Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution

Kapur, Selim; Kadir, Selahattin; kelling, gilbert; Akça, Erhan; Topaksu, Mustafa; SAKARYA, Necdet; Yegingil, Zehra; Eren, Muhsin; FITZPATRICK, Ewart Adsil

doi:10.55730/1300-0985.1861

Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution

Selim KAPUR, (Çukurova Üniversitesi, Ziraat Fakültesi, Toprak Bilimi ve Arkeometri Bölümü, Adana, Türkiye)

Selahattin KADİR, (Eskişehir Osmangazi Üniversitesi, Mühendislik Fakültesi, Jeoloji Mühendisliği Bölümü, Eskişehir, Türkiye)

gilbert kelling, (Geology and Environmental Science, School of Geography, University of Keele, Keele, UK)

Erhan AKÇA, (Adıyaman Üniversitesi, Teknik Bilimler Yüksekokulu, Adıyaman, Türkiye)

Mustafa TOPAKSU, (Çukurova Üniversitesi, Fen-Edebiyat Fakültesi, Fizik Bölümü, Adana, Türkiye)

Necdet SAKARYA, (Çukurova Üniversitesi, Güzel Sanatlar Fakültesi, Seramik Bölümü, Adana, Türkiye)

Zehra YEĞİNGİL, (Çukurova Üniversitesi, Fen-Edebiyat Fakültesi, Fizik Bölümü, Adana, Türkiye)

Muhsin EREN, (Mersin Üniversitesi, Mühendislik Fakültesi, Jeoloji Mühendisliği Bölümü, Mersin, Türkiye)

Ewart Adsil FITZPATRICK (University of Aberdeen, School of Biological Sciences, Department of Plant and Soil Science, Aberdeen, UK)

Turkish Journal of Earth Sciences

9 0

Yıl: 2023 Cilt: 32 Sayı: 4 Sayfa Aralığı: 555 - 576 Metin Dili: İngilizce DOI: 10.55730/1300-0985.1861 İndeks Tarihi: 31-07-2023

Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution

Öz:

This review is concerned with some key features observed within grouped samples of ancient ceramics that provide important evidence concerning the selection of appropriate raw materials and the evolution of the firing technologies employed in their production. It also demonstrates the importance of distinguishing and accounting for the mineralogical and microstructural attributes and identifying the processes responsible for the microstructural evolution of these ancient ceramics. The mineralogy largely reflects both the nature of the raw materials used and the maximum temperatures achieved during firing, deduced from the presence of specific high temperature minerals (HTMs). The microstructural evolution processes, deduced by the micromorphology of these ancient ceramics and displayed in specific features, observed in both the matrix and the slip of these ceramics, are largely controlled by the firing methods used in manufacturing. Thus, we conclude that the application of micromorphological principles, methods, and observations derived from the broad sphere of “pedology” to the study of ancient ceramics, provides valuable insights into the independent evolution of ceramic production methods in ancient societies. Thus, most of the observations recorded here concern identification of the raw materials used to make ancient ceramics and the firing processes used in their manufacture. Our data demonstrate that these ancient potters made use of a variety of temper materials (quartz and chaff, together with fragments of locally available rocks and minerals) that are now preserved in the matrix. Furthermore, analyses of the micromorphological attributes displayed by these ancient ceramics are helpful in determining and explaining the shrinkage features (stress coatings or poro-striated b-fabrics) and the preferred orientation of the elongated pores that have developed after firing in poorly controlled and slow-fired furnaces. In this regard, we finally seek to develop a useful data library ultimately targeting the enhancement of simulated ancient ceramic/pottery production, with an overall objective to apply the mineralogical and pedological properties of Anatolian ceramics researched in this work to globally selected shard specimens. Postburial processes, such as the illuviation-deposition of clay minerals to form the observed clay coatings, probably operated during the wet-dry cycles associated with mid-late Holocene climatic fluctuations. Accompanying calcification-decalcification processes, which may result from an intra cramic leaching-deposition of carbonate present in the source material of the pottery, are also consistent with the known wet-dry cycles of the mid to late Holocene pedogenesis (soil formation) episode and is reflected in the clay coatings and further attested by coeval changes in the soil-faunal activity.

