Disorder in convergent floral nanostructures enhances signalling to bees

Diverse forms of nanoscale architecture generate structural colour and perform signalling functions within and between species. Structural colour is the result of the interference of light from approximately regular periodic structures; some structural disorder is, however, inevitable in biological...

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Published in	Nature (London) Vol. 550; no. 7677; pp. 469 - 474
Main Authors	Moyroud, Edwige, Wenzel, Tobias, Middleton, Rox, Rudall, Paula J., Banks, Hannah, Reed, Alison, Mellers, Greg, Killoran, Patrick, Westwood, M. Murphy, Steiner, Ullrich, Vignolini, Silvia, Glover, Beverley J.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 26.10.2017 Nature Publishing Group
Subjects	631/158/857 631/181/2481 631/449/2669 639/301/357 639/624/399 Angiosperms Animals Bees Bees - physiology Behavior Biological activity Biological evolution Bombus Bombus terrestris Bumblebees Color Convergence Environmental aspects Flowers Flowers & plants Flowers - anatomy & histology Forage Foraging (Animal feeding behavior) Hibiscus trionum Humanities and Social Sciences Light Magnoliopsida - anatomy & histology multidisciplinary Nanostructures - chemistry Optical properties Periodic structures Photonics Phylogenetics Phylogeny Pollination - physiology Pollinators Science Signal transduction Signaling Surface Properties Visual signals Wavelengths Zoological research
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Abstract	Diverse forms of nanoscale architecture generate structural colour and perform signalling functions within and between species. Structural colour is the result of the interference of light from approximately regular periodic structures; some structural disorder is, however, inevitable in biological organisms. Is this disorder functional and subject to evolutionary selection, or is it simply an unavoidable outcome of biological developmental processes? Here we show that disordered nanostructures enable flowers to produce visual signals that are salient to bees. These disordered nanostructures (identified in most major lineages of angiosperms) have distinct anatomies but convergent optical properties; they all produce angle-dependent scattered light, predominantly at short wavelengths (ultraviolet and blue). We manufactured artificial flowers with nanoscale structures that possessed tailored levels of disorder in order to investigate how foraging bumblebees respond to this optical effect. We conclude that floral nanostructures have evolved, on multiple independent occasions, an effective degree of relative spatial disorder that generates a photonic signature that is highly salient to insect pollinators. Disordered nanoscale striations on petals, tepals and bracts have evolved multiple times among flowering plants and provide a salient visual signal to foraging bumblebees ( Bombus terrestris ). Pretty orderly disorder The natural world is always a bit fuzzy at the edges, but the fuzziness has a purpose. The surfaces of petals of many flowers have striations or ridges, which scatter light. But these arrays of ridges are not always arranged in a regimental order. In this paper, Beverley Glover and colleagues find that all of the flowering plants that they examined whose petals have such striations always display the same degree of disorder. This creates a 'blue halo' around the petals that pollinators find attractive. The authors find that similarly disorderly conduct happens in all flowering plants that are pollinated by insects or other animals, whereas the most primitive flowers, which are not pollinated by animals, seem not to have this capacity for orderly disorder.
AbstractList	Diverse forms of nanoscale architecture generate structural colour and perform signalling functions within and between species. Structural colour is the result of the interference of light from approximately regular periodic structures; some structural disorder is, however, inevitable in biological organisms. Is this disorder functional and subject to evolutionary selection, or is it simply an unavoidable outcome of biological developmental processes? Here we show that disordered nanostructures enable flowers to produce visual signals that are salient to bees. These disordered nanostructures (identified in most major lineages of angiosperms) have distinct anatomies but convergent optical properties; they all produce angle-dependent scattered light, predominantly at short wavelengths (ultraviolet and blue). We manufactured artificial flowers with nanoscale structures that possessed tailored levels of disorder in order to investigate how foraging bumblebees respond to this optical effect. We conclude that floral nanostructures have evolved, on multiple independent occasions, an effective degree of relative spatial disorder that generates a photonic signature that is highly salient to insect pollinators.Diverse forms of nanoscale architecture generate structural colour and perform signalling functions within and between species. Structural colour is the result of the interference of light from approximately regular periodic structures; some structural disorder is, however, inevitable in biological organisms. Is this disorder functional and subject to evolutionary selection, or is it simply an unavoidable outcome of biological developmental processes? Here we show that disordered nanostructures enable flowers to produce visual signals that are salient to bees. These disordered nanostructures (identified in most major lineages of angiosperms) have distinct anatomies but convergent optical properties; they all produce angle-dependent scattered light, predominantly at short wavelengths (ultraviolet and blue). We manufactured artificial flowers with nanoscale structures that possessed tailored levels of disorder in order to investigate how foraging bumblebees respond to this optical effect. We conclude that floral nanostructures have evolved, on multiple independent occasions, an effective degree of relative spatial disorder that generates a photonic signature that is highly salient to insect pollinators. Diverse forms of nanoscale architecture generate structural colour and perform signalling functions within and between species. Structural colour is the result of the interference of light from approximately regular periodic structures; some structural disorder is, however, inevitable in biological