References

• Babst, F., Bouriaud, O., Alexander, R., Trouet, V., & Frank, D. (2014). Toward consistent measurements of carbon accumulation: a multi-site assessment of biomass and basal area increment across Europe. Dendrochronologia, 32, 153–161. doi: 10.1016/j.dendro.2014.01.002
   Web of Science ®Google Scholar
• Baharim, M., Rafidah, R., Kamarul, R. M., Badri Shah, A. G., Muhazam, M., Ruzairy, A., Farizah, I., Khairil Amri, A.G., Azizi, A., Minhat, F.I., Jeofry, M. H., Bee, B.B.B. & Shaari, H. (2023). Discovery and excavation of artefacts from the Bidong Shipwreck, Malaysia. Advances in Archaeological Practice, 11(2), 1–12. doi: 10.1017/aap.2022.45
   Web of Science ®Google Scholar
• Biondi, F. & Qeadan, F. (2008). A theory-driven approach to tree-ring standardisation: defining the biological trend from expected basal area increment. Tree-Ring Research, 64, 81–96. doi: 10.3959/2008-6.1
   Web of Science ®Google Scholar
• Björklund, J., Seftigen, K., Schweingruber, F., Fonti, P., Arx, G., Bryukhanova, M.V., Cuny, H.E., Carrer, M., Castagneri, D., & Frank, D.C. (2017). Cell size and wall dimensions drive distinct variability of earlywood and latewood density in Northern Hemisphere conifers. New Phytology, 216, 728–740. doi: 10.1111/nph.14639
   PubMed Web of Science ®Google Scholar
• Bonsall, C., Cook, G., Manson, J. & Sanderson, D. (2002). Direct dating of Neolithic pottery: progress and prospects. Documenta Praehistorica, 29, 47-59. doi: 10.4312/dp.29.5
   Google Scholar
• Brown, R.M. (2000). The ceramics of Southeast Asia: their dating and identification (2nd ed.). Oxford University Press.
   Google Scholar
• Brown, R.M. (2009). Ming Gap and shipwreck ceramics in Southeast Asia: towards a chronology of Thai trade ware. River Books Press.
   Google Scholar
• Brown, R.M. & Sjostrand, S. (2002). Maritime archaeology and shipwreck ceramics in Malaysia. Malaysian Department of Museums and Antiquities.
   Google Scholar
• Calò, A. (2009). The distribution of bronze drums in Early Southeast Asia: Trade routes and cultural spheres (International Series 1913). British Archaeological Reports.
   Google Scholar
• Charoenwongsa, P. & Prishanchit, S. (1990). Underwater archaeology in Thailand II: ceramics from the Gulf of Thailand. Fine Arts Department of Thailand.
   Google Scholar
• Doraisamy, J. (1986). Treasure lost and found: Some legal aspects. In. M.Y. Hashim (Ed.), Ships and sunken treasures (pp. 171–178). Persatuan Muzium Malaysia.
   Google Scholar
• Flecker, M. (2018, September-November). Java Sea wreck dating. Nalanda Srivijaya Centre Highlight, 10, 14–15.
   Google Scholar
• Gaerlan, B. (2004, October 7). The Ming & Mac Gaps: Asian trade in Chinese and Vietnamese ceramics from 1380-1580. African Studies Center UCLA. Retrieved January 2024 from https://www.international.ucla.edu/africa/event/2064
   Google Scholar
• Gibson-Hill, C.A. (1949). Cargo boats of the east coast of Malaya. Journal of the Malayan Branch of the Royal Asiatic Society, 22(3), 106–125.
   Google Scholar
• Hall, K.R. (1985). Maritime trade and state development in early Southeast Asia. University of Hawai’i Press.
   Google Scholar
• Hein, D. (2001). The Sawankhalok ceramics industry: From domestic enterprise to regional enterpreneur [Unpublished Doctoral dissertation]. Deakin University, Australia.
   Google Scholar
• Jacq-Hergoualc’h, M. (2001). The Malay Peninsula: Crossroads of the Maritime Silk Road (100 BC–1300 AD). (V. Hobson, Trans.). Brill.
   Google Scholar
• Kanumoyoso, B. (2018). Malay maritime world in Southeast Asia. Journal of Maritime Studies and National Integration, 2(1), 16–22. doi: 10.14710/jmsni.v2i1.2861
   Google Scholar
• Lockard, C.A. (2010). The sea common to all: maritime frontiers, port cities, and Chinese traders in the Southeast Asian Age of Commerce, ca. 1400–1750. Journal of World History, 21(2), 219–247. doi: 10.1353/jwh.0.0127
   Web of Science ®Google Scholar
• Nazaruddin, Z. & Nasha, R.K. (2015). Tribute relations between China and the Malay World before Christ to the 11th century AD: An analysis (English translated). In Z. Nazaruddin & R.K. Nasha (Eds.), Malay-Chinese world trade until the 16th CE (pp. 39–56). Universiti Sains Malaysia Press.
