¿Falta de concienciación o desconocimiento? La transparencia y la reproducibilidad en la Arqueología Computacional

  1. Pardo-Gordó, Salvador 1
  2. Cortell-Nicolau, Alfredo 2
  1. 1 Universidad de La Laguna
    info

    Universidad de La Laguna

    San Cristobal de La Laguna, España

    ROR https://ror.org/01r9z8p25

  2. 2 University of Cambridge
    info

    University of Cambridge

    Cambridge, Reino Unido

    ROR https://ror.org/013meh722

Aldizkaria:
Vegueta: Anuario de la Facultad de Geografía e Historia

ISSN: 1133-598X

Argitalpen urtea: 2023

Alea: 23

Zenbakia: 1

Orrialdeak: 243-263

Mota: Artikulua

DOI: 10.51349/VEG.2023.1.08 DIALNET GOOGLE SCHOLAR lock_openSarbide irekia editor

Beste argitalpen batzuk: Vegueta: Anuario de la Facultad de Geografía e Historia

Garapen Iraunkorreko Helburuak

Laburpena

The last decade has seen the consolidation of Computational Archaeology and the Digital Humanities as key disciplines in the multifaceted study of historical processes. In this regard, the use of different software packages or programming languages for data analysis has notably increased among archaeologists. However, in many cases open research protocols are not fully observed (when access to data and code are not always granted), which makes reproducibility impossible for other research groups. The present article reviews the transparency of works published in the most important journals of the Iberian Peninsula, to evaluate the degree of openness within the Iberian research community.

