Dr. Erin Maxwell

• Cooper, S. L.A., & Maxwell, E.E. 2022. Revision of the pachycormid fish Saurostomus esocinus Agassiz from the Early Jurassic (Toarcian) of Europe, with new insight into the origins of suspension‐feeding in Pachycormidae. Papers in Palaeontology, 8(6):e1467.
• Cooper, S.L.A., Giles, S., Young, H., & Maxwell, E.E. 2022. A new large †pachycormiform (Teleosteomorpha:†Pachycormiformes) from the Lower Jurassic of Germany, with affinities to the suspension-feeding clade, and comments on the gastrointestinal anatomy of pachycormid fishes. Diversity, 14(12):1026.
• Höltke, O., Maxwell, E.E., Pollerspöck, J., & Rasser, M.W. 2022. The shark and ray fauna of the Upper Marine Molasse (Lower Miocene) of Rengetsweiler (Baden-Württemberg, SW Germany). Neues Jahrbuch für Geologie und Paläontologie-Abhandlungen, 303(1):89-122.
• Höltke, O., Maxwell, E.E., Pollerspöck, J., & Rasser, M.W. 2022. The shark and ray teeth of the Lower Miocene (Upper Marine Molasse) from Äpfingen, Baden-Württemberg, Southern Germany. Neues Jahrbuch für Geologie und Paläontologie-Abhandlungen, 305(3):323-342.
• Maxwell, E.E., Cooper, S.L.A., Mujal, E., Miedema, F., Serafini, G., & Schweigert, G. 2022. Evaluating the existence of vertebrate deadfall communities from the Early Jurassic Posidonienschiefer Formation. Geosciences, 12(4):158.
• Miedema, F., & Maxwell, E.E. 2022. Ontogenetic variation in the skull of Stenopterygius quadriscissus with an emphasis on prenatal development. Scientific Reports, 12(1):1-18.
• Mujal, E., Foth, C., Maxwell, E.E., Seegis, D., & Schoch, R.R. 2022. Feeding habits of the Middle Triassic pseudosuchian Batrachotomus kupferzellensis from Germany and palaeoecological implications for archosaurs. Palaeontology, 65(3):e12597.
• Serafini, G., Maxwell, E.E., Fornaciari, E., & Papazzoni, C.A. 2022. Revision of platypterygiine rostral material from the Northern Apennines (Italy): New insights on distal neurovascular anatomy and tooth replacement in Cretaceous ichthyosaurs. Cretaceous Research, 135:105167.

• Cortés, D., Maxwell, E. E., & Larsson, H. C. 2021. Re-appearance of hypercarnivore ichthyosaurs in the Cretaceous with differentiated dentition: revision of ‘Platypterygius’ sachicarum (Reptilia: Ichthyosauria, Ophthalmosauridae) from Colombia. Journal of Systematic Palaeontology, 19(14):969-1002.
• Fernández, M.S., Campos, L., Maxwell, E.E., & Garrido, A.C. 2021. Catutosaurus gaspariniae, gen. et sp. nov.(Ichthyosauria, Thunnosauria) of the Upper Jurassic of Patagonia and the evolution of the ophthalmosaurids. Journal of Vertebrate Paleontology, 41(1):e1922427.
• Martin, J.E., Suan, G., Suchéras-Marx, B., Rulleau, L., Schlögl, J., Janneau, K., Williams, M., Léna, A., Grosjean, A.-S., Sarroca, E., Perrier, V., Fernandez, V., Charruault, A.-L., Maxwell, E.E., & Vincent, P. 2021. Stenopterygiids from the lower Toarcian of Beaujolais and a chemostratigraphic context for ichthyosaur preservation during the Toarcian Oceanic Anoxic Event. Geological Society, London, Special Publications, 514(1):153-172.
• Maxwell, E.E., Romano, C., & Wu, F.-X. 2021. Regional disparity in the axial skeleton of Saurichthyidae and implications for axial regionalization in non‐teleostean actinopterygians. Journal of Zoology, 315(1):29-41.

• López-Arbarello, A., Maxwell, E.E., & Schweigert, G. 2020. New Halecomorph (Actinopterygii, Neopterygii) from the Nusplingen Lithographic Limestone (Upper Jurassic, Late Kimmeridgian), Germany. Journal of Vertebrate Paleontology 40(2):e1771348. 
• Maxwell, E.E., & Cortés, D. 2020. A revision of the Early Jurassic ichthyosaur Hauffiopteryx (Reptilia: Ichthyosauria), and description of a new species from southwestern Germany. Paleontologia Electronica 23(2):a31.
• Maxwell, E.E., Lambers, P. H., López-Arbarello, A., & Schweigert, G. 2020. Re-evaluation of pachycormid fishes from the Late Jurassic of Southwestern Germany. Acta Palaeontologica Polonica 65(3):429-453.
• Pardo-Pérez, J.M., Kear, B.P. & Maxwell, E.E. 2020. Skeletal pathologies track body plan evolution in ichthyosaurs. Scientific Reports 10:4206.
• Serafini, G., Amalfitano, J., Cobianchi, M., Fornaciari, B., Maxwell, E.E., Papazzoni, C.A., Roghi, G. & Giusberti, L. 2020. Evidence of opportunistic feeding between ichthyosaurs and the oldest occurrence of the hexanchid shark Notidanodon from the Upper Jurassic of northern Italy. Rivista Italiana di Paleontologia e Stratigrafia 126(3):629-655.

