This work is licensed under the Creative Commons Attribution 4.0 International License.
ASTM [ASTM International], 2014. Standard test method for determination of rock hardness by Rebound Hammer Method, (ASTM D 5873).ASTM [ASTM International]2014Standard test method for determination of rock hardness by Rebound Hammer Method(ASTM D 5873).Search in Google Scholar
Barr S.M., MacDonald A.S., 1981. Geochemistry and geochronology of late Cenozoic basalts of Southeast Asia: Summary. Geological Society of America Bulletin 92(1): 508–512.BarrS.M.MacDonaldA.S.1981Geochemistry and geochronology of late Cenozoic basalts of Southeast Asia: SummaryGeological Society of America Bulletin92150851210.1130/0016-7606(1981)92<508:GAGOLC>2.0.CO;2Search in Google Scholar
Billings M.P., 1954. Structural geology. Prentice Hall, Englewood Cliffs, NJ.BillingsM.P.1954Structural geologyPrentice HallEnglewood Cliffs, NJSearch in Google Scholar
Bohle M., Di Capua G., 2019. Setting the scene. In: Martin B. (ed.), Exploring geoethics. Palgrave Pivot, Cham: 1–24. DOI 10.1007/978-3-030-12010-8_1.BohleM.Di CapuaG.2019Setting the sceneIn:MartinB.(ed.),Exploring geoethicsPalgrave PivotCham12410.1007/978-3-030-12010-8_1Open DOISearch in Google Scholar
Bohle M., Di Capua G., Bilham N., 2019. Reframing geoethics? In: Martin B. (ed.), Exploring geoethics. Palgrave Pivot, Cham: 165–174. DOI 10.1007/978-3-030-12010-8_5.BohleM.Di CapuaG.BilhamN.2019Reframing geoethics?In:MartinB.(ed.),Exploring geoethicsPalgrave PivotCham16517410.1007/978-3-030-12010-8_5Open DOISearch in Google Scholar
Careddu N., Grillo S.M., 2019. Sardinian Basaltan ancient georesource still en vogue. Geoheritage 11(1): 35–45. DOI 10.1007/s12371-018-0285-0.CaredduN.GrilloS.M.2019Sardinian Basaltan ancient georesource still en vogueGeoheritage111354510.1007/s12371-018-0285-0Open DOISearch in Google Scholar
Comentale B., 2019. Disused stone quarries in urban landscape, a feature of geoheritage: case studies from Paris and Nantes. Physio-Geo 13: 1–24. DOI 10.4000/physio-geo.7198.ComentaleB.2019Disused stone quarries in urban landscape, a feature of geoheritage: case studies from Paris and NantesPhysio-Geo1312410.4000/physio-geo.7198Open DOISearch in Google Scholar
Department of Primary Industries and Mines, 2009. Nationwide mining license information. Bureau of Mines and Concession, Department of Primary Industries and Mines, Bangkok.Department of Primary Industries and Mines2009Nationwide mining license informationBureau of Mines and Concession, Department of Primary Industries and MinesBangkokSearch in Google Scholar
Di Capua G., Peppoloni S. 2019. Defining geoethics. Website of the IAPG – International Association for Promoting Geoethics. Online: www.geoethics.org/definition (accessed 15 December 2021).Di CapuaG.PeppoloniS.2019Defining geoethicsWebsite of the IAPG – International Association for Promoting Geoethics. Online: www.geoethics.org/definition (accessed 15 December 2021).10.5194/egusphere-egu21-2347Search in Google Scholar
DMR [Department of Mineral Resources], 2001. Mineral statistics of Thailand (1994–2000). Technic and Planning Division, Department of Mineral Resources, Bangkok.DMR [Department of Mineral Resources]2001Mineral statistics of Thailand (1994–2000)Technic and Planning Division, Department of Mineral ResourcesBangkokSearch in Google Scholar