Erreferentzia bibliografikoak

  • AGUILLO, I.F. (2020): Altmetrics of the Open Access Institutional Repositories: a webometrics approach, Scientometrics, 123: 1181-92. https://doi.org/10.1007/s11192-020-03424-6.
  • AMMERMAN, A.J. y CAVALLI-SFORZA, L. L. (1971): Measuring the Rate of Spread of Early Farming in Europe, Man, 6 (4): 674-88.
  • BARTON, M. (2013): Stories of the Past or Science of the Future? Archaeology and Computational Social Science, en A. BEVAN y M. LAKE (Ed.), Computational Approaches to Archaeological Spaces, Routledge, Nueva York: 151-78.
  • BEVAN, A. (2015): The Data Deluge, Antiquity, 89 (348): 1473-84. https://doi.org/10.15184/aqy.2015.102.
  • CALAPRICE, A. (2011): The ultimate quotable Einstein, Princeton University Press, Princeton-New Jersey.
  • CONTE, R.; GILBERT, N.; BONELLI, G.; CIOFFI-REVILLA, C.; DEFFUANT, G.; KERTESZ, J.; LORETO, V.; MOAT, S.; NADAL, J-P.; SÁNCHEZ, A.; NOWAK, A.; FLACHE, A.; SAN MIGUEL, M.; HELBING, D. (2012): Manifesto of computational social science, The European Physical Journal Special Topics, 214: 325-46.
  • CORTELL-NICOLAU, A.; GARCÍA-PUCHOL, O.; BARRERA-CRUZ, M.; GARCÍA-RIVERO, D. (2021): The Spread of Agriculture in Iberia through Approximate Bayesian Computation and Neolithic Projectile Tools, PLOS ONE, 16 (12): e0261813. https://doi.org/10.1371/journal.pone.0261813.
  • DERKSEN, M. (2020): Open Psychology: transparency and reproducibility, Psicología, Conocimiento y Sociedad 9, (2): 318-30.
  • DORAN, J. E. (1970): Systems theory, computer simulations, and archaeology, World Archaeology, 1: 289-98.
  • FLANNERY, K.V. (1973): Archaeology with a capital S, en C. REDMAN (ed.), Research and theory in current archaeology, John Wiley & Sons, New York: 47-52.
  • GARDIN, J.C. (1988): Artificial Intelligence and Expert System: a Case Study in the Knowledge Domain in Archaeology, John & Wiley Sons, Hoboken.
  • GERNSBACHER, M.A. (2018): Writing Empirial Articles: Transparency, Reproducibility, Clarity and Memorability, Advances in Methods and Practices in Psychological Science, 1 (3): 403-414.
  • HAIBE-KAINS, B.; ADAM, G.A.; HOSNY, A.; KHODAKARAMI, F.; WALDRON, L.; WANG, B.; MCINTOSH, C.; GOLDENBERG, A.; KUNDAJE, A.; GREENE, C.S.; BRODERICK, T.; HOFFMAN, M.M.; LEEK, J.T.; KORTHAUER, K.; HUBER, W.; BRAZMA, A.; PINEAU, J.; TIBSHIRANI, R.; HASTIE, T.; IOANNIDIS, J.P.A.; QUACKENBUSH, J.; AERTS, H.J. W. L. (2020): Transparency and reproducibility in artificial intelligence, Nature, 586 (7829): E14-16. https://doi.org/10.1038/s41586-020-2766-y.
  • ISERN, N.; FORT, J.; CARVALHO, A. F.; GIBAJA, J. F.; IBAÑEZ, J. J. (2014): The Neolithic Transition in the Iberian Peninsula: Data Analysis and Modeling, Journal of Archaeological Method and Theory, 21 (2): 447-60. https://doi.org/10.1007/s10816-013-9193-4.
  • LINDSAY, D.S. (2017): Sharing data and materials in Phycological Science, Phycological Science, 28 (6): 669-702.
  • MARWICK, B. (2017): Computational Reproducibility in Archaeological Research: Basic Principles and a Case Study of Their Implementation, Journal of Archaeological Method and Theory, 24: 424-50. https://doi.org/10.1007/s10816-015-9272-9.
  • MARWICK, B. (2020): Open Access to Publications to Expand Participation in Archaeology, Norwegian Archaeological Review, 53 (2): 163-69. https://doi.org/10.1080/00293652.2020.1837233.
  • MARWICK, B.; D’ALPOIM GUEDES, J.; BARTON, C.M.; BATES, L.A.; BAXTER, M.; BEVAN, A.; BOLLWERK, E.A.; BOCINSKY, R.K.; BRUGHMANS, T.; CARTER, A.K.; CONRAD, C.; CONTRERAS, D.; COSTA, S.; CREMA, E.R.; DAGGET, A.; DAVIES, B.; DRAKEM L.B.; DYE, T.S.; FRANCE, P.; FULLAGAR, R.; GIUSTI, D.; GRAHAM, S.; HARRIS, M.D.; HAWKS, J.; HEARTH, S.; HUFFER, D.; KANSA, E.C.; KANSA, S.W; MADEN, M.E.; MELCHER, J.; NEGRE, J.; NEIMAN, F.; OPITZ, R.; ORTON, D.C.; PRZYSTUPA, P.; RAVIELE, M.; RIEL-SALVATORE, J.; RIRIS, P.; ROMANOWSKA, I.; SMITH, J.; STRUPLER, N.; ULLAH, I.I.; VAN VLACK, H.G.; VAN VALKENBURGH, N.; WATRALL, E.C.; WEBSTER, C.; WELLS, J.; WINTERS, J.; WRENM C.D. (2017): Open science in archaeology, SAA Archaeological Record, 17 (4): 8-14.
  • MATZIG, D.N.; SHUMON, T.H; RIEDE, F. (2021): Design Space Constraints and the Cultural Taxonomy of European Final Palaeolithic Large Tanged Points: A Comparison of Typological, Landmark-Based and Whole-Outline Geometric Morphometric Approaches, Journal of Paleolithic Archaeology, 4 (4): 27. https://doi.org/10.1007/s41982-021-00097-2.
