Application of Cathodoluminescence Imaging to the Study of Sedimentary Rocks

Sam Boggs; David  Krinsley

doi:10.1017/CBO9780511535475

References

Adams, A. E. and MacKenzie, W. S., 1998. A Color Atlas of Carbonate Sediments and Rocks Under the Microscope, New York, NY, John Wiley & Sons, Inc.

Akridge, D. G. and Benoit, P. H., 2001. Luminescence properties of chert and some archaeological applications. Journal of Archaeological Science, 28, 143–51.

Anderson, A. T. Jr., Davis, A. M., and Lu, F., 2000. Evolution of Bishop Tuff rhyolitic magma based on melt and magnetite inclusions, and zoned phenocrysts. Journal of Petrology, 41, 449–73.

Arlinghaus, H. F., 2002. Static secondary ion mass spectrometry (SSIMS). In Bubert, H. and Jenett, H. (eds.), Surface and Thin Film Analysis, Weinheim, Wiley-VCH Verlag GmbH, pp. 86–106.

Barbarand, J. and Pagel, M., 2001. Cathodoluminescence study of apatite crystals. American Mineralogist, 86, 473–84.

Barbin, V., 1995. Cathodoluminescence of carbonates: new applications in geology and archaeology. In Redmond, G.Balk, L., and Marshall, D. J. (eds.), Luminescence: Scanning Microscopy Supplement 9, Chicago, Scanning Microscopy International, pp. 113–23.

Barbin, V., 2000. Cathodoluminescence of carbonate shells: biochemical vs. diagenetic process. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 303–29.

Barbin, V., Ramseyer, K., Decrouez, D., et al., 1992. Cathodoluminescence of white marbles: an overview. Archaeometry, 34, 175–83.

Barker, C. E. and T. Wood, 1986. A review of the Technosyn and Nuclide cathodoluminescence stages and their application to sedimentary geology. In Hagni, R. D. (ed), Process Mineralogy, VI, Warrendale, PA, The Metallurgical Society, Inc., pp. 137–158.

Barker, C. E., D. K. Higley, and M. C. Dalziel, 1991. Using cathodoluminescence to map regionally zoned carbonate cements occurring in diagenetic aureoles above oil reservoir: initial results from the Velma oil field, Oklahoma. In Barker, C. E. and O. C. Kopp (eds.), Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 155–60.

Behr, H. J., 1989. Die geologische Aktivität von Krustenfluiden. In Gesteinsfluide – Ihre Herkunft und Bedeutung für Geologische Prozesse, Hannover, Niedersächsische Akademie der Geowissenschaffer, pp. 7–42.

Benninghoven, A., Rüdenauer, F. G., and Werner, H. W., 1987. Secondary Ion Mass Spectrometry: Basic Concepts, Instrumental Aspects, Applications and Trends, New York, NY, John Wiley & Sons.

Bernet, M. and Bassett, K., 2005. Provenance analysis by single-quartz grain SEM–CL/optical microscopy. Journal of Sedimentary Research, 75, 492–500.

Best, M. G. and Christiansen, E. H., 1997. Origin of broken phenocrysts in ash-flow tuffs. Geological Society of America Bulletin, 109, 63–73.

Boggs, S. Jr., 1992. Petrology of Sedimentary Rocks, New York, Macmillan Publishing Co.

Boggs, S. Jr., 2001. Principles of Sedimentology and Stratigraphy, 3rd edn., Upper Saddle River, NJ, Prentice Hall.

Boggs, S. Jr., Krinsley, D. H., Goles, G. G., Seyedolali, A., and Dypvik, H., 2001. Identification of shocked quartz by scanning cathodoluminescence imaging. Meteoritics & Planetary Sciences, 36, 783–91.

Boggs, S. Jr., Kwon, Y. -I., Goles, G. G., et al., 2002. Is quartz cathodoluminescence color a reliable provenance tool? A quantitative examination. Journal of Sedimentary Research, 72, 408–15.

Bourque, P. -A., Savard, M. M., Chi, G., and Dansereau, P., 2001. Diagenesis and porosity evolution of the Upper Silurian-lowermost Devonian West Point reef limestone, eastern Gaspé Belt, Québec Appalachians. Bulletin of Canadian Petroleum Geology, 49, 299–326.

Breton, P. J., 1999. From microns to nanometres: early landmarks in the science of scanning electron microscope imaging. Scanning Microscopy, 13, 1–6.

Bruckschen, P., Neuser, R. D., and Richter, D. K., 1992. Cement stratigraphy in Triassic and Jurassic limestones of the Weserbergland (northwestern Germany). Sedimentary Geology, 81, 195–214.

Budd, D. A., Hammes, U., and Ward, W. B., 2000, Cathodoluminescence in calcite cements: new insights on Pb and Zn sensitizing, Mn activation, and Fe quenching at low trace-element concentrations. Journal of Sedimentary Research, 70, 217–26.

Burley, S. D. and Worden, R. H., 2003. Sandstone Diagenesis: Recent and Ancient, Reprint Series Volume 4 of the International Association of Sedimentologists, Oxford, Blackwell Publishing Ltd.

Campbell, J. L. and Czamanske, G. K., 1998. Micro-PIXE in earth science. In Applications of Microanalytical Techniques to Understanding Mineralizing Processes, Reviews in Economic Geology, 7, pp. 169–85.

Carlson, R. C., Goldstein, R. H., and Enos, P., 2003. Effects of subaerial exposure on porosity evolution in the Carboniferous Lisburne Group, northeastern Brooks Range, Alaska, USA. In Permo-Carboniferous Carbonate Platforms and Reefs, SEPM Special Publication 78 and AAPG Memoir 83, pp. 269–90.

Cawood, P. A., Nemchin, A. A., Leverenz, A., Saeed, A.. and Ballance, P. F., 1999. U / Pb dating of detrital zircons: implications for the provenance record of Gondwana margin terranes. Geological Society of America Bulletin, 111, 1107–19.

Coniglio, M., 1989. Neomorphism and cementation in ancient deep-water limestones, Cow Head Group (Cambro-Ordovician), western Newfoundland, Canada. Sedimentary Geology, 65, 15–33.