DMR [Department of Mineral Resources], 2007. Geologic Map of Buriram Province. Online: www.dmr.go.th/download/pdf/NorthEast/burirum.pdf (accessed 29 October 2020).DMR [Department of Mineral Resources]2007Geologic Map of Buriram ProvinceOnline: www.dmr.go.th/download/pdf/NorthEast/burirum.pdf (accessed 29 October 2020).Search in Google Scholar
Fepuleai A., Nemeth K., 2019. Volcanic geoheritage of landslides and rockfalls on a tropical ocean Island (Western Samoa, SW Pacific). Geoheritage 11(2): 577–596. DOI 10.1007/s12371-018-0306-z.FepuleaiA.NemethK.2019Volcanic geoheritage of landslides and rockfalls on a tropical ocean Island (Western Samoa, SW Pacific)Geoheritage11257759610.1007/s12371-018-0306-zOpen DOISearch in Google Scholar
Hamada A., Toramaru A., 2020. Analogue experiments on morphological transition from colonnade to entablature of columnar joints. Journal of Volcanology and Geothermal Research 402: 106979. DOI 10.1016/j.jvolgeores.2020.106979.HamadaA.ToramaruA.2020Analogue experiments on morphological transition from colonnade to entablature of columnar jointsJournal of Volcanology and Geothermal Research402106979.10.1016/j.jvolgeores.2020.106979Open DOISearch in Google Scholar
Hetenyi G., Taisne B., Garel F., Medard E., Bosshard S., Mattsson H.B., 2012. Scales of columnar jointing in igneous rocks: field measurements and controlling factors. Bulletin of Volcanology 74(2): 457–482. DOI 10.1007/s00445-011-0534-4.HetenyiG.TaisneB.GarelF.MedardE.BosshardS.MattssonH.B.2012Scales of columnar jointing in igneous rocks: field measurements and controlling factorsBulletin of Volcanology74245748210.1007/s00445-011-0534-4Open DOISearch in Google Scholar
ISRM [International Society for Rock Mechanics and Rock Engineering], 1985. Commission on testing methods. Suggested method for determining Point Load Strength, Ankara: ISRM Turkish National Group. 22: 51–60.ISRM [International Society for Rock Mechanics and Rock Engineering]1985Commission on testing methodsSuggested method for determining Point Load Strength, AnkaraISRM Turkish National Group22516010.1016/0148-9062(85)92327-7Search in Google Scholar
Ji H., Zhang J.C., Xu W.Y., Wang R.B., Wang H.L., Yan L., Lin Z.N., 2017. Experimental investigation of the anisotropic mechanical properties of a columnar jointed rock mass: Observations from laboratory-based physical modelling. Rock Mechanics and Rock Engineering 50(7): 1919–1931. DOI 10.1007/s00603-017-1192-4.JiH.ZhangJ.C.XuW.Y.WangR.B.WangH.L.YanL.LinZ.N.2017Experimental investigation of the anisotropic mechanical properties of a columnar jointed rock mass: Observations from laboratory-based physical modellingRock Mechanics and Rock Engineering5071919193110.1007/s00603-017-1192-4Open DOISearch in Google Scholar
Le Bas M.J., Le Maitre R.W., Streckeisen A., Zanettin B., 1986. A chemical classification of volcanic rocks based on the total alkali–silica diagram. Journal of Petrology 27: 745–750.Le BasM.J.Le MaitreR.W.StreckeisenA.ZanettinB.1986A chemical classification of volcanic rocks based on the total alkali–silica diagramJournal of Petrology2774575010.1093/petrology/27.3.745Search in Google Scholar
Li Y.Q., Liu J.Z., 2020. Late Cenozoic columnar-jointed basaltic lavas in eastern and southeastern China: morphologies, structures, and formation mechanisms. Bulletin of Volcanology 82(7): 58. DOI 10.1007/s00445-020-01397-1.LiY.Q.LiuJ.Z.2020Late Cenozoic columnar-jointed basaltic lavas in eastern and southeastern China: morphologies, structures, and formation mechanismsBulletin of Volcanology8275810.1007/s00445-020-01397-1Open DOISearch in Google Scholar
