Vileikis, O., Cesaro, G., Santana Quintero, M., van Balen, K., Paolini, A., & Vafadari, A. (2012). Documentation in World Heritage conservation. Journal of Cultural Heritage Management and Sustainable Development, 2(2), 130-152. doi:10.1108/20441261211273635
Management Planning for Archaelogical Sites 2002 The Getty Conservation Institute Los Angeles G Palumbo Threats and challenges to the archaeological heritage in the Mediterranean 3 12
ICOMOS. ICOMOS World Report 2000 on Monuments and Sites in Danger; 2000.https://www.icomos.org/risk/world_report/2000/risk2000.htm. Accessed October 25 2017.
[+]
Vileikis, O., Cesaro, G., Santana Quintero, M., van Balen, K., Paolini, A., & Vafadari, A. (2012). Documentation in World Heritage conservation. Journal of Cultural Heritage Management and Sustainable Development, 2(2), 130-152. doi:10.1108/20441261211273635
Management Planning for Archaelogical Sites 2002 The Getty Conservation Institute Los Angeles G Palumbo Threats and challenges to the archaeological heritage in the Mediterranean 3 12
ICOMOS. ICOMOS World Report 2000 on Monuments and Sites in Danger; 2000.https://www.icomos.org/risk/world_report/2000/risk2000.htm. Accessed October 25 2017.
Giesen, M. J., Ung, A., Warke, P. A., Christgen, B., Mazel, A. D., & Graham, D. W. (2014). Condition assessment and preservation of open-air rock art panels during environmental change. Journal of Cultural Heritage, 15(1), 49-56. doi:10.1016/j.culher.2013.01.013
Díez-Herrero, A., Gutiérrez-Pérez, I., Lario, J., Cañaveras, J. C., Benavente, D., Sánchez-Moral, S., & Alonso-Azcárate, J. (2009). Analysis of potential direct insolation as a degradation factor of cave paintings in Villar del Humo, Cuenca, Central Spain. Geoarchaeology, 24(4), 450-465. doi:10.1002/gea.20274
López-Montalvo, E., Villaverde, V., Roldán, C., Murcia, S., & Badal, E. (2014). An approximation to the study of black pigments in Cova Remigia (Castellón, Spain). Technical and cultural assessments of the use of carbon-based black pigments in Spanish Levantine Rock Art. Journal of Archaeological Science, 52, 535-545. doi:10.1016/j.jas.2014.09.017
Hernanz, A., Ruiz-López, J. F., Gavira-Vallejo, J. M., Martin, S., & Gavrilenko, E. (2010). Raman microscopy of prehistoric rock paintings from the Hoz de Vicente, Minglanilla, Cuenca, Spain. Journal of Raman Spectroscopy, 41(11), 1394-1399. doi:10.1002/jrs.2582
Domingo, I., Villaverde, V., López-Montalvo, E., Lerma, J. L., & Cabrelles, M. (2013). Latest developments in rock art recording: towards an integral documentation of Levantine rock art sites combining 2D and 3D recording techniques. Journal of Archaeological Science, 40(4), 1879-1889. doi:10.1016/j.jas.2012.11.024
Iturbe, A., Cachero, R., Cañal, D., & Martos, A. (2018). Digitalización de cuevas con arte paleolítico parietal de Bizkaia. Análisis científico y divulgación mediante nuevas técnicas de visualización. Virtual Archaeology Review, 9(18), 57. doi:10.4995/var.2018.7579
Carrión-Ruiz, B., Blanco-Pons, S., & Lerma, J. L. (2016). DIGITAL IMAGE ANALYSIS OF THE VISIBLE REGION THROUGH SIMULATION OF ROCK ART PAINTINGS. Proceedings of the ARQUEOLÓGICA 2.0 8th International Congress on Archaeology, Computer Graphics, Cultural Heritage and Innovation. doi:10.4995/arqueologica8.2016.3560
Fredlund, G., & Sundstrom, L. (2007). Digital infra-red photography for recording painted rock art. Antiquity, 81(313), 733-742. doi:10.1017/s0003598x00095697
Cerrillo-Cuenca, E., & Sepúlveda, M. (2015). An assessment of methods for the digital enhancement of rock paintings: the rock art from the precordillera of Arica (Chile) as a case study. Journal of Archaeological Science, 55, 197-208. doi:10.1016/j.jas.2015.01.006
Robert, E., Petrognani, S., & Lesvignes, E. (2016). Applications of digital photography in the study of Paleolithic cave art. Journal of Archaeological Science: Reports, 10, 847-858. doi:10.1016/j.jasrep.2016.07.026
