Earthquakes, sustainable settlements and traditional construction techniques

Koca, Gülru

doi:10.47818/DRArch.2023.v4si114

Earthquakes, sustainable settlements and traditional construction techniques

Gülru Koca (Işık Üniversitesi, İstanbul, Türkiye)

Journal of Design for Resilience in Architecture and Planning

3 1

Yıl: 2023 Cilt: 4 Sayı: Özel Sayı Sayfa Aralığı: 117 - 140 Metin Dili: İngilizce DOI: 10.47818/DRArch.2023.v4si114 İndeks Tarihi: 31-12-2023

Earthquakes, sustainable settlements and traditional construction techniques

Öz:

Urbanization is increasing all around the world due to population growth and big cities receive a high volume of migrants due to economic and social reasons. However, rapid population growth should be prevented in big cities in order to provide comfortable living conditions to the population. When urban planning practices do not catch the speed of urbanization; the tendency towards vertical architecture increases, the amount of green space decreases and problems related to unplanned urbanization come to the fore. These important problems, which have considerably increased recently in Türkiye, may lead greater problems in many respects. The parallel and self-sufficient development of urban and rural areas, which is defined as urban sustainability, is considered as the best-case scenario in urban planning practices. This aim is adopted nowadays by most of the countries in the world as it prevents rapid population growth in cities and depopulation in rural areas. Decisions which are taken to ensure urban sustainability are important for all countries. However, these decisions become even more important in regions with disaster risk. As the majority of Türkiye’s land area is under seismic risk, the problems which may arise due to rapid urbanization during an earthquake should be prevented. The damage and losses which could occur during an earthquake and the security, health, education problems which will arise after the earthquake can be solved by preventing dense housing and uncontrolled migration in urban areas. The connection between urban and rural areas should be strengthened. Besides, the social and economic sustainability of the rural area should be ensured. Settlements should be designed away from fault lines with a holistic approach as “living spaces” which consist components such as; transportation, infrastructure, green spaces and educational spaces. Additionally; the use of appropriate construction techniques and materials should be accepted as a priority. In this context, it can be mentioned that traditional building techniques, which have been developed over centuries and whose deficiencies have been improved during this period, should be preferred especially in rural areas. In this study, the criteria that gain importance in the construction of earthquake resistant and sustainable settlements are evaluated on Türkiye case. The precautions which should be taken to ensure rural sustainability and to prevent the depopulation of rural areas are emphasized. Within this scope, the importance of protecting the architectural texture and regenerating traditional building culture was discussed in constructing earthquake resistant settlements.

Anahtar Kelime: rural region seismic resilience sustainability traditional building systems conservation

