Is the flower fluorescence relevant in biocommunication?

Flower fluorescence has been previously proposed as a potential visual signal to attract pollinators. In this work, this point was addressed by quantitatively measuring the fluorescence quantum yield (Φf) for flowers of Bellis perennis (white, yellow, pink, and purple), Ornithogalum thyrsoides (peta...

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Autores principales: Iriel, A., Lagorio, M.G.
Formato: JOUR
Materias:
Bee photosensors
Birds photosensors
Pollinators
Quantum catches
Visual signaling
bee
bird
dicotyledon
fluorescence
physiological response
quantitative analysis
visual cue
article
citrus fruit
color
flower
interpersonal communication
light
Ornithogalum
photon
physiology
spectrophotometry
Citrus
Color
Communication
Flowers
Fluorescence
Light
Photons
Spectrophotometry
Antirrhinum
Antirrhinum majus
Apoidea
Aves
Bellis perennis
Bougainvillea spectabilis
Citrus aurantium
Eustoma grandiflorum
Lampranthus
Limonium sinuatum
Ornithogalum thyrsoides
Petunia
Petunia nyctaginiflora
Portulaca grandiflora
Portulacaceae
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00281042_v97_n10_p915_Iriel
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00281042_v97_n10_p915_Iriel
record_format dspace
spelling todo:paper_00281042_v97_n10_p915_Iriel2023-10-03T14:38:40Z Is the flower fluorescence relevant in biocommunication? Iriel, A. Lagorio, M.G. Bee photosensors Birds photosensors Pollinators Quantum catches Visual signaling bee bird dicotyledon fluorescence physiological response quantitative analysis visual cue article citrus fruit color flower fluorescence interpersonal communication light Ornithogalum photon physiology spectrophotometry Citrus Color Communication Flowers Fluorescence Light Ornithogalum Photons Spectrophotometry Antirrhinum Antirrhinum majus Apoidea Aves Bellis perennis Bougainvillea spectabilis Citrus aurantium Eustoma grandiflorum Lampranthus Limonium sinuatum Ornithogalum Ornithogalum thyrsoides Petunia Petunia nyctaginiflora Portulaca grandiflora Portulacaceae Flower fluorescence has been previously proposed as a potential visual signal to attract pollinators. In this work, this point was addressed by quantitatively measuring the fluorescence quantum yield (Φf) for flowers of Bellis perennis (white, yellow, pink, and purple), Ornithogalum thyrsoides (petals and ovaries), Limonium sinuatum (white and yellow), Lampranthus productus (yellow), Petunia nyctaginiflora (white), Bougainvillea spectabilis (white and yellow), Antirrhinum majus (white and yellow), Eustoma grandiflorum (white and blue), Citrus aurantium (petals and stigma), and Portulaca grandiflora (yellow). The highest values were obtained for the ovaries of O. thyrsoides (Φf=0.030) and for Citrus aurantium petals (Φf=0.014) and stigma (Φf=0.013). Emitted photons as fluorescence were compared with reflected photons. It was concluded that the fluorescence emission is negligible compared to the reflected light, even for the most fluorescent samples, and it may not be considered as an optical signal in biocommunication. The work was complemented with the calculation of quantum catches for each studied flower species to describe the visual sensitization of eye photoreceptors. © 2010 Springer-Verlag. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00281042_v97_n10_p915_Iriel
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Bee photosensors
Birds photosensors
Pollinators
Quantum catches
Visual signaling
bee
bird
dicotyledon
fluorescence
physiological response
quantitative analysis
visual cue
article
citrus fruit
color
flower
fluorescence
interpersonal communication
light
Ornithogalum
photon
physiology
spectrophotometry
Citrus
Color
Communication
Flowers
Fluorescence
Light
Ornithogalum
Photons
Spectrophotometry
Antirrhinum
Antirrhinum majus
Apoidea
Aves
Bellis perennis
Bougainvillea spectabilis
Citrus aurantium
Eustoma grandiflorum
Lampranthus
Limonium sinuatum
Ornithogalum
Ornithogalum thyrsoides
Petunia
Petunia nyctaginiflora
Portulaca grandiflora
Portulacaceae
spellingShingle Bee photosensors
Birds photosensors
Pollinators
Quantum catches
Visual signaling
bee
bird
dicotyledon
fluorescence
physiological response
quantitative analysis
visual cue
article
citrus fruit
color
flower
fluorescence
interpersonal communication
light
Ornithogalum
photon
physiology
spectrophotometry
Citrus
Color
Communication
Flowers
Fluorescence
Light
Ornithogalum
Photons
Spectrophotometry
Antirrhinum
Antirrhinum majus
Apoidea
Aves
Bellis perennis
Bougainvillea spectabilis
Citrus aurantium
Eustoma grandiflorum
Lampranthus
Limonium sinuatum
Ornithogalum
Ornithogalum thyrsoides
Petunia
Petunia nyctaginiflora
Portulaca grandiflora
Portulacaceae
Iriel, A.
