Quantitative assessment of Permian limestone geosites in the  Sai Yok District, Kanchanaburi Province, Western Thailand

Thunyapat Sattraburut

doi:10.15625/2615-9783/20009

Author affiliations

Authors

Thunyapat Sattraburut Faculty of Environment and Resource Studies, Mahidol University, Nakhon Pathom 73170 Thailand

DOI:

https://doi.org/10.15625/2615-9783/20009

Keywords:

Geosites, scientific values, degree of deterioration, inventory, assessment

Abstract

Kanchanaburi Province in western Thailand is recognized as an exceptional natural tourist destination, offering many historical attractions and recreational activities. The Sai Yok District, located within Kanchanaburi Province, is characterized by distinctive geological and geomorphological features, hosting numerous remarkable geosites and geomorphosites, including waterfalls, caves, lapiés, and scenic karst topography. These features make it an exceptional location for geotourism. Inventory and quantitative assessments were conducted on seven Permian limestone geosites, namely Mueang Sing Historical Park, Tham Krasae, Tham Lawa, Tham Dao Wadung, Nam Tok Sai Yok Noi, Nam Tok Sai Yok Yai, and Hellfire Pass. The quantitative assessment process involved evaluating the scientific value and determining the level of deterioration of the geosites. Overall, these geosites were classified as having medium scientific value, with Mueang Sing Historical Park having the highest total score, while Tham Krasae had the lowest. Six of the seven geosites are classified as having a medium risk of deterioration, except Tham Dao Wadung, which has a low risk. The assessment of the total geosite value reveals that Mueang Sing Historical Park and Tham Dao Wadung possess a positive overall geosite value. At the same time, the other five have a negative value. It is important to note that because six of these seven geosites are classified as having a medium risk of deterioration, there is a need for increased attention and protection.

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References

Agematsu S., Oo T., 2023. Ordovician geology of the Sibumasu Block, Southeast Asia. Geological Society, London, Special Publications, 533.

Baadi K., Amine A., Tefogoum G.Z., Sabaoui A., Tekiout B., 2021. Volcanic geosites assessment in the Plio-Quaternary Azrou-Timahdite Plateau (Middle Atlas, Morocco). Journal of African Earth Sciences, 184, 104352.

Baadi K., Sabaoui A., Tekiout B., 2020. Methodological proposal for assessment geosites: its application in Bou-Iblane region (Middle Atlas, Morocco). Geoheritage, 12, 55.

Bates P., Bumrungsri S., Francis C., 2019. The IUCN Red List of Threatened Species: Craseonycteris thonglongyai. Available from: https://www.iucnredlist.org/species/5481/22072935.

Bergström S.M., 1971. Conodont biostratigraphy of the Middle and Upper Ordovician of Europe and eastern North America. Geological Society of America, Memoirs, 127, 83-162.

Bolger T., Ellis M., 2015. An overview of caves and caving in Thailand. Asian Transkarst Conference; 2015 Nov 6; Asian Union of Speleology, Hubei: China; 2015.

Brilha J., 2016. Inventory and Quantitative Assessment of Geosites and Geodiversity Sites: a Review. Geoheritage, 8(2), 119-134.

Brown G.F., Buravas S., Javanaphet J.C., Jalichandra N., Johnston W.D., Sresthaputra V., Taylor G.C., 1951. Geologic reconnaissance of the mineral deposits of Thailand - Geologic investigation in Asia. U.S. Geological Survey Bulletin, 984, 1-193.

Bunopas S., 1981. Paleogeographic history of western Thailand and adjacent parts of Southeast Asia: a plate tectonic interpretation. Ph.D. Dissertation. Victoria University of Wellington, Wellington, New Zealand, 810p.

Bunopas S., 1992. Regional stratigraphic correlation in Thailand. Proceeding of a National Conference on Geologic Resources of Thailand: Potential for Future Development; 1992 Nov 17-24; Department of Mineral Resource, Bangkok: Thailand.

Chen Z., Li W., Fang X., Li C., Burrett C., Udchachon M., Zhang Y., 2022. Ordovician conodonts from the Ban Tha Kradan area, western Thailand. Palaeoworld. https://doi.org/10.1016/j.palwor.2022.12.004.

Chonglakmani C., 2011. Triassic. In: Ridd, M.F., Barber, A.J., Crow, M.J. (eds.) The Geology of Thailand. London, UK: Geological Society.

Choowong M., 2011. Quaternary. In: Ridd, M.F., Barber, A.J., Crow, M.J. (eds.) The Geology of Thailand. London, UK: Geological Society.

Department of National Parks Wildlife and Plant Conservation, 2023. Tourism Statistics Fiscal Year 2022. Available from: http://webreg.dnp.go.th/park/index3.php?task=Report19v2&YYYY=2565&type=all (in Thai).

Department of National Parks, Wildlife and Plant Conservation, 2014. Forest Inventory Report, Sai Yok National Park. Bangkok, Thailand: Protected Area Rehabilitation and Development Office (in Thai).

