Abstract
Extracted from Şanlıurfa Province in Turkey, Urfa limestone is one of the limestone types that can be nominated to Global Heritage Stone Resource (GHSR). It has been used since the Neolithic Period (i.e., approximately 12,000 years ago) in world-renowned Göbekli Tepe Cultural Center in Urfa. In this study, a research has been conducted on the candidacy potential of Urfa limestone for Global Heritage Stone Resource (GHSR). Urfa limestone, which was used as a building block as of the Neolithic Period and in the first temple built in Anatolia, was also the building block of Göbekli Tepe. The use of Urfa limestone in Soğmatar Ancient City (second century AD), Şuayb City, Harran Ulu Mosque, Urfa Ulu Mosque (St. Stephan Church), Reji Church, sculptures, and Şanlıurfa’s traditional city texture in houses, inns, castles, walls, gates, and bridge structures was investigated along with the use in Göbekli Tepe. The use of Urfa limestone in historical buildings and today’s buildings was investigated along with the use in Göbekli Tepe. The engineering characteristics of the building blocks in which Göbekli Tepe was built were examined. A series of engineering characterization tests and analyses were made on the building block samples regarding mineralogical and petrographic properties (polarize microscope, XRD, and SEM), and chemical (XRF), physico-mechanical, petrophysical, and insulation properties (TG and DTA analysis). Urfa limestone is in crystallized form and has a sparite texture containing 55.86% CaO and 0.36% SiO2. The Δ (change of characteristics in percentages) values in petrophysical characteristics were between 1.23 and 18.72%, and the Δ values after salt crystallization test were between 3.78 and 31.67%. According to this characteristics change (Δ%), it is more resistant to degradation compared with other natural stones originating from calcium carbonate. According to SEM Analysis, it was determined that it has a high insulation characteristic in the structure of Urfa limestone because it is contactless among pores. The usage performance of Urfa limestone in Göbekli Tepe, and in historical buildings and today’s buildings has been proven to be good according to engineering characterization tests. Urfa limestone fulfills all requirements for Global Heritage Stone Resource (GHSR) designation.
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References
Agan C (2016) A preliminary study on the conservation and polishing performance of Şanlıurfa limestones as a traditional building material. Bulletin of Engineering Geology and the Environment 75:13–25
Agan C, Yesilnacar MI, Genis M, Kulaksiz S, Ulusay R, Aydan O, Yucel MD (2013) A preliminary geoengineering assessment of Bazda antique underground quarries in Şanlıurfa, Turkey. The Proceeding book of the ISRM International Symposium: Rock Mechanics for Resources, Energy, and Environment (EUROCK 2013), pp. 93-98
Akbaş B, Akdeniz N, Aksay A, Altun İ, Balcı V, Bilginer E, Bilgiç T, Duru M, Ercan T, Gedik İ, Günay Y, Güven İH, Hakyemez HY, Konak N, Papak İ, Pehlivan Ş, Sevin M, Şenel M, Tarhan N, Turhan N, Türkecan A, Ulu Ü, Uğuz MF, Yurtsever A (2002) ve diğerleri, Türkiye Jeoloji Haritası Maden Tetkik ve Arama Genel Müdürlüğü Yayını. Ankara Türkiye
Akin M, Özsan A (2011) Evaluation of the long-term durability of yellow travertine using accelerated weathering tests. Bulletin of Engineering Geology and the Environment 70(1):101–114
Albayrak Y (2015) Soğmatar Kült Merkezi İle İlgili Yeni Öneriler. Belgü 2:253–268
Başgelen N (2015) Nevali Çori/Veba Vadisi’nden Göbekli Tepe’nin Dilek Ağacına: Klaus Schmidt. Aktüel Arkeoloji Dergisi 46:30–37
Bayram F (2012) Predicting mechanical strength loss of natural stones after freeze–thaw in cold regions. Cold Reg Sci Technol 83:98–102
Benavente D, del Cura MG, Bernabéu A, Ordóñez S (2001) Quantification of salt weathering in porous stones using an experimental continuous partial immersion method. Engineering Geology 59:313–325
Bucak E, Schmidt K (2003) Dünyanın en eski heykeli. Atlas 127:36–40.
