee, M. S. Choi, and N. I. Baek. 2007. Development of biologically active compounds from edible plant sources-XIX. Isolation of inhibitory compound on LDL-oxidation from the aerial parts of Sajabalssuk(Artemisia princeps PAMPANINI, Sajabalssuk). J. Korean Soc. Appl. Biol. Chem. 50(3): 224-227. (in Korean)
2 Duke, S. O., K. C. Vaughn, E. M. Croon Jr. and H. N. Elsohly. 1987. Artemisinin, a constituent of annual wormwood(Artemisia annua), is a selective phytotoxin. Weed Science 35: 499-500.
3 Fischer, N. H., G. B. Williamson, J. D. Weidenhamer, and D. R. Richardson. 1994. In search of allelopathy in the Florida scrub: The role of terpenoids. J. Chem. Ecol. 20(6): 1355-1380.   DOI   ScienceOn
4 Friedman, J., G. Orshan, and Y. Ziger-Cfir. 1977. Suppression of annuals by Artemisia herba-alba in the Negev Desert of Israel. J. Chem. Ecol. 4: 425-436.
5 Groves, C. R. and J. E. Anderson. 1981. Allelopathy of Artemisia tridentata leaves on germination and growth of two grass species. Amer. Mid. Nat. 106: 73-79.   DOI   ScienceOn
6 Halligan, J. P. 1975. Toxic terpenes from Artemisia californica. Ecology. 56: 999-1003.   DOI   ScienceOn
7 Kil, B. S. 1999. Allelopathic effects of Artemisia capillaris on the selected species. Korean J. Ecol. 22(1): 59-63. (in Korean)
8 Kil, B. S., D. M. Han, C. H. Lee, Y. S. Kim, K. Y. Yun, and H. G. Yoo. 2000. Allelopathic effects of Artemisia lavandulaefolia. Korean J. Ecol. 23(2): 149-155.
9 Kil, B. S., K. W. Yun, D. M. Han, and S. Y. Lee. 1994. Influence of chemicals from Artemisia argyi on the growth of selected species of plants and microorganisms. Korean J. Ecol. 17(1): 23-35. (in Korean)
10 Kim, H. C., B. S. Kil, and Y. H. Lee. 2001. The antifungal activity of chemical substances from Artemisia annua. Korean J. Ecol. 24(3): 137-140. (in Korean)
11 Langenheim, J. H. 1994. Higher plant terpenoids: A phytocentric overview of their ecological roles. J. Chem. Ecol. 20(6): 1223-1280.   DOI   ScienceOn
12 Lee, C. B. 2006. Colored illustration guide book of the Korean plants(II). Seoul: Hyangmunsa. pp. 362-374. (in Korean)
13 Lee, J. H., C. B. Park, C. G. Park, and S. G. Moon. 2010. A phylogenetic analysis of Korean Artemisia L. based on ITS sequences. Korean J. Plant. Res. 23(4): 293-302. (in Korean)
14 Bae C. H., I. S. Nou, K. K. Kang, and Y. J. Koh. 1997. In vitro test on allelopathic effects of Leaf extracts from Phytolacca americana and Armoracia rusticana. Korean. J. Crop Sci. 42(6): 652-665. (in Korean)
15 Bang, M. H., J. G. Cho, M. C. Song, D. Y. Lee, M. W. Han, H. G. Chung, T. S. Jeong, K. T. Lee, M. S. Choi, and N. I. Baek. 2008. Development of biologically active compounds from edible plant sources-XXII. Triterpenoids from the aerial parts of Sajabalssuk(Artemisia princeps PAMPANINI). J. Korean Soc. Appl. Biol. Chem. 51(3): 223-227. (in Korean)
16 Lee, S. D. 2002.The study of the status quo into the production, utilization and efficacy of Ganghwa medicinal mugwort. J. Health Sci. & Med. Tech. Korea Univ. 28(2): 50-56. (in Korean)
17 Mori, T. 1922. An enumeration of plants hitherto known from Corea, The government of Chosen, Seoul.
18 Muller, C. H., W. H. Muller, and B. L. Haienes. 1964. Volatile growth inhibitors produced by aromatic shrubs. Science. 143(3605): 471-473.   DOI
19 Nakai, T. 1911. Flora Koreana (2). J. Coll. Sci. Imp. Univ. Tokyo. 2: 27-33.
20 Reid, A. 1964. Growth inhibitors in shrub species in Wyoming. Ecol. Soc. Am. Bul. 45: 94.
21 Rice, E. L. 1984. Allelopathy 2nd ed. Academic Press, inc., Orlando, Florida. pp. 344.
22 Ryu, S. N., D. H. Kim, N. J. Kim, B. N. In, K. T. Lee, T. S. Jung, M. S. Choi, J. H. Pyeeand, and H. G. Jung. 2007. Artemisia princeps in Ganghwa. Academy press.
23 Ryu, S. N., J. J. Yang, and D. J. Lee. 2005. Pattern analysis of volatile components for collected Mugwort(Artemisia spp.). Korean. J. Crop Sci. 50(S): 200-203. (in Korean)
24 Sung, J. S., J. H. Lee, J. W. Lee, K. H. Bang, J. H. Yeo, C. G. Park, H. K. Park, N. S. Seong, and S. G. Moon. 2008. Phylogenetic analysis of Artemisia spp. by morphological characteristics of reproductive organs in Korea. Korean J. Medicinal Crop Sci. 16(4): 218-224. (in Korean)
25 Whittaker, R. H. and P. P. Feeny. 1971. Allelochemics: Chemical interaction between species. Science 171: 757-770.   DOI
26 Yun, J. Y., S. Y. Choi, P. J. Park, H. G. Chung, H. M. Shin, K. H. Suk, and B. O. Lim. 2008. Extracts of Artemisia princeps Pampanini Inhibit Lipopolysaccharide-induced Nitric Oxide, Cyclooxygenase-2, Prostaglandin $E_{2}$, and Tumor Necrosis Factor-${\alpha}$ Production from Murine Macrophage RAW 264.7 Cells. Korean J. Medicinal Crop Sci. 16(5): 326-331.
27 Yun, K. W. and B. S. Kil. 1989. Phytotoxic Effects on Selected Species by Chemical Substances of Artemisia princeps var. orientalis. Korean J. Ecol. 12(3): 161-170.
28 Yun, K. W. and S. K. Choi. 2003. Seasonal variation in allelopathic potential of Artemisia princeps var. orientails on plants and microbes. Journal of Plant Biology. 46(2): 105-110.   DOI