Lagorio, M.G.
Is the flower fluorescence relevant in biocommunication?
topic_facet Bee photosensors
Birds photosensors
Pollinators
Quantum catches
Visual signaling
bee
bird
dicotyledon
fluorescence
physiological response
quantitative analysis
visual cue
article
citrus fruit
color
flower
fluorescence
interpersonal communication
light
Ornithogalum
photon
physiology
spectrophotometry
Citrus
Color
Communication
Flowers
Fluorescence
Light
Ornithogalum
Photons
Spectrophotometry
Antirrhinum
Antirrhinum majus
Apoidea
Aves
Bellis perennis
Bougainvillea spectabilis
Citrus aurantium
Eustoma grandiflorum
Lampranthus
Limonium sinuatum
Ornithogalum
Ornithogalum thyrsoides
Petunia
Petunia nyctaginiflora
Portulaca grandiflora
Portulacaceae
description Flower fluorescence has been previously proposed as a potential visual signal to attract pollinators. In this work, this point was addressed by quantitatively measuring the fluorescence quantum yield (Φf) for flowers of Bellis perennis (white, yellow, pink, and purple), Ornithogalum thyrsoides (petals and ovaries), Limonium sinuatum (white and yellow), Lampranthus productus (yellow), Petunia nyctaginiflora (white), Bougainvillea spectabilis (white and yellow), Antirrhinum majus (white and yellow), Eustoma grandiflorum (white and blue), Citrus aurantium (petals and stigma), and Portulaca grandiflora (yellow). The highest values were obtained for the ovaries of O. thyrsoides (Φf=0.030) and for Citrus aurantium petals (Φf=0.014) and stigma (Φf=0.013). Emitted photons as fluorescence were compared with reflected photons. It was concluded that the fluorescence emission is negligible compared to the reflected light, even for the most fluorescent samples, and it may not be considered as an optical signal in biocommunication. The work was complemented with the calculation of quantum catches for each studied flower species to describe the visual sensitization of eye photoreceptors. © 2010 Springer-Verlag.
format JOUR
author Iriel, A.
Lagorio, M.G.
author_facet Iriel, A.
Lagorio, M.G.
author_sort Iriel, A.
title Is the flower fluorescence relevant in biocommunication?
title_short Is the flower fluorescence relevant in biocommunication?
title_full Is the flower fluorescence relevant in biocommunication?
title_fullStr Is the flower fluorescence relevant in biocommunication?
title_full_unstemmed Is the flower fluorescence relevant in biocommunication?
title_sort is the flower fluorescence relevant in biocommunication?
url http://hdl.handle.net/20.500.12110/paper_00281042_v97_n10_p915_Iriel
work_keys_str_mv AT iriela istheflowerfluorescencerelevantinbiocommunication
AT lagoriomg istheflowerfluorescencerelevantinbiocommunication
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