López-Menchero Bendicho, V. M., Marchante Ortega, Á., Vincent, M., Cárdenas Martín-Buitrago, Á. J., & Onrubia Pintado, J. (2017). Uso combinado de la fotografía digital nocturna y de la fotogrametría en los procesos de documentación de petroglifos: el caso de Alcázar de San Juan (Ciudad Real, España). Virtual Archaeology Review, 8(17), 64. doi:10.4995/var.2017.6820
Molada-Tebar, A., Lerma, J. L., & Marqués-Mateu, Á. (2017). Camera characterization for improving color archaeological documentation. Color Research & Application, 43(1), 47-57. doi:10.1002/col.22152
Del Hoyo-Meléndez, J. M., Lerma, J. L., López-Montalvo, E., & Villaverde, V. (2015). Documenting the light sensitivity of Spanish Levantine rock art paintings. ISPRS Annals of Photogrammetry, Remote Sensing and Spatial Information Sciences, II-5/W3, 53-59. doi:10.5194/isprsannals-ii-5-w3-53-2015
Whitmore, P. M., Bailie, C., & Connors, S. A. (2000). Micro-fading tests to predict the result of exhibition: progress and prospects. Studies in Conservation, 45(sup1), 200-205. doi:10.1179/sic.2000.45.supplement-1.200
Whitmore, P. M., Pan, X., & Bailie, C. (1999). Predicting the Fading of Objects: Identification of Fugitive Colorants through Direct Nondestructive Lightfastness Measurements. Journal of the American Institute for Conservation, 38(3), 395. doi:10.2307/3179999
Ford, B. (2011). Non-destructive microfade testing at the National Museum of Australia. AICCM Bulletin, 32(1), 54-64. doi:10.1179/bac.2011.32.1.008
Del Hoyo-Meléndez, J. M., & Mecklenburg, M. F. (2010). A survey on the light-fastness properties of organic-based Alaska Native artifacts. Journal of Cultural Heritage, 11(4), 493-499. doi:10.1016/j.culher.2010.01.004
Conservation of Ancient Sites on the Silk Road 2010 The Getty Conservation Institute The Getty. Los Angeles JR Druzik Evaluating the light sensitivity of paints in selected wall paintings at the Mogao Grottoes: caves 217 98 and 85 457 463
López-Montalvo, E., Roldán, C., Badal, E., Murcia-Mascarós, S., & Villaverde, V. (2017). Identification of plant cells in black pigments of prehistoric Spanish Levantine rock art by means of a multi-analytical approach. A new method for social identity materialization using chaîne opératoire. PLOS ONE, 12(2), e0172225. doi:10.1371/journal.pone.0172225
Roldán, C., Murcia-Mascarós, S., Ferrero, J., Villaverde, V., López, E., Domingo, I., … Guillem, P. M. (2010). Application of field portable EDXRF spectrometry to analysis of pigments of Levantine rock art. X-Ray Spectrometry, 39(3), 243-250. doi:10.1002/xrs.1254
Roldán García, C., Villaverde Bonilla, V., Ródenas Marín, I., & Murcia Mascarós, S. (2016). A Unique Collection of Palaeolithic Painted Portable Art: Characterization of Red and Yellow Pigments from the Parpalló Cave (Spain). PLOS ONE, 11(10), e0163565. doi:10.1371/journal.pone.0163565
Łojewski, T., Thomas, J., Gołąb, R., Kawałko, J., & Łojewska, J. (2011). Note: Light ageing with simultaneous colorimetry via fibre optics reflection spectrometry. Review of Scientific Instruments, 82(7), 076102. doi:10.1063/1.3606645
Ruppert, D., Wand, M. P., & Carroll, R. J. (2009). Semiparametric regression during 2003–2007. Electronic Journal of Statistics, 3(0), 1193-1256. doi:10.1214/09-ejs525
ISO11664‐2:2007(E)/CIE S 014‐2/E:2006 Colorimetry—Part 2: Standard Illuminants for Colorimetry.http://cie.co.at/index.php?i_ca_id=484. Accessed October 25 2017.
ISO11664‐1:2007(E)/CIE S 014‐1/E:2006 CIE Colorimetry—Part 1: Standard Colorimetric Observers.http://cie.co.at/index.php?i_ca_id=483. Accessed October 25 2017.
Arkivprodukter. The Blue Wool Standards.www.arkivprodukter.no. Accessed November 23 2017.
Bacci, M., Cucci, C., Mencaglia, A. A., Mignani, A. G., & Porcinai, S. (2004). Calibration and Use of Photosensitive Materials for Light Monitoring in Museums. Studies in Conservation, 49(2), 85-98. doi:10.1179/sic.2004.49.2.85
ISO 12647‐2. International Standard for the Production of Half‐Tone Colour.2004;2004.
[-]
![[Cerrado]](/themes/UPV/images/candado.png)
Riutort-Mayol, Gabriel
