Browse > Article

Growth Pattern and Species Composition by Landform and Seaside Distribution of Peucedanum japonicum Thunb. Community Group in Korea  

Song, Hong-Seon (Ethno-plant Research Institute)
Cho, Woo (Division of Tourism, Univ. of Sangji)
Publication Information
Korean Journal of Environment and Ecology / v.21, no.1, 2007 , pp. 74-81 More about this Journal
Abstract
This study investigated the growth pattern and species composition by landform and seaside distribution to evaluate the basic community structure and topographical distribution of the Peucedanum japonicum Thunb. community group in Korea. The appearing plants with the Peucedanum japonicum Thunb. were a total 170 taxa belonging to 130 genera and to 57 families, and the species number by families was the most in Compositae of 30 taxa. The frequency of appearing plants was the highest in the Aster spathulifolius Max.(54.1%), and the east and west seasides were the highest in the Aster spathulifolius Max. and south seaside was the highest in the Miscanthus sinensis Ander.. The ratio of common plants among seasides was the highest between the west and south seasides of 35.6% with 47 taxa. The distribution landforms of the Peucedanum japonicum Thunb. was a $17.4^{\circ}$ slope of the unevenness landform, vertical joint, horizontal joint, blockfield, planation surfaces and the rocky seaside of the sea cliff. The distribution among landforms was the greatest in the rocky seaside of the 61 regions. The sociability on growing pattern was the highest in the 3 sociability rank of 54.6% with the 83 region.
Keywords
ROCKY SEASIDE; BLOCKFIELD; SOCIABILITY RANK;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Makino, T.(I989) Makino's New illustrated flora of Japan. Hokuryukan, 521pp
2 Nakanishi, H. (1979) Zonation of rocky coast vegetation in northern Kyushu, Japan.-Vegetation und landschaft Japans. Bull. Yokohama Phytosoc. Soc., Japan, 16: 189-301
3 송홍선(1998) 한국농작물백과도감. 풀꽃나무, 서울. 37-39
4 Hotta, M., K. Ogata, A. Nitta, K. Hosikawa, M. Yanagi and K. Yamazaki.(1989) Useful plant of the world. Heibonsha, Japan, 792pp
5 이영노(2006) 한국식물도감. 교학사, 서울, 1: 835pp
6 Ikeshiro, Y., I. Mase and Y. Tomita(1994) Coumarin glycosides from Peucedanum japonicum. Phytochemistry 35 : 1339-1341   DOI
7 남준영, 유경수(1975) 방풍의 생약학적 연구. 한국생약학회지 6(3): 151-159
8 김태호(2003) 제주도 해안지대의 지형분류. 한국지형학회지 10(1): 33-47
9 환경부{2001) 제2차 전국자연환경 조사지침. 지형경관과 해안생물 환경부생태조사단
10 Chen, I. S., C. T. Chang, W. S. Sheen, C. M. Teng, I. L. Tsai, C. Y. Duh and F. N. Ko(1996) Coumarins and antiplatelet aggregation constituents from formosan Peucedanum japonicum. Phytochemistry 41: 525-530   DOI   ScienceOn
11 Lee, S. O., S. Z. Choi, J. H. Lee, S. H. Chung, S. H. Park, H. C. Kang, E. Y. Yang, H. J. Cho and K. R. Lee(2004) Antidiabetic coumarin and cyclitol compounds from Peucedanum japonicum. Arch. Pharm. Res. 27(12): 1207-1210   DOI   ScienceOn
12 McCune, B. and M. J. Mefford(1999) PC-ORD. Multivariate Analysis of Ecological Data, Version 4. MJM Software Design, Gleneden Beach, Oregon, USA, 1-221
13 김성민, 신동일, 송홍선, 김선규, 윤성탁(2005) 갯기름나물의 지리적 분포와 자생지 특성. 한국국제농업개발학회지 17(2): 118-123
14 Ohwi, J.(I984) Flora of Japan. Smithsonian institution, Washington, 685pp
15 Pardo, F., F. Perich, R. Torres and F. D. Monache(1998) Phytotoxic iridoid glucosides from the roots of Verbascum thapsus. J. Chem. Ecol. 24: 645-654   DOI   ScienceOn
16 장호(1994) 다도해해상국립공원 금오지구의 지형. 한국자연 보존협회조사보고서 32: 53-68
17 길봉섭(1999) 다른 식물에 미치는 사철쑥의 알레로파시 효과. 한국생태학회지 22(1): 59-63
18 Braun-Blanquet, J.(I964) Pflanzensoziologie. 3rd ed. Springer, Wien-New York, 631 pp
19 배기환(2000) 한국의 약용식물. 교학사, 서울, 376-380
20 Chou, C. H. C. Y. Fu, S. Y. Li and Y. E. Wang(1998) Allelopathic potential of Acacia confusa and related species in Taiwan. J. Chem. Ecol. 24 : 1231-2150
21 박노권, 이숙희, 정상환, 박선도, 최부술, 이원식(1995) 시비와 피복이 갯기름나물(식방풍)의 수량 및 품질에 미치는 영향. 한국약용작물학회지 3(1): 16-20
22 이우철, 임양재(1978) 한반도 관속식물의 분포에 관한 연구. 한국식물분류학회지 8(A): 1-33