BibTex RIS Kaynak Göster

Ecological-Social-Economical Impacts of Vertical Gardens in the Sustainable City Model

Yıl 2016, Cilt: 26 Sayı: 3, 430 - 438, 30.09.2016

Öz

Issues such as utilization of natural resources, environmental problems and global climate change increase the awareness on “green design” in the built environment and give direction to the attempts of creating cities with natural environment. In this context, planting works are done on the facades of the buildings to reduce the negative impacts of urbanization and create a sustainable city model. These practices are called vertical gardens- living walls- green facades. Vertical gardens, which allow growth of various species of plants in the complicated city life, balance urban ecology and enhance the quality of urban life. Strengthening the urban ecosystem and improvement of economic-social balances constitute the essence of a sustainable city model. Vertical garden practices contribute to increasing air quality, reduction of urban heat island affect, increasing energy efficiency, reduction of noise pollution in addition to reduction of stress caused by the urban life by improving city aesthetic and provide new job opportunities in the economy. In this study, it is aimed to determine ecologicaleconomical-social impacts of vertical gardens to create liveable, ideal and healthy environments and to reveal how they contribute to sustainable urban model.

 

Kaynakça

  • Alexandri E, Jones P (2006). Temperature decreases in an urban canyon due to green walls and green roofs in diverse climates. Building and Environment 43 (4): 480-493.
  • Bass B (2007). Green Roofs and Green Walls: Potential Energy Savings in the Winter. Toronto: Adaptation & Impacts Research Division Environment Canada at the University of Toronto Centre for Environment, Research Gate.
  • Bayram F (2001). Sürdürülebilir Kentsel Gelişme: Araçlar, Yaklaşımlar ve Türkiye, Ankara.
  • Binabid J (2010). Vertical Garden. The Study of Vertical Gardens and Their Benefits for Low-Rise Buildings in Moderate and Hot Climates. University of Southern California, ProQuest LLC. P: 125.
  • Bringslimark T, Hartig T, Patil GG (2009). The psychological benefits of indoor plants: a critical review of the experimental literature. Journal of Environmental Psychology 29 (4): 422-433.
  • Butkovich K, Graves J, Mckay J, Slopack M (2008). An Investigation into the Feasibility of Biowall Technology. George Brown College Applied Research & Innovation.
  • Brown K, Bellows A, Smit J (2004). Health Benefits of Urban Agriculture. Retrieved from Community Food Security Coalition.
  • http://www.foodsecurity.org/UAHealthArticle.pdf (accessed 07.11.2013)
  • Cooney E, Deller S, Michie L, Wedderburn D (2004). A Research Study of the Feasibility of Implementing a Living Wall into the Environmental Studies 2 Building. University of Waterloos.
  • Curtis L, Stuart M (2010). Enhancing CHBE Indoor Air Quality: Biowall Technology, UBC Social Ecological Economic Development Studies (SEEDS) Student Report, University of British Columbia.
  • Darlington A, Dat J, Dixon M (2001). The biofiltration of indoor air: air flux and temperature influences the removal of toluene, ethylbenzene, and xylene. Environmental Science & Technology, 240-246.
  • GREEN ROOFS TECHNOLOGY (2008). Introduction to Green Walls Technology, Benefits & Design September. Green Roofs for Healthy Cities: Introduction to Green Walls. http://www.greenscreen.com/Resources/download_it/IntroductionGreenWalls.pdf
  • (accessed 07.11.2013)
  • Geenhuisan MV, Nıjkamp P (1994). Sürdürülebilir Kenti Nasıl Planlamalı? Toplum ve Bilim Dergisi, 64-65, s.131.
  • Huang Y (2011). Impact of Green Building Design on Healthcare Occupants with a Focus on Health Care Staff. Michigan State University.
  • INHABITAT (2007). Living Wall.
  • http://inhabitat.com/living-wall/livingwall1_copy/ (accessed 07.11.2013)
  • Loh S (2008). Living walls: A way to green the built environment. BEDP Environment Design Guide Technology, 1 (26): 1-7.
  • Ottelé M (2010). Vertical Greened Surfaces and the Potential to Reduce Air Pollution and the Improvement of the Insulation Value of Buildings. Delft University of Technology.
  • Palabıyık H (2005). Sürdürülebilirlik ve Yerel Yönetimler: Uygulanabilirliği ve Ölçümü Üzerine, Yerel Yönetimler Üzerine Güncel Yazılar-1: Reform, Hüseyin Özgür ve Muhammet Kösecik (Ed.) Ankara.
  • Peck, SW, Callaghan C (1999). Greenbacks from Green Roofs: Forging a New Industry in Canada. Final report. Canadian Mortgage and Housing Corperation.
  • Sharp R (2007). Things You Need to Know About Green Walls, Building Design and Construction. BD&C News.
  • http://www.bdcnetwork.com/article/CA6459410.html (accessed 07.11.2013)
  • Uslu A (2009). Sürdürülebilir yeşil kent fikirleri, örnekleri ve Türkiye için dersler. XXI. Uluslararası Yapı ve Yaşam Kongresi Bildiriler Kitabı, Mart 2009, Bursa.
  • VERTICAL ECOSYSTEMS (2011). Vertical Garden Benefits. Retrieved from Vertical Ecosystems.
  • http://www.paisajismourbano.com/EN/beneficts.php (accessed 07.11.2013)
  • Yazar KH (2006). Sürdürülebilir Kentsel Gelişme Çerçevesinde Orta Ölçekli Kentlere Dönük Kent Planlama Yöntem Önerisi (yayınlanmamış doktora tezi). Ankara Üniversitesi Sosyal Bilimler Enstitüsü, Ankara.
  • Yeh Y (2009). Green Wall-The Creative Solution in Response to the Urban Heat Island Effect.
  • http://www.nodai.ac.jp/cip/iss/english/9th_iss/fullpaper/3-1-4nchu-yupengyeh.pdf
  • (accessed 07.11.2013)

