Matthew Bonnan

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Matthew Bonnan in 2022 Matthew Bonnan.jpg
Matthew Bonnan in 2022

Matthew Bonnan [1] is an American paleobiologist, a Professor of Biological Sciences at Stockton University, and as of 2021 a singer/songwriter. His research combines traditional descriptive and anatomical study with computer-aided morphometric analysis and modeling of vertebrate skeletons, and he is the co-discoverer of three new species of dinosaurs. He is the author of the book The Bare Bones: An Unconventional Evolutionary History of the Skeleton, [2] designed to introduce undergraduates and curious lay readers to the anatomy and evolution of the vertebrate skeleton. Bonnan has a music/art outreach project, Once Upon Deep Time, [3] a pop/rock song cycle about the evolution of hearing and our connection to the tree of life.

Contents

Research and teaching

Bonnan's research focuses on three broad but interconnected areas of research: 1) the evolution of dinosaur locomotion, particularly in the giant, long-necked sauropod dinosaurs; 2) the evolution of an erect posture from a sprawled posture in dinosaurs and mammals; and 3) the evolution of pronation and supination in the forelimb of tetrapods. To these ends, he has utilized traditional anatomical approaches as well as state-of-the-art computer modeling to understand and infer how the limbs of both extinct and extant tetrapods have evolved and adapted. Currently, he has begun to utilize XROMM (X-ray Reconstruction of Moving Morphology) [4] to produce three-dimensional animations of small animal bones in vivo. [5] His current research focuses on the three-dimensional kinematics of lizard and mammal forelimbs, as means to "reverse engineer" how early dinosaur and mammal relatives may have moved and stood.

Bonnan teaches a variety of anatomy-based and evolutionary biology courses at Stockton University covering diverse topics such as vertebrate embryology, comparative vertebrate anatomy, vertebrate evolution, systematics, dinosaurs, and general zoology.

Education

Dinosaurs

Bonnan's overarching research focus is the evolution of dinosaur locomotion and its links to dinosaur gigantism. To this end:

XROMM (X-ray Reconstruction of Moving Morphology)

Recently, Bonnan's research focuses on the three-dimensional kinematics of lizard and mammal forelimbs, as means to "reverse engineer" how early dinosaur and mammal relatives may have moved and stood, using the XROMM technique pioneered at Brown University. [19]

Bonnan in the News

He is a co-discoverer of the almost-sauropod Aardonyx celestae [24] which has garnered international media attention [25] and should serve to illuminate the early beginnings of sauropod gigantism.

He is a co-discoverer of an early "prosauropod" Arcusaurus pereirabdalorum [26]

He is a co-discoverer of an early true sauropod Pulanesaura eocollum [27]

In the spring of 2008, Bonnan was involved with a new Morrison Formation dinosaur quarry in Hanksville, Utah. His expertise in the concentration of Sauropod dinosaurs metapodials (and/or caudal vertebrae) a were sought after by and aided the excavation efforts of the Burpee Museum of Natural History. [28] After leaving Illinois to join Stockton University in New Jersey, it became logistically difficult for Bonnan to work the Burpee and he is no longer involved with the Hankville quarry.

The Bare Bones: An Unconventional Evolutionary History of the Skeleton

In 2016, Bonnan published a book, The Bare Bones: An Unconventional Evolutionary History of the Skeleton, [29] designed to introduce undergraduates and curious lay readers to the anatomy and evolution of the vertebrate skeleton. Bonnan's book approaches the topic of vertebrate evolution from the perspective of the skeleton as a living machine, using analogies with technology and tools to help readers understand how vertebrate animals "work." Since its publication, the book has received several positive reviews [30] [31] [32]

Once Upon Deep Time

In 2021, Bonnan conceived of, composed, performed, recorded, and produced demos of the 12 songs that would become his music/art outreach project, Once Upon Deep Time. Once Upon Deep Time is a pop/rock song cycle about the evolution of hearing and our connection to the tree of life. According to Bonnan on the Once Upon Deep Time website, [33] "I created these songs to inspire wonder about our shared natural history and to convey the passion that drives me as a scientist. These 12 original songs tell a story, based on what we know from fossils and the living world around us, about how we came to perceive sound and how sound connects us to a living past."