Çanakci H, Demirboğa R, Karakoç MB, Şirin O (2007) Thermal conductivity of limestone from Gaziantep (Turkey). Building and environment 42:1777–1782
Cooper BJ, Marker BR, Pereira D, Schouenborg B (2013) Establishment of the “Heritage Stone Task Group” (HSTG). Episodes 36:8–10
Dietrich O, Notroff J, Schmidt K (2015) Göbekli Tepe–ein exzeptioneller Fundplatz des frühesten Neolithikums auf dem Weg zum Weltkulturerbe. In Anatolien-Brücke der Kulturen. Aktuelle Forschungen und Perspektiven in den deutsch-türkischen Altertumswissenschaften. Tagungsband des Internationalen Symposiums, Anatolien–Brücke der Kulturen “in Bonn, Deutsches Bergbaumuseum Bochum, pp. 91-109
EN 12370 (2001) Natural stone test methods- determination of resistance to salt crystallisation. Turkish Standards Institute, p. 5
EN 12371 (2011) Natural stone test methods—determination of frost resistance, Turkish Standards Institute, p. 8
EN 13161 (2014) Natural stone test methods-determination of flexural strength under constant moment, Turkish Standards Institute, pp. 14
EN 13755 (2006) Natural stone test methods – determination of water absorption at atmospheric pressure, Turkish Standards Institute, pp.3.
EN 14157 (2017) Natural stone test methods - determination of the abrasion resistance, Turkish Standards Institute; pp. 19.
EN 14158 (2004) Natural stone test methods - determination of rupture energy, Turkish Standards Institute; pp. 8
EN 14205 (2004) Natural stone test methods - determination of Knoop hardness, Turkish Standards Institute, pp. 11
EN 14579 (2006) Natural stone test methods – determination of sound speed propagation, Turkish Standards Institute; pp. 13
EN 1925 (2000) Natural stone test methods- determination of water absorption coefficient by capillarity, Turkish Standards Institute, pp. 9
EN 1926 (2006) Natural stone test methods-determination of compressive strength, Turkish Standards Institute, pp. 10.
EN 1936 (2007) Natural stone test methods: determination of real density and apparent density, and of total and open porosity, Turkish Standards Institute; pp. 13.
Ergenç D, Saltık ENC and Topal T (2015) Antique stone quarries in Turkey: a case study on tuffs in the temple of Apollon Smintheus, in: Prikryl, et al. (eds) Sustainable use of traditional geomaterials in construction practice Geological Society, London, Special Publications, 416, 14
Freire-Lista DM, Fort R (2019) Historical city centres and traditional building stones as heritage: Barrio de las Letras. Madrid (Spain). Geoheritage 11:71–85
Freire-Lista DM, Fort R, and Varas-Muriel MJ (2015) Alpedrete Granite (spain). A nomination for the “Global Heritage Stone Resource” designation. Episodes, v. 38, pp. 106-113
Gökçe MV, İnce İ, Fener M, Taşkıran T, Kayabali K (2016) The effects of freeze–thaw (F–T) cycles on the Gödene travertine used in historical structures in Konya (Turkey). Cold Reg Sci Technol 127:65–75
Gonçalves TD, Brito V (2014) Alteration kinetics of natural stones due to sodium sulfate crystallization: can reality match experimental simulations. Environ Earth Sci 72:1789–1799
Gruescu C, Giraud A, Homand F, Kondo D, Do DP (2007) Effective thermal conductivity of partially saturated porous rocks. International Journal of Solids and Structures 44:811–833
Heidari M, Torabi-Kaveh M, Mohseni H (2017) Assessment of the effects of freeze–thaw and salt crystallization ageing tests on Anahita Temple Stone, Kangavar, West of Iran. Geotech Geol Eng 35:121–136
Hughes T, Lott GK, Poultney MJ, Cooper BJ (2013) Portland Stone: a nomination for “Global Heritage Stone Resource” from the United Kingdom. Episodes 36:221–226
Jennings S, Hasterok D, Payne J (2019) A new compositionally based thermal conductivity model for plutonic rocks. Geophysical Journal International 219:1377–1394
Kaur G, Singh S, Kaur P, Garg S, Pandit MK, Agrawal P, Ahuja A (2019) Vindhyan Sandstone: a crowning glory of architectonic heritage from India. Geoheritage 11:1771–1783
Kazancı N, Gürbüz A (2014) Jeolojik miras nitelikli Türkiye doğal taşları. Türkiye Jeoloji Bülteni/Geological Bulletin of Turkey 57:19–44
Korkanç M (2018) Characterization of building stones from the ancient Tyana aqueducts, Central Anatolia, Turkey: implications on the factors of deterioration processes. Bulletin of Engineering Geology and the Environment 77:237–252
Kürkçüoğlu S, Erkol G (2013) Şanlıurfa Kültür ve İnanç Turizm Potansiyelinin Değerlendirilmesi. Uluslar arası İnanç Turizmi ve Hoşgörü Konferansı, Necmettin Erbakan Üniversitesi, Konya. 813 p.
