Bats actively modulate membrane compliance to control camber and reduce drag

Author:

Cheney Jorn A.12ORCID,Rehm Jeremy C.2,Swartz Sharon M.23ORCID,Breuer Kenneth S.23ORCID

Affiliation:

1. Royal Veterinary College 1 , London NW1 0TU , UK

2. Brown University 2 Department of Ecology and Evolutionary Biology , , Providence, RI 02912 , USA

3. School of Engineering, Brown University 3 , Providence, RI 02912 , USA

Abstract

ABSTRACT Bat wing skin is exceptionally compliant and cambers significantly during flight. Plagiopatagiales proprii, arrays of small muscles embedded in the armwing membrane, are activated during flight and are hypothesized to modulate membrane tension. We examined the function of these muscles using Jamaican fruit bats, Artibeus jamaicensis. When these muscles were paralyzed using botulinum toxin, the bats preferred flight speed decreased and they were unable to fly at very low speeds. Paralysis of the plagiopatagiales also resulted in increased armwing camber consistent with a hypothesized role of modulating aeroelastic interactions. Other compensatory kinematics included increased downstroke angle and increased wingbeat amplitude. These results are consistent with the bats experiencing increased drag and flight power costs associated with the loss of wing-membrane control. Our results indicate that A. jamaicensis likely always employ their wing membrane muscles during sustained flight to control camber and to enhance flight efficiency over a wide flight envelope.

Funder

Air Force Office of Scientific Research

National Science Foundation

Hyundai Motor Group

Royal Veterinary College

Publisher

The Company of Biologists

Subject

Insect Science,Molecular Biology,Animal Science and Zoology,Aquatic Science,Physiology,Ecology, Evolution, Behavior and Systematics

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