• Anderson, K.L., Druckenmiller, P.S., Erickson, G.M., and Maxwell, E.E. 2019. Skeletal microstructure of Stenopterygius quadriscissus (Reptilia, Ichthyosauria) from the Posidonienschiefer (Posidonia Shale, Lower Jurassic) of Germany. Palaeontology 62(3):433-449.
• Cortés, D., Larsson, H.C.E., Maxwell, E.E., Parra Ruge, M.L., Patarroyo, P., Wilson, J.A. 2019. An Early Cretaceous teleosaurid (Crocodylomorpha: Thalattosuchia) from Colombia. Ameghiniana 56 (5):365-379.
• Maxwell, E.E., Cortés, D., Patarroyo, P., and Parra Ruge, M.L. 2019. A new specimen of Platypterygius sachicarum (Reptilia, Ichthyosauria) from the Early Cretaceous of Colombia and its phylogenetic implications. Journal of Vertebrate Paleontology 39(1):e1577875.
• Miedema, F. and Maxwell, E.E. 2019. Ontogeny of the braincase in Stenopterygius (Reptilia, Ichthyosauria) from the Lower Jurassic of Germany. Journal of Vertebrate Paleontology 39: e1675164.
• Pardo-Pérez, J.M., Kear, B., and Maxwell, E.E. 2019. Palaeoepidemiology in extinct vertebrate populations: factors influencing skeletal health in Jurassic marine reptiles. Royal Society Open Science 6:190264.

• Maxwell, E.E. and López-Arbarello, A. 2018. A new species of the deep-bodied actinopterygian Dapedium from the Middle Jurassic (Aalenian) of southwestern Germany. PeerJ 6:e5033.
• Maxwell, E.E. 2018. Redescription of the ‘lost’ holotype of Suevoleviathan integer (Bronn, 1844) (Reptilia: Ichthyosauria). Journal of Vertebrate Paleontology 38:e1439833. 
• Maxwell, E.E., Argyriou, T., Stockar, R., and Furrer, H. 2018. Re-evaluation of the ontogeny and reproductive biology of the Triassic fish Saurichthys (Actinopterygii: Saurichthyidae). Palaeontology 61: 559-574.
• Pardo-Pérez, J. M., Kear, B.P., Gómez, M., Moroni, M., and Maxwell, E.E. 2018. Ichthyosaurian palaeopathology: evidence of injury and disease in fossil 'fish lizards'. Journal of Zoology 304: 21-33.
• Pardo-Pérez, J. M., Kear, B.P., Mallison, H., Gómez, M., Moroni, M., and Maxwell, E.E. 2018. Pathological survey on Temnodontosaurus from the Early Jurassic of southern Germany. PLoS ONE 13: e0204951.

• Fornaciari, B., Maxwell, E., Fornaciari, E., Papazzoni, C.A., and Zorzin, R. 2017. A new platypterygiine ichthyosaur rostrum from the Lower Cretaceous of the Lessini Mountains (Northern Italy). Cretaceous Research 71: 137–144.
• Maxwell, E.E. and Martindale, R.C. 2017. New Saurorhynchus (Actinopterygii: Saurichthyidae) material from the Early Jurassic of Alberta, Canada. Canadian Journal of Earth Sciences 54: 714-719.
• Maxwell, E.E., and Stumpf, S. 2017. Revision of Saurorhynchus (Actinopterygii, Saurichthyidae) from the Early Jurassic of England and Germany. European Journal of Taxonomy 321: 1-29.
• Paparella, I., Maxwell, E.E., Cipriani, A., Roncacè, S., and Caldwell, M.W. 2017. The first ophthalmosaurid ichthyosaur from the Upper Jurassic of the Umbrian-Marchean Appenines (Marche, Central Italy). Geological Magazine 154: 837-858.
• Vincent, P., Allemand, R., Taylor, P.D., Suan, G., and Maxwell, E.E. 2017. New insights on the systematics, palaeoecology and palaeobiology of a plesiosaurian with soft tissue preservation from the Toarcian of Holzmaden, Germany. The Science of Nature 104: 51.

• Museum Spezial: Patient Fischsaurier – Restaurierung gefährdeter Fossilien

Am SMNS befindet sich eine der weltweit größten Sammlungen mit Fossilien aus dem Posidonienschiefer von Holzmaden. Die speziellen Ablagerungsbedingungen in der weltbekannten Fossillagerstätte Holzmaden haben zur Folge, dass im umgebenden Gestein und in den Fossilien Eisensulfid enthalten ist, das sich, sobald ein Fossil aus dem Steinbruch geborgen ist, unter atmosphärischen Bedingungen verändert und im Extremfall sogar zu einer Zerstörung des ganzen Fossils führen kann. Die Ausstellung beschäftigt sich deshalb nicht nur mit der Restaurierung, sondern auch mit der Thematik, wie das Eisensulfid in das Sediment bzw. das Fossil gelangt, welche Eigenschaften die Mineralien Pyrit (im Volksmund auch Katzengold genannt) und Markasit mit der chemischen Formel FeS₂ haben und in welchen Erscheinungsformen sie auftreten

• Kuratorin für fossile aquatische Wirbeltiere, Staatliches Museum für Naturkunde, Stuttgart

• Postdoktorandin, Paläontologisches Institut und Museum, Universität Zürich, Arbeitsgruppe Evolutionary Morphology (Marcelo Sánchez)

• Humboldt Forschungstipendiatin, Staatliches Museum für Naturkunde, Stuttgart (Arbeitsgruppe: Rainer Schoch) und Museum für Naturkunde, Berlin (Arbeitsgruppe: Johannes Müller)

• Killam Forschungstipendiatin, Dept. of Biology, University of Alberta (Arbeitsgruppe: Michael Caldwell)

• Doktorandin, McGill University (Montreal, Kanada); Doktorarbeit: Evolution of Avian Ossification Sequences

• Studium Evolutionary Biology, University of Alberta (Edmonton, Kanada)