References
- 김동현, 최희선. 2013. 수변지역에서의 저영향개발 기법 적용을 위한 계획과정 도출 및 모의효과, 환경정책연구 12(1): 37-58. (Kim, D. and H. Choi. 2013. The Planning Process and Sinulation for Low Impact Development(LID) in Waterfront Area. Korea Environment Institute.)
- 김미경, 이경환, 박기성, 박주석. 2007. 제주도의 자연재해 경감을 위한 분산형 빗물관리 방안, 빗물 1(1): 57-63. (Kim, M., Lee, K., Bang, K. and Park, J. 2007. Decentralized Rainwater Management Plan for Mitigation of Natural Disaster in Jeju Island, Korea. Journal of Society of Rain Masters. 1(1): 57-63.)
- 김영란. 2007. 빗물관리시설 설치 및 관리 매뉴얼 작성, 서울시정개발연구원 (Kim, Y. 2007. Manual for Implementation and Maintenance of the Rainwater and Infiltration Facilities, Seoul Development Institute.)
- 김이호, 김영민, 권경호, 이상호, 이정훈. 2006. 물순환 건전화를 위한 공동주택 우수저류침투시설 설계기법 개발, 대한상하수도학회.한국환경물학회, 2006년 공동 춘계학술발표대회 논문요약집 (Kim, R., Kim, Y., Kwon, K., Lee, S. and Lee, J. 2006. Development of Design Methodology of Rainwater Utilization Facilities in Building Complexes for Sound Water Cycle. Common proceedings for spring conference of KSWW and KSWE.)
- 박종민, 최건호. 2001. 호소사면 녹화용 식물 선정을 위한 몇가지 목본식물의 내침수성에 관한 연구, 한국환경복원녹화기술학회지 4(2): 45-51. (Park, J. and Choi, G. 2001. Study on the Flooding Tolerance of Some Woody Plants for Selecting Useful Revegetation Plants in Lake and Marsh Slopes. The Korea Society For Environmental Restoration And Revegetation Technology. 4(2): 42-51)
- 박종민. 2002. 호소사면 녹화용 식물선정을 위한 초본식물의 내침수성 비교, 한국환경복원녹화기술학회지 5(2): 25-33. (Park, J. 2002. Comparing of Flooding Tolerance of Herbaceous Plants for Selecting Useful Revegetation Plants in Shoreline Slopes of Lake. The Korea Society For Environmental Restoration And Revegetation Technology. 5(2): 25-33)
- 서주환, 이인규. 2013. LID 기술적용을 통한 공동주택단지 물순환 개선 연구, 한국조경학회지 41(5): 68-77. (Suh, J. and Lee, I. 2013. The Water Circulation Improvement of Apartment Complex by applying LID Technologies. Journal of the Korean Institute of Landscape Architecture. 41(5): 68-77)
- 이상진. 2013. 저영향개발 기반의 친환경 도시계획.녹색기술정보 기술동향보고서, pp. 133-139. (Lee, S., 2013. Environmental-friendly Urban Design based on Low Impact Development, Green Technology Information Report: 133-139.)
- 이태구. 2008. 외국의 빗물이용 사례, 도시문제 43(476): 42-57. (Lee, T., 2008. Cases of Rainwater Utilization in Foreign Country. Public Officials Benefit Association. 43(476): 42-57.)
- 임용균. 2011. 친환경적 도시개발을 위한 LID 기술 적용에 대한 연구, 부산대학교 대학원 박사학위논문 (Lim, Y., 2011. (A) study of LID technologies for friendly environmental urban development, Ph.D dissertation, University of Pusan National.)
- 최인호. 2006. 3단계 자연물순환체계 계획방법과 택지계획에서의 현장적용 연구, 협성대학교대학원 석사학위논문 (Choi, Inho. 2006. A Study on Planning method of 3-tier Natural Water Circulation System and the Application in Load Planning, Master's Thesis, University of Hyupsung.)
- 환경부. 2009. LID 기법을 활용한 자연형 비점오염 관리방안 마련 (Ministry of Environment of Korea. 2009. Natural Non-Point Source Management using LID.)
- Bedan E. S. and Clausen J. C. 2009. Stormwater runoff quality and quantity from traditional and low impact development watersheds, Journal of the Amerian Water Resources Association, 45(4): 998-1008. https://doi.org/10.1111/j.1752-1688.2009.00342.x
- Bert Hidding., Judith M. S. and Elisabeth S. B. 2014. Flooding tolerance and horizontal expansion of wetland plants, Aquatic Botany 113: 83-89. https://doi.org/10.1016/j.aquabot.2013.11.003
- Center for Watershed Protection and New York State Department of Environmental Conservation. 2010. New York State Stormwater Management Design Manual. New York State.
- Ewing, K. 1996. Tolerance of four wetland plant species to flooding and sediment deposition, Environ, Exp, Bot, 36(20): 131-146. https://doi.org/10.1016/0098-8472(96)01000-3
- Frye, J. and Grosse, W. 1992. Growth response to flooding and recovery of deciduous tree, Zeitschrift fur Naturforschung 47, 683-689.
- Glenz, C., Schlaepfer. R., Lorgulescu. I. and Kienast, F. 2006. Flooding tolerance of Central European tree and shrub species, Forest Ecology and Management 235: 1-13. https://doi.org/10.1016/j.foreco.2006.05.065
- Hook, D. D. 1984. Adaptation to flooding with fresh water, In: Kozlowski, T.T.(Ed.), Flooding and Plant Growth, Academic Press, Orlando, pp.265-294.
- Hyun, K. H. and Lee, J. M. 2013. Characteristics of heavy metals in soil in infiltration splash blocks and rain gardens for management of roof runoff from apartment buildings, Desalination and Water Treatment, 51: 4146-4154. https://doi.org/10.1080/19443994.2013.781111
- Hyun, K. H., Lee, K. H., Oh, J. J., Kim, G. T., Kim, J. N., Kim, Y. W. and Jin, S. W. 2008. Application of the Rainwater Management and Cnstructed Wetland System for Imlpementation of Watercycle in Asan New town, Land & Housing Institute
- Kern Ewing. 1996. Tolerance of four wetland plant species to flooding and sediment deposition, Environmental and Experimental Botany 36(2): 131-146. Environ, Exp, Bot, 36(20): 131-146. https://doi.org/10.1016/0098-8472(96)01000-3
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