# Publications Search Within Results Search Within Results search ## 179 results Show filters filter\_alt Sort by Year of PublicationAlphabetical A-Z sort ## 179 results Download 179 citations download- [BibTeX](/node/1423836/export?format=bibtex) - [EndNote X3 XML](/node/1423836/export?format=endnote8) - [EndNote 7 XML](/node/1423836/export?format=endnote7) - [Endnote tagged](/node/1423836/export?format=tagged) - [Marc](/node/1423836/export?format=marc) - [PubMedId](/node/1423836/export?format=pubmed_id) - [RIS](/node/1423836/export?format=ris) ### Submitted Alfred W. Crompton, Catherine Musinsky, José F. Bonaparte, Bhart-Anjan Bhullar, and Tomasz Owerkowicz. “[Evolution of the Mammalian Fauces Region and the Origin of Suckling](/publication/evolution-mammalian-fauces-region-and-origin-suckling)”. Journal of Mammalian Evolution Alfred W. Crompton, Catherine Musinsky, José F. Bonaparte, Bhart-Anjan Bhullar, and Tomasz Owerkowicz. “[Evolution of the Mammalian Fauces Region and the Origin of Suckling](/publication/evolution-mammalian-fauces-region-and-origin-suckling)”. Journal of Mammalian Evolution - add\_circle\_outline do\_not\_disturb\_on Abstract Suckling in therian mammals requires synchronous activity in the tensor veli palatini, palatoglossus, mylohyoideus and intrinsic tongue muscles that close the fauces. These muscles draw the dorsal surface of the tongue against a tensed soft palate to form... ### 2020 B. A. S. Bhullar, A. R. Manafzadeh, J. A. Miyamae, E. A. Hoffman, E. L. Brainerd, C. Musinsky, and A. W. Crompton. 2020. “[Reply To: Jaw Roll and Jaw Yaw in Early Mammals](/publications/reply-jaw-roll-and-jaw-yaw-early-mammals)”. Nature, 582, Pp. E9-E12 B. A. S. Bhullar, A. R. Manafzadeh, J. A. Miyamae, E. A. Hoffman, E. L. Brainerd, C. Musinsky, and A. W. Crompton. 2020. “[Reply To: Jaw Roll and Jaw Yaw in Early Mammals](/publications/reply-jaw-roll-and-jaw-yaw-early-mammals)”. Nature, 582, Pp. E9-E12 B. A. S. Bhullar, A. R. Manafzadeh, J. A. Miyamae, E. A. Hoffman, E. L. Brainerd, C. Musinsky, and A. W. Crompton. 2020. “[The Origin of Chewing in Mammals Required Rolling of the Jaw and Involved Broad Continuity in Molar Form and Function](/publications/origin-chewing-mammals-required-rolling-jaw-and-involved-broad-continuity)”. Integrative and Comparative Biology, 60, Pp. E17-E17 B. A. S. Bhullar, A. R. Manafzadeh, J. A. Miyamae, E. A. Hoffman, E. L. Brainerd, C. Musinsky, and A. W. Crompton. 2020. “[The Origin of Chewing in Mammals Required Rolling of the Jaw and Involved Broad Continuity in Molar Form and Function](/publications/origin-chewing-mammals-required-rolling-jaw-and-involved-broad-continuity)”. Integrative and Comparative Biology, 60, Pp. E17-E17 ### 2019 A. W. Crompton, C. A. Musinsky, B. A. Bhullar, and T. Owerkowicz. 2019. “[Origin of Suckling in Therian Mammals](/publications/origin-suckling-therian-mammals)”. Journal of Morphology, 280, Pp. S102-S102 A. W. Crompton, C. A. Musinsky, B. A. Bhullar, and T. Owerkowicz. 2019. “[Origin of Suckling in Therian Mammals](/publications/origin-suckling-therian-mammals)”. Journal of Morphology, 280, Pp. S102-S102 T. Owerkowicz, M. Poff, K. M. Middleton, and A. W. Crompton. 2019. “[Metabolic and Environmental Factors Shaping the Morphology of Respiratory Turbinates in Mammals and Archosaurs](/publications/metabolic-and-environmental-factors-shaping-morphology-respiratory-turbinates)”. Journal of Morphology, 280, Pp. S195-S195 T. Owerkowicz, M. Poff, K. M. Middleton, and A. W. Crompton. 