Bibliografía
AGENCIA ESTATAL DE METEOROLOGÍA (2011): Atlas Climático Ibérico. Es consultable a través de www.aemet.es
ÁGUEDA, A., PASTOR, E., PÉREZ, Y. and PLANAS, E. (2010): “Experimental study of the emissivity of flames resulting from the combustion of forest fuels”. International Journal of Thermal Sciences, 49, 543-55.
ALLISON, R. J. and. BRISTOW G.E. (1999): “The effects of fire on rock weathering: some further considerations of laboratory experimental simulation”. Earth Surface, Process and Landforms, 24, 707-713.
BANFIELD J. F., BARKER, W. W., WELCH, S. A. and TAUTON A. (1999): “Biological impact on mineral dissolution: Application of the lichen model to understanding mineral weathering in the rhizosphere1Proceedings”. National Academy Science USA, 96, 3404-3411).
BARKER W. W. and BANFIELD J. F. (1996): “JJBiologically versus inorganically mediated weathering reactions: relationships between minerals and extracellular microbial polymers in lithobiontic communities”. Chemical Geology, 132, 55-69.
BASTIAN F., ALABOUVETTE C. and SÁIZ-JIMÉNEZ, C. (2009). ”The impact of arthropods on fungal community structure in Lascaux Cave”. Journal of Applied Microbiology, 106,1456-1462.
CUEZVA, S., CAÑAVERAS, J. C., GONZÁLEZ, R., LARIO, J., LUQUE, L., SÁIZ-JIMÉNEZ, C., SÁNCHEZ-MORAL S. y SOLER, V. (2003): “Origen bacteriano de espelotemas tipo moonmilk en ambiente kárstico (cueva de Altamira, Cantabria, España)”. Estudios Geol., 59, 145-157.
CUEZVA, S., SÁNCHEZ-MORAL, S., SÁIZ-JIMÉNEZ, C. and CAÑAVERAS J. C. (2009): “Microbial Communities and Associated Mineral Fabrics in Altamira Cave”. Spain International Journal of Speleology, 38 (1), 83-92.
DENIS A., HUNEAU , F., HOERLÉ , S. and SALOMON A. (2009): “GPR data processing for fractures and flakes detection in sandstone”. Journal of Applied Geophysics, 68, 282-288.
DOMINGUEZ-VILLAR, D., ARTEAGA, C., GARCÍA-GIMÉNEZ, R., SMITH, E. and PEDRAZA, J. (2008): “Diurnal and seasonal water variations of temperature, pH, redox potential and conductivity in gnammas (weathering pits): Implications for chemical weathering”. Catena, 72, 37-48.
DREVER, J. I. and STILLINGS, L. L. (1997): “The role of organic acids in mineral weathering Colloids and Surfaces A: Physicochemical and Engineering”. Aspects, 120, 167-181.
EGLI, M., MERKLI, C., SARTORI, G., MIRABELLA, A. and PLÖTZE, M. (2008): “Weathering, mineralogical evolution and soil organic matter along a Holocene soil toposequence developed on carbonate-rich materials”. Geomorphology, 97, 675-696.
EHRLICH, H.L. (1996): “How microbes influence mineral growth and dissolution”. Chemical Geology, 132, 5-9.
EMERY, K.O. (1944): “Brush fires and rock exfoliation”. American Journal of Science, 242, 9, 506-508.
FORT R., ÁLVAREZ DEL BUERGO, M., GÓMEZ HERAS, M. and VÁZQUEZ CALVO, C. (Eds.) (2006): Heritage, Weathering and Conservation Taylor and Francis (2 vols.).
GONZÁLEZ J. M. and SAIZ-JIMÉNEZ, C. (2005): “Application of molecular nucleic acid-based techniques for the study of microbial communities in monuments and artworks”. International Microbiology, 8,189-194.
GONZÁLEZ, J. M., PORTILLO, M. C. and SAIZ-JIMÉNEZ, C. (2006): “Metabolically active Crenarchaeota in Altamira”. Cave Naturwissenschaften, 93, 42-45.