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

AFAD (n.d.). Türkiye Deprem Tehlike Haritası. Access address (16.06.2023): https://www.afad.gov.tr/kurumlar/afad.gov.tr/24212/pics/image-9ced40a1b1844.png?c=3250
Akıncıtürk N. (2003). Yapı Tasarımında Mimarın Deprem Bilinci [Earthquake Awareness of the Architect in Building Design]. Uludağ Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi, 8(1), 189-201.
Azezli, G. B. (2009). 19. yy’da Osmanlı konut mimarisinde iç mekân kurgusunun Safranbolu evleri örneğinde irdelenmesi (Doctoral dissertation, İstanbul Kültür Üniversitesi/Fen Bilimleri Enstitüsü/Sanat ve Tasarım Anabilim Dalı).
Arya, A.S., Boen, T. & Ishiyama, Y. (2014). Guidelines for earthquake resistant non-engineered construction. UNESCO.
BBC Travel (2023.05.11). Dating to the 18th Century, the Ottoman mansions of Safranbolu are an extraordinary – and beautiful – example of sustainable architectural design. Access address (23.08.2023): https://www.bbc.com/travel/article/20230510-turkeys-300-year-old-eco-mansions
Camarero L., Cruz F. & Oliva J. (2016). Rural sustainability, inter-generational support and mobility. European Urban and Regional Studies, 23(4), 734-749.
Cardoso R., Lopes M., Bento R., D'Ayala D. & Lourenco P.B. (2003). World Housing Encyclopedia Report. Country: Portugal.
Cerasi, M. (1998). The formation of Ottoman house types: a comparative study in interaction with neighboring cultures. Muqarnas, 15, 116-156.
Conservationtech. (n.d.). Pombal walls. Access address (23.08.2023): https://www.conservationtech.com/MAIN-TOPICS/ROMEprojects/Pombalwalls/Baixa-INT27.jpg
Correia M., Dipasquale L. & Mecca S. (2014). Versus: heritage for tomorrow: vernacular knowledge for sustainable architecture (p. 288). Firenze University Press.
Çetin, S. (2012). Kalkınmada Kentleşme ve Konut Politikalarının Önemi. Hukuk ve İktisat Araştırmaları Dergisi, 4(1), 293-304.
Demircioğlu, M. B., Şeşetyan, K., Duman, T. Y., Can, T., Tekin, S., & Ergintav, S. (2018). A probabilistic seismic hazard assessment for the Turkish territory: part II—fault source and background seismicity model. Bulletin of Earthquake Engineering, 16, 3399-3438.
Documentary Tube (2022.11.13). Pombaline Style – First Earthquake-Safe Architecture in Europe. Access address (23.08.2023): https://www.documentarytube.com/articles/pombaline-style-first-earthquake-safe-architecture-in-europe/
Du Plessis, C. (2002). Agenda 21 for sustainable construction in developing countries. CSIR Report BOU E, 204, 2-5.
EFEHR Earthquake Hazard Across Europe (n.d.). The Earthquake Hazard Map of Europe. Access address (04.10.2023): http://www.efehr.org/earthquake-hazard/hazard-map/
Eurostat Statistics Explained (2022.10). Urban – Rural Europe – Introduction. Access address (16.06.2023): https://ec.europa.eu/eurostat/statistics-explained/index.php?title=Urban-rural_Europe_-_introduction#Population_density
Ferah, F.E. (2009). 1755 Lisbon earthquake and protection of cultural heritage from future earthquakes / With a comparative study about earthquake and risk preparedness in Istanbul (Master's thesis, Universitat Politècnica de Catalunya).
Güçhan, N.Ş. (2007). Observations on earthquake resistance of traditional timber-framed houses in Turkey. Building and environment, 42(2), 840-851.
Gülkan, P. & Langenbach, R. (2004, August). The earthquake resistance of traditional timber and masonry dwellings in Turkey. In 13th World Conference on Earthquake Engineering (Vol. 2297).
Hughes, R. (2000, November). Cator and Cribbage construction of Northern Pakistan. In Proceedings of Earthquake–Safe: Lessons to be Learned from Traditional Construction—International Conference on the Seismic Performance of Traditional Buildings (pp. 16-18).
Independent Türkçe (2019.09.09). Bodrum’da Tartışmalı Otel İnşaatının Yıkımını Bakanlık Devraldı. Access address (23.08.2023): https://www.indyturk.com/node/68906/haber/bodrumda-tartışmalı-otel-inşaatının-yıkımını-bakanlık-devraldı
İSMEP (İstanbul Sismik Riskin Azaltılması ve Acil Durum Hazırlık Projesi). (2014). Afete Dirençli Şehir Planlama ve Yapılaşma. İSMEP Rehber Kitaplar.
Kahraman, G. & Arpacıoğlu, Ü.T. (2022). Conservation problems of rural architecture: A case study in Gölpazarı, Anatolia. Journal of Design for Resilience in Architecture & Planning, 3(3), 325-347.
Kemper, T. (2020.03.19). Building a new global definition of cities – from space. Access address (23.08.2023): https://www.earthobservations.org/geo_blog_obs.php?id=416
