RCIN and OZwRCIN projects

Object

Title: Geneza form wietrzeniowych tafoni – przegląd literatury = Origins of ‘tafoni’ weathering forms – a literature review

Creator:

Zwalińska, Katarzyna

Date issued/created:

2014

Resource type:

Text

Subtitle:

Przegląd Geograficzny T. 86 z. 1 (2014)

Publisher:

IGiPZ PAN

Place of publishing:

Warszawa

Description:

24 cm

Type of object:

Journal/Article

References:

1. Adamović J., Mikulaś R., Schweigstillova J., Bohmova V., 2011, Porosity changes induced by salt weathering of sandstones, Bohemian Cretaceous Basin, Czech Republic, Acta Geodynamica Geomaterialia, 8, 1, s. 29-45.
2. Andreasson C., 2008, Vittringskaviteter i charnockit i Varberg, Department of Earth Sciences, Physical Geography, Göteborg.
3. Andrews J.E., Brimblecombe P., Jickells T.D., Liss P.S., Reid B.J., 2004, An Introduction to Environmental Chemistry, Blackwell Science, Oxford, UK.
4. Barker W.W., Welch S.A., Banfield J.F., 1997, Biogeochemical weathering of silicate minerals, [w:] Geomicrobiology: Interactions Between Microbes and Minerals, Mineralogical Society of America, Washington, s. 391-428.
5. Beyer O., 1912, Alaun und Gips als Mineralneubildungen und als Ursachen der chemischen Verwitterung in den Quadersandstein des sächsischen Kreidegebiets, Zeitschrift der Deutschen Geologischen Gesellschaft, 63 (1911), s. 429-467.
6. Blackwelder E., 1929, Cavernous rock surfaces of the desert, American Journal of Science, 17, s. 393-399.
7. Boxerman J.Z., 2005, The evolutionary cycle of the tafone weathering pattern on sandstone at Bean Hollow Beach, Northern California, Geological Society of America Sectional Meeting. Abstract, 37, 4, s. 79.
8. Boxerman J.Z., 2006, The Evolution of Tafoni on Coastal Sandstones in Northern California, Unpublished Master's Thesis, Department of Geoscience, San Francisco State University.
9. Bradley W.C., Hutton J.T., Twidale C.R., 1978, Role of salts in development of granitic tafoni, South Australia, Journal of Geology, 86, 5, s. 647-654.
10. Calkin P., Cailleux A., 1962, A quantitative study of cavernous weathering (Taffonis) and its application to glacial chronology in Victoria Valley, Antarctica, Zeitschrift für Geomorphologie, 6, 2, s. 317-324.
11. Canaveras J.C., Sanchez-Moral S., Soler V., Saiz-Jimenez C., 2001, Microorganisms and microbially induced fabrics in cave walls, Geomicrobiology Journal, 18, s. 223-240.
12. Conca J.L., Rossman G.R., 1982, Case hardening of sandstone, Geology, 10, s. 520-523.
13. Cooke R.U., Warren A., Goudie A.S., 1993, Chapter 5: Weathering forms and processes, [w:] Desert Geomorphology, Taylor & Francis Books Ltd, London, s. 23-44.
14. Doe N.A., 2004, The geometry of honeycomb weathering of sandstone, Shale, 9.
15. Dragovich D., 1969, The origin of cavernous surfaces (Tafoni) in granitic rocks of Southern South Australia, Zeitschrift für Geomorphologie, 13, 1, s. 163-181.
16. Evans I.S., 1970, Salt crystallization and rock weathering: A review, Revue de Géomorphologie Dynamique, 19, s. 153-177.
17. Erginal A.E, Gonuz A., Bozcu M., Ates A.S., Cetiner Z.S., 2007, The first findings on the origin of alveolar disintegration at the western shores of Gelibolu peninsula, Bulletin of the Mineral Research and Exploration, 134, s. 27-34.
18. French H.M., 1996, The Periglacial Environment, Longman, Harlow.
19. French H.M., Guglielmin M., 2000, Cryogenic weathering of granite, Northern Victotia Land, Antarctica, Permafrost and Periglacial Processes, 11, s. 305-314.
20. Goudie A.S., 2004a, Honeycomb weathering, [w:] Encyclopedia of Geomorphology, red. A.S. Goudie, Routledge, London-New York, s. 20.
21. Goudie A.S., 2004b, Weathering pit, [w:] Encyclopedia of Geomorphology, red. A.S. Goudie, Routledge, London-New York, s. 1115-1116.