organisms. Is this disorder functional and subject to evolutionary selection, or is it simply an unavoidable outcome of biological developmental processes? Here we show that disordered nanostructures enable flowers to produce visual signals that are salient to bees. These disordered nanostructures (identified in most major lineages of angiosperms) have distinct anatomies but convergent optical properties; they all produce angle-dependent scattered light, predominantly at short wavelengths (ultraviolet and blue). We manufactured artificial flowers with nanoscale structures that possessed tailored levels of disorder in order to investigate how foraging bumblebees respond to this optical effect. We conclude that floral nanostructures have evolved, on multiple independent occasions, an effective degree of relative spatial disorder that generates a photonic signature that is highly salient to insect pollinators. Diverse forms of nanoscale architecture generate structural colour and perform signalling functions within and between species. Structural colour is the result of the interference of light from approximately regular periodic structures; some structural disorder is, however, inevitable in biological organisms. Is this disorder functional and subject to evolutionary selection, or is it simply an unavoidable outcome of biological developmental processes? Here we show that disordered nanostructures enable flowers to produce visual signals that are salient to bees. These disordered nanostructures (identified in most major lineages of angiosperms) have distinct anatomies but convergent optical properties; they all produce angle-dependent scattered light, predominantly at short wavelengths (ultraviolet and blue). We manufactured artificial flowers with nanoscale structures that possessed tailored levels of disorder in order to investigate how foraging bumblebees respond to this optical effect. We conclude that floral nanostructures have evolved, on multiple independent occasions, an effective degree of relative spatial disorder that generates a photonic signature that is highly salient to insect pollinators. Disordered nanoscale striations on petals, tepals and bracts have evolved multiple times among flowering plants and provide a salient visual signal to foraging bumblebees ( Bombus terrestris ). Pretty orderly disorder The natural world is always a bit fuzzy at the edges, but the fuzziness has a purpose. The surfaces of petals of many flowers have striations or ridges, which scatter light. But these arrays of ridges are not always arranged in a regimental order. In this paper, Beverley Glover and colleagues find that all of the flowering plants that they examined whose petals have such striations always display the same degree of disorder. This creates a 'blue halo' around the petals that pollinators find attractive. The authors find that similarly disorderly conduct happens in all flowering plants that are pollinated by insects or other animals, whereas the most primitive flowers, which are not pollinated by animals, seem not to have this capacity for orderly disorder.
Audience	Academic
Author	Wenzel, Tobias Steiner, Ullrich Westwood, M. Murphy Banks, Hannah Reed, Alison Killoran, Patrick Vignolini, Silvia Rudall, Paula J. Moyroud, Edwige Mellers, Greg Middleton, Rox Glover, Beverley J.
Author_xml	– sequence: 1 givenname: Edwige surname: Moyroud fullname: Moyroud, Edwige organization: Department of Plant Sciences, University of Cambridge – sequence: 2 givenname: Tobias surname: Wenzel fullname: Wenzel, Tobias organization: Department of Physics, University of Cambridge – sequence: 3 givenname: Rox surname: Middleton fullname: Middleton, Rox organization: Department of Chemistry, University of Cambridge – sequence: 4 givenname: Paula J. surname: Rudall fullname: Rudall, Paula J. organization: Royal Botanic Gardens, Kew – sequence: 5 givenname: Hannah surname: Banks fullname: Banks, Hannah organization: Royal Botanic Gardens, Kew – sequence: 6 givenname: Alison surname: Reed fullname: Reed, Alison organization: Department of Plant Sciences, University of Cambridge – sequence: 7 givenname: Greg surname: Mellers fullname: Mellers, Greg organization: Department of Plant Sciences, University of Cambridge – sequence: 8 givenname: Patrick surname: Killoran fullname: Killoran, Patrick organization: Department of Plant Sciences, University of Cambridge – sequence: 9 givenname: M. Murphy surname: Westwood fullname: Westwood, M. Murphy organization: Department of Plant Sciences, University of Cambridge – sequence: 10 givenname: Ullrich surname: Steiner fullname: Steiner, Ullrich organization: Department of Physics, University of Cambridge, Adolphe Merkle Institute – sequence: 11 givenname: Silvia surname: Vignolini fullname: Vignolini, Silvia email: sv319@cam.ac.uk organization: Department of Chemistry, University of Cambridge – sequence: 12 givenname: Beverley J. surname: Glover fullname: Glover, Beverley J. email: bjg26@cam.ac.uk organization: Department of Plant Sciences, University of Cambridge
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/29045384$$D View this record in MEDLINE/PubMed
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Copyright	Macmillan Publishers Limited, part of Springer Nature. All rights reserved. 2017 COPYRIGHT 2017 Nature Publishing Group Copyright Nature Publishing Group Oct 26, 2017
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Snippet	Diverse forms of nanoscale architecture generate structural colour and perform signalling functions within and between species. Structural colour is the result...
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SubjectTerms	631/158/857 631/181/2481 631/449/2669 639/301/357 639/624/399 Angiosperms Animals Bees Bees - physiology Behavior Biological activity Biological evolution Bombus Bombus terrestris Bumblebees Color Convergence Environmental aspects Flowers Flowers & plants Flowers - anatomy & histology Forage Foraging (Animal feeding behavior) Hibiscus trionum Humanities and Social Sciences Light Magnoliopsida - anatomy & histology multidisciplinary Nanostructures - chemistry Optical properties Periodic structures Photonics Phylogenetics Phylogeny Pollination - physiology Pollinators Science Signal transduction Signaling Surface Properties Visual signals Wavelengths Zoological research
Title	Disorder in convergent floral nanostructures enhances signalling to bees
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