Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system

Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system

Natural mortality of eggs and larvae after 24 h in mature green avocado fruit and efficacy of a heat treatment (40°C) applied to infested fruit were determined for 3 species of tephritid fruit flies. The estimated populations of each immature developmental stage in the fruit were calculated from estimates of the total numbers of eggs or larvae placed in the fruit or from actual numbers of insects that survived to pupae in untreated (control) fruit. Significant natural mortality was associated with the insects being present in the fruit without a postharvest heat treatment. A subsequent heat treatment (40°C, 24 h) further reduced the estimated surviving population by 99.5-100 percent. A hypothetical population of 100.000 eggs or larvae was subjected to a sequential mortality model in which the likelihood of survival of the various immature stages in the fruit, as well as after a heat treatment was determined based on the above mortality estimates. Immatures that survived both the initial natural mortality within fruit and the heat treatment were once again subjected to further stage-specific mortality within fruits. Application of the sequential mortality concept to both Mediterranean fruit fly, Ceratitis capitata (Weidemann), and melon fly, Bactrocera cucurbitae (Coquillet), in the avocado system would be sufficient to meet probit 9 (99.9968 percent mortality) security using our model. Oriental fruit fly, Bacterocera dorsalis (Hendel), eggs and 3rd instars would not meet probit 9 quarantine security. The implications of this study to systems approaches to quarantine security and risk are discussed.