-(2008): “Microbes Pose a Risk to Prehistoric Cave Paintings”. Microbe / Volume 3, Number 2, 72-77.
HALL, K. (1999): “The role of thermal stress fatigue in the breakdown of rock in cold regions”. Geomorphology, 31, 47 63.
-(2004): “Evidence for freeze-thaw events and their implications for rock weathering in northern Canada”. Earth Surface, Processes and Landforms, 29, 43-57.
-(2007): “Evidence for freeze–thaw events and their implications for rock weathering in northern Canada: II. The temperature at which water freezes in rock “. Earth Surface Processes and Landforms, 32, 249-259.
HALL, K., LINDGREN, B. S., and JACKSON, P. (2005): “Rock albedo and monitoring of thermal conditions in respect of weathering: some expected and some unexpected results”. Earth Surface Processess and Landforms, 30, 801 811.
HALL, K. MEIKLEJOHN, I. and AROCENA, J. (2007): “The thermal responses of rock at pigments: Implications for rock art weathering in southern Africa”. Geomorphology, 91,132- 145.
HEJL, E. A. (2005): “Pictorial study of tafoni development from the 2nd millennium BC”. Geomorphology, 64, 87-95.
HOERLÉ, S. (2006): “Rock temperatures as an indicator of weathering processes affecting rock art”. Earth Surface Processes and Landforms, 31, 383-389.
HOERLÉ,S., HUNEAU F., SALOMON, A. and DENIS, A (2007): “Using the ground-penetrating radar to assess the conservation condition of rock-art sites C. R”. Geoscience, 339, 536-544.
HUININK, H. P. PEL, L. and KOPINGA, K. (2004): “Simulating the growth of tafoni”. Earth Surface Processes and Landforms, 29, 1225-1233.
JIMÉNEZ-GONZÁLEZ, I., RODRÍGUEZ-NAVARRO, C. and SCHERER, G. W. (2008): ”Role of clay minerals in the physicomechanical deterioration of sandstone”. Journal of Geophysical Research, 113, F02021.
JURADO, V., SÁNCHEZ-MORAL, S. and SAIZ-JIMÉNEZ, C. (2008): “Entomogenous fungi and the conservation of the cultural heritage: A review”. International Biodeterioration & Biodegradation, 62, 325-330.
LUNDBERG, J. MCFARLANE and BREWER-CARIAS. (2010): “An extraordinary example of photokarren in a sandstone cave, Cueva Charles Brewer, Chimantá Plateau, Venezuela: Biogeomorphology on a small scale”. Geomorphology, 121, 342-357.
MCBRIDE, E. F. and PICARD,M. D. (2004): “Origin of honeycombs and related weathering forms in oligocene macigno sandstone, tuscan coast near Livorno, Italy“. Earth Surface Processes and Landforms, 29, 713-735.
MCCABE S., SMITH, B. J. and WARKE, P. A. (2007 a): “Preliminary observations on the impact of complex stress histories on sandstone response to salt weathering: laboratory simulations of process combinations”. Environ Geol, 52, 251-258.
-(2007 b): “Sandstone response to salt weathering following simulated fire damage: a comparison of the effects of furnace heating and fire”. Earth Surf. Process. Landforms, 32, 1874-1883.
MELLOR, A, SHORT, J., and KIRKBY, S. J. (1997): “Tafoni in the El Chorro area, Andalucia, southern Spain”. Earth surface processes and landforms, vol 22, 817-833.
MIEMEHDI, M. and CHALMERS, A. (2001): “Automated Analysis of Environmental Degradation of Paint Residues”. Journal of Archaeological Science, 28, 1329-1338.
MOLARO, J. L. and MCKAY C. P. (2010): “Processes controlling rapid temperature variations on rock surfaces”. Earth surface processes and landforms, 35, 501-507.
NICHOLSON, D. T. (2001): “Pore properties as indicators of breakdown mechanisms in experimentally weathered limestones”. Earth Surface Processes and Landforms, 26, 819-838.
