SummaryCephalopods, such as octopus and squid, can change their coloration in an instant, and even produce moving patterns on their skin. A new study describes these wavelike patterns in a colourful tropical cuttlefish, providing insights into the neural mechanisms that generate them
Physiological studies have shown that the epidermal head and arm lines in cephalopods are a mechanor...
Cephalopods usually have large and mobile eyes with which they constantly scan their environment. Th...
The data collected for this report are photo data taken of Sepia officinalis in the laboratory durin...
Cephalopods are unrivaled in the natural world in their ability to alter their visual appearance. Th...
Cephalopods are unrivaled in the natural world in their ability to alter their visual appearance. Th...
The coleoid cephalopods (octopus, squid, and cuttlefish) are masters of rapid, adaptive camouflage. ...
This paper presents the first direct demonstration in a living cephalopod of neural activity associa...
ical ived synapse to radial muscles that control pigmented chro-matophores in the skin. Thus, rapid ...
Camouflage versatility is probably no better developed in the animal kingdom than in the coleoid cep...
SummaryTraveling waves (from action potential propagation to swimming body motions or intestinal per...
Summary: The color and pattern changing abilities of octopus, squid, and cuttlefish via chromatophor...
Octopus, squid and cuttlefish are renowned for rapid adaptive coloration that is used for a wide ran...
[[abstract]]Cephalopods have at least 20 body patterns for camouflage, yet these can be organized in...
Coleoid cephalopods camouflage on timescales of seconds to match their visual surroundings. To date,...
The neurally controlled colour patterns of cephalopod molluscs, and the spatial distribution of the ...
Physiological studies have shown that the epidermal head and arm lines in cephalopods are a mechanor...
Cephalopods usually have large and mobile eyes with which they constantly scan their environment. Th...
The data collected for this report are photo data taken of Sepia officinalis in the laboratory durin...
Cephalopods are unrivaled in the natural world in their ability to alter their visual appearance. Th...
Cephalopods are unrivaled in the natural world in their ability to alter their visual appearance. Th...
The coleoid cephalopods (octopus, squid, and cuttlefish) are masters of rapid, adaptive camouflage. ...
This paper presents the first direct demonstration in a living cephalopod of neural activity associa...
ical ived synapse to radial muscles that control pigmented chro-matophores in the skin. Thus, rapid ...
Camouflage versatility is probably no better developed in the animal kingdom than in the coleoid cep...
SummaryTraveling waves (from action potential propagation to swimming body motions or intestinal per...
Summary: The color and pattern changing abilities of octopus, squid, and cuttlefish via chromatophor...
Octopus, squid and cuttlefish are renowned for rapid adaptive coloration that is used for a wide ran...
[[abstract]]Cephalopods have at least 20 body patterns for camouflage, yet these can be organized in...
Coleoid cephalopods camouflage on timescales of seconds to match their visual surroundings. To date,...
The neurally controlled colour patterns of cephalopod molluscs, and the spatial distribution of the ...
Physiological studies have shown that the epidermal head and arm lines in cephalopods are a mechanor...
Cephalopods usually have large and mobile eyes with which they constantly scan their environment. Th...
The data collected for this report are photo data taken of Sepia officinalis in the laboratory durin...
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