Dingwall P., Weighell T., Badman T., 2005. Geological World Heritage: A Global Framework. Gland, Switzerland: IUCN.

DMR, 1992. Lexicon of Stratigraphic Names of Thailand. Bangkok, Thailand: Department of Mineral Resources.

DMR, 2007. Geological Map of Kanchanaburi. Bangkok, Thailand: Geological Survey Division, Department of Mineral Resources.

DMR, 2008. Zonation for Geological and Resources Management, Kanchanaburi Province. Bangkok, Thailand: Department of Mineral Resources.

Dowling R.K., 2013. Global geotourism - An emerging form of sustainable tourism. Czech Journal of Tourism, 2(2), 59-79.

Dowling R.K., Newsome D., 2006. Geotourism. Oxford, UK: Elsevier.

Duarte A., Braga V., Marques C., Sá A.A., 2020. Geotourism and Territorial Development: a Systematic Literature Review and Research Agenda. Geoheritage, 12, 65.

Fang X., Li C., Li W., Burrett C., Udchachon M., Zhang Y., 2021. Sinoceras chinense (Foord, 1888) in western Thailand: first identification outside China. Palaeoworld, 30, 278-285.

Friederich M.C., Moore T.A., Flores R.M., 2016. A regional review and new insights into SE Asia Cenozoic coal-bearing sediments: Why does Indochina have such extensive coal deposits? International Journal of Coal Geology, 166, 2-35.

Hall R., Sevastjanova I., 2012. Australian crust in Indonesia. Australian Journal of Earth Sciences, 59, 827-844.

Hose T.A., 2008. Towards a history of geotourism: definitions, antecedents and the future. Geological Society London, Special Publications, 300(1), 37-60.

IUCN., 2009. IUCN Red List Categories Version 3.1. Gland, Switzerland: IUCN - World Conservation Union.

Javanaphet J.C., 1969. Geologic Map of Thailand, Scale 1:1,000,000. Bangkok, Thailand: Department of Mineral Resources.

Kanjanapayont P., Klötzli U., Frank N., 2020. Dating multiple generation of zircons from granites and gneiss from Thailand: Implication for the crustal evolution of the Sibumasu terrane. Journal of Asian Earth Sciences, 190, 104148.

Karadeniz E., Er S., Boyraz Z., Coşkun S., 2022. Evaluation of Potential Geotourism of Levent Valley and Its Surroundings Using GIS Route Analysis. Geoheritage, 14, 77.

Karapunar B., Nützel A., Ketwetsuriya C., 2022. A low-diversity Peruvispira-dominated gastropod assemblage from the Permian Ratburi Group of Central Thailand. Alcheringa: An Australasian Journal of Palaeontology, 46(2), 147-155.

Limsuwan S., Vichaidid T., Limsuwan P., 2011. ESR dating of laterite from Ban Tha Ta Suea, Kanchanaburi, Thailand. Applied Radiation and Isotopes, 69(2), 545-549.

Limsuwan S., Vichaidid T., Onreabroy W., 2008. ESR dating of laterite from Muang Sing Historical Park, Kanchanaburi, Thailand. International Review of Physics, 2, 64-68.

Maneerat W., Jitmahantakul S., Charoentitirat T., 2022. Devonian Tentaculite of the Thong Pha Phum Group in Si Sawat District, Kanchanaburi Province. Bulletin of Earth Sciences of Thailand, 14(1), 35-49.

Meesook A., Saengsrichan W., 2011. Jurassic. In: Ridd M.F., Barber A.J., Crow M.J. (eds.) The Geology of Thailand. London, UK: Geological Society.

Metcalfe I., 2013. Gondwana dispersion and Asian accretion: Tectonic and palaeogeographic evolution of eastern Tethys. Journal of Asian Earth Sciences, 66, 1-33.

Ministry of Tourism and Sports. 2023. Tourism Statistics 2022. Available from: https://www.mots.go.th/news/category/657 (in Thai).

Morley C.K., Arboit F., 2019. Dating the onset of motion on the Sagaing fault: Evidence from detrital zircon and titanite U-Pb geochronology from the North Minwun Basin, Myanmar. Geology, 47(6), 581-585.

Nachtergaele S., Glorie S., Morley C., Charusiri P., Kanjanapayont P., Vermeesch P., Carter A., Van Ranst G., De Grave J., 2019. Cenozoic tectonic evolution of southeastern Thailand derived from low-temperature thermochronology. Journal of the Geological Society, 177(2), jgs2018-167.

Nazaruddin D.A., 2019. Selected geosites for geoheritage, geotourism, and geoconservation in Songkhla Province, Southern Thailand. Quaestiones Geographicae, 38(1), 161-177.

Nazaruddin D.A., 2020. Granite landforms of Samui Island (southern Thailand) from geoheritage, geoconservation and geotourism perspectives. International Journal of Geoheritage and Parks, 8(2), 75-86.

Nazaruddin D.A., Singtuen V., Baharim N.B., Rahman M.N.I.A., 2023. Analysis of proposed geosites in the Betong District, Yala Province, Southern Thailand. Geologos, 29(2), 99-116.

