한국습지학회지 (Journal of Wetlands Research)

  • 제18권4호
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  • Pages.465-473
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  • 2016
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  • 1229-6031(pISSN)
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  • 2384-0056(eISSN)
한국습지학회 (Korean Wetlands Society)
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국립생태원 습지에서 진행 중인 자발적 복원

Passive restoration under progress in wetland of National Institute of Ecology

  • 안지홍 (서울여자대학교 대학원 생명환경공학과) ;
  • 임치홍 (서울여자대학교 대학원 생명환경공학과) ;
  • 남경배 (서울여자대학교 대학원 생명환경공학과) ;
  • 정성희 (서울여자대학교 대학원 생명환경공학과) ;
  • 이창석 (서울여자대학교 생명환경공학과)
  • An, Ji Hong (Dept. of Bio & Environmental Technology, Graduate School Seoul Women's University) ;
  • Lim, Chi Hong (Dept. of Bio & Environmental Technology, Graduate School Seoul Women's University) ;
  • Nam, Gyung Bae (Dept. of Bio & Environmental Technology, Graduate School Seoul Women's University) ;
  • Jung, Song Hie (Dept. of Bio & Environmental Technology, Graduate School Seoul Women's University) ;
  • Lee, Chang Seok (Dept. of Bio & Environmental Technology, Seoul Women's University)
  • 투고 : 2016.09.09
  • 심사 : 2016.11.09
  • 발행 : 2016.11.30
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초록

본 연구는 국립생태원 캠퍼스 내에서 주요 습지로 자리잡은 국립생태원 건립 전의 논을 자연의 과정에 맡긴 습지, 물길을 내어 자발적 복원을 유도한 습지 그리고 생태적 원리에 바탕을 두고 복원 처리한 저수지, 즉 생태연못을 대상으로 식생의 정착과정을 모니터링하여 복원의 진행정도를 평가하기 위해 수행하였다. 경관변화 분석 결과, 국립생태원의 현존 습지는 주로 이전의 논에 기원하였고, 일부는 주거지와 산림에서 기원한 것으로 나타났다. 식생의 종 조성 변화에서 초기에는 경작식물이나 인간 간섭에 내성을 갖는 식물이 우세한 경향이었으나 복원이 진행됨에 따라 인간 간섭에 의해 제거되었던 식물들과 습지의 생태적 특성에 어울리는 식물들이 늘어나는 경향을 보였다. 종 다양성과 외래종 출현 비율은 둘 다 복원 사업 진행 단계에서 가장 높았고, 복원 후와 복원 전 단계 순으로 이어져 외래종의 침입이 종 다양성에 영향을 미친 것으로 나타났다. 생태연못에서 나타난 변화는 수변 완충용으로 도입한 식생의 성공적인 정착이 두드러져 향후 외부로부터 오는 환경영향을 완충하는데 크게 기여할 수 있을 것으로 판단되었다. 이상의 결과를 종합할 때, 국립생태원에 성립한 습지식생의 변화는 묵논에서 일어나는 전형적인 천이 초기과정의 모습을 보여 성공적인 복원을 이루어내고 있는 것으로 평가되었다. 최소한의 인위적 보조를 가한 생태연못에서도 복원의 과정은 성공적으로 진행되고 있다고 평가할 수 있다. 특히 다양한 생태적 기능을 발휘할 수 있는 완충식생대의 성공적인 정착은 의미있는 복원효과로 평가할 수 있다. 그러나 아직 완충식생대가 빈약한 구역에 대해서는 그 질을 개선하기 위한 적응관리대책이 요구되었다.

