1.
Artioli, G. & Angelini, I. Scientific Methods and Cultural Heritage: An Introduction to the Application of Materials Science to Archaeometry and Conservation Science. (Oxford University Press, Oxford, 2010).
2.
Caneva, G., Nugari, M. P., Salvadori, O., & Getty Conservation Institute. Plant Biology for Cultural Heritage: Biodeterioration and Conservation. (Getty Conservation Institute, Los Angeles, 2008).
3.
Henderson, J. The Science and Archaeology of Materials: An Investigation of Inorganic Materials. (Routledge, London, 2000).
4.
Jones, A. V. Access to Chemistry. (Royal Society of Chemistry, Cambridge, 1999).
5.
Kingery, W. D. A role for materials science. in Learning from things: method and theory of material culture studies 175–180 (Smithsonian Institution Press, Washington, D.C., 1996).
6.
Kingery, W. D. Materials science and material culture. in Learning from things: method and theory of material culture studies 181–203 (Smithsonian Institution Press, Washington, D.C., 1996).
7.
Jones, M. & May, E. Conservation Science: Heritage Materials. (RSC Publishing, Cambridge, 2006). doi:10.1039/9781847557629.
8.
Hill Stoner, J. Changing approaches in art conservation: 1925 to the present. in Scientific examination of art: modern techniques in conservation and analysis 40–57 (The National Academies Press, Washington, DC, 2005).
9.
Pollard, A. M., Batt, C., Young, S. & Stern, B. Analytical Chemistry in Archaeology. (Cambridge University Press, Cambridge, 2007).
10.
Pollard, A. M., Heron, C., & Royal Society of Chemistry (Great Britain). Archaeological Chemistry. (Royal Society of Chemistry, Cambridge, 2008).
11.
Price, T. Douglas & Burton, James H. An Introduction to Archaeological Chemistry. (Springer, London, 2011).
12.
T. J., R. & C. L., R. Principles of experimental design for art conservation research.
13.
Arnold, D. E. Ceramic Theory and Cultural Process. vol. New studies in archaeology (Cambridge University Press, Cambridge, 1985).
14.
Barclay, K. Scientific Analysis of Archaeological Ceramics: A Handbook of Resources. (Oxbow, Oxford, 2001).
15.
Bray, C. & Society of Glass Technology. Ceramics and Glass: A Basic Technology. (Society of Glass Technology, Sheffield, 2000).
16.
Freestone, I. & Gaimster, D. R. M. Pottery in the Making: World Ceramic Traditions. (British Museum Press, London, 1997).
17.
Hamer, F. & Hamer, J. The Potter’s Dictionary of Materials and Techniques. (A & C Black, London, 1991).
18.
Kingery, W. D. & Vandiver, P. B. Ceramic Masterpieces: Art, Structure, and Technology. (Free Press, New York, 1986).
19.
Orton, C. & Hughes, M. Pottery in Archaeology. (Cambridge University Press, Cambridge, 2013). doi:10.1017/CBO9780511920066.
20.
Potts, P. J. A Handbook of Silicate Rock Analysis. (Blackie Academic & Professional, London, 1992).
21.
Rice, P. M. Pottery Analysis: A Sourcebook. (University of Chicago Press, Chicago, 1987).
22.
Rice, P. M. Recent ceramic analysis: 1. Function, style, and origins. Journal of Archaeological Research 4, 133–163 (1996).
23.
Rice, P. M. Recent ceramic analysis: 2. Composition, production, and theory. Journal of Archaeological Research 4, 165–202 (1996).
24.
Rye, O. S. Pottery Technology: Principles and Reconstruction. vol. Manuals on archeology (Taraxacum, Washington, D.C., 1981).
25.
Shepard, A. O. Ceramics for the Archaeologist. vol. Publication / Carnegie Institution of Washington (Carnegie Institution of Washington, Washington, D.C., 1956).
26.
Arnold, D. E. Joining clay: a comparison of modern and ancient techniques. in Holding it all together: ancient and modern approaches to joining, repair and consolidation (Archetype Publications in association with the British Museum, London, 2009).
27.
Vandiver, P. B., Soffer, O., Klima, B. & Svoboda, J. The origins of ceramic technology at Dolni Vĕstonice, Czechoslovakia. Science 246, 1002–1008 (1989).
28.
Artioli, G. & Angelini, I. Scientific Methods and Cultural Heritage: An Introduction to the Application of Materials Science to Archaeometry and Conservation Science. (Oxford University Press, Oxford, 2010).
29.
Derrick, M., Souza, L., Kieslich, T., Florsheim, H. & Stulik, D. Embedding paint cross-section samples in polyester resins: Problems and solutions. Journal of the American Institute for Conservation 33, 227–245 (1994).
30.
