Mechanisms and behavioural functions of structural coloration in cephalopods. - Wikidata - awgldk - TriplyDB

Mechanisms and behavioural functions of structural coloration in cephalopods.

Mechanisms and behavioural functions of structural coloration in cephalopods.

http://www.wikidata.org/entity/Q34906701

about

Sexual dimorphism in melanin pigmentation, feather coloration and its heritability in the barn swallow (Hirundo rustica)Bio-inspired sensitive and reversible mechanochromisms via strain-dependent cracks and folds Transforming Wave Propagation in Layered Media via Instability-Induced Interfacial Wrinkling Bright-white beetle scales optimise multiple scattering of light Sparkling feather reflections of a bird-of-paradise explained by finite-difference time-domain modeling.A dynamic broadband reflector built from microscopic silica spheres in the 'disco' clam Ctenoides ales.Adaptive optoelectronic camouflage systems with designs inspired by cephalopod skins A highly conspicuous mineralized composite photonic architecture in the translucent shell of the blue-rayed limpet.Reflectin as a Material for Neural Stem Cell Growth On the colour of wing scales in butterflies: iridescence and preferred orientation of single gyroid photonic crystals.Optical parameters of the tunable Bragg reflectors in squid.Evidence for distributed light sensing in the skin of cuttlefish, Sepia officinalis.Adaptive fluid-infused porous films with tunable transparency and wettability.Regulation of red fluorescent light emission in a cryptic marine fish.Structural colour in Chondrus crispus.Reflectin genes and development of iridophore patterns in Sepia officinalis embryos (Mollusca, Cephalopoda).Hyperspectral imaging of cuttlefish camouflage indicates good color match in the eyes of fish predators.Photonic crystals cause active colour change in chameleons Interference coloration as an anti-predator defence Nature's Palette: Characterization of Shared Pigments in Colorful Avian and Mollusk Shells.Artificial light at night alters trophic interactions of intertidal invertebrates.Membrane invaginations facilitate reversible water flux driving tunable iridescence in a dynamic biophotonic system.Disruptive viability selection on a black plumage trait associated with dominance.Iridescence: a functional perspective.Tunable structural color in organisms and photonic materials for design of bioinspired materials.The structure-function relationships of a natural nanoscale photonic device in cuttlefish chromatophores.Experimental determination of refractive index of condensed reflectin in squid iridocytes.Biological versus electronic adaptive coloration: how can one inform the other?Bio-inspired, large scale, highly-scattering films for nanoparticle-alternative white surfaces.Guidelines for the Care and Welfare of Cephalopods in Research -A consensus based on an initiative by CephRes, FELASA and the Boyd Group.Guanine-based structural coloration as an indicator of oxidative stress in a cichlid fish.Changeable camouflage: how well can flounder resemble the colour and spatial scale of substrates in their natural habitats?Non-polarizing broadband multilayer reflectors in fish.Mechanism of variable structural colour in the neon tetra: quantitative evaluation of the Venetian blind model High levels of reflectivity and pointillist structural color in fish, cephalopods, and beetles Iridescence: views from many angles.Self-Assembly of the Cephalopod Protein Reflectin.Bulk protonic conductivity in a cephalopod structural protein.Bioinspired phase-separated disordered nanostructures for thin photovoltaic absorbers.Infrared actuation-induced simultaneous reconfiguration of surface color and morphology for soft robotics.