Related Research Articles

<span class="mw-page-title-main">Sauropoda</span> Extinct clade of saurischian dinosaurs

Sauropoda, whose members are known as sauropods, is a clade of saurischian ('lizard-hipped') dinosaurs. Sauropods had very long necks, long tails, small heads, and four thick, pillar-like legs. They are notable for the enormous sizes attained by some species, and the group includes the largest animals to have ever lived on land. Well-known genera include Brachiosaurus, Diplodocus, Apatosaurus and Brontosaurus.

<span class="mw-page-title-main">Forelimb</span>

A forelimb or front limb is one of the paired articulated appendages (limbs) attached on the cranial (anterior) end of a terrestrial tetrapod vertebrate's torso. With reference to quadrupeds, the term foreleg or front leg is often used instead. In bipedal animals with an upright posture, the term upper limb is often used.

<i>Massospondylus</i> Sauropodomorph dinosaur genus from Early Jurassic South Africa and Botswana

Massospondylus is a genus of sauropodomorph dinosaur from the Early Jurassic.. It was described by Sir Richard Owen in 1854 from remains discovered in South Africa, and is thus one of the first dinosaurs to have been named. Fossils have since been found at other locations in South Africa, Lesotho, and Zimbabwe. Material from Arizona's Kayenta Formation, India, and Argentina has been assigned to the genus at various times, but the Arizonan and Argentinian material are now assigned to other genera.

<i>Isanosaurus</i> Genus of dinosaurs

Isanosaurus means "North-eastern thailand lizard" was a sauropod dinosaur from Thailand. It was originally dated to approximately 210 million years ago during the Late Triassic, which would make it one of the oldest known sauropods. Its age was later considered uncertain, and may be as young as Late Jurassic. The only species is Isanosaurus attavipachi. Though important for the understanding of sauropod origin and early evolution, Isanosaurus is poorly known. Exact relationships to other early sauropods remain unresolved.

<span class="mw-page-title-main">Dinosaur size</span> Dinosaur mass and length estimates

Size is an important aspect of dinosaur paleontology, of interest to both the general public and professional scientists. Dinosaurs show some of the most extreme variations in size of any land animal group, ranging from tiny hummingbirds, which can weigh as little as two grams, to the extinct titanosaurs, which could weigh as much as 50–100 t.

<i>Antetonitrus</i> Sauropod dinosaur genus from Early Jurassic South Africa

Antetonitrus is a genus of sauropod dinosaur found in the Early Jurassic Elliot Formation of South Africa. The only species is Antetonitrus ingenipes. As one of the oldest known sauropods, it is crucial for the understanding of the origin and early evolution of this group. It was a quadrupedal herbivore, like all of its later relatives, but shows primitive adaptations to use the forelimbs for grasping, instead of purely for weight support.

<i>Azendohsaurus</i> Genus of herbivorous Triassic reptile

Azendohsaurus is an extinct genus of herbivorous archosauromorph reptile from roughly the late Middle to early Late Triassic Period of Morocco and Madagascar. The type species, Azendohsaurus laaroussii, was described and named by Jean-Michel Dutuit in 1972 based on partial jaw fragments and some teeth from Morocco. A second species from Madagascar, A. madagaskarensis, was first described in 2010 by John J. Flynn and colleagues from a multitude of specimens representing almost the entire skeleton. The generic name "Azendoh lizard" is for the village of Azendoh, a local village near where it was first discovered in the Atlas Mountains. It was a bulky quadruped that unlike other early archosauromorphs had a relatively short tail and robust limbs that were held in an odd mix of sprawled hind limbs and raised forelimbs. It had a long neck and a proportionately small head with remarkably sauropod-like jaws and teeth.