Koca, G., (2018, October). Seismic Resistance of Traditional Wooden Buildings in Turkey, In Proceedings of 6. Reuso – International Conference on Documentation, Conservation and Restoration of the Architectural Heritage and Landscape Protection, (pp. 551-560).
Kocaoğlu, M. & Sert, S. (2018). Kentsel sürdürülebilirlik kavramı ve kentsel sürdürülebilirliğin sağlanmasında kent konseylerinin rolü üzerine bir değerlendirme. Strategic Public Management Journal, 4(8), 52-61.
Küçük Oteller. (2018.11.24). Access address (23.08.2023): https://storage.kucukoteller.com.tr/2018/11/24 /1543049326133505.jpg
Langenbach, R. (2010). Rescuing the baby from the bathwater: traditional masonry as earthquake-resistant construction. In 8th International Masonry Conference. Dresden, Germany.
Langenbach, R. (2015). The earthquake resistant vernacular architecture in the Himalayas. Seismic retrofitting: Learning from vernacular architecture, 83-92.
Mayer, H., Habersetzer, A. & Meili, R. (2016). Rural–urban linkages and sustainable regional development: The role of entrepreneurs in linking peripheries and centers. Sustainability, 8(8), 745.
Minor Sights. (2015.05.31). Italy: The “Profferli” of Viterbo – The Most Interesting Staircases in Italy. Access address (23.08.2023): http://www.minorsights.com/2015/05/italy-profferli-of-viterbo.html
Moullier, T. & Krimgold, F. (2016). Building Regulation for Resilience: Managing Risks for Safer Cities. The Global Facility for Disaster Reduction and Recovery (GFDRR) &The World Bank (TWB).
Niglio, O. & Valencia-Mina, W. (2013). Evolución de la ingeniería sísmica, presente y futuro: Caso Colombia e Italia. In VI Congreso Colombiano de Ingeniería Sísmica, Bucaramanga. UIS, AIS, UPB.
Ortega, J., Vasconcelos G., Rodrigues H., Correia M. & Lourenço P.B. (2017). Traditional earthquake resistant techniques for vernacular architecture and local seismic cultures: A literature review. Journal of Cultural Heritage, 27, 181-196.
Özdemir, H., & Topçu, M. (2022). Investigation of formal change in Akşehir city center in the historical process with morphological regions methods. New Trends in Architecture, Planning and Design 1, 28-56
Poletti E., Vasconcelos G. & Lourenço P.B. (2015). Timber frames as an earthquake resisting system in Portugal. Seismic retrofitting: Learning from vernacular architecture, 161-166.
Re-Thinking the Future (n.d.) How can Vernacular Elements be Implemented in Modern Architecture? Access address (23.08.2023): https://www.re-thinkingthefuture.com/architectural-styles/a5682-how-can-vernacular-elements-be-implemented-in-modern-architecture/
Scibilia, F. (2017). Earthquake-resistant construction techniques in Italy between 1880 and 1910: alternatives to reinforced concrete. Construction History, 32(1), 63-82.
Sonnino R., Kanemasu Y. & Marsden T. (2008). Sustainability and rural development. Unfolding webs, 2014, 29-53.
Tanyeli, U. (1996). Anadolu’da Bizans, Osmanlı öncesi ve Osmanlı dönemlerinde yerleşme ve barınma düzeni. Tarihten Günümüze Anadolu’da Konut ve Yerleşme, 458-61.
T.C. Çevre, Şehircilik ve İklim Değişikliği Bakanlığı. (2022). İklim ve Afetlere Dirençli Şehirler Projesi. Çevresel ve Sosyal Yönetim Çerçevesi. https://webdosya.csb.gov.tr/db/kentseldirenclilik/icerikler/moeucc-esmf-turkeyurbanres-l-ence-p173025----2023-03-15-tr-20230320053549.pdf
ThoughtCo (2019.09.05). The World’s Major Earthquake Zones. Access address (16.06.2023): https://www.thoughtco.com/seismic-hazard-maps-of-the-world-1441205
Tobriner, S. (1983). La Casa Baraccata: Earthquake-resistant construction in 18th-century Calabria. The Journal of the Society of Architectural Historians, 42(2), 131-138.
Topçu, M. (2019). Morphological structures of historical Turkish cities. ICONARP International Journal of Architecture and Planning, 7, 212-239.
TUİK (2023.03.23). İşgücü İstatistikleri. Access address (16.06.2023): https://data.tuik.gov.tr/Bulten/Index?p=Isgucu-Istatistikleri-2022-49390
TUİK (2023.05.11). Kent Kır Nüfus İstatistikleri. Access address (16.06.2023): https://data.tuik.gov.tr/Bulten/Index?p=Kent-Kir-Nufus-Istatistikleri-2022-49755
Tutal, O., & Topçu, M. (2018). Thinking with universal design in historical environment. ICONARP International Journal of Architecture and Planning, 6, 63-80.
Türkoğlu N. (2001). Türkiye’nin yüzölçümü ve nüfusunun deprem bölgelerine dağılışı [Distribution of Turkey's surface area and population to earthquake zones]. Ankara Üniversitesi Türkiye Coğrafyası Araştırma ve Uygulama Merkezi Dergisi. 133-148.
Wired (2016.01.29). Striking Photos of India’s Rapid, Chaotic Urbanization. Access address (04.10.2023): https://www.wired.com/2016/01/lars-mortensen-search-habitat/