Anahtar Kelime: Ancient ceramics fired shards mineralogy micromorphology pedology raw material sources

Belge Türü: Makale Makale Türü: Derleme Erişim Türü: Erişime Açık

Akça E, Kapur S, Özdöl S, Hodder I, Poblome J et al. (2009a). Clues of production for the Neolithic Çatalhöyük pottery. Scientific Research and Essay 4: 612–625.
Akça E, Arocena J, Kelling G, Nagano T, Degryse P et al. (2009b). Firing temperatures and raw material sources of ancient Hittite ceramics of Asia Minor. Transactions of the Indian ceramic society 68: 35–40.
Akça E, Arocena J, Kılıç S, Dingil M, Kapur S (2010). Preliminary chemical and micromorphological observations on Urartu (800–600 BC) ceramics, Eastern Turkey. Geoarchaeology 25: 233–244.
Atasoy N, Raby J (1989). İznik: The pottery of Ottoman Turkey. Alexandria Press, under the auspices of the Institute of Social Sciences, Istanbul University and the patronage of the Türk Ekonomi Bankası, İstanbul, Turkey.Atay Z (2000). Dating of the ceramics from Karatepe by thermoluminescence (TL) and optically simulated luminescence (OSL) techniques. Unpublished MSc Thesis, Çukurova University, Institute of Natural and Applied Sciences. Adana, Turkey (in Turkish).
Çambel H, Kapur S, Karaman C, Akça E, Kelling G et al. (1996). Source determination of the Late Hittite basalt sculptures, reliefs, orthostats and inscriptions of Karatepe-Aslantaş and Domuztepe, Cilicia-Southern Anatolia. In: Archaeometry '94 Meeting, The Proceedings of the 29th International Symposium on Archaeometry, Eds. Demirci Ş, Özer AM, Summers GD. 575–584.
Cabadas-Baez HV, Sedov S, del Pilar Jiménez-Álvarez S, Leonard D, Lailson-Tinoco B et al. (2018). Soils as a source of raw materials for ancient ceramic production in the Maya region of Mexico: Micromorphological insight. Boletín de la Sociedad Geológica Mexicana 21–48.
Cereda S, Fragnoli P (2021). Petrography and Micromorphology Face-to-Face: the Potential of Multivocality in the Study of Earth-Based Archaeological Materials. Interdisciplinaria Archaeologica, natural sciences in archaeology. XII/1, Online First. Natural Sciences in Archaeology
Davidson DA, Shackley ML (1976). Geoarchaeology: Earth Science and the Past. Westview Press, Boulder, Colorado.
De Bonis A, Cultrone G, Grifa C, Langella A, Morra V (2014). Clays form the Bay of Naples (Italy): New insights on ancient and traditional ceramics. Journal of the European Ceramic Society 34: 3229–3244.
De Meester T (1970). Soils of the Great Konya Basin, Turkey. Centre for Agricultural Publication and Documentation (PUDOC), Wageningen, the Netherlands. P. 304.
Dergyse P, Poblome P (2008). Clays for mass production of table and common wares, amphorae and architectural ceramics at Sagalassos. Sagalassos VI, Geo- and Bio-Archaeology at Sagalassos and in its Territory. ISBN 978905867661 0-Leuven University Press, 231–254.
Erol O (1979). Quaternary geomorphology and geology. University of Ankara, Faculty of Linguistics, History and Geography, Publication No. 289, 66 p (in Turkish).
Fedoroff N, Courty MA (2013). Revisiting the genesis of red Mediterranean soils. Turkish Journal of Earth Sciences 22: 359–375. https://doi.org/10.3906/yer-1205-10
FitzPatrick EA (1972). Pedology. Hafner pub. Com. Inc., NewYork, USA.FitzPatrick EA (1993). Soil microscopy and micromorphology. John Wiley and Sons.
Freestone IC, Yeğingil Z, Arık R (2009). Scientific Analysis of Glazed Tile from the Seljuq Palace of Kubad-ed-din Bey. In: McCarthy B, Chase ES, Cort LA, Douglas JG, Jett P (eds), Scientific Research On Historic Asian Ceramics: Proceedings of the Fourth Forbes Symposium at the Freer Gallery of Art. (pp. 3–8).
Goldberg, P. (1983). Applications of micromorphology in archaeology. In: Bullock P. and Murphy C.P. (Eds). Soil Micromorphology, A B Academic Press, Berkhamsted, 139-150.
Murphy CP (Eds), Soil Micromorphology, A B Academic Press, Berkhamsted, 139–50.
Henderson J (1989). Technical aspects of the İznik ceramics. In: İznik, J. Raby and N. Atasoy (Eds), Alexander Press, 64-69.
IUSS Working Group WRB (2022). World Reference Base for Soil Resources. International soil classification system for naming soils and creating legends for soil maps. 4th edition. International Union of Soil Sciences (IUSS), Vienna, Austria.
Jackson ML (1979). Soil chemical analysis: Advanced course. 2nd edition. Published by the author, Madison Wisconsin, pp. 895.
Kapur S, Bayır V (1981). The use of X-ray diffractometry in İkiztepe ceramics and source clays. Proceedings of the 2nd Meeting of the Archaeometry Working Group of TUBITAK (Tur. Sci. And Tech. Res. Council), 2-3 May 1981, Boğaziçi University Press, 23–35 (in Turkish).
Kapur S, Çavuşgil VS, Şenol M, Gürel N, FitzPatrick EA (1990). Geomorphology and pedogenic evolution of Quaternary calcretes in the Northern Adana Basin. Zeitschrift für Geomorhologie 34: 45–59.
Kapur S, Dinç U, Cangir C (1991). Inherited smectitic nodules in Basaltic Soils. Turkish Journal of Engineering and Environmental Science DOĞA-TUBITAK 15: 259–264.
Kapur S, Sakarya N, FitzPatrick EA (1992). Mineralogy and Micromorphology of Chalcolithic and early Bronze- age İkiztepe ceramics. Geoarchaeology 4: 327–337.
Kapur S, Sakarya N, FitzPatrick EA (1993). Fibrous minerals in 16th Century İznik ceramics. Geoarchaeolgy 8: 333–337.
Kapur S, Sakarya N, Karaman C, FitzPatrick EA, Pagliai M (1995). Micromorphology of basaltic ceramics. British Ceramic Transactions 94: 33–37.
Kapur S, Sakarya N, FitzPatrick EA, Pagliai M, Kelling G et al. (1998). Mineralogy and Micromorphology of İznik Ceramics. Anatolian Studies. Journal of the British Institute of Archaeology at Ankara 48: 181–189.
Kapur S, Akça E, Günal H (2018). Soils of Turkey. World Soils Book Series. Springer International Publishing AG. http://doi. org/10.1007/978-3-319-64392-2
Kelling G, Kapur S, Sakarya N, Akça E, Karaman C et al. (2000). Basaltic tephra: potential new source for ceramic industry. British Ceramic Transactions 99: 129–136.
Kelling G, Kadir S, Kapur S, Eren M (2020). Provenance of the materials used to make some
Late Hittite Monuments at the Karatepe-Aslantaş and Domuztepe sites, Cilicia (southern Turkey). Archaeological and Anthropological Sciences 12. http://doi.org/10.1007/s12520- 020-01232-w