22. Goudie A.S., 2004c, Tafoni, [w:] Encyclopedia of Geomorphology, red. A.S. Goudie, Routledge, London-New York, s. 1034-1035.
23. Hacker A., 2003, Controls of tafoni development in Castle Rocks, Idaho keck.wooster.edu/archives/symposium/03/idahopdfs/HackernewAbs.pdf (1.01.2008).
24. Hall K., André M.F., 2006, Temperature observations in Antarctic tafoni: implications for weathering, biological colonization, and tafoni formation, Antarctic Science, 18, 3, s. 377-384.
25. Hejl E., 2005, A pictorial study of Tafoni development from the 2nd Millennium BC, Geomorphology, 64, 1-2, s. 87-95.
26. Huinink H. P., Pel L., Kopinga K., 2004, Simulating the growth of Tafoni, Earth Surfaces Process and Landforms, 29, s. 1225-1233.
27. Jennings J.N., 1968, Tafoni, [w:] Encyclopedia of Geomorphology, red. R.W. Fairbridge, Reinhold, New York, s. 1103-1104.
28. Klimaszewski M., 1994, Geomorfologia, PWN, Warszawa.
29. Kejonen A., Kielosto S., Lahti S.I., 1988, Cavernous weathering forms in Finland, Geografiska Annaler, 70A, 4, s. 315-322.
30. Martini I. P., 1978, Tafoni weathering, with examples from Tuscany, Italy, Zeitschrift für Geomorphologie, 22, 1, s. 44-67.
31. Matsurkura Y., Matsuoka N., Yano N., 1989, A preliminary study on tafoni and honeycombs in Nojima-Zaki, Boso Peninsula, Japan, Annual Report, Institute of Geoscience, University of Tsukuba, 25, s. 29-32.
32. McBride E.F., Dane Picard M., 2000, Origin and development of tafoni in tunnel spring tuff, Crystal Peak, Utah, USA, Earth Surfaces Processes and Landforms, 25, s. 869-879.
33. McBride E.F., Dane Picard M., 2004, Origin of honeycombs and related weathering Forms in Oligocene Macigno sandstone, Tuscan coast near Livorno, Italy, Earth Surfaces Processes and Landforms, 29, s. 713-735.
34. Mellor A., Short J., Kirkby S.J., 1997, Tafoni in the El Chorro Area, Andalucia, Southern Spain, Earth Surfaces Processes and Landforms, 22, s. 817-833.
35. Migoń P., 2006, Granite Landscapes of the World, United States by Oxford University Press, New York.
36. Mottershead D.N., Pye K., 1994, Tafoni on Coastal Slopes, South Devon, UK, Earth Surfaces Processes and Landforms, 19, s. 543-563.
37. Mustoe G.E., 1971, Biochemical Origin of Coastal Weathering Features in the Chuckanut Formation of Northwest Washington, Western Washington State College, Washington.
38. Mustoe G.E., 1982, Origin of honeycomb weathering, GSA Bulletin, 93, 2, s. 108-115.
39. Mustoe G.E., 1983, Cavernous weathering in the Capitol Reef Desert, Utah, Earth Surfaces Processes and Landforms, 8, s. 517-526.
40. Pestrong R., 1990, Tafoni, Pacific Discovery, 43, s. 14-20.
41. Prebble M.M., 1967, Cavernous weathering in the Taylor Dry Valley, Victoria Land, Antarctica, Nature, 216, s. 1194-1195.
42. Pye K., Mottershead D.N., 1995, Honeycomb weathering of carboniferous sandstone in a sea wall at Weston-super-Mare, UK, Quarterly Journal of Engineering Geology, 28, 4, s. 333-347.
43. Rodriguez-Navarro C., Doehne E., 1999, Salt weathering: Influence of evaporation rate, supersaturation and crystallization pattern, Earth Surfaces Process and Landforms, 24, s. 191-209.
44. Rodriguez-Navarro C., Doehne E., Sebastian E., 1999, Origins of honeycomb weathering: The role of salts and wind, Geological Society of America Bulletin, 111, 8, s. 1250-1255.
45. Roqué C., Linares R., Rodríguez R., Zarroca M., 2011, Granite caves in the north-east of the Iberian Peninsula. Artificial hypogea versus tafoni, Zeitschrift für Geomorphologie, 55, 3, s. 341-364.
46. Roqué C., Zarroca M., Linares R., 2013, Subsurface initiation of Tafoni in granite terrains- geophysical evidence from NE Spain: Geomorphological implications, Geomorphology, 196, s. 94-105.