   Google Scholar
• Nguyen, Q. (2023). How sustainable is Meranti wood? Here are the facts. Impactful Ninja. Retrieved from https://impactful.ninja/how-sustainable-is-meranti-wood/
   Google Scholar
• Niziolek, L.C., Feinman, G.M., Kimura, J., Respess, A. & Zhang, L. (2018). Revisiting the date of the Java Sea shipwreck from Indonesia. Journal of Archaeological Science: Reports, 19, 781–790. doi: 10.1016/j.jasrep.2018.04.002
   Google Scholar
• Ooi, K.G. (2015). Maritime treasures off the Malay Peninsula. Journal of Indo-Pacific Archaeology, 36, 5-15. doi: 10.7152/jipa.v36i0.14910
   Google Scholar
• Pailoplee, S., Won-In, K., Chaisuwan, B., & Charusiri, P. (2016). Thermoluminescence and optically stimulated luminescence dating of bricks from the Thung Tuk archaeological site, southern Thailand. Songklanakarin Journal of Science and Technology, 38(6), 699–705.
   Google Scholar
• Rafidah, R., Badri Shah, A.G., Baharim, M., Kamarul, R.M. & Shaari, H. (2018). Final report of the archaeological research of the Bidong shipwreck. (JWN.PP.600/3/3(3). Universiti Malaysia Terengganu-Uzma Archaeological Research.
   Google Scholar
• Ramsey, C.B. (1995). Radiocarbon calibration and analysis of stratigraphy: The OxCal program. Radiocarbon, 37(2), 425-430. doi: 10.1017/S0033822200030903
   Web of Science ®Google Scholar
• Ramsey, C.R. (2001). Development of the radiocarbon calibration program. Radiocarbon, 43(2a), 355-363. doi: 10.1017/S0033822200038212
   Web of Science ®Google Scholar
• Reimer, P.J., Brown, T.A. & Reimer, R.W. (2004). Discussion: Reporting and calibration of post-bomb 14C data. Radiocarbon, 46, 1299–1304. doi: 10.1017/S0033822200033154
   Web of Science ®Google Scholar
• Robertson, G. B. & Prescott, J. R. (1987). Thermoluminescence: A key element in the Thai ceramics archaeological project. In W. R. Ambrose and J. M. J. (Eds.), Mummery Archaeometry: Further Australasian Studies, Occasional Papers in Prehistory 14 (pp. 195–202). Department of Prehistory, Research School of Pacific Studies, Australian National University, Canberra.
   Google Scholar
• Robertson, G. B. & Prescott, J. R. (1988). The Thai ceramics archaeological project: TL characteristics of the artifacts. Nuclear Tracks and Radiation Measurements, 14, 299-305. doi: 10.1016/1359-0189(88)90080-5
   Google Scholar
• Sjostrand, S. & Barnes, C. (2001). The “Turiang”: A 14th-century Chinese shipwreck upsetting Southeast Asian ceramic history. Journal of the Malaysian Branch of the Royal Asiatic Society, 74(1), 71-109.
   Google Scholar
• Sjostrand, S., Taha, A.H. & Sahar, S. (2006). Mysteries of Malaysian shipwrecks. Malaysian Museum Department.
   Google Scholar
• Srisunthon, P., Mueller, D. & Preusser, F. (2022). Decline of Lanna ceramic group production in northern Thailand (Ban Bo Suak site) confined by radiocarbon and luminescence dating. Archaeological and Anthropological Sciences, 14(149), 1–22. doi: 10.1007/s12520-022-01618-y
   Google Scholar
• Sukkham, A. (2015). Chapter 28: variability in ceramics of the Bang Rachan (Mae Nam Noi) kilns, Singburi, Thailand. In N.H. Tan (Ed.), Advancing Southeast Asian archaeology 2013: Selected papers from the first SEAMEO SPAFA International Conference on Southeast Asian archaeology in Chonburi (pp. 318–328, 350–353). SEAMEO SPAFA.
   Google Scholar
• Sukkham, A. (2023). Siamese jars and their significance in Southeast Asian trade from the 14th to the Eighteenth Century. In A. Grasskamp & A. Gerritsen (Eds.), Transformative jars: Asian ceramic vessels as transcultural enclosures (pp. 63–93). Bloomsbury.
   Google Scholar
• Taylor, R.E. & Bar-Yosef, O. 2014. Radiocarbon dating: An archaeological perspective. 2nd ed. Left Coast Press/Routledge.
   Google Scholar
• Woodward, H.W., Jr. (1978). The dating of Sukhothai and Sawankhalok ceramics: Some considerations. Journal of the Siam Society, 66(1), 1–7.
   Google Scholar