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Bibliographic Details
Main Author: 80446 Jang, E.B.
Format: biblioteca
Language:spa
Published: Ago
Subjects:PERSEA AMERICANA, TEPHRITIDAE, VARIEDADES, PLAGAS DE PLANTAS, MORBOSIDAD, TRATAMIENTO TERMICO, CUARENTENA, TECNICAS DE AISLAMIENTO, TECNOLOGIA POSTCOSECHA, CONTROL DE PLAGAS,
Online Access:https://doi.org/10.1093/jee/89.4.950
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spelling KOHA-OAI-BVE:1172752022-05-09T22:32:37ZSystems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system 80446 Jang, E.B. Ago 1996spaNatural mortality of eggs and larvae after 24 h in mature green avocado fruit and efficacy of a heat treatment (40°C) applied to infested fruit were determined for 3 species of tephritid fruit flies. The estimated populations of each immature developmental stage in the fruit were calculated from estimates of the total numbers of eggs or larvae placed in the fruit or from actual numbers of insects that survived to pupae in untreated (control) fruit. Significant natural mortality was associated with the insects being present in the fruit without a postharvest heat treatment. A subsequent heat treatment (40°C, 24 h) further reduced the estimated surviving population by 99.5-100 percent. A hypothetical population of 100.000 eggs or larvae was subjected to a sequential mortality model in which the likelihood of survival of the various immature stages in the fruit, as well as after a heat treatment was determined based on the above mortality estimates. Immatures that survived both the initial natural mortality within fruit and the heat treatment were once again subjected to further stage-specific mortality within fruits. Application of the sequential mortality concept to both Mediterranean fruit fly, Ceratitis capitata (Weidemann), and melon fly, Bactrocera cucurbitae (Coquillet), in the avocado system would be sufficient to meet probit 9 (99.9968 percent mortality) security using our model. Oriental fruit fly, Bacterocera dorsalis (Hendel), eggs and 3rd instars would not meet probit 9 quarantine security. The implications of this study to systems approaches to quarantine security and risk are discussed.Incluye 18 referencias bibliográficasNatural mortality of eggs and larvae after 24 h in mature green avocado fruit and efficacy of a heat treatment (40°C) applied to infested fruit were determined for 3 species of tephritid fruit flies. The estimated populations of each immature developmental stage in the fruit were calculated from estimates of the total numbers of eggs or larvae placed in the fruit or from actual numbers of insects that survived to pupae in untreated (control) fruit. Significant natural mortality was associated with the insects being present in the fruit without a postharvest heat treatment. A subsequent heat treatment (40°C, 24 h) further reduced the estimated surviving population by 99.5-100 percent. A hypothetical population of 100.000 eggs or larvae was subjected to a sequential mortality model in which the likelihood of survival of the various immature stages in the fruit, as well as after a heat treatment was determined based on the above mortality estimates. Immatures that survived both the initial natural mortality within fruit and the heat treatment were once again subjected to further stage-specific mortality within fruits. Application of the sequential mortality concept to both Mediterranean fruit fly, Ceratitis capitata (Weidemann), and melon fly, Bactrocera cucurbitae (Coquillet), in the avocado system would be sufficient to meet probit 9 (99.9968 percent mortality) security using our model. Oriental fruit fly, Bacterocera dorsalis (Hendel), eggs and 3rd instars would not meet probit 9 quarantine security. The implications of this study to systems approaches to quarantine security and risk are discussed.PERSEA AMERICANATEPHRITIDAEVARIEDADESPLAGAS DE PLANTASMORBOSIDADTRATAMIENTO TERMICOCUARENTENATECNICAS DE AISLAMIENTOTECNOLOGIA POSTCOSECHACONTROL DE PLAGASJournal of Economic Entomology (EUA)https://doi.org/10.1093/jee/89.4.950
institution IICA
collection Koha
country Costa Rica
countrycode CR
component Bibliográfico
access En linea
En linea
databasecode cat-sibiica
tag biblioteca
region America Central
libraryname Sistema de Bibliotecas IICA/CATIE
language spa
topic PERSEA AMERICANA
TEPHRITIDAE
VARIEDADES
PLAGAS DE PLANTAS
MORBOSIDAD
TRATAMIENTO TERMICO
CUARENTENA
TECNICAS DE AISLAMIENTO
TECNOLOGIA POSTCOSECHA
CONTROL DE PLAGAS
PERSEA AMERICANA
TEPHRITIDAE
VARIEDADES
PLAGAS DE PLANTAS
MORBOSIDAD
TRATAMIENTO TERMICO
CUARENTENA
TECNICAS DE AISLAMIENTO
TECNOLOGIA POSTCOSECHA
CONTROL DE PLAGAS
spellingShingle PERSEA AMERICANA
TEPHRITIDAE
VARIEDADES
PLAGAS DE PLANTAS
MORBOSIDAD
TRATAMIENTO TERMICO
CUARENTENA
TECNICAS DE AISLAMIENTO
TECNOLOGIA POSTCOSECHA
CONTROL DE PLAGAS
PERSEA AMERICANA
TEPHRITIDAE
VARIEDADES
PLAGAS DE PLANTAS
MORBOSIDAD
TRATAMIENTO TERMICO
CUARENTENA
TECNICAS DE AISLAMIENTO
TECNOLOGIA POSTCOSECHA
CONTROL DE PLAGAS
80446 Jang, E.B.
Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system
description Natural mortality of eggs and larvae after 24 h in mature green avocado fruit and efficacy of a heat treatment (40°C) applied to infested fruit were determined for 3 species of tephritid fruit flies. The estimated populations of each immature developmental stage in the fruit were calculated from estimates of the total numbers of eggs or larvae placed in the fruit or from actual numbers of insects that survived to pupae in untreated (control) fruit. Significant natural mortality was associated with the insects being present in the fruit without a postharvest heat treatment. A subsequent heat treatment (40°C, 24 h) further reduced the estimated surviving population by 99.5-100 percent. A hypothetical population of 100.000 eggs or larvae was subjected to a sequential mortality model in which the likelihood of survival of the various immature stages in the fruit, as well as after a heat treatment was determined based on the above mortality estimates. Immatures that survived both the initial natural mortality within fruit and the heat treatment were once again subjected to further stage-specific mortality within fruits. Application of the sequential mortality concept to both Mediterranean fruit fly, Ceratitis capitata (Weidemann), and melon fly, Bactrocera cucurbitae (Coquillet), in the avocado system would be sufficient to meet probit 9 (99.9968 percent mortality) security using our model. Oriental fruit fly, Bacterocera dorsalis (Hendel), eggs and 3rd instars would not meet probit 9 quarantine security. The implications of this study to systems approaches to quarantine security and risk are discussed.
format
topic_facet PERSEA AMERICANA
TEPHRITIDAE
VARIEDADES
PLAGAS DE PLANTAS
MORBOSIDAD
TRATAMIENTO TERMICO
CUARENTENA
TECNICAS DE AISLAMIENTO
TECNOLOGIA POSTCOSECHA
CONTROL DE PLAGAS
author 80446 Jang, E.B.
author_facet 80446 Jang, E.B.
author_sort 80446 Jang, E.B.
title Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system
title_short Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system
title_full Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system
title_fullStr Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system
title_full_unstemmed Systems approach to quarantine security: postharvest application of sequential mortality in the Hawaiian grown 'sharwil' avocado system
title_sort systems approach to quarantine security: postharvest application of sequential mortality in the hawaiian grown 'sharwil' avocado system
publishDate Ago
url https://doi.org/10.1093/jee/89.4.950
work_keys_str_mv AT 80446jangeb systemsapproachtoquarantinesecuritypostharvestapplicationofsequentialmortalityinthehawaiiangrownsharwilavocadosystem
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