Abstract
NEOM in the northwestern part of Saudi Arabia comprises of range of geodiversity like desert, mountain, and coast. This paper is a pioneering approach to document the geoheritage value of key landforms with outstanding scientific, educational, touristic, and additional value. The objective of this study is to prepare an inventory of the key geosites. The methodology involves the identification of geosites and geoheritage assessment and identifies geotourism potential. The study revealed ten key geosites, classified into geomorphological, geological, and geoarchaeological sites. Major key landforms are canyon, yardang, honeycomb structure, columnar basaltic lava, syn- and post-sedimentary deformation, denuded landscape, gullies in evaporite, alluvial fan, dyke swarm, and valley. The tectonic process in different geological phases formed various-scale deformations and fault structures, modified by rainfall and fluvial systems, including various gully and alluvial fans. Further, substantial shifting of the environment from the fluvial to the aeolian environment and weathering along the tectonic structures within a single territory of NEOM represent the geodiversity. Biodiversity and archaeological imprint in the geosites enhanced the additional value of the geosite. The study recommends that these ten sites be conserved and promoted for geotourism through the involvement of academicians, policymakers, and local people.
Similar content being viewed by others
Data Availability
The GIS files related to the geological map are collected from the open-source files from the United States Geological Survey website. Field data collected during the current study and available from the corresponding author on reasonable request.
References
Abdel Wahab A, Abul Maaty MA, Stuart FM, Awad H, Kafafy A (2014) The geology and geochronology of Al Wahbah maar crater, Harrat Kishb. Saudi Arabia Quat Geochronol 21:70–76
Al Saud, M. M. (2020) Sustainable land management for NEOM region. ISBN 978–3–030–57631–8 (eBook)
Aloufi AA, AMR, ZS. (2018). Carnivores of the Tabuk Province, Saudi Arabia (Carnivora: Canidae, Felidae, Hyaenidae, Mustelidae). Lynx, series nova 49
Alshammaa HA (2019) Sustainable tourism heritage village–Al-Ula, Saudi Arabia. Rochester Inst Technol
Altherr R, Mertz-Kraus R, Volker F, Kreuzer H, Henjes-Kunst F, Lange U (2019) Geodynamic setting of Upper Miocene to Quaternary alkaline basalts from Harrat al ‘Uwayrid (NW Saudi Arabia): constraints from KAr dating, chemical and Sr-Nd-Pb isotope compositions, and petrological modeling. Lithos 330:120–138
Ansari AA, Siddiqui ZH, Alatawi FA, Alharbi BM, Alotaibi AS (2022) An assessment of biodiversity in Tabuk Region of Saudi Arabia: a comprehensive review. Sustainability 14(17):10564
Antić A, Vujičić MD, Dragović N, Cimbaljević M, Stankov U, Tomić N (2022) Show cave visitors: an analytical scale for visitor motivation and travel constraints. Geoheritage 14(2):53
Ateş HÇ, Ateş Y (2019) Geotourism and rural tourism synergy for sustainable development—Marçik Valley Case—Tunceli, Turkey. Geoheritage 11:207–215
Barroso-Barcenilla F, Alcalde-Fuentes MDR, Audije-Gil J, Berrocal-Casero M, Callapez PM, Ozkaya de Juanas S, Pérez-Valera JA, dos Santos VF, Segura M (2022) Discovering a project for the development of geotourism in rural areas: the Paleontological and Archaeological Interpretation Centre of Tamajón (CIPAT, Guadalajara, Spain). Land 11(3):444
Berrezueta E, Sánchez-Cortez JL, Aguilar-Aguilar M (2021) Inventory and characterization of geosites in Ecuador: a review. Geoheritage 13(4):93
Blank HR (1977) Aeromagnetic and geologic study of tertiary dykes and related structures on the Arabian Margin of the Red Sea. In: Hilpert, L. S., ed., Red Sea Research 1970–1975. Saudi Arabian Directorate General of Min. Res 22: G1–G18
Brown GF, Schmidt DL, Huffmann AC (1989) Geology of the Arabian Peninsula – shield area of Western Saudi Arabia. U. S. Geological Survey Professional Paper 560-A, Washington