Dapples, E. C., 1979, Diagenesis in sandstones. In Larsen, G., and Chilingar, G. V. (eds.), Diagenesis in Sediments and Sedimentary Rocks, Developments in Sedimentology 25A, Amsterdam, Elsevier Scientific Publishing Company, pp. 31–97.

Dickinson, W. W. and Milliken, K. L., 1995. The diagenetic role of brittle deformation in compaction and pressure solution, Etjo Sandstone, Nambia. Journal of Geology, 103, 339–47.

D'Lemos, R. S., Kearsley, A. T., Pemboke, J. W., Watt, G. R., and Wright, P., 1997. Complex quartz growth histories in granite revealed by scanning cathodoluminescence techniques. Geological Magazine, 134, 549–52.

Dorobek, S. L., 1987. Petrography, geochemistry, and origin of burial diagenetic facies, Siluro-Devonian Helderberg Group (carbonate rocks), central Appalachians. American Association of Petroleum Geologists Bulletin, 71, 492–514.

Dromgoole, E. L. and Walter, L. M., 1990. Iron and manganese incorporation into calcite: effects of growth kinetics, temperature and solution chemistry. Chemical Geology, 81, p. 311–36.

Durocher, S. and Al-Aasm, I. S., 1997. Dolomitization and neomorphism of Mississippian (Visean) Upper Debolt Formation, Blueberry Field, northeastern British Columbia: geologic, petrologic, and chemical evidence. American Association of Petroleum Geologists Bulletin, 81, 954–77.

Ebers, M. L. and Kopp, O. C., 1979. Cathodoluminescent microstratigraphy in gangue dolomite, the Mascot-Jefferson City District, Tennessee. Economic Geology, 74, 908–18.

El Ali, A., Barbin, V., Calas, G., Cervelle, B., Ramseyer, K., and Bouroulec, J., 1993. Mn2 +-activated luminescence in dolomite, calcite and magnesite: quantitative determination of manganese and site distribution by EPR and CL spectroscopy. Chemical Geology, 104, 189–202.

Emery, D. and Marshall, J. D., 1989. Zone calcite cements: has analysis outpaced interpretation?Sedimentary Geology, 65, 205–10.

Evamy, B. D., 1969. The precipitational environment and correlation of some calcite cements deduced from artificial staining. Journal of Sedimentary Petrology, 39, 787–821.

Evans, J., Hogg, A. J. C., Hopkins, M. S., and Howarth, R. J., 1994. Quantification of quartz cements by using combined SEM, CL, and image analysis. Journal of Sedimentary Research, A64, 334–8.

Fairchild, I. J., Knoll, A. H., and Swett, K., 1991. Coastal lithofacies and biofacies associated with syndepositional dolomitization and silicification (Draken Formation, Upper Riphean, Svalbard). Precambrian Research, 53, 165–97.

Finch, A. A. and Klein, J., 1999. The causes and petrological significance of cathodoluminescence emissions from alkali feldspars. Contributions to Mineralogy and Petrology, 135, 234–43.

Flem, B., Larsen, R. B., Grimstvedt, A., and Mansfeld, J., 2002. In situ analysis of trace elements in quartz by using laser ablation inductively coupled plasma mass spectrometry. Chemical Geology, 182, 237–47.

Folk, R. L., 1965. Some aspects of recrystallization in ancient limestones. In Dolomitization and Limestone Diagenesis, Society of Economic Paleontologists and Mineralogists Special Publication, 13, pp. 14–48.

Fournier, R. O., 1999. Hydrothermal processes related to movement of fluid from plastic to brittle rock in the magmatic–epithermal environment. Economic Geology, 94, 1193–212.

Fraser, D. G., 1995. The nuclear microprobe – PIXE, PIGE, RBS, NRA and ERDA. In Potts, P. J., Bowles, J. F. W., Reed, S. J. B., and Cave, M. R. (eds.), Microprobe Techniques in the Earth Sciences, London, Chapman & Hall, pp. 140–62.

Gaft, M., Reisfeld, R., Panczer, G., et al. 1997. Accommodation of rare-earth and manganese by apatite. Optical Materials, 8, 149–56.

Ghazban, F., Schwarcz, H. P., and Ford, D. C., 1992. Multistage dolomitization of the Society Cliffs Formation, northern Baffin Island, Northwest Territories, Canada. Canadian Journal of Earth Science, 29, 1459–73.

Gilhaus, A. and Richter, D. K., 2001. Polyphase Dolomitgenese in oberpermischen und obertrissischen Sabkha-Kleinzyklen von Hydra (Griechenland). Neues Jahrbuch für Geologie und Palaeontologie, Monatshefte, 2001, 399–422.

Goldstein, J. I., Newbury, D. E., Echlin, P.et al., 2003. Scanning Electron Microscopy and X-Ray Microanalysis, 3rd edn., New York, NY, Kluwer Academic/Plenum Publishers.

Goldstein, R. H., 1988. Cement stratigraphy of Pennsylvanian Holder Formation, Sacramento Mountains, New Mexico. American Association of Petroleum Geologists Bulletin, 72, 425–38.

Goldstein, R. H., 1991. Practical aspects of cement stratigraphy with illustrations from Pennsylvanian limestone and sandstone, New Mexico and Kansas. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 123–131.

Goldstein, R. H. and Rossi, C., 2002. Recrystallization in quartz overgrowths. Journal of Sedimentary Research, 72, 432–40.

Gorobets, B. S. and G. Walker, 1995. Origins and luminescence in minerals: A summary of fundamental studies and applications. In Marfunmin, A. S. (ed.), Advanced Mineralogy 2, Methods and Instrumentations: Results and Recent Developments, Berlin, Springer-Verlag, pp. 138–46.

Götte, Th., R. D. Neuser, and D. K. Richter, 2001. New parameters of quartz in sandstone-petrography: cathodoluminescence (CL)-investigation of mature sands and sandstones of north-western Germany. Abstracts of CL 2001 in Freiberg/Sachen, Germany, pp. 38–9.

Götze, J., 2002. Potential of cathodoluminescence (CL) microscopy and spectroscopy for the analysis of minerals and materials. Analytical and Bioanalytical Chemistry, 374, 703–8.

Götze, J. and Magnus, M., 1997. Quantitative determination of mineral abundance in geological samples using combined cathodoluminescence microscopy and image analysis. European Journal of Mineralogy, 9, 1207–15.

