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The Study on the Flora and Vegetation of Salt Marshes of Mankyeong River Estuary in Jeonbuk  

Kim Chong-Hwan (Department of Forest Landscape Architecture, Iksan National College)
Lee Kyenog-Bo (Honam Agricultural Research Institute, NICS, RDA.)
Cho Du-Sung (Department of Biological Sciences, Graduate School of Kunsan National University)
Myoung Hyung (Department of Forest Landscape Architecture, Iksan National College)
Publication Information
Korean Journal of Environment and Ecology / v.20, no.3, 2006 , pp. 289-298 More about this Journal
Abstract
The purpose of this study was to investigate salt marsh flora and vegetation in the mouth of Mankyeong river estuary area where has a project for Sea Man Geum Reclaimed Land so that we can foster a foundation on restoration of an ecological habitat, development of applicable plants and establishment of a conservation policy after developing the reclaimed land for salt marsh vegetation which has great ecological value. As a result of this research, there are 10 families 25 genera 29 species and 3 varieties of vascular plants in the Mankyong-river estuary area. These are 0.76% among 4,191 of Korean vascular plants. There are also 5 families 6 genera 6 species and 1 varietiy of the naturalized plants which are 7 taxa in total and 3.85% of indicators of naturalized plants. Firstly, a district of low tide marsh has below 5% of vegetation coverage of Suaeda japonica and the vegetation cover was increasing rapidly while moving to a place of high tide marsh which is in the direction to a bank. In general, a range of from low tide marsh to high tide marsh is distributed with sequence of Suaeda japonica$\rightarrow$Suaeda maritima$\rightarrow$Suaeda japonica$\rightarrow$Aster tripolium$\rightarrow$Artemisia scoparia$\rightarrow$Carex scabrifolia$\rightarrow$Zoysia sinica$\rightarrow$Phragmites australis$\rightarrow$Phacelurus latifolius. Suaeda japonica has the highest dominance among the species composition and Aster tripolium, Phragmites australis, Artemisia scoparia, Carex scabrifolia and Phacelurus latifolius are distributed as zonation or patch. By the Z-M method eleven plant communities were recognized; Suaeda japonica, Suaeda japonica-Suaeda maritima, Suaeda maritima, Suaeda japonica-Aster tripolium, Aster tripolium, Phragmites australis, Carex scabrifolia, Phacelurus latifolius, Artemisia scoparia-Aster tripolium, Paspalum distichum var. indutum and Aster tripolium-Artemisia scoparia community. The actual vegetation map was constructed of the grounds of the communities classified and other data.
Keywords
LOW TIDE MARSH; SALT MARSH VEGETATION; HIGH TIDE MARSH;
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  • Reference
1 김종원, 이득임, 김원(1995) 소나무림 및 신갈나무림의 최소 면적과 군락구조. 한국생태학회지 18: 451-462
2 김하송, 임병선, 이점숙, 박송희(2003) 가사도 폐염전의 식생 현황에 관한 생태학적 연구. 한국환경생태학회지 17(2): 123-132
3 박인근(1970) 주안 해안의 염생식물 군락의 구조에 관한 연구. 서울대학교 교육대학원 석사학위논문
