@misc{cope1878a1,
    author = "Cope, E. D",
    title = "A new opisthocoelous dinosaur",
    year = "1878",
    howpublished = "American Naturalist, v. XII, p. 406",
    note = "talkorigins\_source = {true}; raw\_reference = {Cope, E. D., 1878, A new opisthocoelous dinosaur: American Naturalist, v. XII, p. 406.}"
}

@article{mook1914notes,
    author = "Mook, C. C.",
    title = "NOTES ON CAMARASAURUS COPE",
    year = "1914",
    journal = "Annals of the New York Academy of Sciences",
    url = "https://doi.org/10.1111/j.1749-6632.1914.tb55342.x",
    doi = "10.1111/j.1749-6632.1914.tb55342.x",
    number = "1",
    pages = "19-22",
    volume = "24"
}

@article{osborn1919camarasaurus,
    author = "OSBORN, H. F. and MOOK, C. C.",
    title = "Camarasaurus, Amphicoelias, and other sauropods of Cope",
    year = "1919",
    journal = "Geological Society of America Bulletin",
    url = "https://doi.org/10.1130/gsab-30-379",
    doi = "10.1130/gsab-30-379",
    number = "1",
    pages = "379-388",
    volume = "30"
}

@article{osborn1920reconstruction,
    author = "Osborn, Henry Fairfield and Mook, Charles Craig",
    title = "Reconstruction of the Skeleton of the Sauropod Dinosaur Camarasaurus Cope (Morosaurus Marsh)",
    year = "1920",
    journal = "Proceedings of the National Academy of Sciences",
    url = "https://doi.org/10.1073/pnas.6.1.15",
    doi = "10.1073/pnas.6.1.15",
    number = "1",
    pages = "15-15",
    volume = "6"
}

@misc{osborn1921camarasaurus2,
    author = "Osborn, H. F. and Mook, C. C",
    title = "Camarasaurus, Amphicoelias, and other sauropods of Cope",
    year = "1921",
    howpublished = "American Museum of Natural History Memoirs, v. 3, p. 249-387; n.s",
    note = "talkorigins\_source = {true}; raw\_reference = {Osborn, H. F., and Mook, C. C., 1921, Camarasaurus, Amphicoelias, and other sauropods of Cope: American Museum of Natural History Memoirs, v. 3, p. 249-387; n.s.}"
}

@article{gilmore1925a,
    author = "Gilmore, Charles W.",
    title = "A nearly complete articulated skeleton of Camarasaurus, a saurischian dinosaur from the Dinosaur National Monument, Utah",
    year = "1925",
    journal = "Memoirs of the Carnegie Museum",
    url = "https://doi.org/10.5962/p.217807",
    doi = "10.5962/p.217807",
    number = "3",
    pages = "347-384",
    volume = "10"
}

@article{poropat2016new,
    author = "Poropat, Stephen F. and Mannion, Philip D. and Upchurch, Paul and Hocknull, Scott A. and Kear, Benjamin P. and Kundrát, Martin and Tischler, Travis R. and Sloan, Trish and Sinapius, George H. K. and Elliott, Judy A. and Elliott, David A.",
    title = "New Australian sauropods shed light on Cretaceous dinosaur palaeobiogeography",
    year = "2016",
    journal = "Scientific Reports",
    abstract = "Australian dinosaurs have played a rare but controversial role in the debate surrounding the effect of Gondwanan break-up on Cretaceous dinosaur distribution. Major spatiotemporal gaps in the Gondwanan Cretaceous fossil record, coupled with taxon incompleteness, have hindered research on this effect, especially in Australia. Here we report on two new sauropod specimens from the early Late Cretaceous of Queensland, Australia, that have important implications for Cretaceous dinosaur palaeobiogeography. Savannasaurus elliottorum gen. et sp. nov. comprises one of the most complete Cretaceous sauropod skeletons ever found in Australia, whereas a new specimen of Diamantinasaurus matildae includes the first ever cranial remains of an Australian sauropod. The results of a new phylogenetic analysis, in which both Savannasaurus and Diamantinasaurus are recovered within Titanosauria, were used as the basis for a quantitative palaeobiogeographical analysis of macronarian sauropods. Titanosaurs achieved a worldwide distribution by at least 125 million years ago, suggesting that mid-Cretaceous Australian sauropods represent remnants of clades which were widespread during the Early Cretaceous. These lineages would have entered Australasia via dispersal from South America, presumably across Antarctica. High latitude sauropod dispersal might have been facilitated by Albian–Turonian warming that lifted a palaeoclimatic dispersal barrier between Antarctica and South America.",
    url = "https://doi.org/10.1038/srep34467",
    doi = "10.1038/srep34467",
    number = "1",
    volume = "6"
}

@misc{holwerda2020new,
    author = "Holwerda, Femke",
    title = "New dinosaur discovery in Switzerland fills a gap in evolutionary history of sauropods",
    year = "2020",
    url = "https://doi.org/10.64628/ab.vt3dj435r",
    doi = "10.64628/ab.vt3dj435r"
}

@misc{crossref2022decision,
    title = "Decision letter: Neurovascular anatomy of dwarf dinosaur implies precociality in sauropods",
    year = "2022",
    url = "https://doi.org/10.7554/elife.82190.sa1",
    doi = "10.7554/elife.82190.sa1"
}

@misc{ibrahim2022editors,
    author = "Ibrahim, Nizar",
    title = "Editor's evaluation: Neurovascular anatomy of dwarf dinosaur implies precociality in sauropods",
    year = "2022",
    url = "https://doi.org/10.7554/elife.82190.sa0",
    doi = "10.7554/elife.82190.sa0"
}

@article{schade2022neurovascular,
    author = "Schade, Marco and Knötschke, Nils and Hörnig, Marie K and Paetzel, Carina and Stumpf, Sebastian",
    title = "Neurovascular anatomy of dwarf dinosaur implies precociality in sauropods",
    year = "2022",
    journal = "eLife",
    abstract = "Macronaria, a group of mostly colossal sauropod dinosaurs, comprised the largest terrestrial vertebrates of Earth’s history. However, some of the smallest sauropods belong to this group as well. The Late Jurassic macronarian island dwarf Europasaurus holgeri is one of the most peculiar and best-studied sauropods worldwide. So far, the braincase material of this taxon from Germany pended greater attention. With the aid of micro-computed tomography (microCT), we report on the neuroanatomy of the nearly complete braincase of an adult individual, as well as the inner ears (endosseous labyrinths) of one other adult and several juveniles (the latter also containing novel vascular cavities). The presence of large and morphologically adult inner ears in juvenile material suggests precociality. Our findings add to the diversity of neurovascular anatomy in sauropod braincases and buttress the perception of sauropods as fast-growing and autonomous giants with manifold facets of reproductive and social behaviour. This suggests that – apart from sheer size – little separated Europasaurus from its large-bodied relatives.",
    url = "https://doi.org/10.7554/elife.82190",
    doi = "10.7554/elife.82190",
    volume = "11"
}