Blikanasaurus is a genus of sauropodomorph dinosaur from the late Triassic of South Africa. The generic name Blikanasaurus is derived from Greek, meaning "lizard from Blikana". The species name cromptoni is taken from the surname of A.W. “Fuzz” Crompton, an American paleontologist who led numerous field expeditions in Elliot Formation outcrop localities in South Africa. Blikanasaurus is only known from partial hindlimb bones that were recovered from the lower Elliot Formation (LEF) in the Eastern Cape.

<i>Coloradisaurus</i> Extinct genus of dinosaurs

Coloradisaurus is a genus of massospondylid sauropodomorph dinosaur. It lived during the Late Triassic period in what is now La Rioja Province, Argentina. It is known from two specimens collected from the Los Colorados Formation of the Ischigualasto-Villa Unión Basin.

Gryponyx is an extinct genus of massopod sauropodomorph known from southern Free State, central South Africa.

<span class="mw-page-title-main">Eusauropoda</span> Extinct clade of dinosaurs

Eusauropoda is a derived clade of sauropod dinosaurs. Eusauropods represent the node-based group that includes all descendant sauropods starting with the basal eusauropods of Shunosaurus, and possibly Barapasaurus, and Amygdalodon, but excluding Vulcanodon and Rhoetosaurus. The Eusauropoda was coined in 1995 by Paul Upchurch to create a monophyletic new taxonomic group that would include all sauropods, except for the vulcanodontids.

<i>Aardonyx</i> Extinct genus of dinosaur of the Jurassic from South Africa

Aardonyx is a genus of basal sauropodomorph dinosaur. It is known from the type species Aardonyx celestae found from the Early Jurassic Elliot Formation of South Africa. A. celestae was named after Celeste Yates, who prepared much of the first known fossil material of the species. It has arm features that are intermediate between prosauropods and sauropods.

<i>Sarahsaurus</i> Extinct genus of dinosaurs

Sarahsaurus is a genus of basal sauropodomorph dinosaur which lived during the Early Jurassic period in what is now northeastern Arizona, United States.

<i>Arcusaurus</i> Extinct genus of dinosaur from early Jurassic South Africa

Arcusaurus is an extinct genus of sauropodomorph dinosaur from the Early Jurassic of South Africa.

<i>Juramaia</i> Extinct genus of late Jurassic basal eutherian mammal

Juramaia is an extinct genus of very basal eutherian mammal known from the Late Jurassic deposits of western Liaoning, China. It is a small shrew-like mammal with a body length of approximately 70–100 mm, making it similar in size to the modern De Winton's shrew. Juramaia is known from the holotype BMNH PM1343, an articulated and nearly complete skeleton including incomplete skull preserved with full dentition.

<i>Pulanesaura</i> Extinct genus of dinosaurs from the early Jurassic of South Africa

Pulanesaura is an extinct genus of basal sauropod known from the Early Jurassic Upper Elliot Formation of the Free State, South Africa. It contains a single species, Pulanesaura eocollum, known from partial remains of at least two subadult to adult individuals.

<i>Xingxiulong</i> Extinct genus of reptiles

Xingxiulong is a genus of bipedal sauropodiform from the Early Jurassic of China. It contains a single species, X. chengi, described by Wang et al. in 2017 from three specimens, two adults and an immature individual, that collectively constitute a mostly complete skeleton. Adults of the genus measured 4–5 metres (13–16 ft) long and 1–1.5 metres tall. Phylogenetic analysis suggests that Xingxiulong is most closely related to its contemporary Jingshanosaurus, although an alternative position outside of both the Sauropodiformes and Massospondylidae is also plausible.

The year 2017 in archosaur paleontology was eventful. Archosaurs include the only living dinosaur group — birds — and the reptile crocodilians, plus all extinct dinosaurs, extinct crocodilian relatives, and pterosaurs. Archosaur palaeontology is the scientific study of those animals, especially as they existed before the Holocene Epoch began about 11,700 years ago. The year 2017 in paleontology included various significant developments regarding archosaurs.

