Karst geomorphology and hydrology
Author(s)
Bibliographic Information
Karst geomorphology and hydrology
Chapman & Hall, 1993
- : pbk
Available at 1 libraries
  Aomori
  Iwate
  Miyagi
  Akita
  Yamagata
  Fukushima
  Ibaraki
  Tochigi
  Gunma
  Saitama
  Chiba
  Tokyo
  Kanagawa
  Niigata
  Toyama
  Ishikawa
  Fukui
  Yamanashi
  Nagano
  Gifu
  Shizuoka
  Aichi
  Mie
  Shiga
  Kyoto
  Osaka
  Hyogo
  Nara
  Wakayama
  Tottori
  Shimane
  Okayama
  Hiroshima
  Yamaguchi
  Tokushima
  Kagawa
  Ehime
  Kochi
  Fukuoka
  Saga
  Nagasaki
  Kumamoto
  Oita
  Miyazaki
  Kagoshima
  Okinawa
  Korea
  China
  Thailand
  United Kingdom
  Germany
  Switzerland
  France
  Belgium
  Netherlands
  Sweden
  Norway
  United States of America
Note
Bibliography: p.547-582
Includes index
Description and Table of Contents
Description
components dissolve. The alumino silicate minerals are the great example of the incongruent class, releasing Na+, K+, HCO-, etc. ions in reaction with J water but retaining most of their atoms in re-ordered solids such as kaolinite. The karst minerals are all congruent in normal conditions. Incongruent solution of dolomite and precipitation of calcite may occur in some exceptional conditions mentioned later. The sample of congruent minerals in Table 3. 1 contains all the common elements of crustal rocks except Fe, and furnishes a majority of the common dissolved inorganic species. The range of solubility is enormou~. Gibbsite is an example that is insoluble to all intents and purposes; even in the most favourable circumstances encountered on the surface of this planet physical processes will disaggregate it and remove it as colloids or larger grains before there is significant solution damage. Rock salt (halite) is so soluble that it is rapidly destroyed in outcrop except in the driest places; it is principally important for its role in interstratal karstification. Sylvite and mirabilite are rarely encountered and never in great bulk. They occur as minor secondary cave minerals (see section 8. 4). Gypsum and anhydrite are quite common in outcrop. Karst features develop upon them rapidly because of their comparatively high solubility. Limestone and dolomite are common in outcrop. Their maximum solubility varies with environmental conditions but never approaches that of gypsum. Quartzite and siliceous sandstones are equally common in outcrop.
Table of Contents
- 1 Introduction to karst.- 1.1 Definitions.- 1.2 The global distribution of karst.- 1.3 The growth of ideas.- 2 The karst rocks.- 2.1 Carbonate rocks and minerals.- 2.2 Limestone compositions and depositional facies.- 2.3 Diagenesis and metamorphism of limestones
- formation of dolomite.- 2.4 The evaporite rocks.- 2.5 Quartzites and siliceous sandstones.- 2.6 Effects of lithologic properties upon karst development.- 2.7 Interbedded clastic rocks.- 2.8 Bedding planes, joints, faults and fracture traces.- 2.9 Fold topography.- 3 Dissolution chemical and kinetic behaviour of the karst rocks.- 3.1 Introduction.- 3.2 Aqueous solutions and chemical equilibria.- 3.3 The dissolution of anhydrite, gypsum and salt.- 3.4 Bicarbonate equilibria and the solution of carbonate rocks.- 3.5 Measurements in the field and lab
- computer programs.- 3.6 Chemical complications in carbonate solution.- 3.7 Two examples of the chemical evolution of simple calcium carbonate solutions.- 3.8 Dissolution and precipitation kinetics of the karst rocks.- 4 Distribution and rate of karst denudation.- 4.1 Global variations in the solution of carbonate terrains.- 4.2 Measurement and calculation of solution rates.- 4.3 Solution rates in non-carbonate rocks.- 4.4 Interpretation of measurements.- 5 Karst hydrology.- 5.1 Basic hydrological concepts, terms and definitions.- 5.2 Applicability of Darcy's law to karst.- 5.3 Controls on the development of karst aquifers.- 5.4 Energy supply for karst aquifer development.- 5.5 The rate of development of flow paths.- 5.6 Classification and characteristics of karst aquifers.- 6 Analysis of karst drainage systems.- 6.1 The 'grey box' nature of karst.- 6.2 Exploration and survey techniques.- 6.3 Aquifer zonation and thickness.- 6.4 Borehole analysis.- 6.5 Spring hydrograph analysis.- 6.6 Spring chemograph interpretation.- 6.7 Interpretation of the degree of organization of a karst aquifer.- 6.8 Polje hydrograph analysis.- 6.9 Water balance estimation.- 6.10 Water tracing techniques.- 7 Cave systems.- 7.1 Classifying cave systems.- 7.2 Formation of plan patterns of common caves.- 7.3 The common cave systems in depth.- 7.4 System modifications occurring within a single phase.- 7.5 Multi-phase cave systems.- 7.6 Meteoric water caves developed where there is confined circulation or basal injection of water.- 7.7 Hypogene caves A. Hydrothermal caves associated with CO2.- 7.8 Hypogene caves B. Caves formed by waters containing H2S.- 7.9 Sea coast mixing zone cavities.- 7.10 Massive sulphide deposits in karst cavities.- 7.11 Passage cross-sections and smaller features of erosional morphology.- 7.12 Breakdown in caves.- 8 Cave interior deposits.- 8.1 Introduction.- 8.2 Clastic sediments.- 8.3 Calcite, aragonite and other carbonate precipitates.- 8.4 Other cave minerals.- 8.5 Ice in caves.- 8.6 Dating and paleo-environmental analysis of calcite speleothems and other interior deposits.- 8.7 Mass flux through a cave system
- the example of Friars Hole, W. Virginia.- 9 Karst landform development in humid regions.- 9.1 Coupled hydrological and geochemical systems.- 9.2 Small scale solution sculpture.- 9.3 Dolines - the 'diagnostic' karst landform?.- 9.4 The origin and development of solution dolines.- 9.5 The origin of collapse and subsidence depressions.- 9.6 Morphometric analysis of dolines.- 9.7 Landforms associated with allogenic inputs.- 9.8 Karst poljes.- 9.9 Corrosional plains and shifts in baselevel.- 9.10 Residual hills on karst plains.- 9.11 Depositional and constructional karst features.- 9.12 Sequences of carbonate karst evolution in humid terrains.- 9.13 Special features of evaporite terrains.- 10 The influence of climate, climatic change and other environmental factors on karst development.- 10.1 The precepts of climatic geomorphology.- 10.2 The hot arid extreme.- 10.3 The cold extreme: 1 karst development in glaciated terrains.- 10.4 The cold extreme: 2 karst development in permafrozen terrains.- 10.5 Sea level changes, tectonic movement and implications for the development of coastal karst.- 10.6 Polycyclic and polygenetic karsts.- 10.7 Relict karsts and paleokarsts.- 11 Karst resources, their exploitation and management.- 11.1 Karst hydrogeological mapping and water resources assessment.- 11.2 Pollution of karst aquifers.- 11.3 Problems of construction on and in karst rocks - expect the unexpected!.- 11.4 Urban hydrology of karst.- 11.5 Industrial exploitation of karst rocks and minerals.- 11.6 Recreational and scientific values of karstlands.- References.
by "Nielsen BookData"