Overview of Technological Advances Toward Greater Efficiency and Efficacy in Sterile Insect-Inherited Sterility Programs Against Moth Pests

Overview of Technological Advances Toward Greater Efficiency and Efficacy in Sterile Insect-Inherited Sterility Programs Against Moth Pests

Lepidopteran species are amongst the most damaging pests of food and fiber crops world-wide. Pest lepidopterans are often managed injudiciously by spraying crops with large amounts of broad-spectrum—and often—persistent insecticides. In view of increased occurrence of resistance against these insect...

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Veröffentlicht in:The Florida entomologist 2016-06, Vol.99 (sp1), p.1-12
Hauptverfasser: Vreysen, Marc J. B, Klassen, Waldemar, Carpenter, James E
Format: Artikel
Sprache:eng
Schlagworte:
adaptación al frío
atrayente de hembras
biological control
Butterflies & moths
cage studies
capacidad de vuelo
Chromosomes
cold adaptation
colonización
colonization
compatibilidad del apareamiento
competitiveness
competitividad
competitividad del apareamiento
conspecific larvae-infested host
Control
control biológico
cría en masa
desempeño en el campo
dispersal
dispersión
Efficiency
estado del apareamiento
estudios de campo abierto
estudios de jaula
female attractant
Females
field performance
firma de isótopos naturales
flight ability
hospederos infestados con larvas conespecíficas
host-derived kairomone
Insect sterilization
Insects
INTRODUCTION AND THEORETICAL/PRACTICAL FRAMEWORK
irradiación
irradiation
kairomona derivada del hospedero
Lepidoptera
Males
marcado
marking
mass-rearing
mating compatibility
mating competitiveness
mating status
Methods
modelado
modeling
Moths
natural isotope signature
open field studies
Pest control
Quality
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Klassen, Waldemar
Carpenter, James E
description Lepidopteran species are amongst the most damaging pests of food and fiber crops world-wide. Pest lepidopterans are often managed injudiciously by spraying crops with large amounts of broad-spectrum—and often—persistent insecticides. In view of increased occurrence of resistance against these insecticides, and their negative impacts on the environment and ecosystems, the need for control tactics that are not only effective but also friendlier to the environment is becoming more and more pressing. Both the sterile insect technique (SIT), and the related inherited sterility (IS) technique offer great potential as additional control tactics for integration with other control methods in area-wide integrated pest management approaches against lepidopteran pests. However the SIT/IS can only be applied successfully when the released sterile insects can effectively compete with their wild counterparts for mating with wild females. Although there are a number of programs where the SIT has been used very effectively against key lepidopteran pests, there is great potential for further expansion of the SIT/IS technology to target other key lepidopteran pests, or to improve the SIT/IS for already targeted Lepidoptera. Such expansion could be facilitated through improvements of mass-rearing, measurement and control of quality, handling, irradiation, shipping, release and field assessment technologies that would increase program efficiency and efficacy. To foster such advances, the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture, implemented a Coordinated Research Project (CRP) from 2008 to 2014 entitled “Increasing the efficiency of Lepidoptera SIT by enhanced quality control”. This Project organized and sponsored research and development on the following key objectives: (1) identify and investigate factors and variables affecting the quality of the produced and released insects and their field performance, (2) identify and develop new tools and methods to assess and predict the field performance of sterile insects, and (3) improve the artificial rearing of several moth species through a better understanding and management of genetic resources. The key research outputs of the CRP are summarized in this paper.
doi_str_mv 10.1653/024.099.sp102
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This Project organized and sponsored research and development on the following key objectives: (1) identify and investigate factors and variables affecting the quality of the produced and released insects and their field performance, (2) identify and develop new tools and methods to assess and predict the field performance of sterile insects, and (3) improve the artificial rearing of several moth species through a better understanding and management of genetic resources. 