<i>Lisowicia</i> Genus of giant dicynodont therapsid

Lisowicia is an extinct genus of giant dicynodont synapsid that lived in what is now Poland during the late Norian or earliest Rhaetian age of the Late Triassic Period, about 210–205 million years ago. Lisowicia is the largest known dicynodont, as well as the largest non-mammalian synapsid, and is estimated to have weighed between 5–6 tons, comparable in size to modern elephants. It was also one of the last dicynodonts, living shortly before their extinction at the end of the Triassic period. Fossils of a giant dicynodont were known from Poland since 2008, but Lisowicia was not named and officially described as a new species until late 2018.

This article records new taxa of every kind of fossil archosaur that are scheduled to be described during 2023, as well as other significant discoveries and events related to the paleontology of archosaurs that will be published in 2023.

References

  1. Matthew F. Bonnan, http://matthewbonnan.com/
  2. Bonnan, Matthew F. (2016). The Bare Bones: An Unconventional Evolutionary History of the Skeleton. ISBN   978-0253018328.
  3. "Once Upon Deep Time". www.matthewbonnan.com.
  4. "Home". xromm.org.
  5. Bonnan, M.F., J. Shulman, R. Varadharajan, C. Gilbert, M. Wilkes, A. Horner, and E. Brainerd. 2016. Forelimb kinematics of rats using XROMM, with implications or small eutherians and their fossil relatives. PLoS ONE 11(3): e0149377. doi:10.1371/journal.pone.0149377
  6. Bonnan, M.F. 2003. The evolution of manus shape in sauropod dinosaurs: implications for functional morphology, forelimb orientation, and sauropod phylogeny. Journal of Vertebrate Paleontology, 23(3): 595-613.
  7. Bonnan, M.F. 2005. Pes anatomy in sauropod dinosaurs: implications for functional morphology, evolution, and phylogeny; pp. 346-380 in K. Carpenter and V. Tidwell (eds.), Thunder-Lizards: The Sauropodomorph Dinosaurs. Bloomington, IN: Indiana University Press.
  8. Bonnan, M.F. and A.M. Yates. 2007. A new description of the forelimb of the basal sauropodomorph Melanorosaurus: implications for the evolution of pronation, manus shape and quadrupedalism in sauropod dinosaurs; pp. 157-168 in Barrett, P. M. and D.J. Batten (eds.), Evolution and palaeobiology of early sauropodomorph dinosaurs. Special Papers in Palaeontology, 77.
  9. Bonnan, M.F. and P. Senter. 2007. Were the basal sauropodomorph dinosaurs Plateosaurus and Massospondylus habitual quadrupeds?; pp. 139-155 in Barrett, P. M. and D.J. Batten (eds.), Evolution and palaeobiology of early sauropodomorph dinosaurs. Special Papers in Palaeontology, 77.
  10. VanBuren, C.S. and Bonnan, M.F. 2013. Forearm posture and mobility in quadrupedal dinosaurs. PLoS ONE 8(9): e74842. doi:10.1371/journal.pone.0074842
  11. Bonnan, M.F. 2004. Morphometric analysis of humerus and femur shape in Morrison sauropods: implications for functional morphology and paleobiology. Paleobiology, 30(3): 444-470.
  12. Bonnan, M.F. 2007. Linear and geometric morphometric analysis of long bone scaling patterns in Jurassic Neosauropod dinosaurs: their functional and paleobiological implications. The Anatomical Record, 290(9): 1089-1111.
  13. Bonnan, M.F., J.O. Farlow, and S.L. Masters. 2008. Using linear and geometric morphometrics to detect intraspecific variability and sexual dimorphism in femoral shape in Alligator mississippiensis and its implications for sexing fossil archosaurs. Journal of Vertebrate Paleontology, 28(2): 422-431.