Sürdürülebilir Kent Modelinde Dikey Bahçelerin Ekolojik-Sosyal-Ekonomik Etkileri

Yıl 2016, Cilt: 26 Sayı: 3, 430 - 438, 30.09.2016

Öz

Doğal kaynakların kullanımı, çevre sorunları, küresel iklim değişikliği gibi konular yapılı çevrede “yeşil doku” konusundaki duyarlılığı artırmakta ve doğal ortam koşullarına sahip kentler oluşturma çalışmalarına yön vermektedir. Bu bağlamda hızla gelişen kentleşmenin olumsuz etkilerini azaltmak ve sürdürülebilir kent modeli oluşturmak adına yapı cephelerinde bitkilendirme çalışmaları uygulanmaktadır. Bu uygulamalar dikey bahçeler-yaşayan duvarlar-yeşil cepheler- olarak adlandırılmaktadır. Karmaşık kent yaşamında farklı tür ve sayıdaki bitkilerin doğal olarak yetişeceği dikey bahçeler kent ekolojisini dengelemekte ve kentsel yaşam kalitesini arttırmaktadır. Kent ekosisteminin güçlendirilmesi ve ekonomik-sosyal dengelerin iyileştirilmesi sürdürülebilir kent modellerinin özünün oluşturmaktadır. Dikey bahçe uygulamaları; hava kalitesinin arttırılması, kentsel ısı ada etkisinin azaltılması, enerji verimliliğini arttırması, gürültü kirliliğini azaltmasının yanı sıra kent estetiğine katkı sağlayarak kent yaşamının getirmiş olduğu stresi azaltmakta ve ekonomik anlamda yeni iş olanakları sunmaktadır. Bu çalışmada, dikey bahçelerin kentlerde yaşanabilir ideal çevreler yaratmak ve sağlıklı ortamlar oluşturmak için ekolojik-ekonomik-sosyal etkilerinin neler olduğu ve sürdürülebilir kent modeline nasıl bir katkı sağlayabileceğinin ortaya konması amaçlanmıştır.

