Littérature scientifique sur le sujet « Paleoecology Australia »
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Articles de revues sur le sujet "Paleoecology Australia"
Webb, Robert H. « Spatial and Temporal Distribution of Radiocarbon Ages on Rodent Middens from the Southwestern United States ». Radiocarbon 28, no 1 (1986) : 1–8. http://dx.doi.org/10.1017/s0033822200059981.
Texte intégralRobinson, Jeffrey H. « Fossil craniid brachiopods (Craniata) of Australia and New Zealand ». Proceedings of the Royal Society of Victoria 129, no 2 (2017) : 7. http://dx.doi.org/10.1071/rs17005.
Texte intégralŁukowiak, Magdalena. « Fossil and modern sponge fauna of southern Australia and adjacent regions compared : interpretation, evolutionary and biogeographic significance of the late Eocene ‘soft’ sponges ». Contributions to Zoology 85, no 1 (12 janvier 2016) : 13–35. http://dx.doi.org/10.1163/18759866-08501002.
Texte intégralCrasquin-Soleau, Sylvie, et Françoise Depêche. « Paleoecology of ODP LEG 122 Triassic Ostracodes (Wombat Plateau, NW Australia) ». Geobios 26, no 3 (janvier 1993) : 331–44. http://dx.doi.org/10.1016/s0016-6995(93)80025-m.
Texte intégralSURPRENANT, RACHEL L., JAMES G. GEHLING et MARY L. DROSER. « BIOLOGICAL AND ECOLOGICAL INSIGHTS FROM THE PRESERVATIONAL VARIABILITY OF FUNISIA DOROTHEA, EDIACARA MEMBER, SOUTH AUSTRALIA ». PALAIOS 35, no 9 (1 septembre 2020) : 359–76. http://dx.doi.org/10.2110/palo.2020.014.
Texte intégralde Freitas, T. A., F. Brunton et T. Bernecker. « Silurian Megalodont Bivalves of the Canadian Arctic and Australia : Paleoecology and Evolutionary Significance ». PALAIOS 8, no 5 (octobre 1993) : 450. http://dx.doi.org/10.2307/3515019.
Texte intégralSolon, Christine M., Mary L. Droser, James G. Gehling et Mary E. Dzaugis. « Paleoecology of Rugoconites and Tribrachidium : New Data from the Ediacaran of South Australia ». Paleontological Society Special Publications 13 (2014) : 46–47. http://dx.doi.org/10.1017/s2475262200010984.
Texte intégralHall, Christine M. S., Mary L. Droser, James G. Gehling et Mary E. Dzaugis. « Paleoecology of the enigmatic Tribrachidium : New data from the Ediacaran of South Australia ». Precambrian Research 269 (octobre 2015) : 183–94. http://dx.doi.org/10.1016/j.precamres.2015.08.009.
Texte intégralManda, Štěpán, et Vojtěch Turek. « Silurian tarphyceridDiscoceras(Cephalopoda, Nautiloidea) : systematics, embryonic development and paleoecology ». Journal of Paleontology 92, no 3 (27 mars 2018) : 412–31. http://dx.doi.org/10.1017/jpa.2017.122.
Texte intégralJames, Noel P., et Yvonne Bone. « Paleoecology of Cool-Water, Subtidal Cycles in Mid-Cenozoic Limestones, Eucla Platform, Southern Australia ». PALAIOS 9, no 5 (octobre 1994) : 457. http://dx.doi.org/10.2307/3515136.
Texte intégralThèses sur le sujet "Paleoecology Australia"
Reeves, Jessica Marie. « The use of ostracoda in the palaeoenvironmental reconstruction of the Gulf of Carpentaria, Australia, from the last interglacial to present ». Access electronically, 2004. http://www.library.uow.edu.au/adt-NWU/public/adt-NWU20050111.153534/index.html.
Texte intégralStephens, Nathaniel Patrick. « Late Devonian stratigraphy, stable isotopic analyses, and paleoecology in the Napier, Oscar, and Emanuel ranges, Canning Basin, Western Australia / ». For electronic version search Digital dissertations database. Restricted to UC campuses. Access is free to UC campus dissertations, 2002. http://uclibs.org/PID/11984.
Texte intégralBlack, Manu School of Biological Earth & Environmental Sciences UNSW. « A late quaternary palaeoenvironmental investigation of the fire, climate, human and vegetation nexus from the Sydney basin, Australia ». Awarded by:University of New South Wales. School of Biological, Earth and Environmental Sciences, 2006. http://handle.unsw.edu.au/1959.4/25745.
Texte intégralDe, Deckker P. « Australian Quaternary studies : a compilation of papers and documents submitted for the degree of Doctor of Science in the Faculty of Science, University of Adelaide / ». Title page, contents and abstract only, 2002. http://web4.library.adelaide.edu.au/theses/09SD/09sdd299.pdf.
Texte intégralJohnston, Paul A. « Morphology, relationships and palaeoecology of lower Devonian bivalves from Southeastern Australia ». Phd thesis, 1985. http://hdl.handle.net/1885/140930.
Texte intégralFrawley, Susan Coleen. « Charcoal from Carpenter's Gap 1 : implications for environmental change in the last 42,000 years ». Master's thesis, 2009. http://hdl.handle.net/1885/150532.
