Browse > Article

Diversity and Zonation of Vegetation Related Micro-Topography in Sinduri Coastal Dune, Korea - Focused on the Natural Monument Area -  

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.3, 2007 , pp. 290-298 More about this Journal
Abstract
The results of this research on the diversity, zonation of vegetation and micro-topography by TWINSPAN classification and DECORANA ordination, executed with Sinduri coastal dunes of Korea, are as follows: The vegetation and micro-topography of coastal dunes formed a noticeably clear zonation structure. The beach in the direction of the coastline saw a lot of appearance of Salsola komarovi and the primary dune was dominated by Elymus mollis. Imperata cylindrica var. koenigii and Carex pumila formed a colony at flat area of the sand hills and Calamagrostis epigeios was widely distributed at the wet slack. The secondary dune was dominated mostly by Ischaemum anthephoroides and Imperata cylindrica var. koenigii, and it showed an aspect of the distribution of Vitex rotundifolia and Rosa rugosa. while the hinterland hillside in the direction of inland was dominated by Robinia pseudo-acacia and Pinus thunbergii. However, Carex kobomugi, known as the pioneer species of the coastline-bound areas at the coastal dune, dominantly occupied the secondary dune of the rear side and continentally-inclined Miscanthus sinensi and Oenothera biennis of naturalized plant were irregularly spread over the whole of the coastal dune, so the stabilization of micro-topography seemed to be uncertain. Particularly, Miscanthus sinensis was predicted to be changed into dominant species of the primary dune, and secondary dune and slack having a commonly high species gathering inclination with the more progress of stabilization of the coastal dune. The expansion of sand hill wetlands and roads located between the primary dune and secondary dune was judged to have an effect on the zonation structure of plant distribution.
Keywords
SLACK; SECONDARY DUNE; PIONEER SPECIES; MISCANTHUS SINENSIS;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 강대균(2006) 천연기념물 신두리 해안사구의 지형과 식생. 한국지형학회지 13(3): 35-44,
2 김대현(2004) 식생의 공간적 분포와 토양.지형.거리 요소들 사이의 관계에 관한 연구-신두리 해안사구지대를 사례로. 서울대 석사학위논문
3 류평우(2004) 해안사구의 경관에 따른 식생관리방안에 관한 연구-신두 해안사구지대를 사례로. 경원대 석사학위논문
4 민병미(2004) 통보리사초의 생육특성. 한국생태학회지 27(1): 49-55
5 서종철(2002) 원격탐사와 GIS 기 법을 이용한 신두리 해안사 구지대의 지형변화분석. 한국지역지리학회지 8(1): 98-109
6 Nakanishi H. and H. Fukumoto(1987) Zonation of coastal vegetation and coastal topography in southern Japan. Jpn. J. Ecol. 37: 197-207
7 안영희(2003) 신두리 해안사구지 식생의 식물사회학적 연구. 한국환경복원녹화기술학회지 6(6): 29-40
8 최충호(2004) 신두리 해안사구지역 일대의 관속식물상 및 식물군집구조. 전북대 석사학위논문
9 Costa, C. S. B., C, V. Cordazzo and U. Seeliger. (1996) Shore disturbance and dune plant distribution. J. Coastal Res 12: 133-140
10 Miyawaki, A, (1977) Vegetation of japan compared with other region of world, Kakgen, Tokyo 535. Kyushu(vol, 2), Shibundo, Tokyo, 484
11 McCune, B. and M. J. Mefford(1999) PC-ORD, Multivariate analysis of ecological data, Version 4. MjM Software Design, Gleneden Beach, Oregen, USA
12 Miyawaki, A., K. Suzuki, K. Fujiwara and S. Okuda(1980) Potentielle naturliche vegetation des ChugokuGebietes(west Honshu). Bull. Ins. Enviro. Sci. Techno. Yokohama Univ, 6(1): 77-118
13 Van der Laan, D. (1979) Spatial and temporal variation in the vegetation of dune slack in relation to the groundwater regime. Vegetatio 39: 43-51   DOI
14 김문홍,신용만(2000) 제주의 육상식물. 제주자연식품회지 9
15 Crawford, R. M. (1989) Studies in Plant Survival. Blackwell Scientific Pub., Oxford, pp. 296
16 Gauch, H. G. (1982) Multivariate analysis in community ecology. New York, Cambridge university press
17 Nakanishi H. and H. Fukumoto(1991) Zonation of sand dune vegetation and depositional topography in the San-in district, western Honshu, Japan. Jpn. J. Ecol, 41: 225-235
18 Braun-Blanquet, J. (1964) Pflanzensoziologie. 3rd ed, Springer-Verlag, Wien, pp.631
19 Greig-Smith, P.(1983) Quantitative plant ecology. 3rd ed, University of California Press, Barkeley, CA
20 정용규,김종원(1998) 경북의 해안사구식생. 한국생태학회지 21(3): 257-262
21 신창성(2002) 해안사구 보전.관리에 관한 생태학적 연구 -신두리 해안사구지대를 대상으로. 경원대 석사학위논문
22 환경부 국립환경연구원(2002) 태안반도 신두리 사구습지 (두웅습지) 자연생태계 조사보고서
23 Kachi, N. and T. Hirose(1979) Multivariate approaches of the plant communities related with edapic factors in the dune system at Azigaura, Ibaraki Pref. I. Association analysis. Jpn, J, Ecol, 29: 17-27
24 Hill, M. O. (1994) DECORANA and TWINSPAN, for ordination and classification of multivariate species data; a new edition, together with supporting programs, in FORTRAN 77. Huntingdon, England
25 Van der Maarel, E. (1979) Transformation of coverabundance value in phytosociology and its effect on community similarity. Vegetatio 39: 97-114   DOI
26 김성민,신동일,송홍선,윤성탁(2006) 갯방풍의 식물사회학적 생육구조에 관한 연구. 한국국제농업개발학회지 18(2): 121-127
27 Miyawaki, A, (1981) Vegetation of japan Kyushutvol 2), Shibundo, Tokyo, 484
28 Van der Maarel E., J. G. M. Janssen and J. M. W. Louppen(1978) TABORD: a program for structuring phytosociological tables. Vegetatio 38: 143-156   DOI
29 전승훈(1998) 충청남도 태안군 신두 해안사구의 복원을 위한 식생학적 연구. 경원대 환경계획연구소 논문집,16: 79 101
30 Ishikawa, S. I. and N. Kachi(1998) Shoot population dynamics of Carex kobomugi on a coastal sand dune in relation to its zonal distribution. Aust. J. Bot. 46: 111-121   DOI   ScienceOn