Götze, J. and Zimmerle, W., 2000. Quartz and silica as guide to provenance in sediments and sedimentary rocks. Contributions to Sedimentary Geology, 21, pp. 1–91.

Götze, J., M. R. Krbetscek, D. Habermann, and D. Wolf, 2000. High-resolution cathodoluminescence studies of feldspar minerals. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 245–70.

Götze, J., Plötze, M., and Habermann, D., 2001. Origin, spectral characteristics and practical applications of the cathodoluminescence (CL) of quartz – a review. Mineralogy and Petrology, 71, 225–50.

Götze, J., Plötze, M., Götte, Th., Neuser, R. D., and Richter, D. K., 2002. Cathodoluminescence (CL) and electron paramagnetic resonance (EPR) studies of clay minerals. Mineralogy and Petrology, 76, 195–212.

Graton, L. C. and Fraser, , 1935. Systematic packing of spheres with particular relation to porosity and permeability. Journal of Geology, 43, 785–909.

Gratz, A., Fisler, D. K., and Bohor, B. F., 1996. Distinguishing shocked from tectonically deformed quartz by use of the SEM and chemical etching. Earth and Planetary Science Letters, 142, 513–21.

Grover, G. Jr. and Read, J. F., 1983. Paleoaquifer and deep burial related cements defined by regional cathodoluminescence patterns, Middle Ordovician carbonates, Virginia. American Association of Petroleum Geologists Bulletin, 67, 1275–303.

Habermann, D., Neuser, R. D., and Richter, D. R., 1996. REE-activated cathodoluminescence of calcite and dolomite: high-resolution spectrometric analysis of CL-emission (HRS–CL). Sedimentary Geology, 101, 1–7.

Habermann, D., Neuser, R. D., and Richter, D. K., 1998. Lower limit of Mn2 +-activated cathodoluminescence of calcite: state of the art. Sedimentary Geology, 116, 13–24.

Habermann, D., R. D. Neuser, and D. K. Richter, 2000a. Quantitative high resolution analysis of Mn2 + in sedimentary calcite. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer Verlag, pp. 331–58.

Habermann, D., Götte, T., Meijer, J.et al., 2000b. High resolution rare-earth elements analyses of natural apatite and its application in geo-sciences: combined micro-PIXE, quantitative CL spectroscopy and electron spin resonance analyses. Nuclear Instruments and Methods in Physics Research B, 161–163, 846–51.

Hagni, R. D., 1986. Importance of cathodoluminescence microscopy in study of sedimentary ironstones. American Association of Petroleum Geologists Bulletin, 70, 598.

Hartmann, B. H., Juhász-Bodnár, K., Ramseyer, K., and Matter, A., 2000. Polyphased quartz cementation and its sources: a case study from the Upper Palaeozoic Haushi Group sandstones, Sultanate of Oman. In Quartz Cementation in Sandstones, International Association of Sedimentologists, Special Publication, 29, pp. 253–70.

Heaney, P. J., 1994. Structure and chemistry of the low-pressure polymorphs. In Silica: Physical Behavior, Geochemistry and Material Applications, Mineralogical Society of America Reviews in Mineralogy, 29, pp. 1–40.

Herzog, L. F., D. J. Marshall, and R. R. Babione, 1970. The Luminoscope – a new instrument for studying the electron-stimulated luminescence of terrestrial, extra-terrestrial and synthetic materials under the microscope. In Weber, J. N. and White, E. (eds.), Space Science Applications of Solid State Luminescence Phenomena, Materials Research Laboratory Special Publication, 70–101, pp. 79–98.

Hinton, R. W., 1995. Ion microprobe analysis in geology. In Potts, P. J., Bowles, J. F. W., Reed, S. J. B., and Cave, M. R. (eds.), Microprobe Techniques in the Earth Sciences: London, Chapman & Hall, pp. 237–89.

Hogg, A. J. C., Sellier, E., and Jourdan, A. J., 1992. Cathodoluminescence of quartz cements in Brent Group sandstones, Alwyn South, UK North Sea. In Geology of the Brent Group, Geological Society Special Publication No. 61, pp. 421–40.

Hoholick, J. D., 1984. Regional variations of porosity and cement: St. Peter and Mount Simon sandstones in Illinois Basin. American Association of Petroleum Geologists Bulletin, 68, 753–64.

Houseknecht, D. W., 1987. Assessing the relative importance of compaction processes and cementation to reduction of porosity in sandstones. American Association of Petroleum Geologists Bulletin, 71, 633–42.

Houseknecht, D. W., 1991. Use of cathodoluminescence petrography for understanding compaction, quartz cementation, and porosity in sandstones. In Luminescence Microscopy and Spectroscopy: Quantitative and Qualitative Applications, SEPM Short Course 25, pp. 59–66.

Hutter, H., 2002. Dynamic secondary ion mass spectrometry. In Bubert, H. and Jenett, H. (eds.), Surface and Thin Film Analysis, Weinheim, Wiley-VCH Verlag GmbH, pp. 106–21.

Jackson, S. E., Longerich, H. P., Dunning, G. R., and Fryer, B. J., 1992. The application of laser-ablation microprobe–inductively coupled plasma–mass spectrometry (LAM–ICP-MS) to in situ trace-element determinations in minerals. Canadian Mineralogist, 30, 1049–64.

Jarvis, K. E., Gray, A. L., and Houk, R. S., 1992. Handbook of Inductively Coupled Plasma Mass Spectrometry, Glasgow, Blackie & Sons Ltd.

Johnson, S. A. E., Campbell, J. L., Malmqvist, K. G. (eds.), 1995. Particle-Induced X-Ray Emission Spectrometry (PIXE), New York, NY, Wiley Interscience.

Julig, P. J., Long, D. G. F., and Hancock, R. G. V., 1998. Cathodoluminescence and petrographic techniques for positive identification of quartz-rich lithic artifacts from late Paleo-Indian sites in the Great Lakes region. The Wisconsin Archeologist, 79, 68–88.

Kaufman, J., Cander, H. S., Daniels, L. D., and Meyers, W. J., 1988. Calcite cement stratigraphy and cementation history of the Burlington–Keokuk Formation (Mississippian), Illinois and Missouri. Journal of Sedimentary Petrology, 58, 312–26.

