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Features of Speleothems and Natural Heritage Value of Songam Cave, DPR Korea

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Abstract

Songam Cave, a magnificent dolomite cave in the Democratic People’s Republic of Korea—is also known as “A Splendid Flower Cave”—is regarded as one of the renowned natural tourist attractions with a great number of beautiful and complicated aragonitic anthodites in different forms and shapes, together with diversified underground karst features (stalactite, stalagmite, limestone columns, flowstone, rimstone dams, botryoidal forms, pool spar, concretions, underground waterfall, ponds, etc.). This paper deals with the cave formation process, the features of speleothems and other karst features in Songam Cave, which indicate that Songam Cave is a geoheritage site of high conservation significance. The geological setting of the cave and the detailed features and diversity of the speleothems provide sufficient evidence to foster an understanding of the formation and development of the karst cave. The aragonitic anthodites and the outstanding underground karst features unfolded on the ceilings and walls throughout the cave suggest that Songam Cave can also be a cave tourist attraction of high aesthetic value. Overall, Songam Cave is a geoheritage of high conservative significance because of its geological and aesthetical value.

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References

  • Anze C et al (2015) The Principles of Geotourism. Science Press, Beijing, p 264

    Google Scholar 

  • Culver DC, White WB (2005) Encyclopedia of Caves. Elsevier Academic Press, Amsterdam, p 654

    Google Scholar 

  • Ezzoura E et al (2009) From Geoheritage to Geoparks. Geoherit Geopark Geotour Switzer. https://doi.org/10.1007/978-3-319-10708-0

  • Ford DC, Williams PW (2007) Karst hydrogeology and geomorphology, 2nd edn. John Wiley & Sons, Chichester, p 120

    Book  Google Scholar 

  • Gunn J (2004) Encyclopedia of Caves and Karst Science. Fitzroy Dearborn Editions, New York, p 902

    Book  Google Scholar 

  • Hill C, Forti P (1997) Cave Minerals of the World, 2nd edn. National Speleological Society, Huntsville, AL, p 463

    Google Scholar 

  • Hu ZS, Deng YL (2004) Synthesis of needle–like aragonite from calcium chloride and sparingly soluble magnesium CaCO3. Carbonate power Technol 140:10–25

    Article  Google Scholar 

  • IUCN (2008a) Outstanding Universal Value: Standards for Natural World Heritage. IUCN, Switzerland, p 45

    Google Scholar 

  • IUCN (2008b) World Heritage Caves & Karst. IUCN, Switzerland, p 34

    Google Scholar 

  • IUCN (2011) Preparing World Heritage Nominations, Second edn. IUCN, Paris, p 135

    Google Scholar 

  • IUCN (2017) World Heritage List: Caves of Aggtelek Karst and Slovak Karst. IUCN, Paris, p 5

    Google Scholar 

  • IUCN (2018) The World Heritage: The definitive guide to all 1073 World Heritage Sites, 5th edn. IUCN, Paris, p 960

    Google Scholar 

  • Jon GB et al (2011) Geology of Korea. Technical and scientific publishing house of DPR Korea, p 447

  • Ko YS, Ri KH (2007) Consideration on the several factors affecting formation of Songam Cave. J KIM IL SUNG Univ (Nat Sci) 53(6):176–177

    Google Scholar 

  • Moore GW (1970) Checklist of cave minerals. Natl Speleologic Soc News 28(1):9–10

    Google Scholar 

  • Moore GW, Sullivan N (1997) Speleology, Caves and cave environment, 3rd edn. Cave Books, St. Louis

    Google Scholar 

  • Onac BP, Forti P (2011) State of the art and challenges in cave minerals studies. Studia UBB Geolog 56(1):33–42

    Article  Google Scholar 

  • Palmer A (2007) Cave Geology. Cave Books, Dayton, p 454

    Google Scholar 

  • Rautaray D, Sainkar SR, Sastry M (2003) Room temperature synthesis of aragonite crystals at an expanding liquid-liquid interface in a radial hele-shaw cell. Adv Mater 15:1273–1278

    Article  Google Scholar 

  • Ri HJ, Kang RI (2003) Thermoluminescence Dating of Calcite in Songam Cave. J KIM IL SUNG Univ (Nat Sci) 49(9):167–170

    Google Scholar 

  • Ri MH, Nam KW (2003) U-Series Dating of Calcite in Songam Cave. J KIM IL SUNG Univ (Nat Sci) 51(2):71–73

    Google Scholar 

  • Ryang HM, Sim HC (2019) Formation of CaCO3 varieties from a carbonated aqueous solution. Carbonates Evaporites 34:1619–1626. https://doi.org/10.1007/s13146-019-00510-6

    Article  Google Scholar 

  • Ryu JG et al (2003) Studies on the formation of Songam Cave. J KIM IL SUNG Univ (Nat Sci) 49(8):163–166

    Google Scholar 

  • Sugawara A, Kato T (2000) Aragonite CaCO3 thin-film formation by cooperation of Mg2+ and organic polymer matrices. Chem Commun 6:487–488

    Article  Google Scholar 

  • The People’s Republic of China (2013) World Heritage Nomination–South China Karst, China, vol 372

    Google Scholar 

  • William B et al (2012) Encyclopedia of Caves, Second edn. Elsevier Inc, pp 777–787

  • Wisshak M (2007) Inside Mother Earth. Edition Reuss, Aschaffenburg, p 154

    Google Scholar 

  • Zeshan H, Minghao S, Qiang C, Sheguang D, Chenghua Z, Xiaopin W, Win D (2009) Synthesis of needle-like aragonite from limestone in the presence of magnesium chloride. J Mater Process Technol 209:1607–1611. https://doi.org/10.1016/j.jmatprotec.2008.04.008

    Article  Google Scholar 

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Acknowledgements

This work was carried out as one of the national research projects of the DPR Korea. We are grateful to the construction workers for their efforts to build wonderful tourist facilities of Songam Cave. We are grateful to the officials and staff of the Scenic Spot Management Office and the guides for their sincere assistance in our cave exploration. We are also grateful to an anonymous geoheritage reviewer for their valuable comments and suggestions to improve this paper.

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Authors and Affiliations

  1. Faculty of Geology, Kim Il Sung University, Ryongnam-Dong, Taesong District, Pyongyang, Democratic People’s Republic of Korea

    Won-Sok Jon & To-Jun Ryang

  2. Faculty of Foreign Languages and Literature, Kim Il Sung University, Ryongnam-Dong, Taesong District, Pyongyang, Democratic People’s Republic of Korea

    Hye-Sun Kim

  3. Electronic Library, Kim Il Sung University, Ryongnam-Dong, Taesong District, Pyongyang, Democratic People’s Republic of Korea

    Yong-Hyok Ri

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  1. Won-Sok Jon
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  2. To-Jun Ryang
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  4. Yong-Hyok Ri
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Correspondence to Won-Sok Jon.

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Jon, WS., Ryang, TJ., Kim, HS. et al. Features of Speleothems and Natural Heritage Value of Songam Cave, DPR Korea. Geoheritage 13, 57 (2021). https://doi.org/10.1007/s12371-021-00583-7

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