Kılıç S, Çalışkan N (2005). Determination of the clay mineral assemblages of the prehistoric pottery of the Van Basin by XRD analysis. Proceedings of the 12th National Clay Symposium, Sep. 5-9, 2005, Van, pp. 110–120.
Kızılaslanoğlu A (2013). Micromorphology of a group of Bronze Age study draft pottery from Gözlükule excaInvation. Publ. of the Suna & İnan Kıraç Foundation Research Institute on Mediterranean Civilizations, Vehbi Koç Foundation, ISBN 978-605-4701-278, pp. 25–38 (in Turkish).
Kreimeyer R (1987). Some notes on the firing colour of clay bricks. Applied Clay Science 2: 175–183.
Maggetti M, Neururer C, Ramseyer D (2011). Temperature evolution inside a pot during experimental surface (bonfire) firing. Applied Clay Science 53: 500–508.
Maniatis Y, Tite MS (1981). Technological examination of Neolithic- Bronze age pottery from Central and Southeastern Europe and Near East. Journal of Archaeological Sciences 8: 59–76.
Maritan L (2017). Ceramic materials. In: Stoops G, Nicosia C (eds), Archaeological soil and sediment micromorphology. https:// doi.org/10.1002/9781118941065.ch25
Mélanie Roffet-Salque M, Marciniak A, Valdes PJ, Pawłowska K, Pyzel J et al. (2018). Evidence for the impact of the 8.2-kyBP climate event on Near Eastern early farmers. PNAS August 28, 2018 115 (35) 8705-8709; first published August 13. https://doi. org/10.1073/pnas.1803607115 (2018).
Mermut AR, Jongerius A (1980). A micromorphological analysis of regrouping phenomena in some Turkish soils. Geoderma 24: 159–175.
Mermut AR, Montanarella L, FitzPatrick EA, Eswaran H, Wilson M et al. (2004). Excursion Book, 20-26 Sep. 2004. 12th International Meeting on Soil Micromorphology. European Commission, Joint Research Centre, EUR 21275 EN/1, European Communities, 2004, Printed in Italy, p. 58.
Molera J, Pradell T, Vendrell-Saz M (1998). The colors of Ca-rich ceramic paste: Origin and characterization. Applied Clay Science 13: 187–202.
Müller NS, Kilikoglou V, Day PM, Hein A, Vekinis G (2009). The influence of temper on performance characteristics of cooking ware ceramics. EMAC’07 Budapest-vessels: inside and outside, 145–149.
Nicholson PT, Shaw I (2000). Ancient Egyptian Materials and Technology. American Journal of Archaeology 105 (2). http:// doi.org/10.2307/507283
Nicosia C, Stoops G (eds) (2017). Archaeological Soil and Sediment Micromorphology. John Wiley & Sons, Chichester.
Özcan F (1992). Mineralogic and micromorphologic properties of Iznik ceramics. MSc Thesis of the Dept. of Archaeometry, Ins. of Natural and Applied Sciences, University of Çukurova. Code: 579. 50 P (in Turkish).
Özçatal M, Yaygıngöl M, İssi A, Karac A, Turan S et al. (2014). Characterization of lead glazed potteries from Smyrna (İzmir/ Turkey) using multiple analytical techniques; Part II: Body. Ceramic International 40, 2153–2160.
Peacock DPS (1970). The scientific analysis of ancient ceramics: a review. World Archaeology 1: 375–389.
Peacock DPS (1977). Pottery and early commerce. London Academic Press.
Prehistoric Ceramics Research Group (PCRG) (2010). The study of Prehistoric Pottery: General policies and guidelnes for analysis and publication. Occasional papers 1 & 2. 3 rd edition revised. 78 p.
Rasmussen KL, De La Fuente GA, Bond AD, Matheesen KK, Vera SD (2012). Pottery firing temperatures: a new method for determining the firing temperature of ceramics and burnt clay. Journal of Archaeological Science 39: 1705–1716.
Sakarya B (1999). The archaeometric study of the mineralogical and micromorphological differences of the Seljuk and Ottoman Tiles. MSc Thesis of the Dept. of Archaeometry, Ins. of Natural and Applied Sciences, University of Çukurova. FBE.98YL 24, 202 p (in Turkish).
Sakarya N, Kapur S, FitzPatrick EA (1990). Preliminary study of the microstructure and mineralogy of 12 th and 13 th century ceramics, Samsat, southeastern Turkey. Geoarchaeology 5: 275–281.
Stoops G (2003). Guidelines for analysis and description of soil and regolith thin sections. Published by the Soil Science Society of America, Inc., Madison, Wisconsin, USA, P.184.
Şimşek G, Colombana P, Milande V (2010). Tentative differentiation between Iznik tiles and copies with Raman spectroscopy using both laboratory and portable instruments. Journal Raman Spectroscopy 41: 529–536. (www.interscience.wiley.com) http://doi.org/10.1002/jrs.2478
Tite MS, Maniatis Y (1975). Examination of ancient pottery using the scanning electron microscope. Nature 257: 122–123.
Tite MS (1989). İznik pottery: An investigation of the methods of production. Archaeometry 31 (2): 115–132.
Topaksu M (2004). TL dating, determination of structural properties and technology of Kubadabad Konya ceramics and tiles. Doctoral thesis, University of Çukurova, Ins. of Natural and Applied Sciences, University of Çukurova (FBE), 250 p (in Turkish).
Torrent J, Cabedo A (1986). Sources of iron oxides in reddish brown soil profiles from calcarenites in Southern Spain. Geoderma 37: 57–66.
Tunçoku SS, Caner-Saltık EN, Hugon P (2004). Raw material properties of some medieval mortars in Kubadabad palaces (Turkey), used in construction of the palace. Revue d’Archéométrie 28: 109–116.
Vince AG (1984). The use of petrology in the study of pottery: case studies from Southern England. Medieval Ceramics 8: 31–46.
Vince AG (2001). Ceramic petrology and post-medieval pottery. Post-Medieval Archaeology 35: 106–118.
Whitbread IK (1986). The characterisation of argillaceous inclusions in ceramic thin sections. Archaeometry 28: 79–88.
Whitbread IK (1995). Greek Transport Amphorae: A Petrological and Archaeological Study. Fitch Laboratory Occasional Paper 4. British School at Athens (pages 379–388).
Williams JLW, Jenkins DA (1978). The use of petrographic, heavy minerals and arc spectrographic techniques in assessing the provenance of sediments used in ceramics. In: Davidson DA, Shackley ML (eds), Geoarcaelogy: Earth Science and the Past. Duckworth, London, 115–35.
Williams DF (1983). Petrology of ceramics. In: Kempe DRC, Harvey AP (eds). The Petrology of Archaeological Artefacts 3: 11–29.
Williams DF, Vince AG (1997). Saxon granitic tempered pottery in the characterization and interpretation of Early to Middle Saxon granitic tempered pottery in England. Medieval Archaeology 41: 204–210.