Camp VE, Roobol MJ, Hooper PR (1991) The Arabian continental alkali basalt province: Part II, evolution of Harrats Khaybar, Ithnayn, and Kura, Kingdom of Saudi Arabia. Geol Soc Am Bull 103:363e391
Carrión-Mero P, Turner-Carrión M, Herrera-Franco G, Bravo-Murillo G, Aguilar-Aguilar M, Paz-Salas N, Berrezueta E (2022) Geotouristic route proposal for touristic development in a mining Area—case study. Resources 11(3):25
Charloux G, Ahmed Sahlah S, Badaiwi WA (2021) Madian revealed? Assessing the history and archaeology of the oasis of al-Badʿ in northwestern Arabia. Semitica Et Classica 14:97–141
Chauhan S, Desai B (2023) Geosites of the Early Cretaceous (Bhuj Formation) Based on Their Ichnological Values: insights from the Kachchh Basin, Western India. Geoheritage 15(1):9
Chen A, Lu Y, Ng YC (2015) The principles of geotourism. Springer, Berlin Heidelberg, Berlin
Chrobak ANNA (2015) Geotourism potential in the Podhale, orava, liptov and Spiš regions (Southern Poland/Northern Slovakia). Acta Geoturistica 6(2):1–10
Clark MD (1985) Geologic Map of the Al Bad’ Quadrangle, Sheet 28A, Kingdom of Saudi Arabia. Saudi Arabian Directorate General of Mineral Resources, Jeddah. Geoscience Map GM-81, Scale 1: 250 000. 46
Clark MD (1986) Explanatory notes to the geologic map of the Al Bad’ Quadrangle, sheet 28A, Kingdom of Saudi Arabia. Saudi Arabian Deputy Ministry for Mineral Resources Geoscience Map Series GM81A, C, scale 1:250,000, with text, 46
Clark MD (1987) Geologic map of the Al Bad’ Quadrangle, Sheet 28A, Kingdom of Saudi Arabia. Ministry of Petroleum and Mineral Resources, Deputy Ministry for Mineral Resources, Jeddah. Geoscience Map GM-81, Scale 1: 250 000
Costa AG, de Paula SJ, Murta MC, da Silva RBL (2023) Geological trails for the Fernando de Noronha Archipelago, Brazil: a geodiversity approach. Geoheritage 15(1):27
De Stefano MD, de La Corte BD (2023) Qualification of caves for educational use and scientific dissemination: a methodological proposal. Geoheritage 15(1):29
De Wever P, Alterio I, Egoroff G, Cornée A, Bobrowsky P, Collin G, Duranthon F, Hill W, Lalanne A, Page K (2015) Geoheritage, a national inventory in France. Geoheritage 7:205–247
Díaz-Martínez E, Brilha J, Brocx M, Erikstad L, García-Cortés Á, Wimbledon WA (2015) Global Geosites: an active and partially achieved geoheritage inventory
Dietterich HR, Downs DT, Stelten ME, Zahran H (2018) Reconstructing lava flow emplacement histories with rheological and morphological analyses: the Harrat Rahat volcanic field, Kingdom of Saudi Arabia. Bull Volcanol 80:1–23
Chylińska D (2019) The role of the picturesque in geotourism and iconic geotourist landscapes. Geoheritage, 11(2), 531–543
Dowling R (2023) Geotourism—a global overview. Geotourism in the Middle East 3–27
Drinia H, Tripolitsiotou F, Cheila T, Zafeiropoulos G (2022) The geosites of the sacred rock of acropolis (UNESCO world heritage, Athens, Greece): cultural and geological heritage integrated. Geosciences 12(9):330
Duszyński F, Migoń P (2022) Geomorphological heritage of cretaceous sandstone terrains in SW Poland: diversity, conservation and interpretation issues. Geoheritage 14(1):31
Earl L, Gardner A (2016) A satellite-derived glacier inventory for North Asia. Ann Glaciol 57(71):50–60
Ech-charay K, Boumir K, Ouarhache D, Ouaskou M, Marzouk A (2022a) The geoheritage of the South-Eastern Frontal Zone of the Middle Atlas (Morocco): first inventory and assessment. Geoheritage 14(4):103
Ech-charay K, Boumir K, Ouarhache D, Ouaskou M, Marzouki A (2022b) The geoheritage of the South-Eastern Frontal Zone of the Middle Atlas (Morocco): first inventory and assessment. Geoheritage 14(4):103
Edgell HS (2006) Desert plains, steppes, and plateaux. Arabian deserts: nature, origin, and evolution. 427–445
El Hassi MF, Muftah AM (2022) An inventory study of the geosites in the area from Susa to Darnah in Al Jabal al Akhdar, Libya: a proposed geopark. Geoheritage 14(4):1–28
Elassal M (2020) Geomorphological heritage attractions proposed for geotourism in Asir Mountains, Saudi Arabia. Geoheritage 12(4):78