47. Sancho C., Benito G., 1990, Factors controlling Tafoni weathering in the Ebro Basin (NE Spain), Zeitschrift für Geomorphologie, 34, 2, s. 165-177.
48. Siedel H., 2010, Alveolar weathering of Cretaceous building sandstones on monuments in Saxony, Germany, Geological Society, London, Special Publications, 333, s. 11-23.
49. Smith B.J., 1978, The origin and geomorphic implications of cliff foot recesses and Tafoni on limestone Hamadas in the Northwest Sahara, Zeitschrift für Geomorphologie, 22, 1, s. 21-43.
50. Strini A., Guglielmin M., Hal K., 2008, Tafoni development in a cryotic environment: an example from Northern Victoria Land, Antarctica, Earth Surface Processes and Landforms, 33, s. 1502-1519.
51. Sunamura T., 1996, A physical model for the rate of coastal tafoni development, The Journal of Geology, 104, s. 741-748.
52. Tschang H.-L., 1974, Geomorphological observations on the Tafoni forms of Hong Kong, The Chung Chi Journal, 13, 1, s. 32-51.
53. Turkington A.V., 1998, Cavenous weathering in sandstone: lessons to be learned from natural exposure, Quarterly Journal of Engineering Geology, 31, 4, s. 375-383.
54. Turkington A.V., Phillips J.D., 2004, Cavernous weathering, dynamical instability and self-organization, Earth Surface Processes and Landforms, 29, s. 665-675.
55. Twidale C.R., 1982, Granite Landforms, Elsevier Publishing Company, Amsterdam.
56. Twidale C.R., Campbell E.M., 1995, The various origins of minor granite landforms, Cadernos do Laboratorio Xeolóxico de Laxe Coru-a, 20, s. 281-306.
57. Twidale C.R., Bourne J.A., 2008, Caves in granitic rocks: types, terminology and origins, Cadernos do Laboratorio Xeolóxico de Laxe Coru-a, 33, s. 35-57.
58. Twidale C.R., Romani V., 2010, Structural or climatic control in granite landforms? The development of sheet structure, foliation, boudinage, and related features, Cadernos do Laboratorio Xeolóxico de Laxe Coru-a, 35, s. 189-208.
59. Vidal Romani J.R., 2008, Forms and structural fabric in granite rocks, Cadernos do Laboratorio Xeolóxico de Laxe Coru-a, 33, s. 175-198.
60. Vidal Romani J.R., Sanjurjo Sanchez J., Vaqueiro M., Fernandez Mosquera D., 2010, Spaleotherms of granite caves, Comunicaçőes Geológicas, 97, s. 71-80.
61. Williams R.G.B., Robinson D.A., 1998, Weathering of sandstone by alunogen and alum salts, Quarternary Journal of Engineering Geology, 31, 4, s. 369-373.
62. Winkler E.M., Singer P.C., 1972, Crystallization pressure of salts in stone and concrete, Geological Society of America Bulletin, 83, 11, s. 3509-3514.
63. Young A.R.M., 1987, Salt as an agent in the development of cavernous weathering, Geology, 15, s. 962-966.
64. Zwalińska K., Dąbski M., 2012, Cavernous weathering forms in SW Iceland: a case study on weathering of basalts in a cold temperate maritime climate, Miscellanea Geographica, 16, 1, Warszawa, s. 1-6.

Relation:

Przegląd Geograficzny

Volume:

86

Issue:

1

Start page:

77

End page:

93

Detailed Resource Type:

Article

Format:

File size 2,2 MB ; application/pdf

Resource Identifier:

oai:rcin.org.pl:42816 ; 0033-2143 ; 10.7163/PrzG.2014.1.5

Source:

CBGiOS. IGiPZ PAN, sygn.: Cz.181, Cz.3136, Cz.4187 ; click here to follow the link

Language:

pol

Language of abstract:

eng

Rights:

Rights Reserved - Free Access

Terms of use:

Copyright-protected material. May be used within the limits of statutory user freedoms

Digitizing institution:

Institute of Geography and Spatial Organization of the Polish Academy of Sciences

Original in:

Central Library of Geography and Environmental Protection. Institute of Geography and Spatial Organization PAS

Projects co-financed by:

Programme Innovative Economy, 2010-2014, Priority Axis 2. R&D infrastructure ; European Union. European Regional Development Fund

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