Browse > Article
http://dx.doi.org/10.9715/KILA.2011.39.1.117

Change in Growth of Chrysanthemum zawadskii var. coreanum as Effected by Different Green Roof System under Rainfed Conditions  

Ju, Jin-Hee (Dept. of Forest Science, Konkuk University)
Kim, Won-Tae (Dept. of Environment and Landscape Architecture, Cheonan Yonam College)
Yoon, Yong-Han (Dept. of Forest Science, Konkuk University)
Publication Information
Journal of the Korean Institute of Landscape Architecture / v.39, no.1, 2011 , pp. 117-123 More about this Journal
Abstract
This study aims to suggest a suitable soil thickness and soil mixture ratio of a green roof system by verifying the growth of Chrysanthemum zawadskii var. coreanum as affected by different green roof systems using rainwater. The experimental planting grounds were made with different soil thicknesses(15cm, 25cm) and soil mixing ratios (SL, $P_7P_1L_2$, $P_6P_2L_2$, $P_5P_3L_2$, $P_4P_4L_2$) and with excellent drought tolerance. Ornamental value Chrysanthemum zawadskii var. coreanum was planted. The change in plant height, green coverage ratio, chlorophyll content, fresh weight, dry weight, and dry T/R ratio of Chrysanthemum zawadskii var. coreanum were investigated from April to October 2009. For 15cm soil thickness, the plant height of Chrysanthemum zawadskii var. coreanum was not significantly different as affected by the soil mixing ratio. However, it was found to be higher in the amended soil mixture, $P_7P_1L_2$, $P_6P_2L_2$, $P_5P_3L_2$ and $P_4P_4L_2$ than in the sandy loam soil, as it was SL overall. For 25cm soil the plant height differences were in order to SL < $P_7P_1L_2$, $P_6P_2L_2$, $P_5P_3L_2$ < $P_4P_4L_2$. The green coverage ratio was observed not to be different by soil mixing ratio with soil thickness of 15cm, but, the lowest green coverage ratio in the SL. In the 25cm soil thickness, the green coverage ratio was 86-89% with a good coverage rate overall. The change in chlorophyll contents with 15cm soil thickness was found to be the highest in the SL treatment and the lowest in the $P_5P_3L_2$ treatment. For 25cm thickness, the highest value was in the $P_4P_4L_2$ and SL, and the lowest in the$P_7P_1L_2$. Fresh weight and dry weight were larger in soil with 25cm thickness. Therefore, the growth of Chrysanthemum zawadskii var. coreanum as affected by a different green roof system for using rainwater was higher in soil with 25cm thickness than 15cm, and in PPL amended soil than in sandy loam.
Keywords
Drought Tolerance; Native Plants; Soil Mixture Ratio; Soil Thickness; Amended Soil;
Citations & Related Records
Times Cited By KSCI : 8  (Citation Analysis)
연도 인용수 순위
1 Takakura, T., S. Kitade and E. Goto(2000) Cooling effect of greenery cover over a building. Energy Build. 31: 1-6.   DOI   ScienceOn
2 허근영, 김인혜, 류남형(2003a) 저토심 옥상녹화시스템에서 기린초의 생육에 대한 인공배지 종류, 토심, 그리고 배수 형태의 효과. 한국조경학회지 31(4): 90-100.
3 환경부(1997) 자생식물관리도감(초본류) . 환경부.