Keller, T. J., Gregg, J. M., and Shelton, K. L., 2000. Fluid migration and associated diagenesis in the greater Reelfoot Rift region, Midcontinent, United States. Geological Society of America Bulletin, 112, 1680–93.

Kempe, U. and Götze, J., 2002. Cathodoluminescence (CL) behavior and crystal chemistry of apatite from rare-metal deposits. Mineralogical Magazine, 66, 151–72.

Kempe, U., T. Grunder, L. Nasdala, and D. Wolf, 2000. Relevance of cathodoluminescence for the interpretation of U–Pb zircon ages, with an example of an application to a study of zircons from the Saxonian Granulite Complex, Germany. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 415–55.

Kopp O. C., 1991. Studies of ore deposits and trace elements in minerals. In Luminescence Microscopy and Spectroscopy, Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 117–22.

Kopp, O. C., M. L. Ebers, L. B. Cobb, et al., 1986. Application of cathodoluminescence microscopy to the study of gangue carbonates in Mississippi Valley-type deposits in Tennessee: the search for a “Tennessee Trend.” In Hagni, R. D. (ed.), Process Mineralogy, VI, Warrendale, PA, The Metallurgical Society Inc., pp. 53–67.

Kopp, O. C., E. L. Fuller, Jr., and M. R. Owen, 1995. Interpretation of cathodoluminescence spectra obtained from dolomite and calcite gangue minerals, and dolostone breccias in the Central Tennessee Zinc District (USA). In Luminescence, Scanning Microscopy Supplement 9, pp. 211–23.

Krinsley, D. H. and Hyde, P. W., 1971. Cathodoluminescence studies of sediments. Scanning Electron Microscopy/1971 Part I, Proceedings of the Fourth Annual Scanning Electron Microscopy Symposium, Chicago, IL, IIT Research Institute, pp. 409–16.

Krinsley, D. and Tovey, N. K., 1978. Cathodoluminescence in Quartz Sand Grains. Scanning Electron Microscopy, 1, pp. 887–94.

Krinsley, D. H., Pye, K., Boggs, S. Jr., and Tovey, N. K., 1998, Backscattered Electron Microscopy and Image Analysis of Sediments and Sedimentary Rocks, Cambridge, Cambridge University Press.

Kupecz, J. A. and L. S. Land, 1994. Progressive recrystallization and stabilization of early-stage dolomite: Lower Ordovician Ellenburger Group, west Texas. In Dolomites: A Volume in Honour of Delomieu, International Association of Sedimentologists, Special Publication, No. 21, pp. 255–79.

Kwon, Y -N. and Boggs, S. Jr., 2002. Provenance interpretation of Tertiary sandstones from the Cheju Basin (NE East China Sea): a comparison of conventional petrographic and scanning cathodoluminescence techniques. Sedimentary Geology, 152, 29–43.

Lapuente, M. P., Turi, B., and Blanc, P., 2000. Marbles from Roman Hispania: stable isotope and cathodoluminescence characterization. Applied Geochemistry, 15, 1469–93.

Laubach, S. E., 1997. A method to detect natural fracture strike in sandstones. American Association of Petroleum Geologists Bulletin, 81, 604–23.

Lee, M. R., 2000. Imaging of calcite by optical and SEM cathodoluminescence. Microscopy and Analysis, 70, 15–16.

Lee, M. R. and Harwood, G. M., 1989. Dolomite calcitization and cement zonation related to uplift of the Raisby Formation (Zechstein carbonate), northeast England. Sedimentary Geology, 65, 285–305.

Lee, M. R., Martin, R. W., Trager-Cowan, C., and Edwards, P. R., 2005. Imaging of cathodoluminescence zoning in calcite by scanning electron microscopy and hyperspectral mapping. Journal of Sedimentary Research, 75, 313–22.

Lev, S. M., McLennan, S. M., Meyers, W. J., and Hanson, G. N., 1998. A petrographic approach for evaluating trace-element mobility in a black shale. Journal of Sedimentary Research, 68, 970–80.

Leverenz, H. W., 1968. An Introduction to Luminescence of Solids, New York, NY, Dover Publications.

Lohmann, K. C. and Walker, J. C. G., 1989. The δ18O record of Phanerozoic abiotic marine calcite cements. Geophysical Research Letters, 16, 319–22.

Long, J. V. P., 1963. Recent advances in electron-probe analysis. In Mueller, W. M. and Fay, M. (eds.), Advances in X-Ray Analysis: Proceedings of the 11th Annual Conference on Applications of X-ray Analysis, August 1962, New York, NY, Plenum Press, vol. 6, pp. 276–90.

Long, J. V. P. and Agrell, S. O., 1965. The cathodo-luminescence of minerals in thin section. Mineralogical Magazine, 34, 318–26.

Lowenstam, H. A. and Weiner, S., 1989. On Biomineralization, Oxford, Oxford University Press.

Lyon, I. C., Burley, S. D., McKeever, P. J., Saxton, J. M., and Macaulay, C., 2000. Oxygen isotope analysis of authigenic quartz in sandstones: a comparison of ion microprobe and conventional analytical techniques. In Quartz Cementation in Sandstones, International Association of Sedimentologists Special Publication, 29, pp. 299–316.

Machel, H. G., 1985. Cathodoluminescence in calcite and dolomite and its chemical interpretation. Geoscience Canada, 12, 139–47.

Machel, H. G., 2000. Application of cathodoluminescence to carbonate diagenesis. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.); Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 271–301.

Machel, H. G. and E. A. Burton, 1991. Factors governing cathodoluminescence in calcite and dolomite, and their implications for studies of carbonate diagenesis. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 37–57.

Machel, H. G., R. A. Mason, A. N. Mariano, and A. Mucci, 1991. Causes and emission of luminescence in calcite and dolomite. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 9–25.

MacRae, N. D., 1995. Secondary-ion mass spectrometry and geology. The Canadian Mineralogist, 33, 219–36.

Major, R. P., 1991. Cathodoluminescence in Post-Miocene carbonates, In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 149–53.

Makowitz, A. and Milliken, K. L., 2003. Quantification of brittle deformation in burial compaction, Frio and Mount Simon Formation sandstones. Journal of Sedimentary Research, 73, 1007–21.

Maliva, R. G., 1989. Displacive syntaxial overgrowths in open marine limestones. Journal of Sedimentary Petrology, 59, 397–403.