APA	Kapur S, Kadir S, kelling g, Akça E, Topaksu M, SAKARYA N, Yegingil Z, Eren M, FITZPATRICK E (2023). Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. , 555 - 576. 10.55730/1300-0985.1861
Chicago	Kapur Selim,Kadir Selahattin,kelling gilbert,Akça Erhan,Topaksu Mustafa,SAKARYA Necdet,Yegingil Zehra,Eren Muhsin,FITZPATRICK Ewart Adsil Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. (2023): 555 - 576. 10.55730/1300-0985.1861
MLA	Kapur Selim,Kadir Selahattin,kelling gilbert,Akça Erhan,Topaksu Mustafa,SAKARYA Necdet,Yegingil Zehra,Eren Muhsin,FITZPATRICK Ewart Adsil Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. , 2023, ss.555 - 576. 10.55730/1300-0985.1861
AMA	Kapur S,Kadir S,kelling g,Akça E,Topaksu M,SAKARYA N,Yegingil Z,Eren M,FITZPATRICK E Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. . 2023; 555 - 576. 10.55730/1300-0985.1861
Vancouver	Kapur S,Kadir S,kelling g,Akça E,Topaksu M,SAKARYA N,Yegingil Z,Eren M,FITZPATRICK E Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. . 2023; 555 - 576. 10.55730/1300-0985.1861
IEEE	Kapur S,Kadir S,kelling g,Akça E,Topaksu M,SAKARYA N,Yegingil Z,Eren M,FITZPATRICK E "Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution." , ss.555 - 576, 2023. 10.55730/1300-0985.1861
ISNAD	Kapur, Selim vd. "Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution". (2023), 555-576. https://doi.org/10.55730/1300-0985.1861

