Arqueología de la Producción Cerámica. Bibliografía

Teoría y Método

ARNOLD. D.E.: (1985): Ceramic theory and cultural process, Cambridge University Press, Cambridge.

ARNOLD. D.E.:  (1992): “Comments on section II.” En H. Neff (Ed): Chemical characterization of Ceramic Pastes in archaeology, Monographs in World Archaeology 7,159-166.

ARNOLD, D.E; NEFF, H.; BISHOP, R.L. (1992): “Compositional analysis and “sources” of pottery: an ethnoarchaeological approach.” American Anthropologist 93(1), 70-90.

ARNOLD, D.E; NEFF, H.; BISHOP, R.L., M. GLASCKOC (1999): “Testing interpretative assumptions of NAA: contemporary pottery in Yucatan, 1964-1994.” En E. Chilton (Ed): Material meanings: critical approaches to the analyses of style, 61-84. Utah Press. Salt Lake City

ARNOLD, D.E; NEFF, H.; GLASCKOC, M.D. (2000): “Testing assumptions of NAA: communities, workshops and paste preparation in Yucatán, México.” Archaeometry 42(2), 301-316.

BARKLAY, K (2001): Scientific analysis of archaeological ceramics. A handbook of resources. Oxbowbooks, Oxford.

BARRANDON, J.N. (2001): Nuclear Methods of analysis, en L. Ellis (Ed): Archaeological Methods and Theory: an encyclopaedia. Garlan Publishing Inc., New York. 401-407.

BISHOP, R.L.; CANOUTS, V.; De ATLEY, S.P.; QOYAWAYMA, A.; AIKINS, C.W. (1988): The formation of ceramic analytical groups: Hopi pottery production and Exchange. A.C. 1300-1600, Journal of Field Archaeology 15(3), 317-337.

CARPENTER, A.J.; FEINMAN, G. (1999): The Effects of Behaviour on Ceramic Composition: Implications for the Definition of Production Locations, Journal of Archaeological Science 26, 783–796.

GLASCKOK, M.D (1992): Neutron Activation Analysis, H. Neff (Ed): Chemical characterization of ceramic pastes in archaeology, Monographs in World Archaeology 7, 11-26.

HENRICKSON, R.C., BLACKMAN, M.J. (1992): Style and paste: testing stilistic grouping of vessels with NAA, H. Neff (Ed): Chemical characterization of ceramic pastes in archaeology, Monographs in World Archaeology 7, 125-144.

HENDERSON, J (2000): The science and archaeology of materials. An investigation of inorganic materials. Routledge, London & New York.

KINGERY, WD (1996a): Introduction to: Learning from things. Method and Theory of Material Culture Studies. En W.D. Kingery (Ed): Learning from things, Method and Theory of Material Culture Studies, Smithsonian Institution. Washinton. p 1-15.

-(1996b): A role for Material Science. En W.D. Kingery (Ed): Learning from things. Method and Theory of Material Culture Studies. Smithsonian Institution, Washinton, 175-180.

-(1996c): Material Science and Material Culture. En W.D. Kingery (Ed): Learning from things. Method and Theory of Material Culture Studies, Smithsonian Institution, Washinton, 181-203.

LEMONNIER, P (1993): Introduction to Technological choices. Transformation in material cultures since the Neolithic, (Ed) Lemonnier. P., Routledge, London.

MANNONI, T.; GIANNICHEDDA, E. (2004): Arqueologia de la producción, Ariel Prehistoria, Barcelona.

NEFF, H. (1992): Introduction, en H. Neff (Ed): Chemical characterization of ceramic pastes in archaeology, Monographs in World Archaeology 7, 1-10

PÉTREQUIN, P. (1993) : North wind. South Wind. Neolithic technical choice in the Jura Mountains. 3700-2400 BC. En: P. Lemonnier [Ed]: Technological choices. Transformation in material cultures since the Neolithic. Routlege, London, 36-76.

SCHIFFER, M.B. (1992): Technological perspectives on Behavioral change, The University of Arizona Press, Arizona.

SCHIFFER, M.B.; MILLER, A. (1999): The material life of human beings. Artefacts, behavior, and comunication. Routledge, London.

SCHIFFER, M.B.; SKIBO, J. (1987): Theory and explanation in the study of Technological Change. Current Anthropology 28(5), 595-622.

SCHIFFER, M.B.; SKIBO, J. (1997): The explanation of artefact variability. American Antiquity 62 (1), 27-50.

TITE, M. (1981): Methods of physical examination in archaeology. London, Seminary Press LTD.

TITE, M. (1999): Pottery production, distribution, and comsumption -The contribution of phisical Sciences. Journal of archaeological method and theory 6(3), 181-233.

Organización de la producción

ARNOLD, P. (1991): Dimensional standardization and production scale in Mesoamerican ceramics, Latin American Antiquity 2, 363-370.

BLACKMAN, M.J.; STEIN, G.J.; VANDIVER, P.B. (1993): The standardization hypothesis and ceramic mass production: Technological compositional, and metric indexes of craft specialization at Tell Leilan, Syria, American Antiquity 58, 60-80.

