EARLY HEARING DETECTION AND INTERVENTION VIRTUAL CONFERENCE
MARCH 2-5, 2021
(Virtually the same conference, without elevators, airplane tickets, or hotel room keys)
5/23/2019 | 11:45 AM - 12:00 PM | EMERGENT HYDRODYNAMICS, SKIMMING FLOW, AND THE OPTIMAL DENSITIES FOR MUSSEL COVERED BEDS IN LABILE RIVERS | 251 DE
EMERGENT HYDRODYNAMICS, SKIMMING FLOW, AND THE OPTIMAL DENSITIES FOR MUSSEL COVERED BEDS IN LABILE RIVERS
Freshwater mussels are dominant ecosystem engineers in many streams, yet they are an imperiled fauna and little is known about the interaction between mussels and their hydrodynamic habitat. To explore these interactions, flume experiments were conducted across a range of densities of model mussels and flow rates where two-dimensional particle image velocimetry was employed to quantify the turbulent flow field. The results show that (1) mussels can markedly alter the distributions and magnitudes of time-averaged velocity and Reynolds stress, (2) higher densities of mussels accelerate flow velocity above the mussel canopy, decelerate velocity within the canopy, and shift the maximum Reynolds stress above the canopy, and (3) a hydrodynamic tipping point occurs at a mussel density of 25 mussels m-2, where wall-bounded rough flow is replaced by relatively smoother skimming flow. These results suggest that when mussel density reaches an optimal threshold in rivers, a fundamental shift in the hydraulic flow regime occurs that increases the stability and resiliency of the mussel-covered bed during higher flow stages. Such information is central to understanding the biophysical interactions between mussels and their environment and to advancing efforts to conserve these important organisms.
- Hydrology
- Conservation
- Invertebrate
Presentation:
This presentation has not yet been uploaded.
Handouts:
Handout is not Available
Transcripts:
CART transcripts are NOT YET available, but will be posted shortly after the conference
Presenters/Authors
Brandon Sansom
(), SUNY University at Buffalo, bsansom@buffalo.edu;
ASHA DISCLOSURE:
Financial -
Nonfinancial -
Sean Bennett
(), SUNY University at Buffalo, seanb@buffalo.edu;
ASHA DISCLOSURE:
Financial -
Nonfinancial -
Joseph Atkinson
(), SUNY University at Buffalo, atkinson@buffalo.edu;
ASHA DISCLOSURE:
Financial -
Nonfinancial -
Caryn Vaughn
(), University of Oklahoma, cvaughn@ou.edu;
ASHA DISCLOSURE:
Financial -
Nonfinancial -