Cuttlefish are cephalopods capable of rapid camouflage responses to visual stimuli. However, it is not always clear to what these animals are responding. Previous studies have found cuttlefish to be more responsive to lateral stimuli rather than substrate. However, in previous works, the cuttlefish were allowed to settle next to the lateral stimuli. In this study, we examine whether juvenile cuttlefish (Sepia officinalis) respond more strongly to visual stimuli seen on the sides versus the bottom of an experimental aquarium, specifically when the animals are not allowed to be adjacent to the tank walls. We used the Sub Sea Holodeck, a novel aquarium that employs plasma display screens to create a variety of artificial visual environments wi...
AbstractCuttlefish, Sepia officinalis, commonly use their visually-guided, rapid adaptive camouflage...
[[abstract]]Cuttlefish, Sepia officinalis, can produce a variety of body patterns for camouflage on ...
Juvenile cuttlefish (Sepia officinalis) camouflage themselves by changing their body pattern accordi...
Cuttlefish are cephalopods capable of rapid camouflage responses to visual stimuli. However, it is n...
<div><p>Cuttlefish are cephalopods capable of rapid camouflage responses to visual stimuli. However,...
Cuttlefish are cephalopods capable of rapid camouflage responses to visual stimuli. How-ever, it is ...
Cephalopod mollusks including octopus and cuttlefish are adept at adaptive camouflage, varying their...
[[abstract]]Cephalopods have at least 20 body patterns for camouflage, yet these can be organized in...
The cuttlefish, Sepia officinalis, provides a fascinating opportunity to investigate the mechanisms ...
Author Posting. © Marine Biological Laboratory, 2013. This article is posted here by permission of ...
To achieve effective visual camouflage, prey organisms must combine cryptic coloration with the appr...
Cuttlefishes of the genus Sepia produce adaptive camouflage by regulating the expression of visual f...
[[abstract]]We investigated some visual background features that influence young cuttlefish, Sepia p...
[[abstract]]Cephalopods are known for their ability to change camouflage body patterns in response t...
[[abstract]]Among the changeable camouflage patterns of cuttlefish, disruptive patterning is shown i...
AbstractCuttlefish, Sepia officinalis, commonly use their visually-guided, rapid adaptive camouflage...
[[abstract]]Cuttlefish, Sepia officinalis, can produce a variety of body patterns for camouflage on ...
Juvenile cuttlefish (Sepia officinalis) camouflage themselves by changing their body pattern accordi...
Cuttlefish are cephalopods capable of rapid camouflage responses to visual stimuli. However, it is n...
<div><p>Cuttlefish are cephalopods capable of rapid camouflage responses to visual stimuli. However,...
Cuttlefish are cephalopods capable of rapid camouflage responses to visual stimuli. How-ever, it is ...
Cephalopod mollusks including octopus and cuttlefish are adept at adaptive camouflage, varying their...
[[abstract]]Cephalopods have at least 20 body patterns for camouflage, yet these can be organized in...
The cuttlefish, Sepia officinalis, provides a fascinating opportunity to investigate the mechanisms ...
Author Posting. © Marine Biological Laboratory, 2013. This article is posted here by permission of ...
To achieve effective visual camouflage, prey organisms must combine cryptic coloration with the appr...
Cuttlefishes of the genus Sepia produce adaptive camouflage by regulating the expression of visual f...
[[abstract]]We investigated some visual background features that influence young cuttlefish, Sepia p...
[[abstract]]Cephalopods are known for their ability to change camouflage body patterns in response t...
[[abstract]]Among the changeable camouflage patterns of cuttlefish, disruptive patterning is shown i...
AbstractCuttlefish, Sepia officinalis, commonly use their visually-guided, rapid adaptive camouflage...
[[abstract]]Cuttlefish, Sepia officinalis, can produce a variety of body patterns for camouflage on ...
Juvenile cuttlefish (Sepia officinalis) camouflage themselves by changing their body pattern accordi...