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Occurrence of Streamside Flora in relation to Environmental Condition at Ansungchon Creek

안성천 하천변 식물상 구성과 환경 조건과의 관계

  • Published : 2003.06.01

Abstract

According to the survey map, the altitudes of up and down the Ansungchon were 242m and 49m accordingly. The width of the river was 4m at upperstream and became wider, lam at midstream and 114m at downstream. Water pH of the Ansungchon was measured variously in the range of 6.0-7.9 according to the surveyed times and areas. The water pH measured during June through August decreased continually and suddenly increased at the end of October. Phragmites iaponica, a major species of the fresh water emergent anchored hydrophytes, was surveyed mostly in the area of upperstream, Phragmites communis, Miscanthus sacchariflorus and Typha orientalis were surveyed in the areas of midstream and downstream, and Zizania latifolia was found in all areas of the river. The total of 101 taxa dividing into 32 families, 71 genera, 88 species, and 13 varieties have been inhabited in these areas. Among the inhabited plants, Poaceae was 21.8%, which appeared in the highest percent. Compositae was 20.8%, and Polygonaceae was 11.9%. In the surveyed areas, herbaceous plants were 95.1% and mostly occupied, and woody plants were 4.9%. Among the herbaceous plants, perennial plants were 52.5%, and annual and biannual plants were 28.7% and 13.9% accordingly. Naturalized plants dividing into 8 families and 18 genera have been found in the surveyed areas. The number of the naturalized plants increased from upperstream to downstream as the environmental disruption became worse. Only 2.5% of the total naturalized plants were appeared in up, 17.7% in midstream, and 28.6% in downstream. Shannon-Weiner's index for the degree of diversity was 2.898-3.666 in the area of upperstream, but 3.708-4.135 in downstream, which was little higher.

Keywords

References

  1. 이도원, 1982, 우리나라 범람원의 토지이용 적합성 분석을 위한 식생조사 분석방법에 관한 연구, 서울대학교 환경대학원 석사학위 논문, 121pp.
  2. 이유미, 박수현, 정승선, 2002, 서울 중량천의 식생구성과 식물상, 한국환경생태학회지, 16(3), 271-286.
  3. Kadona, Y., 1982, Occurrence of aquatic macorphytes in relation to pH, alkalinity, Ca++, Cl- and conductivity, Jap. J. Ecol., 32, 39-44.
  4. 안영희, 양영철, 전승훈, 2001, 안성천 수계의 버드나무과 식물의 분포특성에 관한 연구, 한국환경생태학회지, 15(3), 213-223.
  5. 전재인, 이종운, 1998, 김천 직지천 유역의 식물상, 한국환경관리학회지, 5, 198-217.
  6. 정영호, 최홍근, 1985, 낙동강 수계의 수생 관속 식물상과 현존량, 한국환경생물학회지, 3(1), 29-44.
  7. 임병선, 이점숙, 서계홍, 김하송, 1996, 영산강 유역으로부터 유입되는 오염부하량에 따른 수생식물의 분포, 질산환원효소 활성 및 그 정화능, 한국생태학회지, 19(5), 487-496.
  8. 김의수, 추연식, 송승달, 1990, 수생식물의 광합성에 미치는 수질환경요인의 영향, 경북대학교 환경과학연구소 논문집, 4, 55-68.
  9. 경기의제21추진협의회, 1999, 푸른경기 21 총괄 보고서, 경기의제21사무국, 121pp.
  10. 천안시, 2001, 통계년보.
  11. Braun-Blanquet, J., 1964, Pflazensoziologie, Grundzude der Vegetationskunde, 3rd ed., Springer, New York, 85pp.
  12. 이창복, 1985, 대한식물도감, 향문사.
  13. 박수현, 1995, 한국 귀화식물 원색도감, 일조각.
  14. Peet, R. K., 1974, The measurement of species diversity, Annual Review of Ecology and Systematics, 5, 285-307. https://doi.org/10.1146/annurev.es.05.110174.001441
  15. 이춘석, 라순애, 1997, 농촌마을 소하천의 구간별 특성에 관한 연구-농촌 주거지역 소하천의 구조, 수질, 식생을 중심으로-, 농촌계획학회지, 3(1), 23-32.
  16. 角野康郞, 1990, 加古川(兵庫縣)の水生植物, 日本生態學會誌, 40, 151-159.
  17. Crowder, A. A., J. M. Bristow, M. R. King, and S. D. Van, 1977, The aquatic macrophytes of some lakes in south-eastern Ontario, Naturaliste Can., 104, 457-464.
  18. Hutchinson, G. E., 1970, The chemical ecology of three species of Myriophyllum, Limnol. Oceanogr., 15, 1-5. https://doi.org/10.4319/lo.1970.15.1.0001
  19. 倉本宣, 1984, 多摩川河川植物群落の帶狀分布とその人間活動による變化, 日本造園雜誌, 47(5), 257-262.
  20. 김용범, 임양재, 1990, 탄천의 대형 수생식물 군집의 분포와 환경, 한국생태학회지, 13(4), 297-309.
  21. Grime, J. P., J. G. Hodgson and R. Hunt, 1988, Comparative plant ecology, Unwin Hyman, London, 452-453pp.
  22. 임양재, 전의식, 1980, 한반도의 귀화식물 분포, 한국식물학회지, 23, 69-83.
  23. 生態學實驗懇談會, 1967, 生態學實習書, 朝倉書店, 238-246pp.
  24. 전재인, 신상천, 강경아, 이종운, 1993, 한천 유역의 식물상, J. of Natural Sciences, 13, 235-253.
  25. 조도순, 1995, 경안천에서 하천변 식생의 분포에 관한 연구, 한국생태학회지, 18(1), 55-62.