최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기원예과학기술지 = Korean journal of horticultural science & technology, v.31 no.4, 2013년, pp.503 - 511
김세창 (충북대학교 원예과학과) , 박봉주 (충북대학교 원예과학과)
The purpose of this study was to evaluate temperature reduction and heat budget of extensive modular green roof planted with Sedum sarmentosum and Zoysia japonica. Plant height and green coverage were measured as plant growth. Temperature, net radiation and evapotranspiration of concrete surface, gr...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
도시열섬현상이란? | 도심 내 환경문제로 대두되고 있는 도시열섬현상은 도시 기온이 주변 외곽지역보다 2-4°C 정도 높게 형성되는 것으로(Moon et al., 2006; Rosenzweig et al. | |
도시열섬현상을 해결할 대안으로 주목받고 있는 것은? | , 2005). 최근 이러한 문제점을 해결하기 위한 대안으로 옥상녹화, 벽면녹화 등 건축물녹화가 주목받고 있다(Wong et al., 2010). | |
도시열섬현상의 주요 원인은? | , 2006; Rosenzweig et al., 2007), 냉난방용 전기기기, 자동차와 연소기관에서 발생되는 배기가스뿐만 아니라 고밀도의 건축물로 인한 통풍방해, 불투수층 표면의 증가로 인한 녹지・수변 지역 감소 등이 주요인이다(Ling et al., 2011; Ono et al. |
Celik, S., S. Morgan, and W.A. Retzlaff. 2010. Energy conservation analysis of various green roof system. Green Technol. Conf. 1-4.
Durhman, A.K., D.B. Rowe, and C.L. Rugh. 2006. Effect of watering regimen on chlorophyll fluorescence and growth of selected green roof plant taxa. HortScience 41:1623-1628.
Dvorak, B. and A. Volder. 2013. Rooftop temperature reduction from unirrigated modular green roofs in south-central Texas. Urban For. Urban Greening 12:28-35.
Emilsson, T.U. and K. Rolf. 2005. Comparison of establishment methods for extensive green roofs in southern Sweden. Urban For. Urban Greening 3:103-111.
Feng, C., Q.L. Meng, and Y.F. Zhang. 2010. Theoretical and experimental analysis of the energy balance of extensive green roofs. Energy Buildings 42:959-965.
Getter, K.L. and D.B. Rowe. 2009. Substrate depth influences Sedum plant community on a green roof. HortScience 44: 401-407.
Hoyano, A. and K. Shirai. 1996. Investigation of the effect of rooftop lawn planting on indoor thermal environment by measurement and simulation. J. RIEMAM 18:39-42.
Huh, K.Y., I.H. Kim, and H.C. Kang. 2003. Effects of artificial substrate type, soil depth, and drainage type on the growth of Sedum sarmentosum grown in a shallow green rooftop system. J. Kor. Inst. Landscape Architecture 31:102-112.
Ishihara, O., Q.Y. Zhang, and K. Shimoyama. 1996. Experimental study on thermal characteristics and water performance of rooftop lawn. J. Architecture Planning Environ. Eng. 486:17-24.
Jim, C.Y. and H. He. 2010. Coupling heat flux dynamics with meteorological conditions in the green roof ecosystem. Ecol. Eng. 36:1052-1063.
Jim, C.Y. 2012. Effect of vegetation biomass structure on thermal performance of tropical green roof. Landscape Ecol. Eng. 8:173-187.
Jones, C.A. and W. Suckling. 1983. Comparison of the radiation balance of a rooftop lawn with that of a conventional rooftop surface. Arch. Meteorol. Geophysics Bioclimatology Ser. B 33:77-87.
Ju, J.H., G.T. Bae, W.T. Kim, and Y.H. Yoon. 2012. Computation of irrigation interval and amount as affected by growing substrate and soil depth planted with Zoysia japonica in green roof during a dry summer. J. Environ. Sci. 21:289-296.
Kang, K.Y. and E.H. Lee. 2005. The study on native plants and planting soil for extensive rooftop greening. J. Kor. Environ. Restoration Revegetation Technol. 8:23-31.
Kim, D.H., K.W. Lee, J.Y. Lee, Y.C. Seok, and M.Y. Huh. 2009. The study on temperature reduction and survey of roof garden in Gaho-dong, Jinju city. J. Kor. Soc. People Plants Environ. 12(3):39-44.
Kim, H.J. and S.Y. Lee. 2008. Variation of growth and yield in rice nursery-tray cultivation of Sedum sarmentosum local strains. Kor. J. Hort. Sci. Technol. 26:129-133.