Mallet R., 1875. On the origin and mechanism of production of the prismatic (or columnar) structure of basalt. American Journal of Science 3–9(51): 206–211.MalletR.1875On the origin and mechanism of production of the prismatic (or columnar) structure of basaltAmerican Journal of Science3–95120621110.2475/ajs.s3-9.51.206Search in Google Scholar
Maria Mateos R., Duran J.J., Robledo P.A., 2011. Mares quarries on the Majorcan Coast (Spain) as geological heritage sites. Geoheritage 3(1): 41–54. DOI 10.1007/s12371-010-0026-5.Maria MateosR.DuranJ.J.RobledoP.A.2011Mares quarries on the Majorcan Coast (Spain) as geological heritage sitesGeoheritage31415410.1007/s12371-010-0026-5Open DOISearch in Google Scholar
Middlemost E.A.K., 1975. The basalt clan. Earth-Science Reviews 11: 337–364.MiddlemostE.A.K.1975The basalt clanEarth-Science Reviews1133736410.1016/0012-8252(75)90039-2Search in Google Scholar
Migoń P., Pijet-Migoń E., 2016. Overlooked geomorphological component of volcanic geoheritage-diversity and perspectives for tourism industry, Pogrze Kaczawskie Region, SW Poland. Geoheritage 8(4): 333–350. DOI 10.1007/s12371-015-0166-8.MigońP.Pijet-MigońE.2016Overlooked geomorphological component of volcanic geoheritage-diversity and perspectives for tourism industry, Pogrze Kaczawskie Region, SW PolandGeoheritage8433335010.1007/s12371-015-0166-8Open DOISearch in Google Scholar
Mullen E.D., 1983. MnO/TiO2/P2O5: a minor element discriminant for basaltic rocks of oceanic environments and its implications for petrogenesis. Earth and Planetary Science Letters 62: 53–62.MullenE.D.1983MnO/TiO2/P2O5: a minor element discriminant for basaltic rocks of oceanic environments and its implications for petrogenesisEarth and Planetary Science Letters62536210.1016/0012-821X(83)90070-5Search in Google Scholar
Nazaruddin D.A., 2019. Selected geosites for geoheritage, geotourism, and geoconservation in Songkhla Province, Southern Thailand. Quaestiones Geographicae 38(1): 161–177. DOI 10.2478/quageo-2019-0011.NazaruddinD.A.2019Selected geosites for geoheritage, geotourism, and geoconservation in Songkhla Province, Southern ThailandQuaestiones Geographicae38116117710.2478/quageo-2019-0011Open DOISearch in Google Scholar
Nazaruddin D.A., 2020. Granite landforms of Samui Island (southern Thailand) from geoheritage, geoconservation and geotourism perspectives. International Journal of Geoheritage and Parks 8: 75–86. DOI 10.1016/j.ijgeop.2020.05.003.NazaruddinD.A.2020Granite landforms of Samui Island (southern Thailand) from geoheritage, geoconservation and geotourism perspectivesInternational Journal of Geoheritage and Parks8758610.1016/j.ijgeop.2020.05.003Open DOISearch in Google Scholar
Nemeth K., Gravis I., Nemeth B., 2021. Dilemma of geoconservation of monogenetic volcanic sites under fast urbanization and infrastructure developments with special relevance to the Auckland volcanic field, New Zealand. Sustainability 13(12): 6549. DOI 10.3390/su13126549.NemethK.GravisI.NemethB.2021Dilemma of geoconservation of monogenetic volcanic sites under fast urbanization and infrastructure developments with special relevance to the Auckland volcanic field, New ZealandSustainability1312654910.3390/su13126549Open DOISearch in Google Scholar
Pearce J.A., Cann J.R., 1973. Tectonic setting of basic volcanic rocks determined using trace element analyses. Earth and Planetary Science Letters 19: 290–300.PearceJ.A.CannJ.R.1973Tectonic setting of basic volcanic rocks determined using trace element analysesEarth and Planetary Science Letters1929030010.1016/0012-821X(73)90129-5Search in Google Scholar
