期刊文献+

Internal Pressure Sculpting and Speleogenesis in Autogenic Karst

Internal Pressure Sculpting and Speleogenesis in Autogenic Karst
下载PDF
导出
摘要 Understanding the ongoing speleogenic processes that produce sinkholes and control the vital drinking water supplies of Florida and much else of the world is necessary research. This article (and the associated poster presentation) discusses theoretical processes that may act in addition to mass dissolution kinetics in producing voids, conduits and caves in autogenic karst landforms. Possible theoretical factors that affect these speleogenic processes are: microscopic mixing corrosion (low constant flow, low constant flow against current, temperature-induced mixing corrosion, and pressure-induced mixing corrosion in karst matrix), random dissolution models, simulation of gravity-induced microscopic breakdown, and storm surge effects. Finally, a theoretical model is discussed that unifies these various microscopic processes into a macro-scale process, called internal pressure sculpting. Computer models were designed to illustrate these theoretical processes: Non-calibrated computer models simulating each process discussed in this paper are presented for illustration, as well as the preliminary results of calibrated models depicting random dissolution, mechanical breakdown, and storm surge effects. The theoretical processes discussed and simulated may have major effects on cave morphology. Computer simulations appear to accurately portray the shape and form of some cave features with dissolutional morphologies. Theoretical discussion concludes with a general discussion of possible improvements to the presented models as well as the ability to generalize theoretical processes to hypogenic, halogenic, and autogenic speleogenesis.
作者 Bryan Booth
机构地区 Karst Research Group
出处 《Journal of Earth Science and Engineering》 2013年第7期461-476,共16页 地球科学与工程(英文版)
关键词 Cave development in limestone mixing corrosion KARST computer modeling solutional widening rate speleogenesis. 喀斯特地貌 内部压力 雕刻 溶解动力学 计算机模拟显示 模型模拟 计算机模型 微观混合
  • 相关文献

参考文献18

  • 1J. Mylroie, Caves and karst, Geo. Times 45 (7) (2000) 24-25.
  • 2A.N. Palmer, Dynamics of cave development by allogenic water, Acta Carsologica 30 (2) (2001) 14-32.
  • 3A. Klimchouk, Morphogenesis of hypogenic caves, Geomorphology 106 (1/2) (2009) 100-117.
  • 4R. Labourdette, I. Lascu, J. Mylroie, M. Roth, Process-like modeling of flank-margin caves: From genesis to burial evolution, J. of Sedimentary Research 77 (11-12) (2007) 965-979.
  • 5A. Bogli, Mixing Corrosion, Karst Hydrology and Physical Speleology, Springer-Verlag, Germany, 1980, pp. 35-37.
  • 6W. Dreybrodt, J. Siemers, Cave evolution on two-dimensional networks of primary fractures in limestone, in: A.B. Klimchouk, D.C. Ford, A.N. Palmer, W. Dreybrodt (Eds.), Speleogenesis & Evolution of Karst Aquifers, Pub. National Speleological Society, Huntsville, AL, United States, 2000, pp. 200-211.
  • 7D.C. Ford, S. Lauritzen, R. Ewers, Modeling of initiation and propagation of single conduits and networks, in: A.B. Klimchouk, D.C. Ford, A.N. Palmer, W. Dreybrodt (Eds.), Speleogenesis & Evolution of Karst Aquifers, United States, National Speleological Society, Huntsville, AL, United States, 2000, pp. 175-183.
  • 8W.B. White, Conceptual models for karstic aquifers, Speleogenesis and the Evolution of Karst Aquifers 1 (1) (2003) 1-6.
  • 9W. Dreybrodt, F. Gabrovsek, Basic processes and mechanisms governing evolution of karst, Speleogenesis and the Evolution of Karst Aquifers 1 (1) (2003) 115-154.
  • 10W. Dreybrodt, F. Gabrovsek, D. Romanov, Processes of Speleogenesis: A Modeling Approach, Karst Institute at ZRC SAZU, Ljubljana, 2005, pp. 1-375.

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部