Farag AA (2019) The story of NEOM city: opportunities and challenges. New cities and community extensions in Egypt and the Middle East: visions and challenges. 35–49
Fernández MP, Timón DL, Marín RG (2014) Geosites inventory in the Geopark Villuercas-Ibores-Jara (Extremadura, Spain): a proposal for a new classification. Geoheritage 6:17–27
Ferrando A, Faccini F, Poggi F, Coratza P (2021) Geosites inventory in Liguria region (Northern Italy): a tool for regional geoconservation and environmental management. Sustainability 13(4):2346
Fnais M, Ibrahim E, Abd El-Motaal E, Abdelrahman K, Al-Heniedi A, Al-Kahtany K (2016) Structural development of Northwest Saudi arabia using aeromagnetic and seismological data. J Earth Sci 27(6):998–1007
Fradley M, Gyngell S (2022) Landscapes of mobility and movement in Northwest Arabia: A Remote Sensing Study of the Neom Impact Zone. Land, 11(11):1941
Ganesh PM, Kumari M, Mahalakshmi T (2022) Assessment of potential geoheritage sites, promotion of geotourism and geoconservation of Kachchh district, India. Geoconserv Res 5(1):142–164
Głowacki W (2019) Newly emerging geosites in the Polish Western Outer Carpathians as an asset for geoeducation and geotourism. Geoheritage 11(4):1247–1256
Goudie AS (2007) Mega-yardangs: a global analysis. Geogr Compass 1(1):65–81
Grainger DJ, Hanif, MR (1989) Geologic map of the Shaghab quadrangle, sheet 27B, Kingdom of Saudi Arabia. Geoscience Map GM -109C (with Explanation). Ministry of Petroleum and Mineral Resources, Directorate General of Mineral Resources of the Kingdom of Saudi Arabia, Jeddah
Gravis I, Németh K, Procter JN (2017) The role of cultural and indigenous values in geosite evaluations on a quaternary monogenetic volcanic landscape at Ihumātao, Auckland volcanic field, New Zealand. Geoheritage 9:373–393
Hagos M, Nyssen J, Amare K, Poesen J (2019) Geosites, geoheritage, human-environment interactions, and sustainable geotourism in Dogu’a Tembien. Geo-trekking in Ethiopia’s Tropical Mountains: The Dogu’a Tembien District 3–27
Hegazy AK, Doust JL (2016) Plant ecology in the Middle East. Oxford University Press
Heim W, Antonov A, Beermann I, Lisovski S, Sander MM, Hahn S (2022) Light-level geolocation reveals unexpected migration route from Russia to the Philippines of a Blue-and-white-Flycatcher Cyanoptila cyanomelana. Ornithol Sci 21(1):121–126
Hose TA (2012a) 3G’s for modern geotourism. Geoheritage 4(1–2):7–24
Hose TA (2012b) Geotourism and geoconservation. Geoheritage 4(1–2):1–5
Hunt WJ (2010) A model of tourism as context for historical sites: an example of historical archeology at Yellowstone National Park. Hist Archeol Tour Yellowstone Natl Park 1–74
Ibrahim AO, Bashir FM, Ojobo H, Dodo YA, Abdulmumin I, Christian OI (2021) Opting for enriching Saudi Arabia’s tourism attraction sites towards the realization of vision 2030. Elem Educ Online 20(5):4101–4101
Ilieş DC, Josan N (2009) Geosites-geomorphosites and relief. GeoJournal Tour Geosites 3(1):78–86
Jain S (2014) Fundamentals of physical geology. Springer India
Jaya A, Sumantri I, Bachri DI, Maulana BR (2022) Understanding and quantitative evaluation of geosites and geodiversity in Maros-Pangkep, South Sulawesi, Indonesia. Geoheritage 14(2):40
Khalaf EEDAH (2022) Karst heritage as a tourist attraction: a case study in the White Desert National Park, Western Desert. Egypt Geoheritage 14(3):94
Liang X, Niu Q, Qu J, Liu B, Liu B, Zhai X, Niu B (2019) Applying end-member modeling to extricate the sedimentary environment of yardang strata in the Dunhuang Yardang National Geopark, northwestern China. CATENA 180:238–251
Liso IS, Chieco M, Fiore A, Pisano L, Parise M (2020) Underground geosites and caving speleotourism: some considerations, from a case study in Southern Italy. Geoheritage 12(1):13
Lozar F, Clari P, Dela Pierre F, Natalicchio M, Bernardi E, Violanti D, Costa E, Giardino M (2015) Virtual tour of past environmental and climate change: the Messinian succession of the Tertiary Piedmont Basin (Italy). Geoheritage 7:47–56
