Austin M Garner

Affiliations: 
2022- Department of Biology & BioInspired Institute Syracuse University, Syracuse, NY, United States 
Area:
Animal attachment, functional morphology, biomimetics, bio-inspired materials
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"Austin Garner"

Parents

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Ali Dhinojwala grad student University of Akron (Chemistry Tree)
Peter Niewiarowski grad student 2016- University of Akron
Alyssa Y. Stark post-doc 2021-2022 Villanova

Children

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Andrew Moura grad student 2022- Syracuse
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Publications

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Garner AM, Moura AJ, Narvaez CA, et al. (2024) Repeated Hyposalinity Pulses Immediately And Persistently Impair The Sea Urchin Adhesive System. Integrative and Comparative Biology
Moura AJ, Garner AM, Narvaez CA, et al. (2023) Hyposalinity reduces coordination and adhesion of sea urchin tube feet. The Journal of Experimental Biology
Pamfilie AM, Garner AM, Russell AP, et al. (2023) Get to the point: Claw morphology impacts frictional interactions on rough substrates. Zoology (Jena, Germany). 157: 126078
Orndorf N, Garner AM, Dhinojwala A. (2022) Polar bear paw pad surface roughness and its relevance to contact mechanics on snow. Journal of the Royal Society, Interface. 19: 20220466
Palecek AM, Garner AM, Klittich MR, et al. (2022) An investigation of gecko attachment on wet and rough substrates leads to the application of surface roughness power spectral density analysis. Scientific Reports. 12: 11556
Garner AM, Russell AP. (2021) Revisiting the classification of squamate adhesive setae: historical, morphological and functional perspectives. Royal Society Open Science. 8: 202039
Garner AM, Pamfilie AM, Dhinojwala A, et al. (2021) Tokay geckos (Gekkonidae: ) preferentially use substrates that elicit maximal adhesive performance. The Journal of Experimental Biology
Russell AP, Garner AM. (2021) Setal Field Transects, Evolutionary Transitions and Gecko–Anole Convergence Provide Insights Into the Fundamentals of Form and Function of the Digital Adhesive System of Lizards Frontiers in Mechanical Engineering. 6
Garner AM, Wilson MC, Wright C, et al. (2020) The same but different: setal arrays of anoles and geckos indicate alternative approaches to achieving similar adhesive effectiveness. Journal of Anatomy
Garner AM, Pamfilie AM, Hamad EJ, et al. (2020) Home-field advantage: native gecko exhibits improved exertion capacity and locomotor ability in structurally complex environments relative to its invasive counterpart. Frontiers in Zoology. 17: 23
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