Nicholas Eastaugh. The Pigment Compendium: Optical Microscopy of Historical Pigments. (Taylor & Francis, 2004).
31.
Gribble, C. D. & Hall, A. J. A Practical Introduction to Optical Mineralogy. (George Allen & Unwin, London, 1985).
32.
Horie, C. V. Materials for Conservation: Organic Consolidants, Adhesives and Coatings. (Butterworth-Heinemann, Amsterdam, 2010). doi:https://doi.org/10.4324/9780080940885.
33.
Jorjani, M., Wheeler, G., Riccardelli, C., Soboyejo, W. & Rahbar, N. An evaluation of potential adhesives for marble repair. in Holding it all together: ancient and modern approaches to joining, repair and consolidation (Archetype Publications in association with the British Museum, London, 2009).
34.
McCrone, W. C., Delly, J. G. & McCrone, L. B. Polarized Light Microscopy. (Ann Arbor Science, Michigan, 1978).
35.
John Mills & Raymond White. Organic Chemistry of Museum Objects. (2012). doi:10.4324/9780080513355.
36.
Mogk, D. W. Optical mineralogy and petrography. http://serc.carleton.edu/NAGTWorkshops/mineralogy/optical_mineralogy_petrography.html (2013).
37.
Conservation Unit Museums and Gall. The Science For Conservators Series: Volume 3: Adhesives and Coatings. (Taylor & Francis Group, 1992).
38.
Odegaard, N., Carroll, S., Zimmt, W. S., Spurgeon, D. & Lane, S. K. Material Characterization Tests for Objects of Art and Archaeology. (Archetype, London, 2005).
39.
Robinson, P. C., Bradbury, Savile, & Royal Microscopical Society (Great Britain). Qualitative Polarized-Light Microscopy. vol. Microscopy handbooks (Royal Microscopical Society, New York, 1992).
40.
Plesters, J. Cross-sections and chemical analysis of paint samples. Studies in Conservation 2, 110–157 (1956).
41.
Reedy, C. L. Thin-Section Petrography of Stone and Ceramic Cultural Materials. (Archetype, London, 2008).
42.
Scott, D. A. Metallography and Microstructure of Ancient and Historic Metals. (1991).
43.
Stavroudis, C. & Blank, S. Solvents & Sensibility. (1989).
44.
Fenn, J. Adhesion without adhesives: gecko-like adhesives. Symposium 2011: Adhesives and Consolidants for Conservation: research and applications: proceedings (2011).
45.
Marte, Fernando. Arsenic in Taxidermy Collections: History, Detection, and Management. http://ucl-primo.hosted.exlibrisgroup.com/primo_library/libweb/action/display.do?tabs=detailsTab&ct=display&fn=search&doc=TN_sro10088%2f8134&indx=1&recIds=TN_sro10088%2f8134&recIdxs=0&elementId=0&renderMode=poppedOut&displayMode=full&frbrVersion=&frbg=&&dscnt=0&scp.scps=scope%3A%28UCL%29%2Cprimo_central_multiple_fe&tb=t&mode=Basic&vid=UCL_VU1&srt=rank&tab=local&dum=true&vl(freeText0)=Arsenic%20in%20taxidermy%20collections%3A%20history%2C%20detection%20and%20management&dstmp=1474123526335 (2006).
46.
Artioli, G. & Angelini, I. Scientific Methods and Cultural Heritage: An Introduction to the Application of Materials Science to Archaeometry and Conservation Science. (Oxford University Press, Oxford, 2010).
47.
Glinsman, L. The Application of X-Ray Fluorescence Spectrometry to the Study of Museum Objects. (s.n.], [S.l, 2004).
48.
Goldstein, J. Scanning Electron Microscopy and X-Ray Microanalysis. (Kluwer Academic/Plenum Publishers, New York, 2003).
49.
Janssens, K. H. A. & Grieken, R. van. Non-Destructive Microanalysis of Cultural Heritage Materials. vol. Comprehensive analytical chemistry (Elsevier, Amsterdam, London, 2004).
50.
Portable X-Ray Fluorescence Spectrometry. (Royal Society of Chemistry, Cambridge, 2008). doi:10.1039/9781847558640.
51.
Aaron N. Shugar, et al. Handheld XRF for Art and Archaeology on JSTOR. (Leuven University Press, 2012).
52.
Ian M. Watt. The Principles and Practice of Electron Microscopy -. (Cambridge Books Online - Cambridge University Press, 1997). doi:http://dx.doi.org/10.1017/CBO9781139170529.
53.
Namowicz, C., Trentelman, K. & McGlinchey, C. XRF of cultural heritage materials: Round-robin IV – paint on canvas. (2009).
54.