Mariano, A. N., 1988. Some further geological applications of cathodoluminescence. In Marshall, D. J., Cathodoluminescence of Geological Materials, Boston, MA, Unwin Hyman, pp. 94–123.

Marshall, D. J., 1988. Cathodoluminescence of Geological Materials, Boston, Unwin Hyman.

Marshall, D. J., 1991. Combined cathodoluminescence and energy dispersive spectroscopy. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 27–35.

Marshall, D. J., 1993. The present status of cathodoluminescence attachments for optical microscopes. Scanning Microscopy, 7, 861–74.

Marshall, D. J., J. H. Giles, and A. Marino, 1988. Combined instrumentation for EDS elemental analysis and cathodoluminescence studies of geological materials. In Hagni, R. D. (ed.), Process Mineralogy VI, Warrendale, PA, The Metallurgical Society Inc., pp. 117–35.

Matter, A. and K. Ramseyer, 1985. Cathodoluminescence microscopy as a tool for provenance studies of sandstones. In Zuffa, G. G. (ed.), Provenance of Arenites, Dordrecht, D. Reidel Publishing Co., pp. 191–211.

McLimans, R. K., 1991. Studies of reservoir diagenesis, burial history, and petroleum migration using luminescence micrography. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 97–106.

Meyers, W. J., 1991. Calcite cement stratigraphy: an overview. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 133–48.

Meyers, W. J., 1974. Carbonate cement stratigraphy of the Lake Valley Formation (Mississippian), Scaramento Mountains, New Mexico. Journal of Sedimentary Petrology, 44, 837–61.

Meyers, W. J., 1978. Carbonate cements: their regional distribution and interpretation in Mississippian limestones of southwestern New Mexico. Sedimentology, 25, 371–400.

Miller, J., 1988. Cathodoluminescence microscopy. In Tucker, M. (ed.), Techniques in Sedimentology, Oxford, Blackwell Scientific Publications, pp. 174–90.

Milliken, K. L., 1994. Cathodoluminescence textures and the origin of quartz silt in Oligocene mudrocks, south Texas. Journal of Sedimentary Research, A64, 567–71.

Milliken, K. L. and S. E. Laubach, 2000. Brittle deformation in sandstone diagenesis revealed by scanned cathodoluminescence imaging with application to characterization of fractured reservoirs. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer Verlag, pp. 225–43.

Mitchell, R. H., Xiong, J., Mariano, A. N., and Fleet, M. E., 1997. Rare-earth-element-activated cathodoluminescence in apatite. The Canadian Mineralogist, 35, 979–98.

Montañez, I. P., 1997. Application of cathodoluminescencent cement stratigraphy for delineating regional diagenetic and fluid migration events associated with Mississippi Valley-type mineralization in the southern Appalachians. Special Publication, Society of Economic Geologists, 4, 432–47.

Muir, M. D. and P. R. Grant, 1974. Cathodoluminescence. In Holt, D. B. and Muir, M. D., Quantitative Scanning Electron Microscopy, London, Academic Press, pp. 287–334.

Müller, A., 2000. Cathodoluminescence and characterisation of defect structures in quartz with applications to the study of granitic rocks. Doctoral dissertation, Georg-August-Universität zu Göttingen.

Müller, A., Seltmann, R., and Behr, H. -J., 2000. Application of cathodoluminescence to magmatic quartz in a tin granite – case study from the Schellerhau Granite complex, eastern Erzgebirge, Germany. Mineralium deposita, 35, 169–89.

Müller, A., Wiedenbeck, M., Kerkhof, A. M., Kronz, A., and Simon, K., 2003. Trace elements in quartz – a combined electron microprobe, secondary ion mass spectrometry, laser-ablation ICP–MS, and cathodoluminescence study. European Journal of Mineralogy, 15, 747–63.

Neuser, R. D., Richter, D. K., and Vollbrecht, A., 1989. Natural quartz with brown/violet cathodoluminescence – genetic aspects evident from spectral analysis. Zentralblatt für Geologie und Palaeontologie, Teil I: Allgemeine, Angewandte, Regionale und Historische Geologie, 1988 (7–8), 919–30.

Nielsen, P., Swennen, R., and Keppens, E., 1994. Multiple-step recrystallization within massive ancient dolomite units; an example from the Dinantian of Belgium: Sedimentology, 41, 567–84

Oatley, C. W., 1972. The Scanning Electron Microscope, Cambridge, Cambridge University Press.

Oatley, C. W., 1982. The early history of the scanning electron microscope. Journal of Applied Physics, 53, R1–13.

Onasch, C. M. and Vennemann, T. W., 1995. Disequilibrium partitioning of oxygen isotopes associated with sector zoning in quartz. Geology, 23, 1103–6.

Owen, M. R., 1991. Application of cathodoluminescence to sandstone provenance. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 67–75.

Owen, M. R. and Carozzi, A. V., 1986. Southern provenance of upper Jackfork Sandstone, southern Ouachita Mountains: cathodoluminescence petrology. Geological Society of America, Bulletin, 97, 110–15.

Padovani, E. R., Shirley, S. B., and Simmons, G., 1982. Characteristics of microcracks in amphibolite and granulite facies grade rocks from southeastern Pennsylvania. Journal of Geophysical Research, 87, 8605–30.

Pagel, M., V. Barbin, P. Blanc, and D. Ohnenstetter, 2000a. Cathodoluminescence in geosciences: an introduction. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 1–21.

Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), 2000b. Cathodoluminescence in Geosciences, Berlin, Springer-Verlag.

Passchier, C. W. and Trouw, R. A. J., 1996. Microtectonics, Berlin, Springer-Verlag.

Paxton, S. T., Szabo, J. O., Ajdukiewicz, J. M., and Klimentidis, R. E., 2002. Construction of an intergranular volume compaction curve for evaluating and predicting compaction and porosity loss in rigid-grain sandstone reservoirs. American Association of Petroleum Geologists Bulletin, 86, 2047–67.

Penniston-Dorland, S. C., 2001. Illumination of vein quartz textures in a porphyry copper ore deposit using scanned cathodoluminescence: Grasberg Igneous Complex, Irian Jaya, Indonesia. American Mineralogist, 86, 652–66.