Texte intégralKeaney, Benedict. « An exploration of the Bogong moth, Agrotis infusa, as a palaeo-environmental and ecosystem measure in montane areas of the Australian Capital Territory and adjacent areas of New South Wales ». Master's thesis, 2006. http://hdl.handle.net/1885/147108.
Texte intégralMarianelli, Pyramo C. « Palaeoenvironmental proxies from Southern Australian speleothems ». Phd thesis, 2000. http://hdl.handle.net/1885/149912.
Texte intégralDe, Deckker P. (Patrick). « Australian Quaternary studies : a compilation of papers and documents submitted for the degree of Doctor of Science in the Faculty of Science, University of Adelaide ». 2002. http://web4.library.adelaide.edu.au/theses/09SD/09sdd299.pdf.
Texte intégralMcHenry, Colin Richard. « Devourer of Gods : the palaeoecology of the Cretaceous pliosaur Kronosaurus queenslandicus ». Thesis, 2009. http://hdl.handle.net/1959.13/935911.
Texte intégralThe large pliosaur Kronosaurus queenslandicus is known from numerous specimens from the Early Cretaceous marine sediments of the Australian Great Artesian Basin. The preservation of these specimens in nodular limestone generally lacks pronounced taphonomic distortion, allowing the three-dimensional shape of the osteology, in particular the skull, to be inferred with confidence. Three-dimensional geometry is critical data for the functional analyses that can form the basis for reconstruction of palaeoecology, in particular, approaches based in computational biomechanics that make use of high resolution Finite Element Modelling. These techniques have been used successfully to infer diet and feeding behaviour in various species of extinct carnivore, and are here applied to a species of large pliosaur for the first time. The cranial anatomy of Kronosaurus queenslandicus is here summarised for the first time, and outstanding questions concerning the taxonomy of the relevant material are addressed as fully as possible given available data. Overall body proportions and size are estimated in the context of other known material from specimens of large pliosaurs. The material examined supports the hypothesis that there is one species of large pliosaur in the Late Albian the Great Artesian Basin, and this material is referred to Kronosaurus queenslandicus Longman 1924. Material from the Late Aptian of the Great Artesian Basin is also Kronosaurus, and is presently referred to Kronosaurus queenslandicus Longman 1924: however questions about the anatomy of Kronosaurus boyacensis Hampe 1992 mean that further examination of material to hand, or recovery of new specimens from the Late Aptian, may require the taxonomic status of the Late Aptian material to be reviewed. Kronosaurus is a member of the Brachaucheniidae Williston 1925. Maximum size is 10.5 metres total length and approximately ~11,000 kg body mass. Biomechanical analysis of the skull of Kronosaurus shows that it had a high bite force, comparable to that predicted for a hypothetical similar sized saltwater crocodile Crocodylus porosus. The magnitude of its maximum bite force, around 30,000 Newtons, was likely exceeded by Tyrannosaurus rex and Carcharocles megalodon. Finite element modelling of the skull, compared with the skull of a 3.1 metre Crocodylus porosus, suggests that the skull of Kronosaurus carried more strain under loads simulating feeding on large prey. Accordingly, maximum prey size, relative to predator body size, is interpreted as lower in Kronosaurus than for a 3.1 metre C. porosus, although the magnitude of this limit is unknown due to incomplete data on the feeding ecology of C. porosus. Other evidence, from functional morphology, taphonomy, and comparison with extant aquatic carnivores suggests that Kronosaurus was the apex predator of the Australian Early Cretaceous inland seas. Relatively small prey were likely to be an important component of the diet of Kronosaurus, although certain morphological features of the skull appear to have permitted predation upon larger prey when available. Several of these morphological features may constitute evolutionary adaptations to the conflicting mechanical demands of feeding on small and large prey.
Livres sur le sujet "Paleoecology Australia"
Veth, Peter Marius. Islands in the interior : The dynamics of prehistoric adaptations within the Arid Zone of Australia. Ann Arbor, Mich : International Monographs in Prehistory, 1993.
Trouver le texte intégralLamb, Lara. Rock of ages : South Molle Island quarry, Whitsunday Islands : use and distribution of stone through space and time. Oxford : Archaeopress, 2011.
Trouver le texte intégralDortch, Joe. Palaeo-environmental change and the persistence of human occupation in south-western Australian forests. Oxford, England : Archaeopress, 2004.
Trouver le texte intégralPasveer, Juliette Maria. The djief hunters : 26,000 years of rainforest exploitation on the Bird's Head of Papua, Indonesia. Leiden : Balkema, 2004.
Trouver le texte intégralWatanabe, Jun'ichi Plenge. Bridging Wallace's Line : The Environmental and Cultural History and Dynamics of the Se-Asian-Australian Region (Advances in Geoecology). Catena, 2002.
Trouver le texte intégralActes de conférences sur le sujet "Paleoecology Australia"
Ruiz, Roman, Quinlan Byrne, Christopher Junium et Phoebe Cohen. « USING SINGLE-FOSSIL ORGANIC CARBON ISOTOPES TO ILLUSTRATE THE PALEOECOLOGY AND DEPOSITIONAL CONDITIONS OF THE MESOPROTEROZOIC VELKERRI FORMATION OF AUSTRALIA ». Dans GSA Connects 2021 in Portland, Oregon. Geological Society of America, 2021. http://dx.doi.org/10.1130/abs/2021am-369877.
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