@article{paul1988physiological1,
    author = "Paul, G. S",
    title = "Physiological, migratorial, climatological, geophysical, survival and evolutionary implications of polar dinosaurs",
    year = "1988",
    journal = "Journal of Paleontology, v. 62, p. 640-652",
    note = "talkorigins\_source = {true}; raw\_reference = {Paul, G. S., 1988, Physiological, migratorial, climatological, geophysical, survival and evolutionary implications of polar dinosaurs: Journal of Paleontology, v. 62, p. 640-652.}"
}

@article{benton1991polar,
    author = "Benton, Michael J.",
    title = "Polar dinosaurs and ancient climates",
    year = "1991",
    journal = "Trends in Ecology \& Evolution",
    url = "https://doi.org/10.1016/0169-5347(91)90145-n",
    doi = "10.1016/0169-5347(91)90145-n",
    number = "1",
    pages = "28-30",
    volume = "6"
}

@article{vickersrich1993australias,
    author = "Vickers-Rich, Patricia and Hewitt Rich, Thomas",
    title = "Australia's Polar Dinosaurs",
    year = "1993",
    journal = "Scientific American",
    url = "https://doi.org/10.1038/scientificamerican0793-50",
    doi = "10.1038/scientificamerican0793-50",
    number = "1",
    pages = "50-55",
    volume = "269"
}

@article{dyson1994victorias,
    author = "Dyson, Virginia",
    title = "Victoria's Polar Dinosaurs – Tom Rich",
    year = "1994",
    journal = "The Ballarat Naturalist",
    url = "https://doi.org/10.5962/p.384291",
    doi = "10.5962/p.384291",
    pages = "6-7",
    volume = "(1994:Dec)"
}

@article{upchurch1995the,
    author = "Upchurch, Paul",
    title = "The evolutionary history of sauropod dinosaurs",
    year = "1995",
    journal = "Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences",
    abstract = "Most recent studies of dinosaur phylogeny have concentrated on theropods and ornithischians. As a result, the evolutionary relationships of sauropod dinosaurs are poorly understood. In this paper previous studies of sauropod phylogeny are reviewed and contrasted with the results of a recent cladistic analysis. This analysis forms the basis for a reconstruction of sauropod phylogeny. Sauropods diverged from other dinosaurs at some time in the Upper Triassic, but a large part of their early history is totally unknown. Vulcanodonis currently the most primitive sauropod. Many, but perhaps not all, of the Jurassic Chinese sauropods form a monophyletic radiation (the Euhelopodidae) which may reflect the geographic isolation of China during the Lower Jurassic. Members of the Euhelopodidae, such as Mamenchisaurus, are not considered to be closely related to the Diplodocidae. ‘Forked’ chevrons, which have played such an important role in previous studies of sauropod phylogeny, are here considered to have evolved twice within the Sauropoda. This convergence may reflect a correlation between chevron shape and the use of the tail as a weapon within these two sauropod families. The ‘Neosauropoda’ (sister group to the Euhelopodidae) contains the Brachiosauridae, Camarasauridae and the new superfamilies Titanosauroidea and Diplodocoidea. The Cetiosauridae (here defined in a rather restricted sense) is also provisionally included within the Neosauropoda, but may be removed in future studies. The enigmatic Upper Cretaceous sauropod, Opisthocoelicaudia, is thought to be the sister taxon to the Titanosauridae and not a camarasaurid as previously suggested. The Diplodocoidea contains two well established families, the Dicraeosauridae and Diplodocidae, and the new family Nemegtosauridae. Finally, an overview of sauropod phylogeny is compared with recently published palaeogeographic reconstructions. There are many difficulties associated with the analysis of sauropod biogeographic distribution. Nevertheless, some aspects of sauropod phylogeny may be linked to the break-up of Laurasia and Gondwanaland during the Jurassic and Cretaceous.",
    url = "https://doi.org/10.1098/rstb.1995.0125",
    doi = "10.1098/rstb.1995.0125",
    number = "1330",
    pages = "365-390",
    volume = "349"
}

@article{crossref1998significance,
    title = "Significance of polar dinosaurs in Gondwana",
    year = "1998",
    journal = "Journal of African Earth Sciences",
    url = "https://doi.org/10.1016/s0899-5362(97)83512-9",
    doi = "10.1016/s0899-5362(97)83512-9",
    number = "2",
    pages = "IV",
    volume = "26"
}

@article{rich2002polar,
    author = "Rich, Thomas H. and Vickers-Rich, Patricia and Gangloff, Roland A.",
    title = "Polar Dinosaurs",
    year = "2002",
    journal = "Science",
    url = "https://doi.org/10.1126/science.1068920",
    doi = "10.1126/science.1068920",
    number = "5557",
    pages = "979-980",
    volume = "295"
}

@article{woodward2011growth,
    author = "Woodward, Holly N. and Rich, Thomas H. and Chinsamy, Anusuya and Vickers-Rich, Patricia",
    title = "Growth Dynamics of Australia's Polar Dinosaurs",
    year = "2011",
    journal = "PLoS ONE",
    url = "https://doi.org/10.1371/journal.pone.0023339",
    doi = "10.1371/journal.pone.0023339",
    number = "8",
    pages = "e23339",
    volume = "6"
}

@article{vickersrich2014dinosaurs,
    author = "Vickers-Rich, Patricia and Rich, Thomas Hewitt",
    title = "Dinosaurs of Polar Australia",
    year = "2014",
    journal = "Scientific American",
    url = "https://doi.org/10.1038/scientificamericandinosaurs0514-46",
    doi = "10.1038/scientificamericandinosaurs0514-46",
    number = "2s",
    pages = "46-53",
    volume = "23"
}

@incollection{bromham2019were,
    author = "Bromham, Lindell and Cardillo, Marcel",
    title = "Were dinosaurs evolutionary failures?",
    year = "2019",
    booktitle = "Origins of Biodiversity",
    abstract = "This chapter focuses on dinosaurs as a case study for examining the macroevolutionary processes of adaptive radiation and mass extinction. Considering the rise of dinosaurs allows us to examine the role of both key adaptations and chance in diversification, while considering their fall prompts us to examine our ability to resolve events and determine cause and effect in deep time. The study of fossils sheds light on physiology, locomotion, behaviour, and ecology of extinct species. The diversification of dinosaurs may have been driven by key adaptations, such as upright gait and fast metabolism, which allowed them to exploit a wide range of niches, or it may have been triggered by opportunity through the extinction of other reptile groups. Given that vertebrate fossils are rare, and biased in terms of location, taxa, and time period, there is some uncertainty over the timing and nature of dinosaur extinctions.",
    url = "https://doi.org/10.1093/hesc/9780199608713.003.0005",
    doi = "10.1093/hesc/9780199608713.003.0005"
}

@incollection{crossref2023migratorial,
    title = "migratorial, adj.",
    year = "2023",
    booktitle = "Oxford English Dictionary",
    url = "https://doi.org/10.1093/oed/9914098730",
    doi = "10.1093/oed/9914098730"
}