  14. Livingston, V.J., Bonnan, M.F., Elsey, R.M., Sandrik, J.L., and Wilhite, D.R. 2009. Differential limb scaling in the American Alligator (Alligator mississippiensis) and its implications for archosaur locomotor evolution. The Anatomical Record, 292: 787-797.
  15. Yates, A.M., Bonnan, M.F., Neveling, J., Chinsamy, A., and Blackbeard, M. 2009. A new transitional sauropodomorph from the Early Jurassic of South Africa and the evolution of sauropod feeding and quadrupedalism. Proceedings of the Royal Society, London, B: doi : 10.1098/rspb.2009.1440
  16. Bonnan, M.F., Sandrik, J.L., Nishiwaki, T., Wilhite, D.R., Elsey, R.M., and Vittore, C. 2010. Calcified cartilage shape in archosaur long bones reflects overlying joint shape in stress-bearing elements: Implications for nonavian dinosaur locomotion. The Anatomical Record, 293: 2044-2055.
  17. Bonnan, M.F., Wilhite, D.R., Masters, S.L., Yates, A.M., Gardner, C.K., and Aguiar, A. 2013. What Lies Beneath: Sub-Articular Long Bone Shape Scaling in Eutherian Mammals and Saurischian Dinosaurs Suggests Different Locomotor Adaptations for Gigantism. PLoS ONE 8(10): e75216. doi:10.1371/journal.pone.0075216
  18. Voegele, K.K., M.F. Bonnan, S. Siegler, C.R. Langel, and K.J. Lacovara. 2022. Constraining Morphologies of Soft Tissues in Extinct Vertebrates Using Multibody Dynamic Simulations: A Case Study on Articular Cartilage of the Sauropod Dreadnoughtus. Frontiers in Earth Science, 13 June 2022. https://doi.org/10.3389/feart.2022.786247
  19. xromm.org
  20. Bonnan, M.F., J. Shulman, R. Varadharajan, C. Gilbert, M. Wilkes, A. Horner, and E. Brainerd. 2016. Forelimb kinematics of rats using XROMM, with implications or small eutherians and their fossil relatives. PLoS ONE 11(3): e0149377. doi:10.1371/journal.pone.0149377
  21. "Using X-rays to learn what walking rats can teach us about early placental mammal locomotion". 2 March 2016.
  22. Juramaia
  23. Archived at Ghostarchive and the Wayback Machine : How rat forelimb bones move. YouTube .
  24. Yates, A.M., Bonnan, M.F., Neveling, J., Chinsamy, A., and Blackbeard, M. 2009. A new transitional sauropodomorph from the Early Jurassic of South Africa and the evolution of sauropod feeding and quadrupedalism. Proceedings of the Royal Society, London, B: doi : 10.1098/rspb.2009.1440
  25. "Earth Claw: Western Illinois University". Archived from the original on 2009-11-14. Retrieved 2009-11-14.
  26. Yates, A.M., Bonnan, M.F., and Neveling, J. 2011. A new basal sauropodomorph dinosaur from the Early Jurassic of South Africa. Journal of Vertebrate Paleontology, 33 (3): 610-625.
  27. McPhee, B.W., Bonnan, M.F., Yates, A.M., Neveling, J., and Choiniere, J.N. 2015. A new basal sauropod from the pre-Toarcian Jurassic of South Africa: evidence of niche-partitioning at the sauropodomorph-sauropod boundary? Scientific Reports 5: doi:10.1038/srep13224
  28. Fink, Jessica (2008-08-22). "WIU students dig for dinosaurs". Chicago Tribune.
  29. Bonnan, Matthew F. (2016). The Bare Bones: An Unconventional Evolutionary History of the Skeleton. ISBN   978-0253018328.
  30. "Nonfiction Book Review: The Bare Bones: An Unconventional Evolutionary History of the Skeleton by Matthew F. Bonnan. Indiana Univ, $75 (512p) ISBN 978-0-253-01832-8". February 2016.
  31. "Review: Bare Bones".
  32. "Lovely bones: Fascinating skeletons of the past and present".
  33. "Once Upon Deep Time". www.matthewbonnan.com.
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