P2860

Q21559680-4C062198-D50D-4B76-8D1E-0C9BBEB7DFE7 Q27314562-527A569B-19F2-41A3-AFE4-1F99F1F564ED Q27450045-302F0A70-9343-4F04-9BBB-CFDC79A9DEB7 Q28654522-86E89A80-5221-4F78-833C-00D7682F31AD Q30574936-297DFF14-D45D-49A4-A922-FCDA763D29AE Q30598360-D385097E-FFA2-4CEC-A846-7FAB9BB132A7 Q30602802-B77D661E-EE15-442F-A9DE-19CB178CF3DA Q30625296-8EC5BF17-1BEE-4905-B954-EBB9C3205E9D Q30699840-5F82617F-6970-48C6-A838-9950365EF77D Q30855916-75DD346C-6D84-4716-A5CD-06B145692C9A Q33705016-22943424-2797-41CA-899E-7AC446924A7F Q34110158-88384138-C541-49BA-81CD-3995A54D9B34 Q34337701-03A367DD-A891-4FC5-81C6-C24F3B238750 Q34396460-8B35C1BB-D73A-4FCF-8386-2A651746048E Q34483424-FA627201-4311-49D4-8413-F8404B058973 Q34574530-86247DDC-5C9D-42CF-AE7D-25020790535D Q35021958-C17DADDD-4E2B-49C4-8D84-BD187BC39215 Q35196914-6F1ED5F7-1A2B-4B1C-A5BE-D8FD5BAA3E74 Q35584235-3B818960-6D23-406D-8F04-DCDA100F92B4 Q35864295-5A6E4390-1880-42BF-A358-F112E14C205E Q36357549-2E4BE23B-5B3B-4A78-B68F-FE04784DC30E Q36617077-4C7490D5-C97E-4A07-AB19-257101EF46D5 Q37105311-62497D2E-254C-4489-AD89-C6D106AB4B0B Q37252247-905AAFD5-3B6F-42E7-ABA6-47BDE428319F Q37387017-2595F17E-E95F-4C96-8DBD-395425171E93 Q37592767-2782DA9B-76C3-4B1E-9553-84AAB401EAEE Q37735387-03B36D82-CA04-48B9-B0DF-842898E5CFBB Q38046806-BAF4612A-9592-46F4-B0AF-D6D957131D1D Q38827160-9B527F1A-07CE-4494-BB2D-A0AA11265BF6 Q38965643-F331AE52-C097-44E0-AA0A-76CAED37B8DB Q39021267-CC66B183-9936-4D10-B440-660732F928A3 Q40460904-0FED0488-4E75-44ED-B9CE-3B2A605B4265 Q41190482-DCA81191-8655-4B74-8D49-39B44456FC57 Q42241663-0F540697-3A54-4324-9DC8-62DB9C6C67AF Q42425896-7DF2403B-37B2-4468-A311-ED316FA61067 Q43100326-071F4840-C815-47BE-97F7-7D05B52583A9 Q46040645-457ACD6F-5D7D-4AEF-B3A0-EDF81E32C849 Q46065048-40FC1B50-58D4-4A49-97F0-DA6AA4289939 Q46166283-53CA002D-A706-4091-BAC8-FAB041436C1D Q47116585-C7C0173B-EFAD-429A-AAEF-E749AA012690

P2860

Mechanisms and behavioural functions of structural coloration in cephalopods.

http://www.wikidata.org/entity/Q34906701

description

2008 nî lūn-bûn

@nan

2008 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2008 թվականի դեկտեմբերին հրատարակված գիտական հոդված

@hy

2008年の論文

@ja

2008年論文

@yue

2008年論文

@zh-hant

2008年論文

@zh-hk

2008年論文

@zh-mo

2008年論文

@zh-tw

2008年论文

@wuu

name

Mechanisms and behavioural functions of structural coloration in cephalopods.

@ast

Mechanisms and behavioural functions of structural coloration in cephalopods.

@en

Mechanisms and behavioural functions of structural coloration in cephalopods.

@nl

type

label

Mechanisms and behavioural functions of structural coloration in cephalopods.

@ast

Mechanisms and behavioural functions of structural coloration in cephalopods.

@en

Mechanisms and behavioural functions of structural coloration in cephalopods.

@nl

prefLabel

Mechanisms and behavioural functions of structural coloration in cephalopods.

@ast

Mechanisms and behavioural functions of structural coloration in cephalopods.

@en

Mechanisms and behavioural functions of structural coloration in cephalopods.