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B</creatorcontrib><creatorcontrib>Klassen, Waldemar</creatorcontrib><creatorcontrib>Carpenter, James E</creatorcontrib><title>Overview of Technological Advances Toward Greater Efficiency and Efficacy in Sterile Insect-Inherited Sterility Programs Against Moth Pests</title><title>The Florida entomologist</title><description>Lepidopteran species are amongst the most damaging pests of food and fiber crops world-wide. Pest lepidopterans are often managed injudiciously by spraying crops with large amounts of broad-spectrum—and often—persistent insecticides. In view of increased occurrence of resistance against these insecticides, and their negative impacts on the environment and ecosystems, the need for control tactics that are not only effective but also friendlier to the environment is becoming more and more pressing. Both the sterile insect technique (SIT), and the related inherited sterility (IS) technique offer great potential as additional control tactics for integration with other control methods in area-wide integrated pest management approaches against lepidopteran pests. However the SIT/IS can only be applied successfully when the released sterile insects can effectively compete with their wild counterparts for mating with wild females. Although there are a number of programs where the SIT has been used very effectively against key lepidopteran pests, there is great potential for further expansion of the SIT/IS technology to target other key lepidopteran pests, or to improve the SIT/IS for already targeted Lepidoptera. Such expansion could be facilitated through improvements of mass-rearing, measurement and control of quality, handling, irradiation, shipping, release and field assessment technologies that would increase program efficiency and efficacy. 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In view of increased occurrence of resistance against these insecticides, and their negative impacts on the environment and ecosystems, the need for control tactics that are not only effective but also friendlier to the environment is becoming more and more pressing. Both the sterile insect technique (SIT), and the related inherited sterility (IS) technique offer great potential as additional control tactics for integration with other control methods in area-wide integrated pest management approaches against lepidopteran pests. However the SIT/IS can only be applied successfully when the released sterile insects can effectively compete with their wild counterparts for mating with wild females. Although there are a number of programs where the SIT has been used very effectively against key lepidopteran pests, there is great potential for further expansion of the SIT/IS technology to target other key lepidopteran pests, or to improve the SIT/IS for already targeted Lepidoptera. Such expansion could be facilitated through improvements of mass-rearing, measurement and control of quality, handling, irradiation, shipping, release and field assessment technologies that would increase program efficiency and efficacy. To foster such advances, the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture, implemented a Coordinated Research Project (CRP) from 2008 to 2014 entitled “Increasing the efficiency of Lepidoptera SIT by enhanced quality control”. This Project organized and sponsored research and development on the following key objectives: (1) identify and investigate factors and variables affecting the quality of the produced and released insects and their field performance, (2) identify and develop new tools and methods to assess and predict the field performance of sterile insects, and (3) improve the artificial rearing of several moth species through a better understanding and management of genetic resources. 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source DOAJ Directory of Open Access Journals; BioOne Open Access Titles; Jstor Journals Open Access; EZB Electronic Journals Library
subjects adaptación al frío
atrayente de hembras
biological control
Butterflies & moths
cage studies
capacidad de vuelo
Chromosomes
cold adaptation
colonización
colonization
compatibilidad del apareamiento
competitiveness
competitividad
competitividad del apareamiento
conspecific larvae-infested host
Control
control biológico
cría en masa
desempeño en el campo
dispersal
dispersión
Efficiency
estado del apareamiento
estudios de campo abierto
estudios de jaula
female attractant
Females
field performance
firma de isótopos naturales
flight ability
hospederos infestados con larvas conespecíficas
host-derived kairomone
Insect sterilization
Insects
INTRODUCTION AND THEORETICAL/PRACTICAL FRAMEWORK
irradiación
irradiation
kairomona derivada del hospedero
Lepidoptera
Males
marcado
marking
mass-rearing
mating compatibility
mating competitiveness
mating status
Methods
modelado
modeling
Moths
natural isotope signature
open field studies
Pest control
Quality
title Overview of Technological Advances Toward Greater Efficiency and Efficacy in Sterile Insect-Inherited Sterility Programs Against Moth Pests
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