Pineal organs of deep-sea fish: photopigments and structure.
Reads0
Chats0
TLDR
The morphology and photopigments of the pineal organs from a number of mesopelagic fish, including representatives of the hatchet fish, scaly dragon-fish and bristlemouths, were examined, and two spectral classes of pinealocyte were identified, both spectrally distinct from the retinal rodphotopigment.Abstract:
We have examined the morphology and photopigments of the pineal organs from a number of mesopelagic fish, including representatives of the hatchet fish (Sternoptychidae), scaly dragon-fish (Chauliodontidae) and bristlemouths (Gonostomidae). Although these fish were caught at depths of between 500 and 1000 m, the morphological organisation of their pineal organs is remarkably similar to that of surface-dwelling fish. Photoreceptor inner and outer segments protrude into the lumen of the pineal vesicle, and the outer segment is composed of a stack of up to 20 curved disks that form a cap-like cover over the inner segment. In all species, the pineal photopigment was spectrally distinct from the retinal rod pigment, with lambdamax displaced to longer wavelengths, between approximately 485 and 503 nm. We also investigated the pineal organ of the deep demersal eel, Synaphobranchus kaupi, caught at depths below 2000 m, which possesses a rod visual pigment with lambdamax at 478 nm, but the pineal pigment has lambdamax at approximately 515 nm. In one species of hatchet fish, Argyropelecus affinis, two spectral classes of pinealocyte were identified, both spectrally distinct from the retinal rod photopigment.read more
Citations
More filters
Journal ArticleDOI
Melatonin activates brain dopaminergic systems in the eel with an inhibitory impact on reproductive function.
Marie-Emilie Sébert,C. Legros,Finn-Arne Weltzien,Finn-Arne Weltzien,Benoît Malpaux,Philippe Chemineau,Sylvie Dufour +6 more
TL;DR: The results of the present study provide the first evidence that melatonin enhances TH expression in specific brain regions in a non‐mammalian species, and could represent one pathway by which environmental factors could modulate reproductive function in the eel.
Journal ArticleDOI
Differential light intensity and spectral sensitivities of Atlantic salmon, European sea bass and Atlantic cod pineal glands ex vivo.
TL;DR: The first evidence of relative photoreception in teleosts was obtained in cod suggesting that the definition of illuminance thresholds (day/night perception) would depend on the day intensity, and a single order of magnitude increase or decrease in day intensity was shown to elicit a significant shift in the intensity response curve of night-time melatonin suppression.
Journal ArticleDOI
Activity rhythms in the deep-sea: a chronobiological approach.
Jacopo Aguzzi,Corrado Costa,Paolo Menesatti,José A. García,Nixon Bahamon,Pere Puig,Francesc Sardà +6 more
TL;DR: This review will focus on the behavioural rhythms of crustacean decapods inhabiting depths where the sun light is absent, and potential scenarios for future research on deep-sea decapod behaviour are suggested by new in situ observation technologies.
Journal ArticleDOI
A Novel Morphometry-Based Protocol of Automated Video-Image Analysis for Species Recognition and Activity Rhythms Monitoring in Deep-Sea Fauna
Jacopo Aguzzi,Corrado Costa,Yoshihiro Fujiwara,Ryoichi Iwase,Eva Ramirez-Llorda,Paolo Menesatti +5 more
TL;DR: A morphometry-based protocol for automated video-image analysis where animal movement tracking (by frame subtraction) is accompanied by species identification from animals' outlines by Fourier Descriptors and Standard K-Nearest Neighbours methods is elaborated.
Journal ArticleDOI
Rhythms at the bottom of the deep sea : Cyclic current flow changes and melatonin patterns in two species of demersal fish
TL;DR: Observations strongly suggest that biological rhythms are present in demersal fish, the melatonin metabolism shows signs of periodicity, and tidal currents may act as zeitgeber at the bottom of the deep sea.
References
More filters
Journal ArticleDOI
A comparative study of the pineal complex in the deep-sea fishes Bathylagus Wesethi and Nezumia liolepis.
TL;DR: The pineal complexes of two deep-sea fishes, Bathylagus wesethi and Nezumia liolepis, were studied with both light and electron microscopy and a functional relationship between the dorsal sac, paraphysis, and pineal central lumen was suggested.
Journal ArticleDOI
Intracellular responses from the photosensitive pineal organ of the teleost,Phoxinus phoxinus
TL;DR: Intracellular potentials from the isolated dark-adapted pineal organ of Phoxinus phoxinus were recorded by using glass microelectrodes and it is assumed that this rare cell type represents a small class of pineal interneurons.
Journal ArticleDOI
The structure and development of the pineal complex in the lanternfish Triphoturus mexicanus (family mycotphidae).
TL;DR: The pineal complex of the lanternfish Triphoturus mexicanus was studied by light and electron microscopy and the presence of receptor cells and the prominent pineal window strongly suggest a photoreceptive function.
Book ChapterDOI
Chapter 1 The electrical responses of the trout pineal photoreceptors to brief and prolonged illumination
TL;DR: The conclusion can be drawn that the response properties of pineal photoreceptors during steady illumination are part of an unknown, self-regulating mechanism to lock the rate of metabolism and secretion of indolamines to the absolute level of diurnal light.
Journal ArticleDOI
Photoresponses and Light Adaptation of Pineal Photoreceptors in the Trout
TL;DR: The fact that, during constant illumination, the pineal photoresponses maintain the same amplitude set at the initial peak perhaps represents an original mechanism of light adaptation which allows these cells to maintain their voltage-dependent synthesis and secretion of indolamines as a constant relation with daily illumination.
Related Papers (5)
Evolution of photosensory pineal organs in new light: the fate of neuroendocrine photoreceptors
Peter Ekström,Hilmar Meissl +1 more