@nl

P1433

Q34906701-48528BEF-1B22-4A98-A024-6AE4EE0B43CE

P1476

Q34906701-724F3635-3ACA-4945-8D59-3FC8B7EE396C

P2093

Q34906701-090809FB-D4F7-416B-88B1-999350684E2D

Q34906701-28AFD0EB-CC59-46CC-AE45-11183C44D7A0

Q34906701-7EE7F80D-120C-4F2E-B48E-17BB0CE9A0CC

Q34906701-B10C159F-A4B2-430E-836D-C5CA35FFFF25

P2860

Q34906701-0CE1064E-3CC0-4C6B-A596-F162EF8A273B

Q34906701-0ED3DC92-A104-4E94-BE41-E2FF21EA7E9C

Q34906701-0FF3EB71-A9E2-409A-81C8-634D30BC436D

Q34906701-165C7958-BC2B-4539-8B83-86E1D2EEEB29

Q34906701-17DB5FA2-D7C5-48A7-9EE3-3A287395DE60

Q34906701-1972C1B6-8334-4438-8944-3F9CF6925D37

Q34906701-1A207776-95EC-4812-BDB4-9783C76E8769

Q34906701-1C69E778-C8B1-43AD-8A95-8FDC227EB1E1

Q34906701-217C834B-1673-442D-9D97-092578DA2E42

Q34906701-21926EB3-87B6-4B98-9620-257E6CE67D5F

P304

Q34906701-EE39237B-9E30-47DD-976B-FE66DD8FDA7C

P31

Q34906701-8D13367E-64E1-4165-B81B-80DC28F526CE

P356

Q34906701-159C9334-0501-4155-BE05-34435CC937B7

P478

Q34906701-6892BD3B-6294-4403-A0D6-3B9082FDE217

P577

Q34906701-3C41AF66-5B1C-4B76-A9B6-C356D2DF5371

P5875

Q34906701-BF21E9C0-8779-4712-8E41-04AFB146CB96

P698

Q34906701-78507559-6793-4445-BB13-A5A6C42F0FAD

P932

Q34906701-DEEAF1A2-B7A3-4E87-9070-CD206FA65B77

P356

RSIF.2008.0366.FOCUS

P1433

Journal of the Royal Society Interface

P1476

Mechanisms and behavioural functions of structural coloration in cephalopods.

@en

P2093

Eric J Denton

http://www.w3.org/2001/XMLSchema#string

Lydia M Mäthger

http://www.w3.org/2001/XMLSchema#string

N Justin Marshall

http://www.w3.org/2001/XMLSchema#string

Roger T Hanlon

http://www.w3.org/2001/XMLSchema#string

P2860

Colour vision in billfish

Aggressive mimicry in photuris fireflies: signal repertoires by femmes fatales

Evolution and ecology of spider coloration

Color blindness and contrast perception in cuttlefish (Sepia officinalis) determined by a visual sensorimotor assay

Light and color on the wing: structural colors in butterflies and moths

Adaptive Coloration in Young Cuttlefish (Sepia Officinalis L.): The Morphology and Development of Body Patterns and Their Relation to Behaviour

Cephalopod chromatophores: neurobiology and natural history

Cephalopod dynamic camouflage: bridging the continuum between background matching and disruptive coloration.

Structural colouration of avian skin: convergent evolution of coherently scattering dermal collagen arrays.

Spectral and spatial properties of polarized light reflections from the arms of squid (Loligo pealeii) and cuttlefish (Sepia officinalis L.).

P304

S149-63

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1098/RSIF.2008.0366.FOCUS

http://www.w3.org/2001/XMLSchema#string

P478

6 Suppl 2

http://www.w3.org/2001/XMLSchema#string

P577

2008-12-15T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

23672734

http://www.w3.org/2001/XMLSchema#string

P698

19091688

http://www.w3.org/2001/XMLSchema#string

P932

2706477

http://www.w3.org/2001/XMLSchema#string