APA	Koca G (2023). Earthquakes, sustainable settlements and traditional construction techniques. , 117 - 140. 10.47818/DRArch.2023.v4si114
Chicago	Koca Gülru Earthquakes, sustainable settlements and traditional construction techniques. (2023): 117 - 140. 10.47818/DRArch.2023.v4si114
MLA	Koca Gülru Earthquakes, sustainable settlements and traditional construction techniques. , 2023, ss.117 - 140. 10.47818/DRArch.2023.v4si114
AMA	Koca G Earthquakes, sustainable settlements and traditional construction techniques. . 2023; 117 - 140. 10.47818/DRArch.2023.v4si114
Vancouver	Koca G Earthquakes, sustainable settlements and traditional construction techniques. . 2023; 117 - 140. 10.47818/DRArch.2023.v4si114
IEEE	Koca G "Earthquakes, sustainable settlements and traditional construction techniques." , ss.117 - 140, 2023. 10.47818/DRArch.2023.v4si114
ISNAD	Koca, Gülru. "Earthquakes, sustainable settlements and traditional construction techniques". (2023), 117-140. https://doi.org/10.47818/DRArch.2023.v4si114

APA	Koca G (2023). Earthquakes, sustainable settlements and traditional construction techniques. Journal of Design for Resilience in Architecture and Planning, 4(Özel Sayı), 117 - 140. 10.47818/DRArch.2023.v4si114
Chicago	Koca Gülru Earthquakes, sustainable settlements and traditional construction techniques. Journal of Design for Resilience in Architecture and Planning 4, no.Özel Sayı (2023): 117 - 140. 10.47818/DRArch.2023.v4si114
MLA	Koca Gülru Earthquakes, sustainable settlements and traditional construction techniques. Journal of Design for Resilience in Architecture and Planning, vol.4, no.Özel Sayı, 2023, ss.117 - 140. 10.47818/DRArch.2023.v4si114
AMA	Koca G Earthquakes, sustainable settlements and traditional construction techniques. Journal of Design for Resilience in Architecture and Planning. 2023; 4(Özel Sayı): 117 - 140. 10.47818/DRArch.2023.v4si114
Vancouver	Koca G Earthquakes, sustainable settlements and traditional construction techniques. Journal of Design for Resilience in Architecture and Planning. 2023; 4(Özel Sayı): 117 - 140. 10.47818/DRArch.2023.v4si114
IEEE	Koca G "Earthquakes, sustainable settlements and traditional construction techniques." Journal of Design for Resilience in Architecture and Planning, 4, ss.117 - 140, 2023. 10.47818/DRArch.2023.v4si114
ISNAD	Koca, Gülru. "Earthquakes, sustainable settlements and traditional construction techniques". Journal of Design for Resilience in Architecture and Planning 4/Özel Sayı (2023), 117-140. https://doi.org/10.47818/DRArch.2023.v4si114