The Impact of Locally Available Materials on Architectural Heritage: Preliminary Findings from the Güzelşeyh Pavilion, Türkiye

Yıl 2024, Cilt: 14 Sayı: 2, 128 - 135

Felat Dursun

Öz

Understanding how local stones shaped material selection in historical structures is crucial for preserving architectural heritage and guiding conservation strategies. The current study examines the role of local materials in the construction and preservation of the Güzelşeyh Pavilion (GP), situated in the Çınar district of Diyarbakır, Türkiye. GP is unique not only for its use of basalt and limestone but also for combining these locally sourced stones into its architectural elements. This preliminary research assesses the pavilion's current condition and proposes possible stone sources for conservation. Located at the meeting point of volcanic rocks and Eocene limestones, the pavilion uses basalt for load-bearing elements and limestone for both decorative and structural components. The contrast between dark basalt and light limestone enhances its aesthetic appeal, while their combined application strengthens its durability. Fieldwork and laboratory studies, including mineralogical, petrographic, and geochemical analyses, were conducted to investigate the materials and their sources. Site investigations revealed that the pavilion, now largely in ruins, has suffered different forms of decay, particularly in its limestone components compared to the basalt. The analysis suggests nearby volcanic units as a probable source for the basalt, reflecting characteristics that closely match those of the region. Similarly, the limestone appears to align with materials sourced from quarries in Bağacık village, suggesting these quarries as a possible source for the pavilion’s limestone. By identifying these sources, the study offers practical guidance for conservation architects working to ensure the long-term preservation of the site.