D. H. (1999): “Nies Microbial heavy-metal resistance”. Appl Microbiol Biotechnol, 51, 730±750.
PORTILLO, M. C., ALLOZA R. and GONZÁLEZ J. M. (2009): “Three different phototrophic microbial communities colonizing a single natural shelter containing prehistoric paintings”. Science of the Total Environment, 407, 4876 -4881.
RODRIGUEZ-NAVARRO, C, and DOEHNED, E. (1999): “Salt weathering: influence of evaporation rate, supersaturation and crystallization pattern”. Earth Surface Processes and Landforms, 24, 191-209.
RODRIGUEZ-NAVARRO, C., DOEHNED, E., and SEBASTIÁN, E. (1999): “Origins of honeycomb weathering: The role of salts and wind”. Geological Society of America Bulletin, 111, 1250-1255.
RUEDRICH, J. and SIEGESMUND, S. (2007): “Salt and ice crystallisation in porous sandstones”. Environ Geol, 52, 225-249.
SAAD, A., GUÈDON, S. and MARTINEAU, F. (2010): “Microstructural weathering of sedimentary rocks by freeze-thaw cycles: Experimental study of state and transfer parameters”. Comptes Rendus Geoscience, 342, 197-203.
SÁNCHEZ-MORAL, S, GONZÁLEZ, J. M., CAÑAVERAS, J.C., CUEZVA, S., LARIO, J., CARDELL, C., ELEZ, J., LUQUE, L. y SAIZ-JIMÉNEZ, C. (2006): “Procesos de precipitación mineral bioinducidos en sistemas kársticos subterráneos: breve revisión y nuevas tendencias”. Estudios Geológicos, 62 (1), 43-52.
STATHEROPOULOS M. and KARMA S. (2007): “Complexity and origin of the smoke components as measured near the flame-front of a real forest fire incident: A case study J. Anal”. Appl. Pyrolysis, 78, 430-437.
STRINI, A. GUGLIELMIN, M. and HALL, K. (2008): “Tafoni development in a cryotic environment: an example from Northern Victoria Land, Antarctica”. Earth Surface Processes and Landforms, 33, 1502-1519.
VELBEL M. A. (2009): “Dissolution of olivine during natural weathering”. Geochimica et Cosmochimica Acta, 73, 6098-6113.
VILES, H. A. (2001): ”Scale issues in weathering studies”. Geomorphology, 41, 63-72.
WARKE, P. A. (2007): “Complex weathering in drylands: Implications of ‘stress’ history for rock debris breakdown and sediment release”. Geomorphology, 85, 30-48.
WILLIAMS, R. B. G. and ROBINSON, D. A. (2001): “Experimental frost weathering of sandstone by various combinations of salts”. Earth Surface Processes and Landforms, 26, 811-818.
WOLFE-SIMON, F., BLUM, J.S., KULP, T.R., GORDON, G.W. HOEFT, S.E., PETT-RIDGE, J., STOLZ, J.F., WEBB, S.M. WEBER, P.K. DAVIES, P.C.W., ANBAR, A.D. and OREMLAND, R.S. (2010) “A Bacterium That Can Grow by Using Arsenic Instead of Phosphorus”.
www.sciencexpress.org / 2 December 2010
YADAV, S. K. and CHAKRAPANI, G. J. (2006): “Dissolution kinetics of rock–water interactions and its implications”. Current Science, 90, 7.
YOKOYAMA,T. and MATSUKURA, Y. (2006): “Field and laboratory experiments on weathering rates of granodiorite: Separation of chemical and physical processes”. Geology, 3, 809-812.
Con esta bibliografía tan especializada, terminamos de plasmar en nuestro Blog la segunda ponencia. La hemos reproducido íntegra por dos motivos: debido al interés que suscita y a la dificultad de encontrar fuentes conocidas para la documentación de la conservación del arte rupestre.
"Continuaremos con las intervenciones en otras entradas".
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