Pennock, G. M., 1995. Scanning electron microscopy and image formation. In Marfunin, A. S. (ed.), Advanced Minerlogy: Methods and Instrumentation. Results and Recent Developments, Berlin, Springer Verlag, vol. 2, pp. 273–9.

Peppard, B. T., Steele, I. M., Davis, A. M., Wallace, P. J., and Anderson, A. T., 2001. Zoned quartz phenocrysts from the rhyolitic Bishop Tuff. American Mineralogist, 86, 1034–52.

Perkins, W. T. and N. J. G. Pearce, 1995. Mineral microanalysis by microprobe inductively coupled plasma mass spectrometry. In Potts, P. J., Bowles, J. F. W., Reed, S. J. B., and Cave, M. R. (eds.), Microprobe Techniques in the Earth Sciences, London, Chapman & Hall, pp. 291–325.

Perny, B., Eberhardt, P., Ramseyer, K., Mullis, J., and Pankrath, R., 1992. Microdistribution of Al, Li, and Na in α-quartz: possible causes and correlation with short lived cathodoluminescence. American Mineralogist, 77, 534–44.

Pettijohn, F. J., Potter, P. E., and Siever, R., 1973. Sand and Sandstone, New York, NY, Springer-Verlag.

Picouet, P., 1997. Application de la cathodoluminescence á l'étude des céramiques modernes et archéologiques. Ph.D. Thesis, University of Fribourg, Switzerland.

Picouet, P., Maggetti, M., Piponnier, D., and Schvoerer, M., 1999. Cathodoluminescence spectroscopy of quartz grains as a tool for ceramic provenance. Journal of Archaeological Science, 26, 943–9.

Poller, U., 2000. A combination of single zircon dating by TIMS and cathodoluminescence investigations of the same grain: the CLC method – U–Pb geochronology for metamorphic rocks. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 401–14.

Popp, B. N., Anderson, T. F., and Sandberg, P. A., 1986. Brachiopods as indicators of original isotopic composition in some Paleozoic limestones. Geological Society of America Bulletin, 97, 1262–9.

Ramsey, J. G., 1980. The crack–seal mechanism of rock deformation. Nature, 284, 135–9.

Ramseyer, K., Baumann, J., Matter, A., and Mullis, J., 1988. Cathodoluminescence colours of α-quartz. Mineralogical Magazine, 52, 669–77.

Ramseyer, K., Fischer, J., Matter, A., Eberhardt, P., and Geiss, J., 1989. A cathodoluminescence microscope for low intensity luminescence. Journal of Sedimentary Petrology, 59, 619–22.

Redmond, G., S. Kimoto, and H. Okuzumi, 1970. Use of the SEM in cathodoluminescence observations on natural samples. In Johari, O. (ed.), Scanning Electron Microscopy, Proceedings of the Third Annual Scanning Electron Microscope Symposium, Chicago, ILIIT Research Institute, pp. 33–40.

Redmond, G., Cesbron, F., Chapoulie, R., et al., 1992. Cathodoluminescence applied to the microcharacterization of mineral materials: a present status in experimentation and interpretation. Scanning Microscopy, 6, 23–68.

Redmond, G., M. R. Phillips, and C. Roques-Carmes, 2000. Importance of instrumental and experimental factors on the interpretation of cathodoluminescence data from wide band gap materials. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 60–126.

Reed, R. M. and Milliken, K. L., 2003. How to overcome imaging problems associated with carbonate minerals on SEM-based cathodoluminescence systems. Journal of Sedimentary Research, 73, 328–32.

Reed, S. J. B., 1995. Electron probe microanalysis. In Potts, P. J., Bowles, J. F. W., Reed, S. J. B., and Cave, M. R. (eds.), Microprobe Techniques in the Earth Sciences, London, Chapman & Hall, pp. 49–89.

Reed, S. J. B. and Romanenko, I. M., 1995. Electron probe microanalysis. In Advanced mineralogy. Methods and Instrumentations: Results and Recent Developments, Berlin, Springer-Verlag, vol. 2, pp. 240–6.

Reeder, R. J., 1991. An overview of zoning in carbonate minerals. In Luminescence Microscopy and Spectroscopy: Qualitative and Quantitative Applications, SEPM Short Course 25, pp. 77–82.

Reinhold, C., 1998. Multiple episodes of dolomitization and dolomite recrystallization during shallow burial in Upper Jurassic shelf carbonates: eastern Swabian Alb, southern Germany. Sedimentary Geology, 121, p. 71–95.

Richter, D. K., Götte, Th., and Habermann, D., 2002. Cathodoluminescence of authigenic albite. Sedimentary Geology, 150, p. 367–74.

Richter, D. K., Götte, Th., Götze, J., and Neuser, R. D., 2003. Progress in application of cathodoluminescence (CL) in sedimentary petrology. Mineralogy and Petrology, 79, 127–66.

Richter, D. K. and Zinkernagel, U., 1981. Zur Anwendung der Kathodolumineszenz in der Karbonatpetrographie. Geologische Rundschau, 70, 1276–302.

Ridley, W. I. and F. E. Lichte, 1998. Major, trace, and ultratrace element analysis by laser ablation ICP-MS. In Applications of Microanalytical Techniques to Understanding Mineralizing Processes, Reviews in Economic Geology, 7, pp. 199–215.

Roedder, E., 1984. Fluid Inclusions: an Introduction to Studies of all Types of Fluid Inclusions, gas, liquid, or Melt Trapped in Materials from Earth and Space, and their Application to the Understanding of Geologic Processes. Mineralogical Society of America Reviews in Mineralogy, 12.

Ross, G. M., Villeneuve, M. E., and Theriault, R. J., 2001. Isotopic provenance of the lower Muskwa assemblage (Mesoproterozoic, Rocky Mountains, British Columbia): new clues to correlation and source areas. Precambrian Research, 111, 57–77.

Rowan, E. L., 1986. Cathodoluminescence zoning in hydrothermal dolomite cements: relationship to Mississippi Valley-type Pb–Zn mineralization in southern Missouri and northern Arkansas. In Hagni, R. D. (ed.), Process Mineralogy VI, Warrendale, PA, The Metallurgical Society Inc., pp. 69–87.

Rubatto, D. and D. Gebauer, 2000. Use of cathodoluminescence for U–Pb zircon dating by ion microprobe: some examples from the western Alps. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, Springer-Verlag, pp. 373–400.

