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“Spinner” cephalopods: defects of statocyst suprastructures in an invertebrate analogue of the vestibular apparatus (1984)

Colmers, William F. ; Hixon, Raymond F. ; Hanlon, Roger T. ; [et al.]

Springer

Cell & tissue research 236 (1984), S. 505-515

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ISSN: 1432-0878

Keywords: Statocyst ; Statolith defects ; Cephalopods ; Octopus ; Squid

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Individuals of seven species of coleoid cephalopods (three species of octopus, three of squid, and one of cuttlefish), that were cultured and reared in laboratory aquarium systems, had a behavioral defect at hatching which was characterized by an inability to control orientation while swimming. These defective animals were designated as “spinners.” An examination of statocysts from individuals of five of the affected species revealed abnormalities of the neuroepithelial suprastructures: absence or malformation of the statolith of the gravity receptor system and absence of the cupulae of the angular acceleration receptor systems. The sensory epithelia did not differ from those of normal animals, nor did the synaptic structures and relationships, when examined both with scanning and transmission electron microscopy. The abnormalities were compared with congenital defects of the neuropeithelial suprastructures of the vestibular apparatus (especially in mammals). The defects observed in statocysts of spinner animals are thought to be the result of environmental causes, such as the temperature or chemistry of the seawater in the transportation vessels or rearing systems, rather than genetic causes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00217217

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Physiological color change in squid iridophores (1990)

Cooper, Kay M. ; Hanlon, Roger T. ; Budelmann, Bernd U.

Springer

Cell & tissue research 259 (1990), S. 15-24

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ISSN: 1432-0878

Keywords: Iridophores ; Acetylcholine ; Ca++-induced Structural changes ; Color change ; Dermis ; Lolliguncula brevis (Mollusca)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Evidence is presented that changes in the optical properties of active iridophores in the dermis of the squidLolliguncula brevis are the result of changes in the ultrastructure of these cells. At least two mechanisms may be involved when active cells change from non-iridescent to iridescent or change iridescent color. One is the reversible change of labile, detergent-resistant proteinaceous material within the iridophore platelets, from a contracted gel state (non-iridescent) to an expanded fluid or sol state when the cells become iridescent. The other is a change in the thickness of the platelets, with platelets becoming significantly thinner as the optical properties of the iridophores change from non-iridescent to iridescent red, and progressively thinner still as the observed iridescent colors become those of shorter wavelengths. Optical change from Rayleigh scattering (non-iridescent) to structural reflection (iridescent) may be due to the viscosity change in the platelet material, with the variations in observed iridescent colors due to changes in the dimensions of the iridophore platelets.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00571425

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Physiological color change in squid iridophores (1990)

Hanlon, Roger T. ; Cooper, Kay M. ; Budelmann, Bernd U. ; [et al.]

Springer

Cell & tissue research 259 (1990), S. 3-14

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ISSN: 1432-0878

Keywords: Iridophores ; Acetylcholine ; Calcium-sensitive cells ; Dermis ; Color change ; Lolliguncula brevis, Loligo plei, Sepioteuthis lessoniana (Mollusca)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Cephalopods generally are thought to have only static iridophores, but this report provides qualitative and quantitative evidence for active control of certain iridescent cells in the dermis of the squidLolliguncula brevis. In vivo observations indicate the expression of iridescence to be linked to agonistic or reproductive behavior. The neuromodulator acetylcholine (ACh) induced dramatic optical changes in active iridophores in vitro, whereas ACh had little effect on passive iridophores elsewhere in the mantle skin. Bath application of physiological concentrations of ACh (10-7M to 10-6M) to excised dermal skin layers transformed the active iridophores from a non-reflective diffuse blue to brightly iridescent colors, and this reaction was reversible and repeatable. The speed of change to iridescent in vitro corresponded well to the speed of changes in the living animal. Pharmacological results indicate the presence of muscarinic receptors in this system and that Ca++ is a mediator for the observed changes. Although ACh is present in physiological quantities in the dermal iridophore layer, it is possible that ACh release is not controlled directly by the nervous system because electrophysiological stimulation of major nerves in the periphery resulted in no iridescence inL. brevis; nor did silver staining or transmission electron microscopy reveal neuronal elements in the iridophore layer. Thus, active iridophores may be controlled by ACh acting as a hormone.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00571424

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To be seen or to hide : visual characteristics of body patterns for camouflage and communication in the Australian giant cuttlefish Sepia apama (2011)

Zylinski, S. ; How, M. J. ; Osorio, D. ; [et al.]

University of Chicago

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Publication Date: 2022-05-25

Description: Author Posting. © University of Chicago, 2011. This article is posted here by permission of University of Chicago for personal use, not for redistribution. The definitive version was published in American Naturalist 177 (2011): 681-690, doi:10.1086/659626.

Description: It might seem obvious that a camouflaged animal must generally match its background whereas to be conspicuous an organism must differ from the background. However, the image parameters (or statistics) that evaluate the conspicuousness of patterns and textures are seldom well defined, and animal coloration patterns are rarely compared quantitatively with their respective backgrounds. Here we examine this issue in the Australian giant cuttlefish Sepia apama. We confine our analysis to the best-known and simplest image statistic, the correlation in intensity between neighboring pixels. Sepia apama can rapidly change their body patterns from assumed conspicuous signaling to assumed camouflage, thus providing an excellent and unique opportunity to investigate how such patterns differ in a single visual habitat. We describe the intensity variance and spatial frequency power spectra of these differing body patterns and compare these patterns with the backgrounds against which they are viewed. The measured image statistics of camouflaged animals closely resemble their backgrounds, while signaling animals differ significantly from their backgrounds. Our findings may provide the basis for a set of general rules for crypsis and signals. Furthermore, our methods may be widely applicable to the quantitative study of animal coloration.

Description: S.Z. was supported by a Case award from the Biotechnology and Biological Sciences Research Council and QinetiQ and is currently supported by Office of Naval Research (ONR) grant N00014-09-1-1053. R.T.H. received partial support from ONR grant N0001406-1- 0202.

Keywords: Camouflage ; Communication ; Signaling ; Image structure ; Cephalopods ; Vision

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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