This study was carried out to evaluate restoration process of a few wetlands in the National Institute of Ecology (NIE). Wetlands were composed of the former rice paddies that passive restoration was led through only natural process and by creating waterway, and an ecological pond, a reservoir that restorative treatment was practiced. As the result of analysis on landscape change in the current wetland space, existing wetland in NIE was usually from the former rice field and some parts were from the residential area or forest. Change of species composition was progressed from crops or ruderals resistant to human interferences to plant species, which has removed artificially for cultivation and grow usually in the typical wetland. Both species diversity and occurrence of exotic plants were the highest when restoration project is in progress and stages after and before restoration were followed. In an ecological pond that restorative treatment was done, vegetation introduced as riparian buffer was established successfully and thereby it was expected that it could contribute to buffer environmental stress comming from the outside. Synthesized the above mentioned results, change of wetland vegetation established in NIE resembled the typical trend of early successional stage occurring in the abandoned rice paddy and consequently, it was estimated that successful restoration is under progress. Restoration under progress in an ecological pond where artificial aid in the least level was added, could be evaluated in successful as well. In particular, successful establishment of buffering vegetation, which can play diverse ecological functions, could be evaluated as significant restoration effect. But adaptive management to improve ecological quality for the section that buffering vegetation is insufficient, is required.