Rusk, B. and Reed, M., 2002. Scanning electron microscope–cathodoluminescence analysis of quartz reveals complex growth histories in veins from the Butte porphyry copper deposit, Montana. Geology, 30, 727–30.

Russ, J. C., 1984. Fundamentals of Energy Dispersive X-Ray Analysis, London, Butterworths, ch. 1.

Ryan, C. G., Clayton, E. J., Griffin, W. L., et al., 1988. SNIP, a statistics–sensitive background treatment for the quantitative analysis of PIXE spectra in geoscience applications. Nuclear Instruments, and Methods in Physics Research B, 34, 396–402.

Sandberg, P. A., 1983. An oscillating trend in Phanerozoic non-skeletal carbonate mineralogy. Nature, 305, 19–22.

Schieber, J., Krinsley, D., and Riciputi, L., 2000. Diagenetic origin of quartz silt in mudstones and implications for silica cycling. Nature, 406, 981–5.

Scholle, P. A. and D. A. Ulmer-Scholle, 2003. A Color Guide to the Petrography of Carbonate Rocks: Grains, Textures, Porosity, Diagenesis, AAPG Memoir 77.

Schvoerer, M., Guibert, P., Piponnier, D., and Bechtel, F., 1986. Cathodoluminescence des matériaux archéologiques. PACT (Journal of the European Study Group on Physical, Chemical, Biological and Mathematical Techniques Applied to Archaeology), 15, 93–110.

Schweiger, A. and Jeschke, G., 2001. Principles of Pulse Electron Paramagnetic Resonance. Oxford, Oxford University Press.

Searl, A., 1988. The limitations of “cement stratigraphy” as revealed in some Lower Carboniferous oolites from south Wales. Sedimentary Geology, 57, 171–83.

Sedat, B., 1992. Petrographie und Diagenese von Sandsteinen im Nordwestdeutshen Oberkarbon. Hamburg, DGMK-Forschungsbericht 384–7.

Seyedolali, A., Krinsley, D. H., Boggs, S. Jr., et al., 1997a. Provenance interpretation of quartz by scanning electron microscope–cathodoluminescence fabric analysis. Geology, 25, 787–90.

Seyedolali, A., Boggs, S. Jr., Goles, G. G., and Krinsley, D. H., 1997b. Cathodoluminescence of quartz from contact-metamorphosed rocks of Skaergaard Intrusion and mechanically sheared metamorphosed rocks of Prescott, Arizona. Abstracts with Programs, Geological Society of America, 29(6), 40l.

Sippel, R. F., 1965. Simple device for luminescence petrography. Review of Scientific Instruments, 36, 1556–8.

Sippel, R. F., 1968. Sandstone petrology, evidence from luminescence petrography. Journal of Sedimentary Petrology, 38, 530–54.

Smith, J. V. and Stenstrom, R. C., 1965. Electron-excited luminescence as a petrologic tool. Journal Of Geology, 73, 627–35.

Smith, K. C. A., 1956. The scanning electron microscope and its field of application. Ph.D. Dissertation, University of Cambridge.

Sprunt, E. S. and Nur, A., 1979. Microcracking and healing in granites: new evidence from cathodoluminescence. Science, 205, 495–7.

Stanley, S. M. and Hardie, L. A., 1999. Hypercalcification: paleontology links plate tectonics and geochemistry in sedimentology. GSA Today, 9, 1–7.

Steffens, P., Niehuis, E., Friese, T., Greifendorf, D., and Benninghoven, A., 1985. A time-of-flight mass spectrometer for static SIMS applications. Journal of Vacuum Science Technology A, 3(3), 1322–5.

Stenstrom, R. C. and J. V. Smith, 1964. Electron-excited luminescence as a petrologic tool. Geological Society of America Special Paper 76, p. 158.

Kalceff, Stevens M. A. and Phillips, M. R., 1995. Cathodoluminescence microcharacterization of the defect structure of quartz. Physical Review B, 52, 3122–34.

Stevens Kalceff, M. A., M. R. Phillips, A. R. Moon, and W. Kalceff, 2000. Cathodoluminescence microcharacterization of silicon dioxide polymorphs. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.), Cathodoluminescence in Geosciences, Berlin, SpringerVerlag, pp. 193–224.

Stöffler, D. and Langenhorst, F., 1994. Shock metamorphism of quartz in nature and experiment: 1. Basic observations and theory. Meteoritics, 29, 155–81.

Stone, W. N. and Siever, R., 1996. Quantifying compaction, pressure solution and quartz cementation in moderately- and deeply-buried quartzose sandstones from the greater Green River Basin, Wyoming. In Siliciclastic Diagenesis and Fluid Flow, Society for Sedimentary Geology Special Publication 55, pp. 129–50.

Stow, D. A. V. and J. Miller, 1984. Mineralogy, petrology and diagenesis of sediments at Site 530, southeast Angola basin. In Hay, W. W., Sibuet, J. C.et al. (eds.), Initial Reports of the Deep Sea Drilling Project, Washington, DC., US Government Printing Office, vol. LXXV, pp. 857–73.

Stünitz, H., 1998. Syndeformational recrystallization – dynamic or compositionally induced?Contributions to Mineralogy and Petrology, 131, 219–36.

Sylvester, P. (ed.), 2001. Laser-Ablation–ICPMS in the Earth Sciences: Principles and Applications. Ottawa, Mineralogical Association of Canada.

Tarashchan, A. N. and G. Waychunas, 1995. Interpretation of luminescence spectra in terms of band theory and crystal field theory. Sensitization and quenching, photoluminescence, radioluminescence, and cathodoluminescence. In Marfunmin, A. S. (ed.), Advanced Mineralogy 2, Methods and Instrumentations: Results and Recent Developments, Berlin, Springer-Verlag, pp. 124–35.

Taylor, J. M., 1950. Pore-space reduction in sandstones. American Association of Petroleum Geologists Bulletin, 34, 701–16.

Thornton, P. R., 1968. Scanning Electron Microscopy, London, Chapman and Hall.

Tobin, K. J., Walker, K. R., Steinhauff, D. M., and Mora, C. I., 1996. Fibrous calcite from the Ordovician of Tennessee: preservation of marine oxygen isotopic composition and its implications. Sedimentology, 43, 235–51.