2019. “[Metabolic and Environmental Factors Shaping the Morphology of Respiratory Turbinates in Mammals and Archosaurs](/publications/metabolic-and-environmental-factors-shaping-morphology-respiratory-turbinates)”. Journal of Morphology, 280, Pp. S195-S195 B. A. S. Bhullar, A. R. Manafzadeh, J. A. Miyamae, E. A. Hoffman, E. L. Brainerd, C. Musinsky, and A. W. Crompton. 2019. “[Rolling of the Jaw Is Essential for Mammalian Chewing and Tribosphenic Molar Function](/publications/rolling-jaw-essential-mammalian-chewing-and-tribosphenic-molar-function)”. Nature, 566, Pp. 528-+ B. A. S. Bhullar, A. R. Manafzadeh, J. A. Miyamae, E. A. Hoffman, E. L. Brainerd, C. Musinsky, and A. W. Crompton. 2019. “[Rolling of the Jaw Is Essential for Mammalian Chewing and Tribosphenic Molar Function](/publications/rolling-jaw-essential-mammalian-chewing-and-tribosphenic-molar-function)”. Nature, 566, Pp. 528-+ - add\_circle\_outline do\_not\_disturb\_on Abstract Over the past two centuries, mammalian chewing and related anatomical features have been among the most discussed of all vertebrate evolutionary innovations(1-3). Chief among these features are two characters: the dentary-only mandible, and the... ### 2017 A. W. Crompton, Musinsky, G.W. Rougier, B.-A.S. Bhullar, and J. A. Miyamae. 2017. “[Origin of the Lateral Wall of the Mammalian Skull: Fossils, Monotremes and Therians Revisited](http://rdcu.be/tgU6)”. Journal of Mammalian Evolution, published online, 24 April 2017, Pp. 1–13 A. W. Crompton, Musinsky, G.W. Rougier, B.-A.S. Bhullar, and J. A. Miyamae. 2017. “[Origin of the Lateral Wall of the Mammalian Skull: Fossils, Monotremes and Therians Revisited](http://rdcu.be/tgU6)”. Journal of Mammalian Evolution, published online, 24 April 2017, Pp. 1–13 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ picture\_as\_pdfOriginOfTheLateralWall.pd...](/sites/g/files/omnuum6326/files/crompton/files/cromptonlateralwall2017.pdf) To interpret the fundamental differences in the structure and origin of the braincase sidewalls of monotremes, multituberculates, and therians, we examined MicroCT scans of a mammaliaform, *Morganucodon*; two non-mammalian cynodonts, *Massetognathus* and *Prob*... - [ picture\_as\_pdfOriginOfTheLateralWall.pd...](/sites/g/files/omnuum6326/files/crompton/files/cromptonlateralwall2017.pdf) José F. Bonaparte and Alfred W. Crompton. 2017. “[Origin and Relationships of the Ictidosauria to Non-Mammalian Cynodonts and Mammals](/publications/origin-and-relationships-ictidosauria-non-mammalian-cynodonts-and-mammals)”. Historical Biology José F. Bonaparte and Alfred W. Crompton. 2017. “[Origin and Relationships of the Ictidosauria to Non-Mammalian Cynodonts and Mammals](/publications/origin-and-relationships-ictidosauria-non-mammalian-cynodonts-and-mammals)”. Historical Biology - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](http://www.tandfonline.com/doi/full/10.1080/08912963.2017.1329911) - [ picture\_as\_pdfbonapartecromptonictids.p...](/sites/g/files/omnuum6326/files/crompton/files/bonapartecromptonictids.pdf) Ictidosaurian genera are allocated to two families, Tritheledontidae and Therioherpetidae. This paper provides a diagnosis for Ictidosauria. The previously named family Brasilodontidae is shown to be a junior synonym of a family, Therioherpetidae. It is... - [ descriptionPublisher's Version](http://www.tandfonline.com/doi/full/10.1080/08912963.2017.1329911) - [ picture\_as\_pdfbonapartecromptonictids.p...](/sites/g/files/omnuum6326/files/crompton/files/bonapartecromptonictids.pdf) A. W. Crompton, Tomasz Owerkowicz, Bhart-Anjan Bhullar, and Catherine Musinsky. 