Kaynakça

  • Alexandri E, Jones P (2006). Temperature decreases in an urban canyon due to green walls and green roofs in diverse climates. Building and Environment 43 (4): 480-493.
  • Bass B (2007). Green Roofs and Green Walls: Potential Energy Savings in the Winter. Toronto: Adaptation & Impacts Research Division Environment Canada at the University of Toronto Centre for Environment, Research Gate.
  • Bayram F (2001). Sürdürülebilir Kentsel Gelişme: Araçlar, Yaklaşımlar ve Türkiye, Ankara.
  • Binabid J (2010). Vertical Garden. The Study of Vertical Gardens and Their Benefits for Low-Rise Buildings in Moderate and Hot Climates. University of Southern California, ProQuest LLC. P: 125.
  • Bringslimark T, Hartig T, Patil GG (2009). The psychological benefits of indoor plants: a critical review of the experimental literature. Journal of Environmental Psychology 29 (4): 422-433.
  • Butkovich K, Graves J, Mckay J, Slopack M (2008). An Investigation into the Feasibility of Biowall Technology. George Brown College Applied Research & Innovation.
  • Brown K, Bellows A, Smit J (2004). Health Benefits of Urban Agriculture. Retrieved from Community Food Security Coalition.
  • http://www.foodsecurity.org/UAHealthArticle.pdf (accessed 07.11.2013)
  • Cooney E, Deller S, Michie L, Wedderburn D (2004). A Research Study of the Feasibility of Implementing a Living Wall into the Environmental Studies 2 Building. University of Waterloos.
  • Curtis L, Stuart M (2010). Enhancing CHBE Indoor Air Quality: Biowall Technology, UBC Social Ecological Economic Development Studies (SEEDS) Student Report, University of British Columbia.
  • Darlington A, Dat J, Dixon M (2001). The biofiltration of indoor air: air flux and temperature influences the removal of toluene, ethylbenzene, and xylene. Environmental Science & Technology, 240-246.
  • GREEN ROOFS TECHNOLOGY (2008). Introduction to Green Walls Technology, Benefits & Design September. Green Roofs for Healthy Cities: Introduction to Green Walls. http://www.greenscreen.com/Resources/download_it/IntroductionGreenWalls.pdf
  • (accessed 07.11.2013)
  • Geenhuisan MV, Nıjkamp P (1994). Sürdürülebilir Kenti Nasıl Planlamalı? Toplum ve Bilim Dergisi, 64-65, s.131.
  • Huang Y (2011). Impact of Green Building Design on Healthcare Occupants with a Focus on Health Care Staff. Michigan State University.
  • INHABITAT (2007). Living Wall.
  • http://inhabitat.com/living-wall/livingwall1_copy/ (accessed 07.11.2013)
  • Loh S (2008). Living walls: A way to green the built environment. BEDP Environment Design Guide Technology, 1 (26): 1-7.
  • Ottelé M (2010). Vertical Greened Surfaces and the Potential to Reduce Air Pollution and the Improvement of the Insulation Value of Buildings. Delft University of Technology.
  • Palabıyık H (2005). Sürdürülebilirlik ve Yerel Yönetimler: Uygulanabilirliği ve Ölçümü Üzerine, Yerel Yönetimler Üzerine Güncel Yazılar-1: Reform, Hüseyin Özgür ve Muhammet Kösecik (Ed.) Ankara.
  • Peck, SW, Callaghan C (1999). Greenbacks from Green Roofs: Forging a New Industry in Canada. Final report. Canadian Mortgage and Housing Corperation.
  • Sharp R (2007). Things You Need to Know About Green Walls, Building Design and Construction. BD&C News.
  • http://www.bdcnetwork.com/article/CA6459410.html (accessed 07.11.2013)
  • Uslu A (2009). Sürdürülebilir yeşil kent fikirleri, örnekleri ve Türkiye için dersler. XXI. Uluslararası Yapı ve Yaşam Kongresi Bildiriler Kitabı, Mart 2009, Bursa.
  • VERTICAL ECOSYSTEMS (2011). Vertical Garden Benefits. Retrieved from Vertical Ecosystems.
  • http://www.paisajismourbano.com/EN/beneficts.php (accessed 07.11.2013)
  • Yazar KH (2006). Sürdürülebilir Kentsel Gelişme Çerçevesinde Orta Ölçekli Kentlere Dönük Kent Planlama Yöntem Önerisi (yayınlanmamış doktora tezi). Ankara Üniversitesi Sosyal Bilimler Enstitüsü, Ankara.
  • Yeh Y (2009). Green Wall-The Creative Solution in Response to the Urban Heat Island Effect.
  • http://www.nodai.ac.jp/cip/iss/english/9th_iss/fullpaper/3-1-4nchu-yupengyeh.pdf
  • (accessed 07.11.2013)
Toplam 30 adet kaynakça vardır.

Ayrıntılar

Bölüm Makaleler
Yazarlar

Gülçinay Başdoğan

Arzu Çığ

Yayımlanma Tarihi 30 Eylül 2016
Yayımlandığı Sayı Yıl 2016 Cilt: 26 Sayı: 3

Kaynak Göster

APA Başdoğan, G., & Çığ, A. (2016). Ecological-Social-Economical Impacts of Vertical Gardens in the Sustainable City Model. Yuzuncu Yıl University Journal of Agricultural Sciences, 26(3), 430-438.

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Yüzüncü Yıl Üniversitesi Tarım Bilimleri Dergisi CC BY 4.0 lisanslıdır.