Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus

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Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus. / Garm, Anders; Simonsen, Sidsel H.; Mendoza-González, Paula; Worsaae, Katrine.

I: Journal of Experimental Biology, Bind 224, Nr. 14, jeb242501, 2021.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Garm, A, Simonsen, SH, Mendoza-González, P & Worsaae, K 2021, 'Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus', Journal of Experimental Biology, bind 224, nr. 14, jeb242501. https://doi.org/10.1242/jeb.242501

APA

Garm, A., Simonsen, S. H., Mendoza-González, P., & Worsaae, K. (2021). Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus. Journal of Experimental Biology, 224(14), [jeb242501]. https://doi.org/10.1242/jeb.242501

Vancouver

Garm A, Simonsen SH, Mendoza-González P, Worsaae K. Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus. Journal of Experimental Biology. 2021;224(14). jeb242501. https://doi.org/10.1242/jeb.242501

Author

Garm, Anders ; Simonsen, Sidsel H. ; Mendoza-González, Paula ; Worsaae, Katrine. / Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus. I: Journal of Experimental Biology. 2021 ; Bind 224, Nr. 14.

Bibtex

@article{002ff0b4e0864dea98351e805c6ed985,
title = "Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus",
abstract = "Annelids constitute a diverse phylum with more than 19,000 species, which exhibit greatly varying morphologies and lifestyles ranging from sessile detritivores to fast swimming active predators. The lifestyle of an animal is closely linked to its sensory systems, not least the visual equipment. Interestingly, many errantian annelid species from different families, such as the scale worms (Polynoidae), have two pairs of eyes on their prostomium. These eyes are typically 100-200 µm in diameter and structurally similar judged from their gross morphology. The polynoids Harmothoe imbricata and Lepidonotus squamatus from the North Atlantic are both benthic predators preying on small invertebrates but only H. imbricata can produce bioluminescence in its scales. Here, we examined the eye morphology, photoreceptor physiology and light-guided behaviour in these two scale worms to assess their visual capacity and visual ecology. The structure and physiology of the two pairs of eyes are remarkably similar within each species, with the only difference being the gaze direction. The photoreceptor physiology, however, differs between species. Both species express a single opsin in their eyes, but in H. imbricata the peak sensitivity is green shifted and the temporal resolution is lower, suggesting that the eyes of H. imbricata are adapted to detect their own bioluminescence. The behavioural experiments showed that both species are strictly night active but yielded no support for the hypothesis that H. imbricata is repelled by its own bioluminescence.",
keywords = "Annelida, Bioluminescence, Eye physiology, Night active, Polynoidae, Vision",
author = "Anders Garm and Simonsen, {Sidsel H.} and Paula Mendoza-Gonz{\'a}lez and Katrine Worsaae",
note = "Publisher Copyright: {\textcopyright} 2021. Published by The Company of Biologists Ltd",
year = "2021",
doi = "10.1242/jeb.242501",
language = "English",
volume = "224",
journal = "Journal of Experimental Biology",
issn = "0022-0949",
publisher = "The/Company of Biologists Ltd.",
number = "14",

}

RIS

TY - JOUR

T1 - Have the eyes of bioluminescent scale worms adapted to see their own light? A comparative study of eyes and vision in Harmothoe imbricata and Lepidonotus squamatus

AU - Garm, Anders

AU - Simonsen, Sidsel H.

AU - Mendoza-González, Paula

AU - Worsaae, Katrine

N1 - Publisher Copyright: © 2021. Published by The Company of Biologists Ltd

PY - 2021

Y1 - 2021

N2 - Annelids constitute a diverse phylum with more than 19,000 species, which exhibit greatly varying morphologies and lifestyles ranging from sessile detritivores to fast swimming active predators. The lifestyle of an animal is closely linked to its sensory systems, not least the visual equipment. Interestingly, many errantian annelid species from different families, such as the scale worms (Polynoidae), have two pairs of eyes on their prostomium. These eyes are typically 100-200 µm in diameter and structurally similar judged from their gross morphology. The polynoids Harmothoe imbricata and Lepidonotus squamatus from the North Atlantic are both benthic predators preying on small invertebrates but only H. imbricata can produce bioluminescence in its scales. Here, we examined the eye morphology, photoreceptor physiology and light-guided behaviour in these two scale worms to assess their visual capacity and visual ecology. The structure and physiology of the two pairs of eyes are remarkably similar within each species, with the only difference being the gaze direction. The photoreceptor physiology, however, differs between species. Both species express a single opsin in their eyes, but in H. imbricata the peak sensitivity is green shifted and the temporal resolution is lower, suggesting that the eyes of H. imbricata are adapted to detect their own bioluminescence. The behavioural experiments showed that both species are strictly night active but yielded no support for the hypothesis that H. imbricata is repelled by its own bioluminescence.

AB - Annelids constitute a diverse phylum with more than 19,000 species, which exhibit greatly varying morphologies and lifestyles ranging from sessile detritivores to fast swimming active predators. The lifestyle of an animal is closely linked to its sensory systems, not least the visual equipment. Interestingly, many errantian annelid species from different families, such as the scale worms (Polynoidae), have two pairs of eyes on their prostomium. These eyes are typically 100-200 µm in diameter and structurally similar judged from their gross morphology. The polynoids Harmothoe imbricata and Lepidonotus squamatus from the North Atlantic are both benthic predators preying on small invertebrates but only H. imbricata can produce bioluminescence in its scales. Here, we examined the eye morphology, photoreceptor physiology and light-guided behaviour in these two scale worms to assess their visual capacity and visual ecology. The structure and physiology of the two pairs of eyes are remarkably similar within each species, with the only difference being the gaze direction. The photoreceptor physiology, however, differs between species. Both species express a single opsin in their eyes, but in H. imbricata the peak sensitivity is green shifted and the temporal resolution is lower, suggesting that the eyes of H. imbricata are adapted to detect their own bioluminescence. The behavioural experiments showed that both species are strictly night active but yielded no support for the hypothesis that H. imbricata is repelled by its own bioluminescence.

KW - Annelida

KW - Bioluminescence

KW - Eye physiology

KW - Night active

KW - Polynoidae

KW - Vision

U2 - 10.1242/jeb.242501

DO - 10.1242/jeb.242501

M3 - Journal article

C2 - 34308994

AN - SCOPUS:85111484388

VL - 224

JO - Journal of Experimental Biology

JF - Journal of Experimental Biology

SN - 0022-0949

IS - 14

M1 - jeb242501

ER -

ID: 276376489