Welcomme, E., Walter, P., van Elslande, E. & Tsoucaris, G. Investigation of white pigments used as make-up during the Greco-Roman period. Applied Physics A 83, 551–556 (2006).
55.
Ashurst, J. & Dimes, F. G. Conservation of Building and Decorative Stone. vol. Butterworth-Heinemann series in conservation and museology (Butterworth-Heinemann, Oxford, 1998).
56.
Bradley, S. M. & Middleton, A. P. A study of the deterioration of Egyptian limestone sculpture. Journal of the American Institute for Conservation 27, 64–86 (1988).
57.
Charola, A. E. Salts in the deterioration of porous materials: An overview. Journal of the American Institute for Conservation 39, 327–343 (2000).
58.
Gill, R. Chemical Fundamentals of Geology and Environmental Geoscience. (Wiley Blackwell, Chichester, West Sussex, UK, 2015).
59.
Gribble, C. D. & Hall, A. J. A Practical Introduction to Optical Mineralogy. (George Allen & Unwin, London, 1985).
60.
Henry, A. Stone Conservation: Principles and Practice. (Taylor and Francis, Florence, 2006).
61.
Middleton, A. P. & Bradley, S. M. Provenancing of Egyptian limestone sculpture. Journal of Archaeological Science 16, 475–488 (1989).
62.
Price, C. A. Stone Conservation: An Overview of Current Research. (1996).
63.
Přikryl, R., Smith, B. J., European Geosciences Union, & Geological Society of London. Building Stone Decay: From Diagnosis to Conservation. vol. Geological Society special publication (Geological Society, London, 2007).
64.
Rodriguez-Navarro, C., Hansen, E., Sebastian, E. & Ginell, W. S. The role of clays in the deterioration of ancient Egyptian limestone sculptures. Journal of the American Institute for Conservation 36, 151–163 (1997).
65.
United Kingdom Institute for Conservation of Historic and Artistic Works. Analysis of Pigments and Plasters: Its Relevance to Current Wall Painting and Stone Conservation Practice : Post Prints of a Day Conference of the Wall Paintings Section of the United Kingdom Institute for Conservation of Historic and Artistic Works Held 22 February 1997. (United Kingdom Institute for Conservation of Historic and Artistic Works, London, 1998).
66.
Igneous Rocks Home Page. http://csmres.jmu.edu/geollab/Fichter/IgnRx/Ighome.html.
67.
Sedimentary Rocks Home Page. http://csmres.jmu.edu/geollab/Fichter/SedRx/.
68.
Metamorphic Rocks Home Page. http://csmres.jmu.edu/geollab/Fichter/MetaRx/index.html.
69.
Corti, G. et al. Modelling the failure mechanisms of Michelangelo’s David through small-scale centrifuge experiments. Journal of Cultural Heritage 16, 26–31 (2015).
70.
Graziani, G., Sassoni, E. & Franzoni, E. Consolidation of porous carbonate stones by an innovative phosphate treatment: mechanical strengthening and physical-microstructural compatibility in comparison with TEOS-based treatments. Heritage Science 3, (2015).
71.
Feller, R. L., Roy, A., FitzHugh, E. W. & Berrie, B. H. Artists’ Pigments: A Handbook of Their History and Characteristics. (National Gallery of Art, Washington, 2007).
72.
Bregnhøi, L. & Nationalmuseet (Denmark). Paint Research in Building Conservation. (Archetype, London, 2006).
73.
Dawson, J., Wright, M. M., Rozeik, C., Fitzwilliam Museum, & Icon Archaeology Group. Decorated Surfaces on Ancient Egyptian Objects: Technology, Deterioration and Conservation : Proceedings of a Conference Held in Cambridge, UK on 7-8 September 2007. (Archetype in association with the Fitzwilliam Museum and Icon Archaeology Group, London, 2010).
74.
Delamare, F. Colour: Making and Using Dyes and Pigments. vol. New horizons (Thames & Hudson, London, 2000).
75.
Ruth Siddal, Nicholas Eastaugh, Valentine Walsh & Tracey Chaplin. Pigment Compendium. (Taylor & Francis e-books).
76.
Harley, R. D. Artists’ Pigments c. 1600-1835: A Study in English Documentary Sources. (Archetype Publications, London, 2001).
77.
Mogk, D. W. Optical mineralogy and petrography. http://serc.carleton.edu/NAGTWorkshops/mineralogy/optical_mineralogy_petrography.html.
78.
Robinson, P. C., Bradbury, S., & Royal Microscopical Society (Great Britain). Qualitative Polarized-Light Microscopy. vol. Microscopy handbooks (Oxford University Press, New York, 1992).
79.
McCrone, W. C. The Shroud of Turin: blood or artist’s pigment? Accounts of Chemical Research 23, 77–83 (1990).
80.
