Buoyancy and hydrostatic balance in a West Indian Ocean coelacanth Latimeria chalumnae
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https://hdl.handle.net/10037/27266Date
2022-08-19Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Lauridsen, Henrik; Pedersen, Jens Mikkel Hyllested; Ringgaard, Steffen; Møller, Peter Daniel RaskAbstract
Background: Buoyancy and balance are important parameters for slow-moving, low-metabolic, aquatic organisms.
The extant coelacanths have among the lowest metabolic rates of any living vertebrate and can aford little energy
to keep station. Previous observations on living coelacanths support the hypothesis that the coelacanth is neutrally
buoyant and in close-to-perfect hydrostatic balance. However, precise measurements of buoyancy and balance at
diferent depths have never been made.
Results: Here we show, using non-invasive imaging, that buoyancy of the coelacanth closely matches its depth
distribution. We found that the lipid-flled fatty organ is well suited to support neutral buoyancy, and due to a closeto-perfect hydrostatic balance, simple maneuvers of fns can cause a considerable shift in torque around the pitch axis
allowing the coelacanth to assume diferent body orientations with little physical efort.
Conclusions: Our results demonstrate a close match between tissue composition, depth range and behavior, and
our collection-based approach could be used to predict depth range of less well-studied coelacanth life stages as well
as of deep sea fshes in general.
Publisher
BMCCitation
Lauridsen, Pedersen, Ringgaard, Møller. Buoyancy and hydrostatic balance in a West Indian Ocean coelacanth Latimeria chalumnae. BMC Biology. 2022;20(1)Metadata
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