Prosser C.D., 2018. Geoconservation, quarrying and mining: Opportunities and challenges illustrated through working in partnership with the mineral extraction industry in England. Geoheritage 10(2): 259–270. DOI 10.1007/s12371-016-0206-z.ProsserC.D.2018Geoconservation, quarrying and mining: Opportunities and challenges illustrated through working in partnership with the mineral extraction industry in EnglandGeoheritage10225927010.1007/s12371-016-0206-zOpen DOISearch in Google Scholar
Singtuen M., Won-In K., 2017. Geotourism and sustainable development perspectives of the Khao PhraWihan National Park on the southern edge of the Khorat Plateau, Thailand. In: Proceedings of the 8th International Conference on Environment, Agriculture, Biology and Natural Sciences (EABNS-2017). Bangkok: 39–45.SingtuenM.Won-InK.2017Geotourism and sustainable development perspectives of the Khao PhraWihan National Park on the southern edge of the Khorat Plateau, ThailandIn:Proceedings of the 8th International Conference on Environment, Agriculture, Biology and Natural Sciences (EABNS-2017)Bangkok3945Search in Google Scholar
Singtuen V., Gałka E., Phajuy B., Won-in K., 2019. Evaluation and geopark perspective of the geoheritage resources in Chiang Mai Area, Northern Thailand. Geoheritage 11: 1955–1972. DOI 10.1007/s12371-019-00410-0.SingtuenV.GałkaE.PhajuyB.Won-inK.2019Evaluation and geopark perspective of the geoheritage resources in Chiang Mai Area, Northern ThailandGeoheritage111955197210.1007/s12371-019-00410-0Open DOISearch in Google Scholar
Singtuen V., Phajuy B., 2020. Archaeological distribution of geoheritage for geotourism development in Nakhon Sawan Province, Thailand. Quaestiones Geographicae 39(3): 57–68. DOI 10.2478/quageo-2020-0023.SingtuenV.PhajuyB.2020Archaeological distribution of geoheritage for geotourism development in Nakhon Sawan Province, ThailandQuaestiones Geographicae393576810.2478/quageo-2020-0023Open DOISearch in Google Scholar
Singtuen V., Won-In K., 2018a. An assessment of the potential island for geotourism value in Ko Kham Undersea Park, Chonburi, Gulf of Thailand. In: Proceedings of the BRegional Geoheritage Conference 2018 with the theme BGeoheritages for People. Khonkaen: 11–18.SingtuenV.Won-InK.2018aAn assessment of the potential island for geotourism value in Ko Kham Undersea Park, Chonburi, Gulf of ThailandIn:Proceedings of the BRegional Geoheritage Conference 2018 with the theme BGeoheritages for PeopleKhonkaen1118Search in Google Scholar
Singtuen V., Won-In K., 2018b. Geodiversity and geoconservation of the Chaiyaphum region in Thailand for sustainable geotourism planning. Geojournal of Tourism and Geosites 22: 548–560. DOI 10.30892/gtg.22223-310.SingtuenV.Won-InK.2018bGeodiversity and geoconservation of the Chaiyaphum region in Thailand for sustainable geotourism planningGeojournal of Tourism and Geosites2254856010.30892/gtg.22223-310Open DOISearch in Google Scholar
Smith J.V., Holden L., 2020. Rock slope kinematic instability controlled by large-scale variation of basalt column orientation. Bulletin of Engineering Geology and the Environment 80(4): 239–250. DOI 10.1007/s10064-020-01917-5.SmithJ.V.HoldenL.2020Rock slope kinematic instability controlled by large-scale variation of basalt column orientationBulletin of Engineering Geology and the Environment80423925010.1007/s10064-020-01917-5Open DOISearch in Google Scholar
