Digitizing, modelling and 3D printing of skeletal digital models of Palaeoloxodon tiliensis (Tilos, Dodecanese, Greece)
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Stamatios Polydoras | Vasileios Spitas | Georgios Kaisarlis | George E. Theodorou | G. Kaisarlis | G. Theodorou | E. Stathopoulou | Vassiliki Mitsopoulou | Dimitrios Michailidis | E. G. Theodorou | Stylianos Isidorou | Socrates J. Roussiakis | Theodoros Vasilopoulos | Elizabeth T. Stathopoulou | Christophoros Provatidis | S. Polydoras | V. Spitas | V. Mitsopoulou | Dimitrios Michailidis | E. Theodorou | S. Isidorou | S. Roussiakis | T. Vasilopoulos | C. Provatidis
[1] J. Huxley. Constant Differential Growth-Ratios and their Significance , 1924, Nature.
[2] J. Huxley,et al. Terminology of Relative Growth , 1936, Nature.
[3] Pierre Jolicoeur,et al. The multivariate generalization of the allometry equation , 1963 .
[4] S. Gould. ALLOMETRY AND SIZE IN ONTOGENY AND PHYLOGENY , 1966, Biological reviews of the Cambridge Philosophical Society.
[5] P. Ambrosetti. The pleistocene dwarf elephants of Spinagallo (Siracusa, south-eastern Sicily) , 1968 .
[6] P. Sondaar. Insularity and Its Effect on Mammal Evolution , 1977 .
[7] V. Roth. How elephants grow: heterochrony and the calibration of developmental stages in some living and fossil species , 1984 .
[8] Phyllis C. Lee,et al. Statural growth in known‐age African elephants (Loxodonta africana) , 1995 .
[9] P. Tassy,et al. Advances in proboscidean taxonomy & classification, anatomy & physiology, and ecology & behavior , 2005 .
[10] P. Christiansen. Long‐bone geometry in columnar‐limbed animals: allometry of the proboscidean appendicular skeleton , 2007 .
[11] A. Lister,et al. Relationships within the Elephantinae using hyoid characters , 2007 .
[12] Mark D Sutton,et al. Tomographic techniques for the study of exceptionally preserved fossils , 2008, Proceedings of the Royal Society B: Biological Sciences.
[13] Gulshan B. Sharma,et al. Natural Form Modeling , 2008, Digital Human Modeling.
[14] M. Ferretti. The dwarf elephant Palaeoloxodon mnaidriensis from Puntali Cave, Carini (Sicily; late Middle Pleistocene): Anatomy, systematics and phylogenetic relationships , 2008 .
[15] G. Lyras,et al. The evolution of the brain in Canidae (Mammalia: Carnivora) , 2009 .
[16] Tim Gernat,et al. Virtual skeletons: using a structured light scanner to create a 3D faunal comparative collection , 2009 .
[17] Xiujie Wu,et al. Application of computed tomography in paleoanthropological research , 2009 .
[18] V. Herridge. Dwarf elephants on Mediterranean islands : a natural experiment in parallel evolution , 2010 .
[19] H. Mallison. Digitizing Methods for Paleontology: Applications, Benefits and Limitations , 2011 .
[20] Imran A. Rahman,et al. Virtual Fossils: a New Resource for Science Communication in Paleontology , 2012, Evolution: Education and Outreach.
[21] Russell J. Garwood,et al. SPIERS and VAXML: A software toolkit for tomographic visualisation and a format for virtual specimen interchange , 2012 .
[22] Bernard Buigues,et al. X-ray computed tomography of two mammoth calf mummies , 2014 .
[23] E. Rayfield,et al. A virtual world of paleontology. , 2014, Trends in ecology & evolution.
[24] Imran A. Rahman,et al. Virtual paleontology: computer-aided analysis of fossil form and function , 2014 .