Kurt AO, Göler ME (2017) Anadolu’da İlk Tapınak: Göbekli Tepe. Cumhuriyet İlahiyat Dergisi 21:1107–1138
Martínez-Martínez J, Benavente D, Gomez-Heras M, Marco-Castaño L, Ángeles Garcíadel-Cura M (2013) Non-linear decay of building stones during freeze–thaw weathering processes. Constr Build Mater 38:443–454
Matovic V, Eric S, Sreckovic-Batocanin D, Colomban P, Kremenovic A (2014) The influence of building materials on salt formation in rural environments. Environ Earth Sci 72(6):1939–1951
Navarro R, Pereira D, Cruz AS, Carrillo G (2019) The significance of “white macael” marble since ancient times: characteristics of a candidate as global heritage stone resource. Geoheritage 11:113–123
Özalp, H., 2016, What does Gobeklitepe, humanity’s oldest temple, tell us theologically, Bilimname, 74 p.
Park J, Hyun C-U, Park H-D (2015) Changes in microstructure and physical properties of rocks caused by artificial freeze–thaw action. Bull Eng Geol Environ 74:555–565
Pereira D, Cooper BJ (2014) Building stone as a part of a World Heritage Site:‘Piedra Pajarilla’Granite and the city of Salamanca, Spain. Geological Society, London, Special Publications 391:7–16
Pereira D, Tourneur F, Bernáldez L, Blazquez G (2015) Petit Granit: A Belgian limestone used in heritage, construction and sculpture. Episodes 38:85–90
Popov YA, Pribnow DF, Sass JH, Williams CF, Burkhardt H (1999) Characterization of rock thermal conductivity by high-resolution optical scanning. Geothermics 28:253–276
Relea E, Weiss L, Wegener K (2019) Experimental study on the geometrical and dimensional stability of natural stone sorts for precision machinery. Procedia CIRP 80:89–94
Robertson EC (1982) Physical properties of building stones. National Academy Press, Washington, 86 p
Ruedrich J, Kirchner D, Siegesmund S (2011) Physical weathering of building stones induced by freeze–thaw action: a laboratory longterm study. Environ Earth Sci 63:1573–1586
Sarıışık A and Derin P (2015) Urfa taşı ve Mardin taşının, binalarda yapı elemanı olarak kullanılmasında ekolojik özelliklerinin karşılaştırılması. 5. Madencilik ve Çevre Sempozyumu Bildiri Kitabı, Antalya.