Newsome D., Dowling R.K., 2010. Geotourism: The Tourism of Geology and Landscape. Oxford, UK.

Nguyen-Thuy D., Ta P.H., Nguyen-Van H., Dinh H.V., Dang B.V., Dang N.H., Do H.T.T., Nguyen A.T.K., Tran T.C., Bui V.V., Nguyen A.N., Hoang T.T., 2018. Evaluation of Geological Heritage of Geosites for a Potential Geopark in Binh-Thuan-Ninh Thuan Coastal Zone, Vietnam. Geoheritage, 11, 689-702.

Office of National Water Resource, 2020. Basic database project for 22 river basins of Thailand; Basic information summary report of Mae Klong River Basin. Bangkok, Thailand: River Basin Management Division (in Thai).

Oo Z.M., Zaw K., Belousov I., Putthapiban P., Makoundi C., 2023. Tectonic and metallogenic implications of W-Sn related granitoid rocks in the Kawthaung-Bankachon area, southernmost part of Myanmar: Constraints from petrology, geochemistry, and U-Pb zircon geochronology. Geosystems and Geoenvironment, 2(4), 100188.

Paungya N., Singtuen V., Won-In K., 2020. The Preliminary Geotourism Study in Phetchabun Province, Thailand. GeoJournal of Tourism and Geosites, 31(3), 1057-67.

Pisnupong P., 1999. Guidebook to Muang Sing Historical Park, Kanchanaburi province. Bangkok, Thailand; The Office of Archaeology and National Museum, The Fine Arts Department, Kampai Imaging Publishing.

Raksaskulwong L., 2002. Upper Paleozoic rocks in Thailand. In: Mantajit, N. (ed.) Proceeding of the Symposium on Geology of Thailand; 2002 Aug 26-31; Department of Mineral Resources, Bangkok: Thailand.

Sashida K., Ito T., Salyaponse S., Putthapiban P., 2022. Permian and Triassic radiolarians from chert breccia in the Nong Prue area, western Thailand: its origin and depositional setting in the Paleotethys. Paleoworld, 31(1), 103-115.

Shrivastava K., Shrivastava S., 2020. Nature's Marvels - Kitti's Hog-nosed Bat: World's smallest mammal. New Delhi, India: National Institute of Science Communication and Information Resources.

Singtuen V., Phajuy B., 2020. Archaeological Distribution of Geoheritage for Geotourism Development in Nakhon Sawan Province, Thailand. Quaestiones Geographicae, 39(3), 57-68.

Singtuen V., Won-In K., 2018. Geodiversity and geoconservation of the chaiyaphum region in thailand for sustainable geotourism planning. Geojournal of Tourism and Geosites, 22(2), 548-560.

Smart D., 2000. Cave Management Classification in Thailand: Modification of the Australian Scheme. Natural History Bulletin of the Siam Society, 48, 165-175.

Štrba L., 2018. Analysis of criteria affecting geosites visits by general public: Case of Slovak (Geo) tourists, Geoheritage, 2, 291-300.

Surussawadee C., 1987. A study of Prasat Muang Sing, Tombon Sing, Amphoe Sai Yok, Changwat Kanchanaburi [master's thesis]. Nakhon Pathom, Silpakorn University.

Vimuktanandana S., 1985a. Geological Map of Thailand, Scale 1:250,000, Sheet Changwat Nakhon Pathom ND47-1. Bangkok, Thailand: Geological Survey Division, Department of Mineral Resources.

Vimuktanandana S., 1985b. Geological Map of Thailand, Scale 1:250,000, Sheet Tavoy ND47-6. Bangkok, Thailand: Geological Survey Division, Department of Mineral Resources.

Wang D., Lin F., Shi M., Wang H., Yang X., 2023. Geological setting, tectonic evolution and spatio-temporal distributions of main mineral resources in South East Asia: A comprehensive review. Solid Earth Science, 8(1), 34-48.

Wang Y., Wang Y., Zhang P., Chang J., Zhang B., Zhang Y., Zhou R., Seagren E.G., Qian X., Li Z., 2022. Kinematics and 40Ar/39Ar geochronology of the Lincang-Inthanon tectonic belt: Implication for Cenozoic tectonic extrusion of SE Asia. GSA Bulletin, 134(11-12), 2854-2866.

Welc E., Miśkiewicz K., 2020. The Concept of the Geotourism Potential and Its Practical Application: A Case Study of the Prządki (the Spinners) Nature Reserve in the Carpathians, Poland. Resources, 9(12), 145.

Western Forest Complex., 2023. Western Forest Complex - An Untouched Wilderness in the Borderland of Thailand and Myanmar. Available from: https://www.westernforest.org/th/areas/sai_yok.htm

Western Region Irrigation Hydrology Center, 2022. Monthly precipitation data sheet, Lumsum Village, Sai Yok District, Kanchanaburi Province. Available from: http://hydro-7.rid.go.th/ (in Thai).