Samanian, K. Identification of Green Pigment Used in Persian Wall Paintings (                              1501-1736) Using PLM, FT-IR, SEM/EDX and GC-MS Techniques. Archaeometry 57, 740–758 (2015).
81.
Bray, C. & Society of Glass Technology. Ceramics and Glass: A Basic Technology. (Society of Glass Technology, Sheffield, 2000).
82.
Brill, R. H., Rising, B. A., Stapleton, C. P. & Bakowska, E. Chemical Analyses of Early Glasses. (Corning Museum of Glass, Corning, N.Y., 1999).
83.
Freestone, I. Post-depositional changes in archaeological ceramics and glasses. in Handbook of archaeological sciences 615–625 (John Wiley, Chichester, 2001).
84.
Heck, M. & Hoffmann, P. Analysis of early medieval glass beads - The raw materials to produce green,orange and brown colours. Mikrochimica acta 139, 71–76 (2002).
85.
Koob, S. P. & Corning Museum of Glass. Conservation and Care of Glass Objects. (Archetype in association with the Corning Museum of Glass, London, 2006).
86.
Kunicki-Goldfinger, J. J. Unstable historic glass: symptoms, causes, mechanisms and conservation. Studies in Conservation 53, 47–60 (2008).
87.
Newton, R. G. & Davison, S. Conservation of Glass. vol. Butterworths series in conservation and museology (Butterworth-Heinemann, London, 1996).
88.
Oakley, V. The deterioration of the glass vessel. in Glass and enamel conservation: collected papers from a one-day meeting on the conservation of glass and enamels held on 11 November 1989 vol. Occasional papers / United Kingdom Institute for Conservation of Historic and Artistic Works of Art 18–22 (United Kingdom Institute for Conservation of Historic and Artistic Works of Art, London, 1992).
89.
Pollard, A. M., Heron, C., & Royal Society of Chemistry (Great Britain). Archaeological Chemistry. (Royal Society of Chemistry, Cambridge, 2008).
90.
Rauch, I. The Conservation and Restoration of Historical Stained and Painted Glass: An Introduction to the Problems.
91.
Roemich, H. Historic glass and its interaction with the environment. in The conservation of glass and ceramics: research, practice and training 5–14 (James & James, London, 1999).
92.
Mesbahinia, A., Rashidi-Huyeh, M. & Shafiee Afarani, M. Persian turquoise glazed bodies: reproduction and optical properties. Applied Physics A 118, 1183–1188 (2015).
93.
Ricciardi, P., Colomban, P., Tournié, A. & Milande, V. Nondestructive on-site identification of ancient glasses: genuine artefacts, embellished pieces or forgeries? Journal of Raman Spectroscopy 40, 604–617 (2009).
94.
Abd El Salam, S. A. Egyptian and Graeco-Roman Wall Plasters and Mortars: A Comparative Scientific Study. vol. BAR international series (Hedges, Oxford, 2004).
95.
Eckel, E. C. Cements, Limes and Plasters: Their Materials, Manufacture and Properties. (Donhead, Shaftesbury, 2005).
96.
Gowing, R., Pender, R., Secular Wall Paintings Symposia, English Heritage, & Institute of Conservation. All Manner of Murals: The History, Techniques and Conservation of Secular Wall Paintings (Proceedings of the Secular Wall Paintings Symposia, London 2004-5). (Archetype, London, 2007).
97.
Henry, A., Stewart, J., & English Heritage. Practical Building Conservation: Mortars, Renders & Plasters. (Ashgate, Farnham, 2011).
98.
Abrams, E. M., Parhamovich, J., Butcher, J. A. & McCord, B. Chemical composition of architectural plaster at the Classic Maya kingdom of Piedras Negras, Guatemala. Journal of Archaeological Science 39, 1648–1654 (2012).
99.
Walsh, J. J. Petrography: Distinguishing natural cement from other binders in historical masonry construction using forensic microscopy techniques. Journal of ASTM International 4, (2007).
100.
Cullity, B. D. & Stock, S. R. Elements of X-Ray Diffraction. (Prentice Hall, Upper Saddle River, N.J., 2001).
101.
Derrick, M. R., Landry, J. M. & Stulik, D. Infrared Spectroscopy in Conservation Science. vol. Scientific tools for conservation (Getty Conservation Institute, Los Angeles, 1999).
102.
Edwards, H. G. M., Chalmers, J. M., & Royal Society of Chemistry (Great Britain). Raman Spectroscopy in Archaeology and Art History. vol. RSC analytical spectroscopy monographs (Royal Society of Chemistry, Cambridge, 2005).
103.
Maria Perla Colombini & Francesca Modugno. Organic Mass Spectrometry in Art and Archaeology. (John Wiley & Sons, Ltd, Chichester, UK, 2009). doi:10.1002/9780470741917.