2017. “[Structure of the Nasal Region of Non-Mammalian Cynodonts and Mammaliaforms: Speculations on the Evolution of Mammalian Endothermy](/publications/structure-nasal-region-non-mammalian-cynodonts-and-mammaliaforms-speculations)”. Journal of Vertebrate Paleontology, 37, 1 A. W. Crompton, Tomasz Owerkowicz, Bhart-Anjan Bhullar, and Catherine Musinsky. 2017. “[Structure of the Nasal Region of Non-Mammalian Cynodonts and Mammaliaforms: Speculations on the Evolution of Mammalian Endothermy](/publications/structure-nasal-region-non-mammalian-cynodonts-and-mammaliaforms-speculations)”. Journal of Vertebrate Paleontology, 37, 1 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ picture\_as\_pdfCrompton\_jvp\_nose\_evoluti...](/sites/g/files/omnuum6326/files/crompton/files/structure_of_the_nasal_region_of_non_mammalian_cynodonts_and_mammaliaforms_speculations_on_the_evolution_of_mammalian_endothermy.pdf) Nasal regions of the non-mammalian cynodont*, Massetognathus, Probainognathus,* and *Elliotherium* were reconstructed from micro-CT scans and compared with scans and published accounts of more derived forms, including *Brasilitherium, Morganucodon, Haldanodon*... - [ picture\_as\_pdfCrompton\_jvp\_nose\_evoluti...](/sites/g/files/omnuum6326/files/crompton/files/structure_of_the_nasal_region_of_non_mammalian_cynodonts_and_mammaliaforms_speculations_on_the_evolution_of_mammalian_endothermy.pdf) ### 2016 2016. “[Evolution of the Mammalian Braincase Sidewall](/presentations/evolution-mammalian-braincase-sidewall)” 2016. “[Evolution of the Mammalian Braincase Sidewall](/presentations/evolution-mammalian-braincase-sidewall)” ### 2015 Tomasz Owerkowicz, Catherine Musinsky, Kevin M. Middleton, and A. W. Crompton. 2015. “[Respiratory Turbinates and the Evolution of Endothermy in Extant Mammals and Birds](/publications/respiratory-turbinates-and-evolution-endothermy-extant-mammals-and-birds)”. In Great Transformations in Vertebrate Evolution, edited by Kenneth Dial, Elizabeth Brainerd, and Neil Shubin, Pp. 143–165. University of Chicago Press Tomasz Owerkowicz, Catherine Musinsky, Kevin M. Middleton, and A. W. Crompton. 2015. “[Respiratory Turbinates and the Evolution of Endothermy in Extant Mammals and Birds](/publications/respiratory-turbinates-and-evolution-endothermy-extant-mammals-and-birds)”. In Great Transformations in Vertebrate Evolution, edited by Kenneth Dial, Elizabeth Brainerd, and Neil Shubin, Pp. 143–165. University of Chicago Press A. W. Crompton, Catherine Musinsky, and Tomasz Owerkowicz. 2015. “[The Evolution of the Mammalian Nose](/publications/evolution-mammalian-nose)”. In Great Transformations in Vertebrate Evolution, edited by Kenneth Dial, N. H. Shubin, and E. L. Brainerd. Chicago: University of Chicago Press A. W. Crompton, Catherine Musinsky, and Tomasz Owerkowicz. 2015. “[The Evolution of the Mammalian Nose](/publications/evolution-mammalian-nose)”. In Great Transformations in Vertebrate Evolution, edited by Kenneth Dial, N. H. Shubin, and E. L. Brainerd. Chicago: University of Chicago Press - [ picture\_as\_pdfevolutionofmammalnose.pdf](/sites/g/files/omnuum6326/files/crompton/files/evolutionofmammalnose.pdf) - [ picture\_as\_pdfevolutionofmammalnose.pdf](/sites/g/files/omnuum6326/files/crompton/files/evolutionofmammalnose.pdf) - Previous page chevron\_left - [1](?page=0 "Current page") - [2](?page=1 "Go to page 2") - [3](?page=2 "Go to page 3") - [ Last page 15 ](?page=14 "Go to last page") - [ Next page chevron\_right ](?page=1 "Go to next page")