Morphometric data for colonies of Evactinostella crucialis

External Organisations Dickinson College Associated Persons Marcus Key Jr (Creator); Benjamin Edwards (Creator) One of the challenges for bryozoans is avoiding refiltering of water that has already had its plankton removed. Larger colonies develop colony-wide maculae-centered feeding currents to avo...

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Bibliographic Details
Other Authors: Eckart HÃ¥kansson (Contact), Eckart HÃ¥kansson (Creator), School of Earth Sciences (isManagedBy)
Format: Dataset
Language:unknown
Published: The University of Western Australia
Subjects:
Permian
Functional morphology
Bryozoans
monticules
Greenland
North Greenland
Online Access:https://researchdata.edu.au/morphometric-colonies-evactinostella-crucialis/3304553
https://doi.org/10.5061/dryad.qfttdz0qq
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Summary:External Organisations Dickinson College Associated Persons Marcus Key Jr (Creator); Benjamin Edwards (Creator) One of the challenges for bryozoans is avoiding refiltering of water that has already had its plankton removed. Larger colonies develop colony-wide maculae-centered feeding currents to avoid refiltering water, and generally have elevated maculae (monticules). We hypothesize that height and spacing of monticules is inversely proportional to curvature of the colony surface. Larger flatter colonies should have higher and more closely spaced monticules. We compare two Permian palaeostomate bryozoans whose colonies form branches with elliptical cross-sections: the smaller and more elliptical cystoporate Evactinostella crucialis from Western Australia (n = 17) and the larger and flatter trepostome Tabulipora sp. from eastern North Greenland (n = 15). Using calipers and digital elevation models we measured curvature, monticule height, and number of monticules per area. Results indicate that Evactinostella branches are at least twice as curved as those of Tabulipora, their monticules are 1/2 the height of Tabulipora, and their monticules are 22% less densely spaced than those of Tabulipora. In Evactinostella colonies, surface curvature is inversely proportional to monticule height and spatial density which is not true for Tabulipora. Therefore, we conclude that the smaller and more curved the colony surface, the less the colony needs robust colony-wide feeding currents created by tall closely spaced monticules.

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