Metachronal Motion across Scales: Current Challenges and Future Directions

Margaret L. Byron; David W. Murphy; Kakani Katija; Alexander Hoover; Joost Daniels; Kuvvat Garayev; Daisuke Takagi; Eva Kanso; Bradford J. Gemmell; Melissa Ruszczyk; Arvind Santhanakrishnan

doi:10.1093/icb/icab105

Metachronal Motion across Scales: Current Challenges and Future Directions

Margaret L. Byron
, David W. Murphy
, Kakani Katija
, Alexander Hoover
, Joost Daniels
, Kuvvat Garayev
, Daisuke Takagi
, Eva Kanso
, Bradford J. Gemmell
, Melissa Ruszczyk
, Arvind Santhanakrishnan

Mathematics and Statistics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

37 Scopus citations

Abstract

Metachronal motion is used across a wide range of organisms for a diverse set of functions. However, despite its ubiquity, analysis of this behavior has been difficult to generalize across systems. Here we provide an overview of known commonalities and differences between systems that use metachrony to generate fluid flow. We also discuss strategies for standardizing terminology and defining future investigative directions that are analogous to other established subfields of biomechanics. Finally, we outline key challenges that are common to many metachronal systems, opportunities that have arisen due to the advent of new technology (both experimental and computational), and next steps for community development and collaboration across the nascent network of metachronal researchers.

Original language	English
Title of host publication	Integrative and Comparative Biology
Place of Publication	gbr
Publisher	Oxford University Press
Pages	1674-1688
Number of pages	15
Volume	61
DOIs	https://doi.org/10.1093/icb/icab105
State	Published - Nov 1 2021
Event	Metachronal Motion across Scales: Current Challenges and Future Directions - Duration: Nov 1 2021 → …

Conference

Conference	Metachronal Motion across Scales: Current Challenges and Future Directions
Period	11/1/21 → …

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10.1093/icb/icab105

Cite this

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title = "Metachronal Motion across Scales: Current Challenges and Future Directions",

abstract = "Metachronal motion is used across a wide range of organisms for a diverse set of functions. However, despite its ubiquity, analysis of this behavior has been difficult to generalize across systems. Here we provide an overview of known commonalities and differences between systems that use metachrony to generate fluid flow. We also discuss strategies for standardizing terminology and defining future investigative directions that are analogous to other established subfields of biomechanics. Finally, we outline key challenges that are common to many metachronal systems, opportunities that have arisen due to the advent of new technology (both experimental and computational), and next steps for community development and collaboration across the nascent network of metachronal researchers.",

author = "Byron, \{Margaret L.\} and Murphy, \{David W.\} and Kakani Katija and Alexander Hoover and Joost Daniels and Kuvvat Garayev and Daisuke Takagi and Eva Kanso and Gemmell, \{Bradford J.\} and Melissa Ruszczyk and Arvind Santhanakrishnan",

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Byron, ML, Murphy, DW, Katija, K, Hoover, A, Daniels, J, Garayev, K, Takagi, D, Kanso, E, Gemmell, BJ, Ruszczyk, M & Santhanakrishnan, A 2021, Metachronal Motion across Scales: Current Challenges and Future Directions. in Integrative and Comparative Biology. vol. 61, Oxford University Press, gbr, pp. 1674-1688, Metachronal Motion across Scales: Current Challenges and Future Directions, 11/1/21. https://doi.org/10.1093/icb/icab105

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AU - Byron, Margaret L.

AU - Murphy, David W.

AU - Katija, Kakani

AU - Hoover, Alexander

AU - Daniels, Joost

AU - Garayev, Kuvvat

AU - Takagi, Daisuke

AU - Kanso, Eva

AU - Gemmell, Bradford J.

AU - Ruszczyk, Melissa

AU - Santhanakrishnan, Arvind

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AB - Metachronal motion is used across a wide range of organisms for a diverse set of functions. However, despite its ubiquity, analysis of this behavior has been difficult to generalize across systems. Here we provide an overview of known commonalities and differences between systems that use metachrony to generate fluid flow. We also discuss strategies for standardizing terminology and defining future investigative directions that are analogous to other established subfields of biomechanics. Finally, we outline key challenges that are common to many metachronal systems, opportunities that have arisen due to the advent of new technology (both experimental and computational), and next steps for community development and collaboration across the nascent network of metachronal researchers.

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Metachronal Motion across Scales: Current Challenges and Future Directions

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