Sun S.S., McDonough W.F., 1989. Chemical and isotopic systematics of oceanic basalts; implications for mantle composition and processes. Journal of the Geological Society 42: 313–345.SunS.S.McDonoughW.F.1989Chemical and isotopic systematics of oceanic basalts; implications for mantle composition and processesJournal of the Geological Society4231334510.1144/GSL.SP.1989.042.01.19Search in Google Scholar
Tietz O., Buechner J., Lapp M., Scholle T., 2018. The Stolpen Volcano in the Lausitz Volcanic Field (East Germany) – volcanological, petrographic and geochemical investigations at the type locality of basalt. Journal of Geosciences 63(4): 299–315. DOI 10.3190/jgeosci.275.TietzO.BuechnerJ.LappM.ScholleT.2018The Stolpen Volcano in the Lausitz Volcanic Field (East Germany) – volcanological, petrographic and geochemical investigations at the type locality of basaltJournal of Geosciences63429931510.3190/jgeosci.275Open DOISearch in Google Scholar
USGS, 2021. Mineral resources online spatial data, interactive maps and downloadable data for regional and global analysis. Online: mrdata.usgs.gov/ (accessed 15 December 2021).USGS2021Mineral resources online spatial data, interactive maps and downloadable data for regional and global analysisOnline: mrdata.usgs.gov/ (accessed 15 December 2021).Search in Google Scholar
Vasseur J., Wadsworth F.B., 2019. The permeability of columnar jointed lava. Journal of Geophysical Research-Solid Earth 124(11): 11305–11315. DOI 10.1029/2019jb018118.VasseurJ.WadsworthF.B.2019The permeability of columnar jointed lavaJournal of Geophysical Research-Solid Earth12411113051131510.1029/2019jb018118Open DOISearch in Google Scholar
Winchester J.A., Floyd P.A., 1977. Geochemical discrimination of different magma series and their differentiation products using immobile elements. Chemical Geology 20: 325–343.WinchesterJ.A.FloydP.A.1977Geochemical discrimination of different magma series and their differentiation products using immobile elementsChemical Geology2032534310.1016/0009-2541(77)90057-2Search in Google Scholar
Xia Y., Zhang C., Zhou H., Zhang C., Hong W. 2019. Mechanical anisotropy and failure characteristics of columnar jointed rock masses (CJRM) in Baihetan hydropower station: Structural considerations based on digital image processing technology. Energies 12(19): 3602. DOI 10.3390/en12193602.XiaY.ZhangC.ZhouH.ZhangC.HongW.2019Mechanical anisotropy and failure characteristics of columnar jointed rock masses (CJRM) in Baihetan hydropower station: Structural considerations based on digital image processing technologyEnergies1219360210.3390/en12193602Open DOISearch in Google Scholar
Yan Q., Shi X., Metcalfe I., Liu S., Xu T., Kornkanitnan N., Sirichaiseth Th., Yuan L., Zhang Y., Zhang H., 2018. Hainan mantle plume produced late Cenozoic basaltic rocks in Thailand, Southeast Asia. Nature 8(1): 1–14. DOI 10.1038/s41598-018-20712-7.YanQ.ShiX.MetcalfeI.LiuS.XuT.KornkanitnanN.SirichaisethTh.YuanL.ZhangY.ZhangH.2018Hainan mantle plume produced late Cenozoic basaltic rocks in Thailand, Southeast AsiaNature8111410.1038/s41598-018-20712-7580576729422658Open DOISearch in Google Scholar
Yoder H.S., Tilley C.E., 1962. Origin of basalt magmas; an experimental study of natural and synthetic rock systems. Journal of Petrology 3(3): 342–529.YoderH.S.TilleyC.E.1962Origin of basalt magmas; an experimental study of natural and synthetic rock systemsJournal of Petrology3334252910.1093/petrology/3.3.342Search in Google Scholar
and 