Sarıışık A, Sarıışık G (2016a) Investigation of engineering characteristics of Urfa Stone used in restoration. Proceeding of 16th International Symposium on Environmental Issues and Waste Management in Energy and Mineral Production, İstanbul
Sarıışık A, Sarıışık G (2016b) Investigation of engineering characteristics of Mardin Stone used in eco-building. Cogent Engineering 3:1–13
Sarıışık A, Sarıışık G, Senturk A (2010) Characterization of physical and mechanical properties of natural stones affected by ground water under different ambient conditions. Ekoloji 19(77):88–96
Scham S (2008) The world’s first temple: Turkey’s 12,000-year-old stone circles were the spiritual center of a nomadic people. Archaeology 61(6):22–27
Schimdt K (2012) Anatolia, A companion to the archaelogy of ancient Near East, Blackwell, 160 p
Schmidt K (2003) The 2003 Campaign at Göbekli Tepe (Southeastern Turkey). Neo-lithics 2(03):3–8
Schmidt K (2007a) “Göbekli Tepe”, Türkiye’de Neolitik Dönem içinde, ed. Nezih Başgelen ve Mehmet Özdoğan (İstanbul: Arkeoloji ve Sanat Yay., 115 p
Schmidt, K., (2007b) Göbekli Tepe En Eski Tapınağı Yapanlar, trc. Rüstem Aslan (İstanbul: Arkeoloji ve Sanat Yayınları), 107p
Schmidt K (2010) Göbekli Tepe–the Stone Age sanctuaries. New results of ongoing excavations with a special focus on sculptures and high reliefs. Documenta Praehistorica 37:239–256
Shahidzadeh-Bonn N, Desarnaud J, Bertrand F, Chateau X, Bonn D (2010) Damage in porous media due to salt crystallization. Phys Rev E 81:066110
Sharma PK, Khandelwal M, Singh TN (2007) Variation on physico-mechanical properties of Kota stone under different watery environments. Building and Environment 42:4117–4123
Shi W, Wu Y, Wu L (2007) Quantitative analysis of the projectile impact on rock using infrared thermography. International Journal of Impact Engineering 34:990–1002
Siegesmund S, Ullemeyer K, Weiss T, Tschegg EK (2000) Physical weathering of marbles caused by anisotropic thermal expansion. International Journal of Earth Sciences 89:170–182
Sinclair TA (1990) Eastern Turkey: an architectural & archaeological survey, Volume IV (Vol. 4). Pindar Press
Singh TN, Singh SK, Mishra A, Singh PK, Singh VK (1999) Effect of acidic water on physico-mechanical behaviour of rock. Indian Journal of Engineering and Materials Sciences (IJEMS) 6:66–72
Sirdesai NN, Mahanta B, Ranjith PG, Singh TN (2019) Effects of thermal treatment on physico-morphological properties of Indian fine-grained sandstone. Bulletin of Engineering Geology and the Environment 78:883–897
Sousa L, Lourenço J, Pereira D (2019) Suitable re-use of abandoned quarries for restoration and conservation of the old city of Salamanca—World Heritage site. Sustainability 11:4352
Thaulow N, Sahu S (2004) Mechanism of concrete deterioration due to salt crystallization. Materials Characterization 53:123–127
Thomas IA, Cooper BJ (2015) Hierarchical approaches toward safeguarding heritage building stone resources in England and Wales. In Engineering Geology for Society and Territory 5:313–318
Turgut P, Yesilnacar MI, Bulut H (2008) Physico-thermal and mechanical properties of Şanlıurfa limestone, Turkey. Bulletin of Engineering Geology and the Environment 67:485–490
Vosteen HD, Schellschmidt R (2003) Influence of temperature on thermal conductivity, thermal capacity and thermal diffusivity for different types of rock. Physics and Chemistry of the Earth, Parts A/B/C 28:499–509
Winkler EM (1973) Ancient building material. (Book Reviews: Stone. Properties, Durability in Man’s Environment). Science, 838 p
Zedef V, Koçak K, Döyen A, Özsen H, Kekeç B (2007) Effect of salt crystallization on stones of historical buildings and monuments, Konya, Central Turkey. Build Environ 42:1453–1457
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Tel, H.Ö., Sarıışık, G. Research on some effective properties in nomination of Urfa Limestone to the “Global Heritage Stone Resource” designation. Arab J Geosci 13, 958 (2020). https://doi.org/10.1007/s12517-020-05948-w
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DOI: https://doi.org/10.1007/s12517-020-05948-w