104.
Smith, G. D. & Clark, R. J. H. Raman spectroscopy in art history and conservation science. Reviews in Conservation Studies in Conservation: Vol 46, No Supplement-1 96–110 (2001).
105.
Centeno, S. A., Williams, V. I., Little, N. C. & Speakman, R. J. Characterization of surface decorations in Prehispanic archaeological ceramics by Raman spectroscopy, FTIR, XRD and XRF. Vibrational Spectroscopy 58, 119–124 (2012).
106.
Tsang, Jia-Sun ; Madden, Odile ; Coughlin, Mary ; Maiorana, Anthony ; Watson, Judy ; Little, Nicole C. ; Speakman, Robert J. ; Jia-Sun Tsang ; Odile Madden ; Mary Coughlin ; Anthony Maiorana ; Judy Watson ; Nicole C. Little ; Robert J. Speakman. Degradation of ‘Lumarith’ Cellulose Acetate: EXAMINATION AND CHEMICAL ANALYSIS OF A SALESMAN’S SAMPLE KIT.
107.
Chandler, H. Metallurgy for the Non-Metallurgist. (ASM International, Materials Park, Ohio, 1998).
108.
Lang, J. & Craddock, P. T. Mining and Metal Production through the Ages. (British Museum, London, 2003).
109.
Biswas, A. K. & Davenport, W. G. Extractive Metallurgy of Copper. (Pergamon, Oxford, 2002).
110.
Hodges, H. Artifacts: An Introduction to Early Materials and Technology. (Duckworth, 1989).
111.
Jones, M. & May, E. Conservation Science: Heritage Materials. (RSC Publishing, Cambridge, 2006). doi:10.1039/9781847557629.
112.
Mattusch, C. C., Barr-Sharrar, B., Arthur M. Sackler Museum, Toledo Museum of Art, & Tampa Museum of Art. The Fire of Hephaistos: Large Classical Bronzes from North American Collections. (Harvard University Art Museums, Cambridge, Mass, 1996).
113.
Ottaway, B. S. & Wang, Q. Casting Experiments and Microstructure of Archaeologically Relevant Bronzes. vol. BAR international series (Archaeopress, Oxford, 2004).
114.
Scott, D. A. & Getty Conservation Institute. Copper and Bronze in Art: Corrosion, Colorants, Conservation. (Getty Conservation Institute, Los Angeles, 2002).
115.
Scott, D. A. Metallography and Microstructure of Ancient and Historic Metals. (Getty Conservation Institute in association with Archetype Books, CA, 1991).
116.
Scott, D. A., Podany, J., Considine, B. B., J. Paul Getty Museum, & Getty Center for the History of Art and the Humanities. Ancient & Historic Metals: Conservation and Scientific Research. Proceedings of a Symposium Organized by the J. Paul Getty Museum and the Getty Conservation Institute, November 1991. (Getty Conservation Institute, Marina del Rey, CA, 1994).
117.
Selwyn, L. & Canadian Conservation Institute. Metals and Corrosion: A Handbook for the Conservation Professional. (Canadian Conservation Institute, Ottawa, 2004).
118.
Ryndina, N. The potential of metallography in investigations of early objects made of copper and copper-based alloys. Historical metallurgy: journal of the Historical Metallurgy Society (2009).
119.
Metal 2010, Proceedings of the Interim Meeting of the ICOM-CC Metal Working Group, Charleston, South Carolina, USA,11-15 October 2010 (digital version) by Clemson University (eBook) � Lulu GB. http://www.lulu.com/shop/clemson-university/metal-2010-proceedings-of-the-interim-meeting-of-the-icom-cc-metal-working-group-charleston-south-carolina-usa11-15-october-2010-digital-version/ebook/product-18691539.html.
120.
Buchwald, V. F. & Kongelige Danske videnskabernes selskab. Iron and Steel in Ancient Times. vol. Historisk-filosofiske skrifter (Det Kongelige Danske Videnskabernes Selskab, Copenhagen, 2005).
121.
Craddock, P. T. & La Niece, S. Metal Plating and Patination: Cultural, Technical and Historical Developments. (Butterworth-Heinemann, Boston, 1993).
122.
Lang, J. & Craddock, P. T. Mining and Metal Production through the Ages. (British Museum, London, 2003).
123.
Drayman-Weisser, T. & American Institute for Conservation of Historic and Artistic Works. Gilded Metals: History, Technology and Conservation. (Archetype Publications in association with The American Institute for Conservation of Historic and Artistic Works, London, 2000).
124.
Hayman, R. Ironmaking: The History and Archaeology of the Iron Industry. (Tempus, Stroud, 2005).
125.