4 Abad, M., P. Noguera, R. Puchades, A. Maquieria and V. Noguera(2002) Physico-chemical and chemical properties of some coconut coir dusts for use as a peat substitute for container ornamental plants. Bioresource Technology 82: 241-245.   DOI   ScienceOn
5 Derek, W. and T. L. Jeremy(2008) Water uptake in green roof microcosms: Effects of plant species and water availability. Ecol. Eng. 33: 179-186.   DOI   ScienceOn
6 Dunnett, N. P. and N. Kingsbury(2004) Planting Green Roofs and Living Walls. Timber Press, Portland, OR.
7 Emilsson, T., J. C. Berndtsson, J. E. Mattson and K. Rolf(2007) Effect of using conventional and controlled release fertilizer on nutrient runoff from various vegetated roof systems. Ecol. Eng. 29: 260-271.   DOI   ScienceOn
8 Getter, K. L., D. B. Rowe and J. A. Andersen(2007) Quantifying the effect of slope on extensive green roof stormwater retention. Ecol. Eng. 31: 225-231.   DOI   ScienceOn
9 주진희, 윤용한(2010) 옥상녹화에서 토심, 토양배합비 및 지피식물에 따른 식재지반 수분 및 온도변화. 한국생태환경건축학회지 10(3): 11-16.
10 최지우, 김학기, 이경재, 강현경(2009) 저토심 인공지반 녹화공법의 경제성 및 도입가능한 지피식물의 생육특성. 한국조경학회지 37(5): 98-108.
11 최희선, 이상수, 이용범(2001) 옥상정원에 이용가능한 혼합인공토양의 종류 및 토심에 따른 비비추의 생육반응. 한국조경학회지 29(3): 46-54.
12 한국환경과학회(2009) 그린조경학. 서울: 문운당.
13 허근영, 김인혜, 강호철(2003b) 저토심 옥상녹화시스템에서 돌나물(Sedum sarmentosum) 의 생육에 대한 인공배지 종류, 토심, 그리고 배수형태의 효과. 한국조경학회지 31(2): 102-112.
14 김명회, 방광자, 주진희, 한승원(2003) 옥상조경용 경량토양의 혼합비와 토심이 3가지 자생초화류의 생육에 미치는 영향. 한국조경학회지 31(1): 101-107.
15 강규이, 이은희(2005) 관리조방적 옥상녹화에 적합한 자생초화류와 식재토양에 관한 연구. 한국환경복원녹화기술학회지 8(4): 23-31.
16 고아라, 이은희(2010) 관리조방형 옥상녹화지의 동식물상 변화. 한국환경생태학회지 24(3): 334-342.
17 김명회(2002) 경량형 옥상조경의 토양, 토심 및 관수주기가 자생초화류의 생육에 미치는 영향. 상명대학교 대학원 석사학위논문.
18 Saiz, S., C. Kennedy, B. Bass and K. Pressnail(2006) Comparative life cycle assessment of standard and green roofs. Environ. Sci. Technol. 40: 4312-4316.   DOI   ScienceOn
19 Hutchinson, B. A. and F. G. Taylor(1983) Energy conservation mechanisms and potential of landscape design to ameliorate building microclimates. Landscape J. 2(1): 155-168.   DOI
20 Monterusso, M. A., D. B. Rowe and C. L. Rugh(2005) Establishment and persistence of Sedum spp. and native taxa for green roof application. HortScience 40(2): 391-396.
21 서울특별시(2004) 생태면적율 도시계획 적용 편람. 서울특별시.
22 김인혜, 허무룡, 허근영(2005) 국내에 도입된 Sedum album L.의 생육특성 및 저토심 옥상녹화시스템에 관한 연구. 한국조경학회지 33(5): 69-82.
23 박준석, 박지혜, 주진희, 윤용한(2010) 옥상녹화 식재지반이 토양수분과순비기나무 생육에 미치는 영향. 한국조경학회지 38(3): 98-106.
24 방광자, 주진희, 김선혜(2004) 옥상녹화용 인공배합토에서 토심 및 관수주기에 따른 몇몇 자생식물의 생육특성. 한국환경복원녹화기술학회지 7(6): 75-83.
25 오일수, 유성오, 배종향(1994) 한구산 구절초(Chrysanthemum zawadskii Herb.)의 형태적 특성. 한국원예학회지 35(1): 78-87.
26 유용권, 강상욱, 김기선(1997) 구절초의 플러그 육묘를 위한 배양토 개발. 한국원예학회 논문발표요지 15(2): 386-387.