Kim, I.H. and K.Y. Huh. 2003. Growth characteristics of Sedum oryzifolium in extensive green roof systems. Kor. J. Hort. Sci. Technol. 21:346-352.
Kim, I.H., K.Y. Huh, and M.R. Huh. 2010. Cold tolerance assessment of Sedum species for shallow-extensive green roof system. Kor. J. Hort. Sci. Technol. 28:22-30.
Kim, M.H., K.J. Bang, J.H. Ju, and S.W. Han. 2003. Effects of light-weight soil mixture and depth on the three native plants in extensive roof garden. J. Kor. Inst. Landscape Architecture 31:101-107.
Koehler, M. 2006. Long-term vegetation research on two extensive green roofs in Berlin. Urban Habitats 4:3-26.
Lee, D.K., S.W. Yoon, S.H. Oh, and S.W. Jang. 2005. The effect of temperature reduction as influenced by rooftop greening. J. Kor. Environ. Restoration Revegetation Technol. 8(6):34-44.
Lee, S.T. and J.S. Kim. 2004. Temperature changes of indoor and outdoor by grass planting block in planting of roof area. J. Kor. Environ. Restoration Revegetation Technol. 7(6):54-60.
Lin, Y.J. and H.T. Lin. 2011. Thermal performance of different planting substrates and irrigation frequencies in extensive tropical rooftop greeneries. Building Environ. 46:345-355.
Moon, Y.S., H.L. Lee, E.J. Hwang, and H.J. Chae. 2006. Analysis on characteristics of tropical night based on urban heat island effect in Seoul. J. Environ. Studies Educ. 10:35-55.
Nagase, A. and N. Dunnett. 2010. Drought tolerance in different vegetation types for extensive green roofs: Effects of watering and diversity. Landscape Urban Planning 97:318-327.
Ono, K., M. Yanagi, T. Kudo, J. Teshirogi, Y. Shibuya, and H. Koshimizu. 2005. Evapotranspiration of rooftop gardening plants and their effect on the thermal environment of building. The 2005 World Sustainable Building Conf. 771-776.
Rosenzweig, C., W. Solecki, L. Parshall, and S. Gaffin. 2007. Mitigating New York City's heat island with urban forestry, living roofs, and light surfaces. Proc. Sixth Symp. Urban Environ. Atlanta.
Sailor, D.J., T.B. Elley, and M. Gibson. 2012. Exploring the building energy impacts of green roof design decisions- a modeling study of buildings in four distinct climates. J. Building Phys. 35:372-391.
Sendo, T., M. Kanechi, Y. Uno, and N. Inagaki. 2010. Evaluation of growth and green coverage of ten ornamental species for planting as urban rooftop greening. J. Japan Soc. Hort. Sci. 79:69-76.
Simmon, M., B. Gardiner, S. Windhager, and J. Tinsley. 2008. Green roofs are not created equal: the hydrologic and thermal performance of six different extensive green roof and reflective and non-reflective roofs in a sub-tropical climate. Urban Ecosystem 11:339-348.
Sonne, J. 2006. Evaluating green roof energy performance. ASHARE J. 48:59-61.
Tabares-Velasco, P.C. and J. Srebric. 2012. A heat transfer model for assessment of plant based roofing systems in summer conditions. Building Environ. 49:310-323.
Takakura, T., S. Kitade, and E. Goto. 2000. Cooling effect of greenery cover over a building. Energy Buildings 31:1-16.
Takebayasi, H. and M. Moriyama. 2007. Surface heat budget on green roof and high reflection roof for mitigation of urban heat island. Building Environ. 42:2971-2979.
Thuring, C.E., R.D. Verghage, and D.J. Beattie. 2010. Green roof plant responses to different substrate types and depths under various drought conditions. HortTechnology 20:395-401.
Wong, N.H., Y. Chen, C.L. Ong, and A. Sia. 2003. Investigation of thermal benefits of rooftop garden in the tropical environment. Energy Buildings 38:261-270.
Wong, N.H., A.Y.K. Tan, Y. Chen, K. Sekar, P.Y. Tan, D. Chan, K. Chiang, and N.C. Wong. 2010. Thermal evaluation of vertical greenery systems for building walls. Building Environ. 45:663-672.
Yang, C.F. 2007. Physical properties of spheric media with different size and water holding capacity. M.S. Diss., Cheng Kung Natl. Univ., Tainan, Taiwan.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
Free Access. 출판사/학술단체 등이 허락한 무료 공개 사이트를 통해 자유로운 이용이 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.