Janaway, R. C., Scott, B. G., United Kingdom Institute for Conservation of Historic and Artistic Works, & Council for British Archaeology. Evidence Preserved in Corrosion Products: New Fields in Artifact Studies. vol. Occasional papers (United Kingdom Institute for Conservation, London, 1989).
126.
Jones, D. A. Principles and Prevention of Corrosion. (Prentice Hall, Upper Saddle River, NJ, 1996).
127.
Scott, D. A. Metallography and Microstructure of Ancient and Historic Metals. (Getty Conservation Institute in association with Archetype Books, CA, 1991).
128.
Scott, D. A. & Eggert, G. Iron and Steel in Art: Corrosion, Colorants, Conservation. (Archetype, London, 2009).
129.
Selwyn, L. & Canadian Conservation Institute. Metals and Corrosion: A Handbook for the Conservation Professional. (Canadian Conservation Institute, Ottawa, 2004).
130.
M. J. Drews. The application of subcritical fluids for the stabilization of marine archaeological iron. Studies in Conservation 58, 314–325 (2013).
131.
Juleff, G. An ancient wind-powered iron smelting technology in Sri Lanka. Nature 379, 60–66 (1996).
132.
Derrick, M. R., Stulik, D. & Landry, J. M. Chapter 5: spectral interpretation. in Infrared spectroscopy in conservation science (J. Paul Getty Trust, Los Angeles, 1999).
133.
Drennan, R. D. Statistics for Archaeologists – A Commonsense Approach. (1996).
134.
Drummond, G. Statistics: A journey that needs a guide. in Essential guide to reading biomedical papers: Recognising and interpreting best practice (ed. Langton, P.) (2012).
135.
Ebel, H. F., Bliefert, C. & Russey, W. E. The Art of Scientific Writing: From Student Reports to Professional Publications in Chemistry and Related Fields. (Wiley-VCH, Weinheim, 2004).
136.
Reedy, T. J. & Reedy, C. L. Principles of experimental design for art conservation research. (1992).
137.
Rougier, N. P., Droettboom, M. & Bourne, P. E. Ten Simple Rules for Better Figures. PLoS Computational Biology 10, (2014).
138.
Aaron N. Shugar; Jennifer L. Mass. Introduction: Handheld XRF for Art and Archaeology. in Handheld XRF for Art and Archaeology (Leuven University Press, 2012).
139.
Dylan Smith. Ch. 2: Handheld X-ray fluorescence analysis of Renaissance bronzes: Practical approaches to quantification and acquisition. in Handheld XRF for Art and Archaeology 37–74 (Leuven University Press, 2012).
140.
Valiela, I. Doing Science: Design, Analysis, and Communication of Scientific Research. (Oxford University Press, Oxford, 2001).
141.
van Hoek, C. J. G., de Roo, M., van der Veer, G. & van der Laan, S. R. A SEM-EDS study of cultural heritage objects with interpretation of constituents and their distribution using PARC data analysis. Microscopy and Microanalysis 17, (2011).
142.
Verkade, P. Electron microscopy (TEM and SEM). Essential guide to reading biomedical papers: Recognising and interpreting best practice (2012).
143.
The GCI Newsletter, Conservation Perspectives Spring 2014. http://www.getty.edu/conservation/publications_resources/newsletters/29_1/index.html.
144.
Horie, C. V. Materials for Conservation: Organic Consolidants, Adhesives and Coatings. (Butterworth-Heinemann, Amsterdam, 2010).
145.
Horie, V. Does what we want exist? in Adhesives and consolidants for conservation: research and applications symposium proceedings / Adhésifs et consolidants pour la conservation: recherche et applications: les actes. (2011).
146.
van Oosten, T., Shashoua, Y., Waentig, F., Fachhochschule Köln, & ICOM Committee for Conservation. Plastics in Art: History, Technology, Preservation. vol. Kölner Beiträge zur Restaurierung und Konservierung von Kunst-und Kulturgut (Siegl, München, 2002).
147.
Rowe, S. & Rozeik, C. The uses of cyclododecane in conservation. Reviews in Conservation -  Studies in Conservation: Vol 53, No Supplement-2 9, 17–31 (2008).
148.
Shashoua, Y. Conservation of Plastics: Materials Science, Degradation and Preservation. (Butterworth-Heinemann, Amsterdam, 2008).
149.
Hather, J. G. The Identification of Northern European Woods: A Guide for Archaeologists and Conservators. (Archetype, London, 2000).
150.
Hoadley, R. B. Identifying Wood: Accurate Results with Simple Tools. (Taunton Press, Newtown, CT, 1990).
151.
John Mills, Raymond White. Organic Chemistry of Museum Objects. (Taylor & Francis online, 2011).
152.