4 박수현(1995) 한국귀화식물도감. 일조각, 371쪽
5 이우철(1996a) 원색한국기준식물도감. 아카데미서적. 624쪽
6 Cowardin et al.(1979) Classification of Wetland and Deepwater Habitats of the United States, U.S. Department of the Interior, Fish and Wildlife Service Office of Biological Services
7 Kim, J. U. and Y. J. Yim(1988) Phytosociological classification of plant communities in Mt. Naejang, southwestern Korea. Kor. J. Bot. 31(1): 1-31
8 Kuchler, A.W(1967) Vegetation Mapping. Ronald Press, New York. 472pp
9 Raunkiaer, C(1934) Life form of plants and Statistical Plant Geography. Charendon Press, Oxford
10 이영노(1996) 원색한국식물도감. 1239쪽
11 임양재, 양권열, 김종근, 방제용(1990) 가야산국립공원의 식생. 한국자연보존협회 조사보고서 28: 57- 79
12 Muller-Dombois, D. and H. Ellenberg(1974) Aims and methods of Vegetation Ecology. John Wiley and Son Inc. 547pp
13 Odum, E.(1961) The role of tidal marshes in estuarine production. Conservationist 15:12-15.(refer to Poljakoff-Manber and Gale, 1975)
14 김철수(1975) 갈대군락의 현존량과 환경요인에 관한 연구. 한국식물학회지 18: 123-134
15 Naki, T(1952) Synoptical sketch of korean flora Natu. Sci. Mus. Tokyo No.31
16 임병선, 이점숙(1986) 염습지 환경변화에 대한 퉁퉁마디와 칠면초의 적응, 환생지 4: 15-25
17 Walter, H(1968) Die Vegetation der erde in Okologischer Betrachtung. Band I. Fisger Verlag, Jena.(refer to Chapman, 1977)
18 오경환, 임병선(1983) 섬진강 하구 염습지 갈대군락의 생산성과 토양양분의 계절적 변화. 한국생태학회지 6: 90-97
19 이우철(1996b) 한국식물명고. 아카데미서적. 1688쪽
20 Odum, E.P(1972) Fundamentals of ecology. 3rd ed. Saunders, Co., Philadelphia. 574pp
21 Cylinder, P. D., k. M. Bogdan, E. M. Davis, A. I. Herson(1995) Wetlands Regulation: A Complete Guide to Federal and California Programs. Point Arena: Solano Press Books
22 Queen, W.H(1977) Humen uses of salt marshes. In Wet coastal ecosystems, V.J
23 김철수(1971) 간척지 식물군락형성과정에 관한 연구. 한국식물학회지 14: 163-169
24 김철수, 송태곤(1985) 금호도와 산이반도의 식생연구. 목포대학교 연안생물연구 2: 1-22
25 임병선(1987) 해안간사지 토양환경에 따른 식물의 분포와 생장. 연안생물연구 4: 71-79
26 Burg, M.E., E.S. Rosenberg and D.R. Tripp(1976) Vegetation association and primary productivity of the Nisqually salt marsh. In; Contribution to the natural history of the Southern Puget Sount Region, Wshington. S.G. Herman and A.M. Wiedemann(des.), Evergreen State College, Olympia, pp.109-144
27 Eillers, H.P(1975) Plant communities, net production and tide levels;the ecological biogeography of the Nehalem salt marshes. Tillamook County, Oregon. Ph.D. Dissertation of Oregen State Univ., Corvallis, 999pp
28 Braun-Blanquet, J(1964) Planzen Sozio logie, 3. Auf, Springer, Wein, New York. 865pp
29 이점숙(1989) 만경강과 동진강 하구 염습지의 조위 구배에 따른 염생식물의 정착에 관한 연구
30 이창복(1980) 대한식물도감. 향문사. 990쪽
31 임병선(1989) 토양의 수분 포텐셜과 식물의 삼투조절능에 의한 해안식물군락의 분포. 서울대학교 대학원 박사학위논문
32 임양재, 양권열, 김종근, 방제용(1989) 영암 월출산삼림식생의 물질생산에 관하여. 한국자연보전협회 조사보고서 27: 71-82
33 Werger M. G. A(1974) on concepts and techniques aplied in the Zurich-MontpelIier method of vegetation survey. Bothalia. 11: 309-323
34 민병미(1985) 한국서해안 간척지의 토양과 식생변화. 서울 대학교 대학원 박사학위논문, 143쪽
35 김준호, 김훈수, 이인규, 김종원, 문형태, 서계홍, 김원, 김도원, 유순애, 서영배, 김영상(1981) 낙동강 하구생태계의 구조와 기능에 관한 연구. 서울대 자연대 논문집 7: 121-163