Optical tracking and laser-induced mortality of insects during flight

Addressing the need for novel insect observation and control tools, the Photonic Fence detects and tracks mosquitoes and other flying insects and can apply lethal doses of laser light to them. Previously, we determined lethal exposure levels for a variety of lasers and pulse conditions on anesthetiz...

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Published inScientific reports Vol. 10; no. 1; p. 14795
Main Authors Keller, Matthew D., Norton, Bryan J., Farrar, David J., Rutschman, Phil, Marvit, Maclen, Makagon, Arty
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 09.09.2020
Nature Publishing Group
Subjects
631/601/1466
639/624/1107/510
639/624/1111/55
704/158
Animals
Aquatic insects
Bladder
Central nervous system
Contractility
Dorsal root ganglia
Dose-Response Relationship, Radiation
Flight behavior
Flight, Animal - radiation effects
Humanities and Social Sciences
Insecta - radiation effects
Lasers
Mechanical stimuli
Mortality
Mosquitoes
multidisciplinary
Muscle contraction
Pressure
Retina - radiation effects
Science
Science (multidisciplinary)
Sensory neurons
Urinary bladder
Urinary tract
Urination
Urogenital system
Wavelengths
Online AccessGet full text
ISSN2045-2322
2045-2322
DOI10.1038/s41598-020-71824-y