Garland, K. M., Bernstein, J. & Rogers, J. RAISING MERET-IT-ES: EXAMINING AND CONSERVING AN EGYPTIAN ANTHROPOID COFFIN FROM 380–250 BCE. Journal of the American Institute for Conservation 54, 102–113 (2015).
153.
Orsini, S. et al. Micromorphological and chemical elucidation of the degradation mechanisms of birch bark archaeological artefacts. Heritage Science 3, (2015).
154.
Dorge, V., Howlett, F. C., & American Institute for Conservation of Historic and Artistic Works. Painted Wood: History and Conservation. (Getty Conservation Institute, Los Angeles, 1998).
155.
Eaton, R. A. & Hale, M. D. C. Wood: Decay, Pests, and Protection. (Chapman & Hall, London, 1993).
156.
Hather, J. G. The Identification of Northern European Woods: A Guide for Archaeologists and Conservators. (Archetype, London, 2000).
157.
Hoadley, R. B. Identifying Wood: Accurate Results with Simple Tools. (Taunton Press, Newtown, CT, 1990).
158.
John Mills & Raymond White. Organic Chemistry of Museum Objects. (2012). doi:10.4324/9780080513355.
159.
Rivers, S. & Umney, N. Conservation of Furniture. vol. Butterworth-Heinemann series in conservation and museology (Butterworth-Heinemann, Oxford, 2003).
160.
Sands, R. Prehistoric Woodworking: The Analysis and Interpretation of Bronze and Iron Age Toolmarks. vol. Wood in archaeology (UCL Institute of Archaeology, London, 1997).
161.
Appleyard, H. M. & Wira. Guide to the Identification of Animal Fibres. (Wira, Leeds, 1978).
162.
Catling, D. & Grayson, J. E. Identification of Vegetable Fibres. (Chapman & Hall, London, 1982).
163.
Gale, R. & Cutler, D. Plants in Archaeology: Identification Manual of Vegetative Plant Manterials Used in Europe and the Southern Mediterranean to c. 1500. (Westbury and Royal Botanic Gardens, Kew, Otley, 2000).
164.
Florian, M. E., Kronkright, D. P. & Norton, R. E. The Conservation of Artifacts Made from Plant Materials. (Getty Conservation Institute, [Marian del Rey, Calif.], 1990).
165.
Greaves, P. H., Saville, B. P., & Royal Microscopical Society (Great Britain). Microscopy of Textile Fibres. vol. Microscopy handbooks (BIOS Scientific in association with the Royal Microscopical Society, Oxford, 1995).
166.
John Mills, Raymond White. Organic Chemistry of Museum Objects. (Taylor & Francis online, 2011).
167.
Wildman, A. B. The Microscopy of Animal Textile Fibres: Including Methods for the Complete Analysis of Fibre Blends. (Wool Industries Research Association, Leeds, 1954).
168.
Calvini, P. & Gorassini, A. On the rate of paper degradation: Lessons from the past. Restaurator: International journal for the preservation of library and archival material 27, (2006).
169.
Daniels, V. Paper. in Conservation science: Heritage materials 32–55 (RSC Publishing, Cambridge, 2006). doi:10.1039/9781847557629.
170.
Daniels, V., Donnithorne, A., Smith, P., & International Institute for Conservation of Historic and Artistic Works. Works of Art on Paper, Books, Documents and Photographs: Techniques and Conservation. (International Institute for Conservation, London, 2002).
171.
Havlínová, B., Katuščák, S., Petrovičová, M., Maková, A. & Brezová, V. A study of mechanical properties of papers exposed to various methods of accelerated ageing. Part I. The effect of heat and humidity on original wood-pulp papers. Journal of Cultural Heritage 10, 222–231 (2009).
172.
Paper Conservation. http://www.rsc.org/education/eic/issues/2013March/paper-conservation-cellulose-acid-hydrolysis.asp (2013).
173.
Strlič, M., Kolar, J. & Scholten, S. Paper and durability. in Ageing and stabilisation of paper (eds Strlič, M. & Kolar, J.) (National and University Library, Ljubljana, 2004).
174.
Calnan, C. N., Haines, B., & Leather Conservation Centre. Leather: Its Composition and Changes with Time. (Leather Conservation Centre, Northhampton, England, 1991).
175.
Covington, T. Tanning Chemistry - The Science of Leather. (2009).
176.
Florian, M.-L. E. Protein Facts: Fibrous Proteins in Cultural and Natural History Artifacts. (Archetype Publications, London, 2007).
177.
Haines, B. & Leather Conservation Centre. Parchment: The Physical and Chemical Characteristics of Parchment and the Materials Used in Its Conservation. (Leather Conservation Centre, Northampton, 1999).
178.
Horie, C. V. Deterioration of skin in museum collections. Polymer Degradation and Stability 29, 109–133 (1990).
179.