BRUMFIELD, E., EARLE, T. (1987): Specialization, Exchange, and complex societies: an introduction, en E. Brumfield y T. Earle (Eds): Specialization, Exchange, and complex societies, Cambridge University Press, Cambridge, 1-9.

COSTIN, C.L. (1986): From Chiefdom to Empire State: Ceramic Economy Among Prehispanic Wanka of Highland Peru. Ph.D. diss., UniversityCalifornia, Los Angeles. Ann Arbor: University Microfilms.

COSTIN, C.L. (1991) : Craft Specialization: Issues in Defining, Documenting, and Explaining the Organization of Production, Archaeological Method and Theory 3, The University of Arizona Press, 1-56.

COSTIN, C.L.; EARLE, T. (1989): Status distinction and legitimation of power as reflected in changing patterns of consumption in Late Prehispanic Peru, American Antiquity 54(4), 691-714.

COSTIN, C.L; HAGSTRUM, M.B. (1995): Standardisation, labor investment, skill and the organization of ceramic production in Late Prehispanic Highland Peru, American Antiquity 60(4), 619-639

EARLE, T. (1981): Comments on P. Rice, evolution of specialized pottery production: a trial model, Current Anthropology 22, 230-231,

EARLE, T. (1987): Specialization and the production of wealth: Hawaiian chietdoms and the Inca empire, en E. Brumfield y T. Earle (Eds): Specialization, Exchange, and complex societies, Cambridge University Press, Cambridge, 64-75.

EARLE, T. (2004): Culture matters: Why symbolic objects change, en E. DeMarrais. C. Gosden y C. Renfrew (Eds.): Rethinking Materiality, the engagement of mind with the material World, McDonald Institute for Archaeological Research, University of Cambridge, Cambridge, 153-166.

FEINMAN, G. (1999): “Rethinking our assumptions: economic specialization at the household scale in ancient Ejutla, Oaxaca, Mexico”, En Skibo, J. y Feinman, G. [Eds.]: Pottery and people: a dynamic interaction, University of Utah Press.

RICE, M.P. (1981): Evolution of specialized pottery production: a trial model, Current Anthropology 22, 230-231.

RICE, M.P. (1987): Pottery análisis. A sourcebook. The University of Chicago Press, Chicago & London.

RICE, M.P. (1987): Economic change in the lowland Maya Late Classsic period, en E. Brumfield y T. Earle (Eds): Specialization, Exchange, and complex societies, Cambridge University Press, Cambridge, 76-85.

RICE, M.P. (1991): Specialization, standarization, and diversity. A retrospective. En Bisghop y Lange [Ed]: The ceramic legacy of Anna O. Shepard, University Press of Colorado, 257-279.

SCHORTMAN, E.M.; URBAN, P.A. (2004): Modeling the roles of craft production in ancient political economies, Journal of Archaeological Research 12(2), 185-226.

Datación

AITKEN, M.J. (1985): “Thermoluminiscence Dating”. Academic Press INC., Orlando.

AITKEN, M.J. (1990):”Science-based Dating  in Archaeology”. Longman Singapore Publishers Ltd., Longman Archaeology Series, Singapore, pp. 141-187.

Aitken, M.J. (1998): “An Introduction to Optical Dating. The dting of Quaternary sediments by the Use of photon-stimulated luminiscence”. Oxford University Press Ink, New York.

Benítez, P et al., (1999): “Nuevas aplicaciones de la termoluminiscencia a la datación absoluta de arte rupestre” En III Congreso Nacional de Arqueometría Eds. Respaldiza, Pardo…., pp. 69-78.

Castaign, J (1999): “Observación y análisis de objetos del patrimonio”, Coloquio en homenaje al Prof. Dr. Rafael Marquez Delgado, Catedrático de Física, Universidad de Sevilla (29-30 de Abril de 1999).

Castaign, J.; Girod, M. et Zink, A. (2004): “Radiation background due to radioactivity in palaces and museums: influence on TL/OSL dating”, Journal of Cultural Heritage (en prensa).

Castaign, J. et Zink, A. (2004): “Influence de l’irradiation aux rayons X sur la luminiscence et la datation des terres cuites”, Technè nº 19, 130-133.

Fleming, S (1990): “Thermoluniniscence techniques in archaeology”, Claredon Press, Oxford.

Lalou, C. Et Valladas, G (1985): “Chapitre IX: La Thermoluminiscence” En Methodes de datation par les phénomènes nucléaires naturels: Application, sous la direction d’E. Roth et de B. Poty, Collection CEA, Série scientifique, Ed. Masón, Paris, pp. 251-289.

Martini, M et alli. (1988): “Spurius TL in archaeological ceramics: a study of affecting factors”, Nuclear Tracks. Radiat. Meas. 14 (1/2), pp. 339-342.

Querré, G y Porto, E (2004): “Thermoluniniscence et datation”.

Zimmerman, D.W. (): “Thermoluniniscence dating using fine grains from pottery”, Archaeometry, 13 (1), pp. 29-52.

Zink, A (2004: ): “La datation par thermoluniscence”. Pour la Science: Le temps des datations, janvier/mars 2004, pp. 106-109.

Zink, Castaing & Porto (2004): “Terres cuites de la Renaissance et datation par luminiscence. Défi et réalité” Techne nº 20, p. 111-116