Comparison of Plant's Growth in Wall Greening Depending on Orientations |
Kim, Da-Yoon
(Dept. of Landscape Architecture, Graduate School of Kongju National University)
Cho, Yong-Hyeon (Dept. of Landscape Architecture, Kongju National University) Son, In-Ki (Dept. of Landscape Architecture & Environmental Planning, Graduate School of Kongju National University) Kim, Yoon-Ho (Dept. of Landscape Architecture, Graduate School of Kongju National University) |
1 | Jeong, H. H. and Kim, K. S.(1999) Effects of shading on the growth of Hedera rhombea Bean and Pachysandra terminalis Sieb. et Zucc. Horticultural Science & Technology 17(1): 29-32. |
2 | Jim, C. Y. and H. He(2011) Estimating heat flux transmission of vertical greenery ecosystem. Ecological Engineering 37(8): 1112-1122. DOI |
3 | Song, X. and H. Li(2016) Effects of building shade on photosynthesis and chlorophyll fluorescence of Euonymus fortunei. Acta Ecologica Sinica 36(5): 350-355. DOI |
4 | Yang, H. H., M. J. Kwak, N. L. Jeong and H. H. Kim(2020) Evaluation of indoor air quality improvement effect by using IoT-based green wall system in classrooms. Journal of Odor and Indoor Environment 19(4): 400-413. DOI |
5 | Lee, D. J., J. H. Gwon, N. Y. Kim, S. H. Kim, T. H. Kim, D. H. Lee and Y. H. Yun(2020) A study on the characteristics of radiant energy change according to the types of wall greening. The Korean Environmental Sciences Society. In Proceedings of the Korean Environmental Sciences Society Conference. p. 182. |
6 | Korea Highway Corporation.(1999) The Experiment of Vine for Covering the Traffic Noise Barrier. |
7 | Kim, J. S., M. I. Jung, S. W. Han, H. K. Jang, H. H. Jung and S. M. Lee(2012) Growth according to the direction of climbing wall and attachment characteristics of 5 vine plants on planting wall with various materials. Ournal of People, Plants, and Environment 15(6): 471-475. DOI |
8 | Wong, N. H., A. Y. K. Tan, Y. Chen, K. Sekar, P. Y. Tan, D. Chan and N. C. Wong(2010) Thermal evaluation of vertical greenery systems for building walls. Building and Environment 45(3): 663-672. DOI |
9 | Ouyang, W., T. E. Morakinyo and E. Ng(2019) The cooling efficiency of urban greenery coverage in a high-density city. In IOP Conference Series: Earth and Environmental Science (Vol. 329, No. 1, p. 012043). IOP Publishing. DOI |
10 | Lee, J. S., S. M. No, Y. S. Kim and K. Y. Park(2003) Environment and management on afforestation of the surface of wall in Seoul City. Horticultural Science and Technology 21(1): 87. |
11 | Lee, M. H. and I. S. Kim(2011) Characteristics of adhesive disks in Parthenocissus tricuspidata during attachment. Applied Microscopy 41(2): 139-145. |
12 | ME.(1998) Guidelines for Elevation and Recording of Urban Buildings. |
13 | Loveys, B. R., I. Scheurwater, T. L. Pons, A. H. Fitter and O. K. Atkin(2002) Growth temperature influences the underlying components of relative growth rate: An investigation using inherently fast-and slow-growing plant species. Plant, Cell & Environment 25(8): 975-988. DOI |
14 | ME.(2008) Technology Development for Restoration Natural Ecosystem of Urban Artificial Ground. |
15 | Pan, L., S. Wei and L. M. Chu(2018) Orientation effect on thermal and energy performance of vertical greenery systems. Energy and Buildings 175: 102-112. DOI |
16 | Sejong Metropolitan Autonomous City.(2018) Sejong Metropolitan Autonomous City Building code. |
17 | Russo, A., and G. T. Cirella(2018) Modern compact cities: How much greenery do we need?. International Journal of Environmental Research and Public Health 15(10): 2180. DOI |
18 | Kim, B. R.(2013) A study on the current status and issue of green wall in GBCS-certified apartments. Journal of the Korean Institute of Landscape Architecture 40(6): 1-12. DOI |
19 | de Capite, L.(1955) Action of light and temperature on growth of plant tissue cultures in vitro. American Journal of Botany. p. 869-873. |
20 | Jeong, N. R., G. J. Kim, Y. B. Jeong and C. Shagol(2018) Evaluation of the ability of vine plants to reduce fine dust. In proceedings of the Korean Institute of Landscape Architecture Conference. Korean Institute of Landscape Architecture. 154-155. |
21 | MOLIT.(2012) Building Greening Design Criteria. |
22 | Nozue, K. and Maloof, J. N.(2006) Diurnal regulation of plant growth. Plant, Cell & Environment 29(3): 396-408. DOI |
23 | Jang, D. H., H. S. Kim, S. H. Sin and H. S. Kim(2015) Low-Cost, Sustainable Green Wall System Development for Urban Heat Island Phenomenon Mitigation. KICT. |
24 | Kwon, K. U., W. T. Kim, J. H. Kim and Y. H. Yoon(2013) Performance analysis for energy-saving the implementation of low-energy green wall plant foundationa. Journal of the Korea Society of Environment and Ecology 2013(2). |
25 | Atkin, O. K. and M. G. Tjoelker(2003) Thermal acclimation and the dynamic response of plant respiration to temperature. Trends in Plant Science 8(7): 343-351. DOI |
26 | Belmeziti, A., F. Cherqui and B. Kaufmann(2018) Improving the multi-functionality of urban green spaces: Relations between components of green spaces and urban services. Sustainable Cities and Society 43: 1-10. DOI |
27 | Cho, Y. H.(2006) The Methods of Promoting Greenness and the Target Levels of Greenness in Streetscape Suggested by Computer Simulation-The Case of Seoul. Journal of the Korean Institute of Landscape Architecture, 34(2), 26-35. |
28 | Daemei, A. B., M. Azmoodeh, Z. Zamani and E. M. Khotbehsara (2018) Experimental and simulation studies on the thermal behavior of vertical greenery system for temperature mitigation in urban spaces. Journal of Building Engineering 20: 277-284. DOI |
29 | Jeon, J. K., Y. S. An and E. J. Kim(2014) Performance evaluation study on green-wall system using moss. Magazine of the Korea Concrete Institute 26(3): 36-40. DOI |