Anahtar Kelimeler

Basalt, Limestone, Local material, Stone conservation, Güzelşeyh Pavilion

Kaynakça

• [1] F. Hafner, "On the perspective of the availability of ornamental rocks for the conservation of monuments," Zeitschrift der Deutschen Gesellschaft fur Geowissenschaften, vol. 158, no.4, pp. 695–700, 2007.
• [2] R. Přikryl and Á. Török, "Natural stones for monuments: their availability for restoration and evaluation," Geological Society, London, Special Publications, vol. 333, no. 1, pp. 1-9, 2010.
• [3] G. Lott, "Sourcing stone for the conservation and repair of historical buildings in Britain," Quarterly journal of engineering geology and hydrogeology, vol. 46, no. 4, pp. 405-420, 2013.
• [4] O. A. Nwoke and B. O. Ugwuishiwu, "Local bamboo and earth construction potential for provision of affordable structures in Nigeria," International Journal of Sustainable Construction Engineering and Technology, vol. 2, no. 2, 2011.
• [5] H. Danso, "Building houses with locally available materials in Ghana: benefits and problems," International Journal of Science and Technology, vol. 2, no. 2, pp. 225-231, 2013.
• [6] M. Gomez-Heras, B. J. Smith, and H. A. Viles, "Oxford stone revisited: causes and consequences of diversity in building limestone used in the historic centre of Oxford, England," Geological Society, London, Special Publications, vol. 333, no. 1, pp. 101-110, 2010.
• [7] A. Devos, G. Fronteau, O. Lejeune, C. Sosson, E. Chopin, and V. Barbin, "Influence of geomorphological constraints and exploitation techniques on stone quarry spatial organisation: Example of Lutetian underground quarries in Rheims, Laon and Soissons areas," Engineering Geology, vol. 115, no. 3-4, pp. 268-275, 2010
• [8] M. García-Rodriguez, M. García-Rodriguez, and M. Gomez-Heras, "Sierra de Guadarrama (Madrid, Spain): bridging the gap between geology and architecture," Special Publications, vol. 416, no. 1, pp. 101-112, 2016.
• [9] F. Diri Akyıldız, N. Şahin Güçhan, and Y. D. Aktaş, "Construction processes and techniques in traditional Birgi houses: a typical Ottoman settlement," Journal of Architectural Conservation, vol. 30, no. 1, pp. 77-102, 2024.
• [10] J. R. Senior, "The selection of dimension and ornamental stone types used in some northern monasteries—the exploitation and distribution of a natural resource," In: R. Gilchrist and H. Mytum (Eds.), Archaeology of Rural Monasteries, British Archaeological Reports (British Series), vol. 203.i, pp. 223–237, 1989.
• [11] D. Ergenç, E. Caner Saltık, and T. Topal, "Antique stone quarries in Turkey: a case study on tuffs in the Temple of Apollon Smintheus," Geological Society, London, Special Publications, vol. 416, no. 1, pp. 133-144, 2016.
• [12] A. Almssad, A. Almusaed, and R. Z. Homod, "Masonry in the context of sustainable buildings: A review of the brick role in architecture," Sustainability, 14(22):14734. https://doi.org/10.3390/su142214734, 2022
• [13] C. R. Ortloff, "The water supply and distribution system of the Nabataean city of Petra (Jordan), 300 BC–AD 300," Cambridge Archaeological Journal, vol. 15, no. 1, pp. 93-109, 2005.
• [14] S. M. Rababeh, How Petra Was Built: An analysis of the construction techniques of the Nabataean freestanding buildings and rock-cut monuments in Petra, Jordan, BAR Publishing, 2005.
• [15] F. Dursun, "From quarry to monument: considering Mardin stone (SE, Türkiye) as the symbol of architectural and cultural heritage," Geoheritage, vol. 16, no. 3, pp. 1-19, 2024.
• [16] L. C. Lancaster, "The process of building the Colosseum: the site, materials, and construction techniques," Journal of Roman Archaeology, vol. 18, pp. 57-82, 2005.
• [17] J. P. Protzen, "Stonemasonry of the Incas," in Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures, H. Selin, Ed., Dordrecht: Springer, 2014.
• [18] D. Jackson, J. Fleming, and A. Rowe, "Enabling the transfer of skills and knowledge across classroom and work contexts," Vocations and Learning, vol. 12, no. 3, pp. 459-478, 2019.
• [19] M. Vatan, "Evolution of construction systems: Cultural effects on traditional structures and their reflection on modern building construction," in Cultural Influences on Architecture, IGI Global, 2017, pp. 35-57.
• [20] R. Bellopede and A. Quartulli, Natural Stone and World Heritage: Itria Valley and Alberobello, Apulia Region, Italy, CRC Press, 2024.
• [21] Diyarbakır Regional Board, Archive of Registration Records, Diyarbakır Regional Board for the Conservation of Cultural Heritage, 1990.