Trewin, N., 1988, Use of the scanning electron microscope in sedimentology. In Tucker, M. (ed.), Techniques in Sedimentology, Oxford, Blackwell Scientific Publications, pp. 229–73.

Kerkhof, A. M. and Hein, U. F., 2001. Fluid inclusion petrography: Lithos, 55, 27–47.

van den Kerkhof, A. M., A. Kronz, and K. Simon, 2001. Trace element redistribution in metamorphic quartz and fluid inclusion modification: observations by cathodoluminescence. In Noronha, F., Dória, A., and Guedes, A. (eds.), XVI ECROFI European Current Research on Fluid Inclusions, Porto 2001, Abstracts, Amsterdam, Elsevier, pp. 447–50.

Vortisch, W., Harding, D., and Morgan, J., 2003. Petrographic analysis using cathodoluminescence microscopy with simultaneous energy-dispersive X-ray spectroscopy. Mineralogy and Petrology, 79, 193–202.

Walderhaug, O. and Rykkje, J., 2000. Some examples of crystallographic orientation on the cathodoluminescence colors of quartz. Journal of Sedimentary Research, 70, 545–8.

Walkden, G. M. and Berry, J. R., 1984. Syntaxial overgrowths in muddy crinoidal limestones; cathodoluminescence sheds new light on an old problem. Sedimentology, 31, 251–67.

Walker, G., 2000. Physical parameters for the identification of luminescence centres in minerals. In Pagel, M., Barbin, V., Blanc, P., and Ohnenstetter, D. (eds.) Cathodoluminescence in Geosciences, Berlin, Springer Verlag, pp. 23–39.

Walker, G. and S. Burley, 1991. Luminescence petrography and spectroscopic studies of diagenetic minerals. In Luminescence Microscopy and Spectroscopy: Quantitative and Qualitative Applications, SEPM Short Course 25, pp. 83–96.

Wallace, M. W., Kerans, C., Playford, P. W., and McManus, D., 1991. Burial diagenesis in the Upper Devonian reef complexes of the Geikie Gorge region, Canning Basin, Western Australia. American Association of Petroleum Geologists Bulletin, 75, 1018–38.

Watt, G. R., Wright, P., Galloway, S., and McLean, C., 1997. Cathodoluminescence and trace element zoning in quartz phenocrysts and xenocrysts. Geochimica et cosmochimica acta, 61, 4337–48.

Waychunas, G. A., 2002. Apatite luminescence. In Kohn, M. J., Rakovan, J., and Hughes, J. M. (eds.), Reviews in Mineralogy and Geochemistry, Washington, DC, Mineralogical Society of America, vol. 48, 701–42.

Weil, J. A., 1984. A review of electron spin spectroscopy and its application to the study of paramagnetic defects in crystalline quartz. Physics and Chemistry of Minerals, 10, 149–65.

Weil, J. A., 1993. A review of the EPR spectroscopy of the point defects in α-quartz: the decade 1982–1992. In Helms, C. R. and Deal, B. E. (eds.), The Physics and Chemistry of SiO2and the Si-SiO2Interface 2, New York, NY, Plenum Press, pp. 131–44.

Weil, J. A., Bolton, J. R., and Wertz, J. E., 1994. Electron Paramagnetic Resonance: Elementary Theory and Practical Applications, New York, NY, John Wiley & Sons, Inc.

Weil, J. A., Y. Dusausoy, and S. L. Votyakov, 1995. Electron paramagnetic resonance (EPR), 1995. In Marfunin, A. S., (ed.), Advanced Mineralogy, Methods and Instrumentations: Results and Recent Developments, Berlin, Springer-Verlag, vol. 2, pp. 197–209.

Williams, P. M. and Yoffe, A. D., 1968. Scanning electron microscope studies of cathodoluminescence in ZnSe single crystals. Philosophical Magazine, 18, 555–60.

Wilson, R. G., Stevie, F. A., and Magee, C. W., 1990. Secondary Ion Mass Spectrometry: A Practical Handbook for Depth Profiling and Bulk Impurity Analysis, New York, NY, John Wiley & Sons.

Wolfe, J. P., 1998. Imaging Phonons: Acoustic Wave Propagation in Solids, New York, NY, Cambridge University Press.

Worden, R. H. and S. D. Burley, 2003. Sandstone diagenesis: the evolution of sand to stone. In Burley, S. D. and Worden, R. H. (eds.), Sandstone Diagenesis: Recent and Ancient, Malder, MA, Blackwell Publishing, pp. 3–44.

Wordon, R. H. and S. Morad, 2000. Quartz Cementation in Sandstones, International Association of Sedimentologists Special Publication, 29.

Yoo, C. M., Gregg, J. M., and Shelton, K. L., 2000. Dolomitization and dolomite neomorphism; Trenton and Black River limestones (Middle Ordovician) northern Indiana, USA. Journal of Sedimentary Research, 70, 265–74.

Young, S. W., 1976. Petrographic textures of detrital polycrystalline quartz as an aid to interpreting crystalline source rocks. Journal of Sedimentary Petrology, 46, 595–603.

Zinkernagel, U., 1978. Cathodoluminescence of quartz and its application to sandstone petrology. Contributions to Sedimentology, 8, 1–69.

Zuffa, G. G. (ed.), 1985. Provenance of Arenites, Dordrecht, D. Reidel Publishing.

Application of Cathodoluminescence Imaging to the Study of Sedimentary Rocks

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Contents

Frontmatter
pp i-iv

Contents
pp v-vi

Preface
pp vii-viii

Acknowledgments
pp ix-x

1 - Introduction
pp 1-4

PART I - PRINCIPLES AND INSTRUMENTATION
pp 5-6

2 - Cathodoluminescence and its causes
pp 7-18

3 - Instrumentation and techniques
pp 19-46

PART II - APPLICATIONS
pp 47-48

4 - Provenance interpretation
pp 49-85

5 - Cathodoluminescence characteristics of diagenetic minerals and fabrics in siliciclastic sedimentary rocks
pp 86-108

6 - Luminescence characteristics and diagenesis of carbonate sedimentary rocks
pp 109-133

7 - Miscellaneous applications of cathodoluminescence to sedimentary rocks
pp 134-147

References
pp 148-163

Index
pp 164-165

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Application of Cathodoluminescence Imaging to the Study of Sedimentary Rocks

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