APA	Kapur S, Kadir S, kelling g, Akça E, Topaksu M, SAKARYA N, Yegingil Z, Eren M, FITZPATRICK E (2023). Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. Turkish Journal of Earth Sciences, 32(4), 555 - 576. 10.55730/1300-0985.1861
Chicago	Kapur Selim,Kadir Selahattin,kelling gilbert,Akça Erhan,Topaksu Mustafa,SAKARYA Necdet,Yegingil Zehra,Eren Muhsin,FITZPATRICK Ewart Adsil Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. Turkish Journal of Earth Sciences 32, no.4 (2023): 555 - 576. 10.55730/1300-0985.1861
MLA	Kapur Selim,Kadir Selahattin,kelling gilbert,Akça Erhan,Topaksu Mustafa,SAKARYA Necdet,Yegingil Zehra,Eren Muhsin,FITZPATRICK Ewart Adsil Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. Turkish Journal of Earth Sciences, vol.32, no.4, 2023, ss.555 - 576. 10.55730/1300-0985.1861
AMA	Kapur S,Kadir S,kelling g,Akça E,Topaksu M,SAKARYA N,Yegingil Z,Eren M,FITZPATRICK E Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. Turkish Journal of Earth Sciences. 2023; 32(4): 555 - 576. 10.55730/1300-0985.1861
Vancouver	Kapur S,Kadir S,kelling g,Akça E,Topaksu M,SAKARYA N,Yegingil Z,Eren M,FITZPATRICK E Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution. Turkish Journal of Earth Sciences. 2023; 32(4): 555 - 576. 10.55730/1300-0985.1861
IEEE	Kapur S,Kadir S,kelling g,Akça E,Topaksu M,SAKARYA N,Yegingil Z,Eren M,FITZPATRICK E "Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution." Turkish Journal of Earth Sciences, 32, ss.555 - 576, 2023. 10.55730/1300-0985.1861
ISNAD	Kapur, Selim vd. "Fired shards from selected ancient Anatolian ceramics: a brief review of their mineralogical nature and pedological–microstructural evolution". Turkish Journal of Earth Sciences 32/4 (2023), 555-576. https://doi.org/10.55730/1300-0985.1861