• [22] M. Tekin Bayram, The Conservation and Restoration Proposal of Diyarbakır Güzelşeyh Pavilion, M.Sc. thesis, Dept. of Architecture, Dicle Univ., 2022.
• [23] S. Yariş, "Ornament features of Güzelşeyh Pavilion," Palmet Dergisi, vol. 2, pp. 106-128, 2022.
• [24] İ. Yıldız, Z. Erdal, and D. Yıldız, "Cultural assets in Çınar district," in A District at the Crossroads of Civilisations: Çınar, Y. K. Haspolat, Ed., Çınar District Governorship Publications, 2015.
• [25] M. Tekin Bayram and G. Oğuz, "Documentation of the Güzelşeyh Pavilion in Çınar, Diyarbakır," in Built Environment Assessments, H. Demir Kayan, Ed., Nobel Publications, 2022.
• [26] S. Bağırsakçı et al., "Diyarbakır-Ergani ve Çınar Alanın Jeolojisi," Ankara, 1995.
• [27] E. Yılmaz and O. Duran, "Lexicon: A guide for stratigraphic nomenclature of the autochthonous and allochthonous units in the southeast Anatolian region," Turkish Petroleum Corporation Educational Publication, 1997.
• [28] MTA, "1:100.000 scale geological maps of Turkey, Sheet No: M44, Report No: 68," General Directorate of Mineral Research and Exploration, Geology Department, 2008.
• [29] Y. Yılmaz, "New evidence and model on the evolution of the southeast Anatolian Orogen," Geological Society of America Bulletin, vol. 105, pp. 251–271, 1993.
• [30] A. I. Okay, "Geology of Turkey: a synopsis," Anschnitt, vol. 21, pp. 19–42, 2008.
• [31] F. Dursun, E. D. Oğuz-Kırca, V. Toprak, and A. Coşkun, "Reconstruction of an ancient hill used as an On-Site quarry: Castrum Zerzevan (SE-Türkiye)," Int. J. Architectural Herit., pp. 1–19, 2023. Available: https://doi.org/10.1080/15583058.2023.2268015
• [32] A. Haksal, "Petrographie und Geochemie des Schildvulkans Karacadağ," Ph.D. dissertation, Hamburg University, 1981. (Unpublished)
• [33] T. Ercan, F. Şaroğlu, N. Turhan, J. I. Matsuda, T. Ui, T. Fujitani, ... and H. Gürler, "Karacadağ volkanitlerinin jeolojisi ve petrolojisi," Türkiye Jeoloji Bülteni, vol. 6, pp. 118-133, 1991.
• [34] R. Westaway, H. Guillou, A. Seyrek, T. Demir, D. Bridgland, S. Scaillet, and A. Beck, "Late Cenozoic Surface Uplift, Basaltic Volcanism, and Incision by the River Tigris Around Diyarbakır, SE Turkey," Int. J. Earth Sci., vol. 98, no. 3, pp. 601–625, 2009.
• [35] M. Lustrino, M. Keskin, M. Mattioli, V. A. Lebedev, A. Chugaev, E. Sharkov, and O. Kavak, "Early activity of the largest Cenozoic shield volcano in the circum-Mediterranean area: Mt. Karacadag, SE Turkey," European Journal of Mineralogy, vol. 22, no. 3, p. 343, 2010.
• [36] F. Koçbulut, Z. Akpınar, O. Tatar, J. D. Piper, and A. P. Roberts, "Palaeomagnetic study of the Karacadağ Volcanic Complex, SE Turkey: monitoring Neogene anticlockwise rotation of the Arabian Plate," Tectonophysics, vol. 608, pp. 1007–1024, 2013.
• [37] P. Gay and R. W. LeMaitre, "Some Observations on Iddingsite," The American Mineralogist, vol. 46, pp. 92-111, 1961.
• [38] R. A. Eggleton, "Formation of Iddingsite Rims on Olivine: A Transmission Electron Microscope Study," Clays and Clay Minerals, vol. 32, no. 1, pp. 1-11, 1984.
• [39] A. Raza, M. Mahmoud, M. Murtaza, M. Arif, A. Hassan, G. Glatz, ... and A. Al-Karnos, "Experimental investigation of mafic rocks for carbon mineralization prospect," Energy & Fuels, vol. 37, no. 8, pp. 5976-5985,2023.
• [40] D. Goldberg and A. L. Slagle, "A global assessment of deep-sea basalt sites for carbon sequestration," Energy Procedia, vol. 1, no. 1, pp. 3675-3682, 2009.
• [41] H. T. Schaef, B. P. McGrail, and A. T. Owen, "Carbonate mineralization of volcanic province basalts," International Journal of Greenhouse Gas Control, vol. 4, no. 2, pp. 249-261, 2010.
• [42] M. Lustrino, M. Keskin, M. Mattioli, and O. Kavak, "Heterogeneous mantle sources feeding the volcanic activity of Mt. Karacadağ (SE Turkey)," Journal of Asian Earth Sciences, vol. 46, pp. 120-139, 2012.
• [43] P. López-Arce, J. García-Guinea, D. Benavente, L. Tormo, and E. Doehne, "Deterioration of dolostone by magnesium sulphate salt: An example of incompatible building materials at Bonaval Monastery, Spain," Construction and Building Materials, vol. 23, no. 2, pp. 846-855, 2009.
• [44] J. Martínez-Martínez, A. Pola, L. García-Sánchez, G. Reyes Agustin, L. S. Osorio Ocampo, J. L. Macías Vázquez, and J. Robles-Camacho, "Building stones used in the architectural heritage of Morelia (México): quarries location, rock durability and stone compatibility in the monument," Environmental Earth Sciences, vol. 77, pp. 1-16, 2018