Kite, M. & Thomson, R. Conservation of Leather and Related Materials. vol. Butterworth-Heinemann series in conservation and museology (Butterworth-Heinemann, Oxford, 2006).
180.
Larsen, R. Microanalysis of Parchment. (Archetype, London, 2002).
181.
Richards, M. Deerskins into Buckskins: How to Tan with Brains, Soap or Eggs. (Backcountry Pub, Cave Junction, Or, 2004).
182.
Wright, M. M. & Conservators of Ethnographic Artefacts. The Conservation of Fur, Feather and Skin: Seminar Organised by the Conservators of Ethnographic Artefacts at the Museum of London on 11 December 2000. vol. Conservators of Ethnographic Artefacts (Archetype, London, 2002).
183.
Cameron, E. Identification of skin and leather preserved by iron corrosion products. Journal of Archaeological Science 18, 25–33 (1991).
184.
Koochakzaei, A. & Achachluei, M. M. RED STAINS ON ARCHAEOLOGICAL LEATHER: DEGRADATION CHARACTERISTICS OF A SHOE FROM THE 11TH–13TH CENTURIES (SELJUK PERIOD, IRAN). Journal of the American Institute for Conservation 54, 45–56 (2015).
185.
Strand, Eva B. Andersson & North European Symposium for Archaeological Textiles. North European Symposium for Archaeological Textiles X. vol. Ancient textiles series (Oxbow Books, Oxford, 2009).
186.
Boersma, F., Brokerhof, A. W., van den Berg, S. & Tegelaers, J. Unravelling Textiles: A Handbook for the Preservation of Textile Collections. (Archetype, London, 2007).
187.
Janaway, R. C., Wyeth, P., & AHRC Research Centre for Textile Conservation and Textile Studies. Scientific Analysis of Ancient and Historic Textiles: Informing Preservation, Display and Interpretation: Postprints. (Archetype, London, 2005).
188.
O’Connor, S. A. & Brooks, M. M. X-Radiography of Textiles, Dress and Related Objects. vol. Butterworth-Heinemann series in conservation and museology (Elsevier/Butterworth-Heinemann, Oxford, 2007).
189.
Schoeser, M. World Textiles: A Concise History. vol. World of art (Thames & Hudson, London, 2003).
190.
Seiler-Baldinger, A. Textiles: A Classification of Techniques. (Smithsonian Institution Press, Washington, D.C, 1994).
191.
Watkins, S. M. Clothing: The Portable Environment. (Iowa State University Press, Ames, Iowa, 1984).
192.
Cartwright, C. & King, J. C. H. Identification of hairs and fibres in Great Lakes objects from the eighteenth and nineteenth centuries using variable pressure scanning electron microscopy. British Museum technical research bulletin 6, (2012).
193.
Lennard, F. & Dulieu-Barton, J. M. Quantifying and visualizing change: Strain monitoring of tapestries with digital image correlation. Studies in Conservation 59, 241–255 (2014).
194.
Cassman, V. & Odegaard, N. Condition assessment of osteological collections. in Human remains: guide for museums and academic institutions (AltaMira Press, Lanham, MD, 2007).
195.
Child, A. M. Towards an understanding of the microbial decomposition of archaeological bone in the burial environment. Journal of Archaeological Science 22, 165–174 (1995).
196.
Holztapffel, C. H. Working Horn, Ivory & Tortoishell. (Caber Press, Portland OR, 2000).
197.
MacGregor, A. Bone, Antler, Ivory & Horn: The Technology of Skeletal Materials since the Roman Period. (Barnes & Noble Books, London, 1985).
198.
John Mills, Raymond White. Organic Chemistry of Museum Objects. (Taylor & Francis online, 2011).
199.
Paris, C., Lecomte, S. & Coupry, C. ATR-FTIR spectroscopy as a way to identify natural protein-based materials, tortoiseshell and horn, from their protein-based imitation, galalith. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 62, 532–538 (2005).
200.
Shelton, S. Y. Byne’s "disease;” how to recognize, handle and store affected shells and related collections. Conserve O Gram 11/15, 1–4 (2008).
201.
Starling, K., Watkinson, D., & United Kingdom Institute for Conservation of Historic and Artistic Works. Archaeological Bone, Antler and Ivory. vol. Occasional papers / United Kingdom Institute for Conservation of Historic and Artistic Works (United Kingdom Institute for Conservation, London, 1987).
202.
Passmore, E. & et al. Hidden, looted, saved: The scientific research and conservation of a group of Begram Ivories from the National Museum of Afghanistan. (2012).
203.
Espinoza, E. O., Baker, B. W. & Berry, C. A. The analysis of sea turtle and bovid keratin artefacts using drift spectroscopy and discriminant analysis. Archaeometry 49, (2007).