키워드

참고문헌

  1. Admiraal, AN, Morris, MJ, Brooks, TC, Olson, JW, Miller, MV (1997). Illinois Wetland Restoration and Creation Guide. Illinois Natural History Survey. Special Publication 19. A Division of the Illinois Department of Natural Resources.
  2. An, JH, Lim, CH, Lim, YK, Nam KB, Lee, CS (2014). A review of restoration project evaluation and post management for ecological restoration of the river. Journal of Restoration Ecology, 4(1), pp. 15-34. [Korean Literature]
  3. Aronson, J, Floret C, Le Floc'h E, Ovalle C, Pontanier R (1993). Restoration and rehabilitation of degraded ecosystems in arid and semiarid regions. I. A view from the south. Restoration Ecology, 1, pp. 8-17. https://doi.org/10.1111/j.1526-100X.1993.tb00004.x
  4. Berger, JJ (1993). Ecological restoration and nonindigenous plant species: a review. Restoration Ecology, 1(2), pp. 74-82. https://doi.org/10.1111/j.1526-100X.1993.tb00012.x
  5. Bradshaw, AD (1993). Restoration ecology as a science. Restoration ecology, 1(2), pp. 71-73. https://doi.org/10.1111/j.1526-100X.1993.tb00011.x
  6. CERES (1998). ICEMAPS2: Interactive Natural Resources Query System. University of California, Davis. http://icemaps.des.ucdavis.edu/scripts.
  7. Cowardin, LM, Carter, V, Golet, FC, LaRoe, ET (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.
  8. Cylincer, PD, KM, Bogdan, EM, Davis, AI, Herson (1995). Wetlands Regulation: A Complete Guide to Federal and California Programs. Point Arena: Solano Press Books. Washington, DC.
  9. Dobson, AP, Bradshaw, AD, Baker, AA (1997). Hopes for the future: restoration ecology and conservation biology. Science, 277 (5325), pp. 515-522. https://doi.org/10.1126/science.277.5325.515
  10. Hong, SK, Lee, EJ, Kang, H, Kim, CH, Choung, HL, Ihm, BS, Kim, ES (2005). Restoration ecology and engineering: Conservation and management of habitats and ecotope. Life Science. [Korean Literature].
  11. Howe, EA, Harrington JA, Glass SB (2012). Introduction to Restoration Ecology. Island Press.
  12. Lee, CB (1985). Daehan Plant Handbook. Hyangmoonsa, Seoul, pp. 213-214. [Korean Literature]
  13. Lee, CS (2016). Role and task of restoration ecology in the changing environment. Trend and issues of study (Biology). The National Academy of Sciences, 5, pp. 481-527. [Korean Literature]
  14. Lee, CS, Cho, YC, Shin, HC, Kim, GS, Pi, JH (2010). Control of an invasive alien species, Ambrosia trifida with restoration by introducing willows as a typical riparian vegetation. Journal of Ecology and Field Biology, 32(3), pp. 207-215.
  15. Lee, CS, Jeong, YM, Kang, HS (2011a). Concept, direction and task of ecological restoration. Journal of restoration ecology, 2(1), pp. 59-71. [Korean Literature]
  16. Lee, CS, Kim, GS, Pi, JH, Kim, SM (2011b). Ecological diagnosis and restoration plan of the National Ecological Institute(Ecoplex) construction area. Journal of Restoration Ecology, 2(1), pp. 79-89. [Korean Literature]
  17. Lee, CS, You, YH (2001). Development and outlook of restoration ecology as an ecology for the future. Journal of Ecology and Environment, 24, pp. 191-202. [Korean Literature]
  18. Lee, CS, You, YH, Robinson, GR (2002). Secondary succession and natural habitat restoration in abandoned rice fields of central Korea. Restoration Ecology, 10(2), pp. 306-314. https://doi.org/10.1046/j.1526-100X.2002.00003.x
  19. Lee, SM, Cho, YC, Shin, HC, Oh, WS, Seol, ES, Park, SA, Lee, CS (2008). Successional Changes in Seed Banks in Abandoned Rice Fields in Gwangneung, Central Korea. Journal of Ecology and Field Biology, 31, pp. 269-276.
  20. Ju, EJ, Kim, JG (2009). The Analysis of Soil Seed Bank at Major Wetlands in Nakdong River Basin and Central Korea. Journal of the Korea Society of Environmental Restoration Technology, 12(5), pp. 77-91. [Korean Literature]
  21. Kim, CH, Choi, YE, Kim, JW, Kim, HM, Myong, H, Lee, SI (2011). 3-year Change of Vegetation and Life Form at the Man-made Wetland in Sinpyeoncheon City. Korean Journal of Ecology and Environment, 25(1), pp. 57-64.
  22. Kim, GG (2003). Wetland and Environment. Academy Co. Seoul. [Korean Literature]
  23. Kim, GS, Lim, YK, An, JH, Lee, JS, Lee, CS (2014). Carbon budget in campus of the National Institute of Ecology, Korean Journal of Ecology and Environment, 47(3), pp. 167-175. [Korean Literature] https://doi.org/10.11614/KSL.2014.47.3.167
  24. Kusler, J, Opheim, T (1996). Our National Wetland Heritage : A Protection Guide (2nd. ed.). An Environmental Law Institute Publication.
  25. Mulamoottil, G, Warner, BG, McBean (ed.), EA (1996). Wetlands: Environmental Gradients, Boundaries, and Buffers. Lewis Publishers.
  26. NIE (Planning Office for Construction of National Institute of Ecology) (2012). Development of a program to estimate $CO_2$ budget in the whole operation process of the National Institute of Ecology. NIE, Gwacheon. [Korean Literature]
  27. National Research Council (1991). The Restoration of Aquatic Ecosystems: Science, Technology, and Public Policy. National Academy Press, Washington, DC.
  28. Park, SH (1995). Colored illustrations of naturalized plants of Korea. Ilchokak, Seoul, pp. 256-257. [Korean Literature]
  29. Park, SH (2001). Colored Illustrations of Naturalized Plants of Korea (Appendix). Ilchokak. Korea, 1995, pp. 51-59. [Korean Literature]
  30. Ramsar Convention Secretariat (2016). An Introduction to the Convention on Wetlands. Ramsar Convention Secretariat, Gland, Switzerland.
  31. SERI (Society for Ecological Restoration International Science & policy Working Group) (2004). The SER International Primer on Ecological Restoration.
  32. Shannon, CE (2001). A mathematical theory of communication. ACM SIGMOBILE Mobile Computing and Communications Review, 5(1), pp. 3-55.
  33. United States Army Corps of Engineers (USACE) (1998). Recognizing Wetlands. US Army Corps of Engineers.
  34. United States Geological Survey (USGS) (1999). Restoration, Creation, and Recovery of Wetlands : Wetland Functionsm Values, and Assessment, National Water Summary on Wetland Resources. United States Geological Survey Water Supply Paper 2425.