  • OKUMURA, M. y ARAUJO, A.G.M. (2019): Archaeology, Biology, and Borrowing: A Critical Examination of Geometric Morphometrics in Archaeology, Journal of Archaeological Science, 101 (enero): 149-58. https://doi.org/10.1016/j.jas.2017.09.015.
  • ORENGO, H.A.; GARCIA-MOLSOSA, A.; BERGANZO-BESGA, I.; LANDAUER, J.; ALIENDE, P.; TRES-MARTÍNEZ, S. (2021): New Developments in Drone-Based Automated Surface Survey: Towards a Functional and Effective Survey System, Archaeological Prospection, 28 (4): 519-26. https://doi.org/10.1002/arp.1822.
  • PARDO-GORDÓ, S.; BERNABEU, J.; JIMÉNEZ-PUERTO, J.; ARMERO, C.; GARCÍA-DONATO, G. (2022): The Chronology of Archaeological Assemblages Based on an Automatic Bayesian Procedure: Eastern Iberia as Study Case, Journal of Archaeological Science, 139: 105555. https://doi.org/10.1016/j.jas.2022.105555.
  • RAMÍREZ-SÁNCHEZ, M. (2018): Las Ciencias de la Antigüedad en España en la encrucijada: retos y oportunidades en la sociedad digital, en E. ORTIZ-DE-URBINA y J.M. VALLEJO (Ed.), Métodos y técnicas en Ciencias de la Antigüedad: estudios sobre investigación y docencia, Universidad del País Vasco, Vitoria: Anejos de Veleia 16: 13-36.
  • RUBIO-CAMPILLO, X.; BLE, E.; PUJOL, À.; SALA, R.; TAMBA, R. (2022): A Spatial Connectivity Approach to Landscapes of Conflict: Julius Caesar and the Assault to Puig Ciutat (NE Iberian Peninsula), Journal of Archaeological Method and Theory, 29: 1059-1089. https://doi.org/10.1007/s10816-022-09549-7.
  • SCHAUER, P.; BEVAN, A.; SHENNAN, S.; EDINBOROUGH, K.; KERIG, T.; PARKER PEARSON, M. (2020): British Neolithic Axehead Distributions and Their Implications, Journal of Archaeological Method and Theory, 27 (4): 836-59. https://doi.org/10.1007/s10816-019-09438-6.
  • SNITKER, G.; DIEZ CASTILLO, A.; BARTON, C. M.; BERNABEU AUBÁN, J.; GARCÍA PUCHOL, O.; PARDO-GORDÓ, S. (2018): Patch-Based Survey Methods for Studying Prehistoric Human Land-Use in Agriculturally Modified Landscapes: A Case Study from the Canal de Navarrés, Eastern Spain, Quaternary International, 483 (julio): 5-22. https://doi.org/10.1016/j.quaint.2018.01.034.
  • TEDERSOO, L.; KÜNGAS, R.; ORAS, E.; KÖSTER, K.; EENMAA, H.; LEIJEN, Ä.; PEDASTE, M.; RAJU, M.; ASTAPOVA, A.; LUKNER, H.; KOGERMANN, K.; SEPP, T. (2021): Data sharing practices and data availability upon request differ across scientific disciplines, Scientific Data, 8 (1): 192. https://doi.org/10.1038/s41597-021-00981-0.
  • VENEZIANO, A.; CAZENAVE, M.; ALFIERI, F.; PANETTA, D.; MARCHI, D. (2021): Novel Strategies for the Characterization of Cancellous Bone Morphology: Virtual Isolation and Analysis, American Journal of Physical Anthropology, 175 (4): 920-30. https://doi.org/10.1002/ajpa.24272.
  • WALLIS, J.C.; RONALDO, E.; BORGMAN, C.L. (2013): If we share data, will anyone use them? Data Sharing and Reuse in the Long Tail of Science and Technology, PLOS ONE, 8 (7): e67332.
  • WATRALL, E.C. (2016): Archaeology, the Digital Humanities, and the “Big Tent”, en M. K. GOLD y L.F. KLEIN (Ed.), Debates in the Digital Humanities 2016, University of Minnesota Press, Minneapolis: 345-58.
  • WILKINSON, M.D.; DUMONTIER, M.; AALBERSBERG, I. J.; APPLETON, G.; AXTON, M.; BAAK, A.; BLOMBERG, N.; BOITEN, J.W.; DA SILVA SANTOS, L.B.; BOURNE, P.E.; BOUWMAN, J.; BROOKES, A.J.; CLARK, T.; CROSAS, M.; DILLO, I.; DUMON, O.; EDMUNDS, S.; EVELO, C.T.; FINKERS, R.; GONZALEZ-BELTRAN, A.; GRAY, A.J.G.; GROTH, P.; GOBLE, C.; GRETHE, J.S.; HERINGA, J.; HOEN, P.A.C.; HOOFT, R.; KUHN, T.; KOK, R.; KOK, J.; LUSHER, S.J.; MARTONE, M.E.; MONS, A.; PACKER, A.L.; PERSOSON, B.; ROCCA-SERRA, P.; ROOS, M.; SCHAIK, R.; SANSONE, R.A.; SCHULTES, E.; SENGSTAG, T.; SLATER, T.; STRAWN, G.; SWERTZ, M.A.; THOMPSON, M.; VAN DER LEI, J.; VAN MULLIGEN, E.; VELTEROP, J.; WAAGMEESTER, A.; WITTENBURG, P.; WOLSTENCROFT, K.; ZHAO, J.; MONS, B. (2016): The FAIR Guiding Principles for Scientific Data Management and Stewardship, Scientific Data, 3 (1): 160018. https://doi.org/10.1038/sdata.2016.18.
  • WOBST, H.M. (1974): Bounday conditions for Paleolithic social system: a simulation approach, American Antiquity, 39: 147-78.
  • ZHANG, P.; WHILTE, J.; SCHMIDT, D.C.; LENZ, G.; TRENT ROSENBLOOM, S. (2018): FHIRChain: Applying blockchain to securely and Scalably Share Clinical Data, Computational and Structural Biotechnology Journal, 16: 267-278.