Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction

Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction

Abstract Insect outbreaks often occur in the absence of natural enemies and in the presence of excess suitable host materials. Outbreaks of gypsy moths are especially problematic in remote areas located in high-latitude regions in Japan because the majority of adults emerge during the short summer s...

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Main Authors: Masahiro Komatsu, Keigo Kurihara, Susumu Saito, Mana Domae, Naoki Masuya, Yuta Shimura, Shunichiro Kajiyama, Yuna Kanda, Kouki Sugizaki, Kouji Ebina, Osamu Ikeda, Yudai Moriwaki, Naohiro Atsumi, Katsuyoshi Abe, Tadashi Maruyama, Satoshi Watanabe, Hiroshi Nishino
Format: Article
Language:English
Published: BMC 2020-11-01
Series:Zoological Letters
Subjects:
Gypsy moth
Oak silkmoth
Chafer
Fluorescent light
Light emitting diode (LED)
Light trap
Online Access:http://link.springer.com/article/10.1186/s40851-020-00163-7
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spelling doaj-77cb3b9fc5a34e8f86c66fff0b41baa22020-11-26T12:52:13ZengBMCZoological Letters2056-306X2020-11-016111510.1186/s40851-020-00163-7Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attractionMasahiro Komatsu0Keigo Kurihara1Susumu Saito2Mana Domae3Naoki Masuya4Yuta Shimura5Shunichiro Kajiyama6Yuna Kanda7Kouki Sugizaki8Kouji Ebina9Osamu Ikeda10Yudai Moriwaki11Naohiro Atsumi12Katsuyoshi Abe13Tadashi Maruyama14Satoshi Watanabe15Hiroshi Nishino16Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Nexco-Engineering Hokkaido Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Research Institute for Electronic Science, Hokkaido UniversityTechnology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Laboratory of Biology, Hokkaido University of EducationTechnology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Technology Planning Section, Hokkaido Regional Head Office, East Nippon Expressway Co., Ltd.Research Institute for Electronic Science, Hokkaido UniversityAbstract Insect outbreaks often occur in the absence of natural enemies and in the presence of excess suitable host materials. Outbreaks of gypsy moths are especially problematic in remote areas located in high-latitude regions in Japan because the majority of adults emerge during the short summer season and initiate synchronous mass flight toward artificial lights. The aggregation of moths in public facilities not only is an annoyance to visitors but also permits the establishment of new populations the following year. The aim of this study was to establish a method to reduce the numbers of large moths that are attracted to lights in the rest areas of expressways in Hokkaido based on the results of research on their behavioral ecology and physiology. First, we conducted extensive insect surveys using light traps that emit light at different wavelengths; the traps were set along the expressways in the summers of 2014–2018. The insects attracted to the light were roughly classified into those showing a preference for broadband light wavelengths (from UV-A to green) and short light wavelengths (from UV-A to blue). The former included aquatic insects and winged ants, and the latter included moths and beetles. Next, we analyzed correlations between moth emergence and daily meteorological data. When gypsy moths were abundant during an outbreak, the daily catch of gypsy moths was positively correlated with the highest ambient temperature on the catch day but not with the visibility range, wind speed, or moon phase. In contrast, the daily catch of oak silkmoths did not correlate with any of these parameters. Our results provide guidance for the management of forest insects inhabiting cool-temperate to subarctic regions based on light wavelengths with reference to weather variables.http://link.springer.com/article/10.1186/s40851-020-00163-7Gypsy mothOak silkmothChaferFluorescent lightLight emitting diode (LED)Light trap
collection DOAJ
language English
format Article
sources DOAJ
author Masahiro Komatsu
Keigo Kurihara
Susumu Saito
Mana Domae
Naoki Masuya
Yuta Shimura
Shunichiro Kajiyama
Yuna Kanda
Kouki Sugizaki
Kouji Ebina
Osamu Ikeda
Yudai Moriwaki
Naohiro Atsumi
Katsuyoshi Abe
Tadashi Maruyama
Satoshi Watanabe
Hiroshi Nishino
spellingShingle Masahiro Komatsu
Keigo Kurihara
Susumu Saito
Mana Domae
Naoki Masuya
Yuta Shimura
Shunichiro Kajiyama
Yuna Kanda
Kouki Sugizaki
Kouji Ebina
Osamu Ikeda
Yudai Moriwaki
Naohiro Atsumi
Katsuyoshi Abe
Tadashi Maruyama
Satoshi Watanabe
Hiroshi Nishino
Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction
Zoological Letters
Gypsy moth
Oak silkmoth
Chafer
Fluorescent light
Light emitting diode (LED)
Light trap
author_facet Masahiro Komatsu
Keigo Kurihara
Susumu Saito
Mana Domae
Naoki Masuya
Yuta Shimura
Shunichiro Kajiyama
Yuna Kanda
Kouki Sugizaki
Kouji Ebina
Osamu Ikeda
Yudai Moriwaki
Naohiro Atsumi
Katsuyoshi Abe
Tadashi Maruyama
Satoshi Watanabe
Hiroshi Nishino
author_sort Masahiro Komatsu
title Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction
title_short Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction
title_full Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction
title_fullStr Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction
title_full_unstemmed Management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction
title_sort management of flying insects on expressways through an academic-industrial collaboration: evaluation of the effect of light wavelengths and meteorological factors on insect attraction
publisher BMC
series Zoological Letters
issn 2056-306X
publishDate 2020-11-01
description Abstract Insect outbreaks often occur in the absence of natural enemies and in the presence of excess suitable host materials. Outbreaks of gypsy moths are especially problematic in remote areas located in high-latitude regions in Japan because the majority of adults emerge during the short summer season and initiate synchronous mass flight toward artificial lights. The aggregation of moths in public facilities not only is an annoyance to visitors but also permits the establishment of new populations the following year. The aim of this study was to establish a method to reduce the numbers of large moths that are attracted to lights in the rest areas of expressways in Hokkaido based on the results of research on their behavioral ecology and physiology. First, we conducted extensive insect surveys using light traps that emit light at different wavelengths; the traps were set along the expressways in the summers of 2014–2018. The insects attracted to the light were roughly classified into those showing a preference for broadband light wavelengths (from UV-A to green) and short light wavelengths (from UV-A to blue). The former included aquatic insects and winged ants, and the latter included moths and beetles. Next, we analyzed correlations between moth emergence and daily meteorological data. When gypsy moths were abundant during an outbreak, the daily catch of gypsy moths was positively correlated with the highest ambient temperature on the catch day but not with the visibility range, wind speed, or moon phase. In contrast, the daily catch of oak silkmoths did not correlate with any of these parameters. Our results provide guidance for the management of forest insects inhabiting cool-temperate to subarctic regions based on light wavelengths with reference to weather variables.
topic Gypsy moth
Oak silkmoth
Chafer
Fluorescent light
Light emitting diode (LED)
Light trap
url http://link.springer.com/article/10.1186/s40851-020-00163-7
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