Abstract
Torticonic (helically-coiled) ammonoids have been most commonly interpreted as vagile, benthonic forms. Their mode of coiling, however, places the siphuncle in a functionally dorsolateral, rather than ventral position on the shell whorl due to: 1) their probable apex-upward shell orientation during life, and 2) size asymmetry of the lateral sutural saddles due to helical coiling, associated with upward siphuncle displacement. The resultant positioning of the siphuncle produces cameral liquid de-coupling soon after initiation of cameral liquid removal (emptying of liquid from a newly formed chamber within the phragmocone). Since in Recent chambered cephalopods cameral liquid de-coupling increases efficiency of vertical migration, a similar mode of life was indicated for the torticonic ammonites.
Publisher
Cambridge University Press (CUP)
Subject
Paleontology,General Agricultural and Biological Sciences,Ecology,Ecology, Evolution, Behavior and Systematics
Reference21 articles.
1. Wiedmann J. 1973. Upper Triassic heteromorph ammonites. In: Hallam A. , ed. Atlas of Paleobiogeography.
2. Westermann G. E. G. 1971. Form, structure and function of shell and siphuncle in coiled Mesozoic Ammonoids. Life Sci. Contr., R. Ont. Mus., No. 78, 39 pp.
3. On the buoyancy of the pearly Nautilus
4. Upper Cretaceous ammonites (Santonian-Campanian) from Orcas Island, Washington;Ward;J. Paleontol.,1976
5. Geometric analysis of shell coiling: General problems;Raup;J. Paleontol.,1966
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