EP52A:
Ecological Fluid Mechanics: Interactions Among Organisms and Their Fluid Environment III


Session ID#: 37877

Session Description:
The session will be dedicated to reports from studies of interactions among organisms and their fluid environment. The session addresses the role that fluid motion, flow gradients, and chemical stirring play in shaping organism behavior, interactions, recruitment, reproduction, and community structure. Relevant studies span topics of biomechanics, transport and settling, propulsion, and sensory ecology. Themes may include the influence of instantaneous flow patterns, the influence of extreme physical events, the influence of scale on the biological-physical coupling, and biological/ecological advantages mediated by flow and chemical transport. For instance, what can we learn from how organisms balance physical versus biological forcing? We invite studies addressing a broad range of flow regimes spanning creeping, laminar, unsteady, wavy, and turbulent flows.
Primary Chair:  Donald R Webster, Georgia Institute of Technology, Civil & Environmental Engineering, Atlanta, GA, United States
Co-Chair:  Brad Gemmell, University of South Florida, Department of Integrative Biology, Tampa, FL, United States
Moderators:  Donald R Webster, Georgia Institute of Technology, Civil & Environmental Engineering, Atlanta, GA, United States and Brad Gemmell, University of South Florida, Department of Integrative Biology, Tampa, FL, United States
Student Paper Review Liaison:  Brad Gemmell, University of South Florida, Department of Integrative Biology, Tampa, FL, United States
Index Terms:

4235 Estuarine processes [OCEANOGRAPHY: GENERAL]
4804 Benthic processes, benthos [OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL]
4813 Ecological prediction [OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL]
4815 Ecosystems, structure, dynamics, and modeling [OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL]
Cross-Topics:
  • E - Estuarine Processes
  • ME - Marine Ecosystems

Abstracts Submitted to this Session:

Zooplankton can actively adjust their motility to turbulent flow (309215)
François-Gaël Michalec, Itzhak Fouxon and Markus Holzner, ETH Zurich, Institute of Environmental Engineering, Zurich, Switzerland
Swarm-scale eddies generated by collective swimmers (222072)
Isabel Houghton, Stanford University, Civil and Environmental Engineering, Stanford, CA, United States and John Dabiri, Stanford University, Mechanical Engineering and Civil and Environmental Engineering, Stanford, CA, United States
A Comparison of the Swimming of Two Warm Water Pteropod Species with Dissimilar Shell Shapes and Sizes (318375)
David Wayne Murphy, University of South Florida Tampa, Tampa, United States, Ferhat Karakas, University of South Florida, Department of Mechanical Engineering, Tampa, FL, United States and Amy Maas, Bermuda Institute of Ocean Sciences, St. Georges, Bermuda
Quantifying the Propulsive Forces on Steadily-Swimming Fishes (321357)
Kelsey Lucas1, Eric Tytell2 and George V Lauder1, (1)Harvard University, Organismic and Evolutionary Biology, Cambridge, MA, United States, (2)Tufts University, Biology, Boston, MA, United States
Characterizing Submerged Ecosystems and Their Hydrodynamics from Surface Disturbances (305791)
Tracy Mandel, Hayoon Chung and Jeffrey R Koseff, Stanford University, Civil and Environmental Engineering, Stanford, CA, United States
The Pressure’s On, Then Off: Sea Lampreys Rapidly Switch from Push to Pull Thrust When Accelerating from Rest. (308774)
Kevin Du Clos, University of South Florida Tampa, Integrative Biology, Tampa, FL, United States, John Dabiri, Stanford University, Mechanical Engineering and Civil and Environmental Engineering, Stanford, CA, United States and Brad Gemmell, University of South Florida, Department of Integrative Biology, Tampa, FL, United States
Effect of flow rate and shear on swimming kinematics of cydippid ctenophores (318785)
Margaret Byron, Pennsylvania State University, Mechanical and Nuclear Engineering, University Park, PA, United States and Matthew McHenry, University of California Irvine, Ecology and Evolutionary Biology, Irvine, CA, United States
Widespread utilization of passive energy recapture in swimming medusae (321896)
Brad Gemmell, University of South Florida, Department of Integrative Biology, Tampa, FL, United States, Sean Colin, Roger Williams University, Marine Biology and Environmental Science, Bristol, RI, United States and Jack Costello, Providence College, Biology, Providence, RI, United States

See more of: Ecology and Physical Interactions