Maghsoudi M, Moradi A, Moradipour F, Nezammahalleh MA (2019) Geotourism development in world heritage of the Lut Desert. Geoheritage 11:501–516
Mazzetto S (2022) Assessing heritage reuse interventions in the gulf countries. IOP Conference Series. Earth Environ Sci 1026(1):012044
Mc Keever PJ, Narbonne GM (2021) Geological world heritage: a revised global framework for the application of criterion (viii) of the World Heritage Convention. IUCN, Gland, Switzerland
Mehdioui S, Hadi HE, Tahiri A, Haibi HE, Tahiri M, Zoraa N, Hamoud A (2022) The geoheritage of Northwestern Central Morocco Area: inventory and quantitative assessment of geosites for geoconservation, geotourism, geopark purpose and the support of sustainable development. Geoheritage 14(3):86
Migoń P, Pijet-Migoń E (2017) Viewpoint geosites—values, conservation and management issues. Proc Geol Assoc 128(4):511–522
Migoń P, Gutiérrez F, Parenti C et al (2023) Ebro Valley Gypsum Escarpment Near Zaragoza (NE Spain)—combination of highly valuable rock record, dynamic geomorphosites and associated cultural heritage. Geoheritage 15:110
Moawed M, Ansari A (2015) Wild plants diversity of Red Sea coastal region, Tabuk, Saudi Arabia. J Chem Pharm Res 7(10):220–227
Moufti MR, Moghazi AM, Ali KA (2012) Geochemistry and Sr–Nd–Pb isotopic composition of the HarratAl-Madinah Volcanic Field, Saudi Arabia. Gondwana Res, 21(2–3), 670–689
Muslim D, Zakaria Z, Rachmat H, Iqbal P, Muslim GO, Sadewo MS, Muslim FN (2022) Identification of geodiversity and geosite assessment around geohazard area of Suoh Aspiring Geopark in West Lampung, Sumatra, Indonesia. Resources 11(11):104
Mustoe GE (1982) The origin of honeycomb weathering. Geol Soc Am Bull 93(2):108–115
Nayak R, Karuppannan S (2022) Geoheritage in Ladakh Himalaya: the Indus Suture Zone Ophiolites, Southeast of Ladakh, India. Geoheritage 14(4):129
Ólafsdóttir R, Dowling R (2014) Geotourism and geoparks—a tool for geoconservation and rural development in vulnerable environments: a case study from Iceland. Geoheritage 6:71–87
Panizza M (2001) Geomorphosites: concepts, methods and examples of geomorphological survey. Chin Sci Bull 46(1):4–5
Peppoloni S, Di Capua G (2015) The meaning of geoethics. Geoethics: ethical challenges and case studies in earth sciences 3–14
Poesen J, Nachtergaele J, Verstraeten G, Valentin C (2003) Gully erosion and environmental change: importance and research needs. Catena, 50(2–4):91–133
Ramsay CR, Basahel AN, Jackson NJ (1981) Petrography, geochemistry and origin of the volcano-sedimentary succession between Jabal Ibrahim and Al-Aqiq, Saudi Arabia: King Abdulaziz University Faculty of Earth Sciences Bulletin. 4:1-24
Ramsay CR, Drysdall AR, Clark MD (1986) Felsic plutonic rocks of the Midyan region, Kingdom of Saudi Arabia—I, Distribution, classification, and resource potential, in, Drysdall. Ramsay CR, and Stoeser DB (eds), Felsic plutonic rocks and associated mineralization of the Kingdom of Saudi Arabia, Saudi Arabian Deputy Ministry for Mineral Resources Bulletin 29:63–77
Raya MKF (2022) Wali Pitu in Bali: inventing new halal tourism destinations in contemporary Indonesia. Contemp Islam 1–31
Sadry BN, Abdel Maksoud KM, Zahabnazouri S (2022) Geotourism development in the Middle East: a comparative study of Iran, Saudi Arabia, Oman and Jordan. Tourism Planning and Development in the Middle East. CABI, GB, pp 126–141
Sen S, Almusabeh A, Abouelresh MO (2023a) Geoheritage and geotourism potential of Tuwaiq Mountain, Saudi Arabia. Geoheritage 15(3):93
Sen S, Migoń P, Almusabeh A et al (2023b) Jabal Al-Qarah, Saudi Arabia—from a local tourist spot and cultural world heritage to a geoheritage site of possible global relevance. Geoheritage 15:114
Singh RB, Wei D, Anand S (2021) Global geographical heritage, geoparks and geotourism. Springer, Singapore, p 483p