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Abstract Addressing the need for novel insect observation and control tools, the Photonic Fence detects and tracks mosquitoes and other flying insects and can apply lethal doses of laser light to them. Previously, we determined lethal exposure levels for a variety of lasers and pulse conditions on anesthetized Anopheles stephensi mosquitoes. In this work, similar studies were performed while the subjects were freely flying within transparent cages two meters from the optical system; a proof-of-principle demonstration of a 30 m system was also performed. From the dose–response curves of mortality data created as a function of various beam diameter, pulse width, and power conditions at visible and near-infrared wavelengths, the visible wavelengths required significantly lower laser exposure than near infrared wavelengths to disable subjects, though near infrared sources remain attractive given their cost and retina safety. The flight behavior of the subjects and the performance of the tracking system were found to have no impact on the mortality outcomes for pulse durations up to 25 ms, which appears to be the ideal duration to minimize required laser power. The results of this study affirm the practicality of using optical approaches to protect people and crops from pestilent flying insects.
AbstractList Addressing the need for novel insect observation and control tools, the Photonic Fence detects and tracks mosquitoes and other flying insects and can apply lethal doses of laser light to them. Previously, we determined lethal exposure levels for a variety of lasers and pulse conditions on anesthetized Anopheles stephensi mosquitoes. In this work, similar studies were performed while the subjects were freely flying within transparent cages two meters from the optical system; a proof-of-principle demonstration of a 30 m system was also performed. From the dose-response curves of mortality data created as a function of various beam diameter, pulse width, and power conditions at visible and near-infrared wavelengths, the visible wavelengths required significantly lower laser exposure than near infrared wavelengths to disable subjects, though near infrared sources remain attractive given their cost and retina safety. The flight behavior of the subjects and the performance of the tracking system were found to have no impact on the mortality outcomes for pulse durations up to 25 ms, which appears to be the ideal duration to minimize required laser power. The results of this study affirm the practicality of using optical approaches to protect people and crops from pestilent flying insects.
Addressing the need for novel insect observation and control tools, the Photonic Fence detects and tracks mosquitoes and other flying insects and can apply lethal doses of laser light to them. Previously, we determined lethal exposure levels for a variety of lasers and pulse conditions on anesthetized Anopheles stephensi mosquitoes. In this work, similar studies were performed while the subjects were freely flying within transparent cages two meters from the optical system; a proof-of-principle demonstration of a 30 m system was also performed. From the dose–response curves of mortality data created as a function of various beam diameter, pulse width, and power conditions at visible and near-infrared wavelengths, the visible wavelengths required significantly lower laser exposure than near infrared wavelengths to disable subjects, though near infrared sources remain attractive given their cost and retina safety. The flight behavior of the subjects and the performance of the tracking system were found to have no impact on the mortality outcomes for pulse durations up to 25 ms, which appears to be the ideal duration to minimize required laser power. The results of this study affirm the practicality of using optical approaches to protect people and crops from pestilent flying insects.
Addressing the need for novel insect observation and control tools, the Photonic Fence detects and tracks mosquitoes and other flying insects and can apply lethal doses of laser light to them. Previously, we determined lethal exposure levels for a variety of lasers and pulse conditions on anesthetized Anopheles stephensi mosquitoes. In this work, similar studies were performed while the subjects were freely flying within transparent cages two meters from the optical system; a proof-of-principle demonstration of a 30 m system was also performed. From the dose-response curves of mortality data created as a function of various beam diameter, pulse width, and power conditions at visible and near-infrared wavelengths, the visible wavelengths required significantly lower laser exposure than near infrared wavelengths to disable subjects, though near infrared sources remain attractive given their cost and retina safety. The flight behavior of the subjects and the performance of the tracking system were found to have no impact on the mortality outcomes for pulse durations up to 25 ms, which appears to be the ideal duration to minimize required laser power. The results of this study affirm the practicality of using optical approaches to protect people and crops from pestilent flying insects.Addressing the need for novel insect observation and control tools, the Photonic Fence detects and tracks mosquitoes and other flying insects and can apply lethal doses of laser light to them. Previously, we determined lethal exposure levels for a variety of lasers and pulse conditions on anesthetized Anopheles stephensi mosquitoes. In this work, similar studies were performed while the subjects were freely flying within transparent cages two meters from the optical system; a proof-of-principle demonstration of a 30 m system was also performed. From the dose-response curves of mortality data created as a function of various beam diameter, pulse width, and power conditions at visible and near-infrared wavelengths, the visible wavelengths required significantly lower laser exposure than near infrared wavelengths to disable subjects, though near infrared sources remain attractive given their cost and retina safety. The flight behavior of the subjects and the performance of the tracking system were found to have no impact on the mortality outcomes for pulse durations up to 25 ms, which appears to be the ideal duration to minimize required laser power. The results of this study affirm the practicality of using optical approaches to protect people and crops from pestilent flying insects.
Addressing the need for novel insect observation and control tools, the Photonic Fence detects and tracks mosquitoes and other flying insects and can apply lethal doses of laser light to them. Previously, we determined lethal exposure levels for a variety of lasers and pulse conditions on anesthetized Anopheles stephensi mosquitoes. In this work, similar studies were performed while the subjects were freely flying within transparent cages two meters from the optical system; a proof-of-principle demonstration of a 30 m system was also performed. From the dose–response curves of mortality data created as a function of various beam diameter, pulse width, and power conditions at visible and near-infrared wavelengths, the visible wavelengths required significantly lower laser exposure than near infrared wavelengths to disable subjects, though near infrared sources remain attractive given their cost and retina safety. The flight behavior of the subjects and the performance of the tracking system were found to have no impact on the mortality outcomes for pulse durations up to 25 ms, which appears to be the ideal duration to minimize required laser power. The results of this study affirm the practicality of using optical approaches to protect people and crops from pestilent flying insects.
ArticleNumber 14795
Author Norton, Bryan J.
Rutschman, Phil
Farrar, David J.
Marvit, Maclen
Makagon, Arty
Keller, Matthew D.
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CitedBy_id crossref_primary_10_3390_agriengineering4040058
crossref_primary_10_1016_j_optcom_2023_130239
crossref_primary_10_1186_s13071_025_06666_6
crossref_primary_10_3389_fagro_2023_1198840
crossref_primary_10_1098_rsos_240923
crossref_primary_10_3390_insects15050342
crossref_primary_10_3390_insects15060373
crossref_primary_10_1038_s41598_024_57804_6
crossref_primary_10_1007_s11554_021_01079_x
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References_xml – reference: GrayTJWebbCEA review of the epidemiological and clinical aspects of West Nile virusInt. J. Gen. Med.2014719320310.2147/IJGM.S59902
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SubjectTerms 631/601/1466
639/624/1107/510
639/624/1111/55
704/158
Animals
Aquatic insects
Bladder
Central nervous system
Contractility
Dorsal root ganglia
Dose-Response Relationship, Radiation
Flight behavior
Flight, Animal - radiation effects
Humanities and Social Sciences
Insecta - radiation effects
Lasers
Mechanical stimuli
Mortality
Mosquitoes
multidisciplinary
Muscle contraction
Pressure
Retina - radiation effects
Science
Science (multidisciplinary)
Sensory neurons
Urinary bladder
Urinary tract
Urination
Urogenital system
Wavelengths
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