Sümer Ö, Akbulut M, Kazancı N, Drahor MG, Berge MA, Ongar A, Schachner A, İnaner H, Eski S, Suludere Y, Hakyemez HY (2023) Valorisation of the geological values (future geosite candidates) around the UNESCO World Heritage Asset of Hittite Capital Ḫattuša. Türkiye Geoheritage 15(1):17
Tavares A (2011) Geotourism: geoaccessible. In Proceedings of International Congress Arouca
Telbisz T, Gruber P, Mari L, Kőszegi M, Bottlik Z, Standovár T (2020) Geological heritage, geotourism and local development in Aggtelek National Park (NE Hungary). Geoheritage 12:1–18
Tessema GA, Van Der Borg J, Van Rompaey A, Van Passel S, Adgo E, Minale AS, Asrese K, Frankl A, Poesen J (2022) Benefit segmentation of tourists to geosites and its implications for sustainable development of geotourism in the Southern Lake Tana Region, Ethiopia. Sustainability 14(6):3411
Valente E, Casaburi A, Finizio M, Papaleo L, Sorrentino A, Santangelo N (2021) Defining the geotourism potential of the cilento, vallo di diano and alburni unesco global geopark (Southern italy). Geosciences 11(11):466
Wakass S, Ezaidi A, El Youssi M et al (2023) Geosites of High Atlas of Marrakech (Morocco): geological characterization, accessibility, and potential interests for sustainable tourism. Geoheritage 15:107
Wang Y, Li X, Han Z et al (2023) From geoparks to regional sustainable development: geoheritage protection and geotourism promotion of geoparks in Hebei Province. China Geoheritage 15:102
Wimbledon W (1996) National site selection, a stop on the road to a European Geosite list. Geologica Balcanica 26:15–28
Wimbledon WA, Smith-Meyer S (2012) Geoheritage in Europe and its conservation, vol 405. ProGEO, Oslo
Zorina SO, Silantiev VV (2014) Geosites, classification of encyclopedia of mineral and energy policy. Springer, Berlin/Heidelberg, Germany, pp 1–4
Zouros NC (2010) Lesvos petrified forest geopark, Greece: geoconservation, geotourism, and local development. In The George Wright Forum 27(1) 19–28. George Wright Society
Acknowledgements
The authors acknowledge NEOM and King Fahd University of Petroleum & Minerals (KFUPM) for providing the opportunity to carry out the research. The authors thank Dr. Naveen Kumar, Dr. Aarif K.M, Mr. Goutham Sambath, and Mr. Premlal Panickan in the Applied Research Center for Environment and Marine Studies researchers for their support.
Funding
This research paper is an outcome of the NEOM-funded project to King Fahd University of Petroleum and Minerals (KFUPM) entitled ‘Consultancy Services to NEOM in the execution of fast-track environmental technical services’ (KFUPM Project No. CEM02669).
Author information
Authors and Affiliations
Contributions
S. S initiated the concept and took the leading role in scoring, calculating, fieldwork, and developing an initial manuscript. M. O. A. participated in fieldwork and contributed to the manuscript preparation. A. A. participated extensively in the fieldwork. B. P. and F. S. A. was involved in the study design and contributed to the manuscript preparation. T. V. J. was involved in the study design and contributed to the manuscript preparation and review of it.
Corresponding author
Ethics declarations
This is an original article derived from the environmental survey work commissioned by NEOM to King Fahd University of Petroleum and Minerals (KFUPM), Dhahran, Saudi Arabia. NEOM provided funding, necessary permits, and required GIS files. Subhajit Sen prepared the initial manuscript draft, and all the authors contributed to the writing and review. Subhajit Sen, Thadickal V. Joydas, and Bruno Pulido conceptualized the study. Subhajit Sen, Mohamed O. Abouelresh, and Ali Almusabeh conducted the fieldwork. Subhajit Sen, Mohamed O. Abouelresh, and Fahad S. Al-Ismail performed data analyses and interpretation.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Sen, S., Abouelresh, M.O., Joydas, T.V. et al. Geoheritage and Geotourism Potential of NEOM, Saudi Arabia: Linking Geoethics, Geoconservation, and Geotourism. Geoheritage 16, 27 (2024). https://doi.org/10.1007/s12371-024-00932-2
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12371-024-00932-2