Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses

Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses

In this study, our objective was to provide evidence of the movement of the coffee berry borer (CBB), the most important pest in coffee cultivation, from neighboring coffee plantations to adjacent land uses at different time periods of the coffee production cycle. For 10 months we captured the CBB with funnel traps in 13 coffee plots that had an interface with forests, pastures, and abandoned coffee plantations in Costa Rica. At each interface, we established three transects with a minimum distance of 50 m between them, in the direction of the wind. Within each transect, we placed four traps 20 m apart. We fitted generalized linear mixed models to evaluate the relationship between CBB captures and the type of interface, the position of the trap, wind velocity, rainfall, temperature and relative humidity, and their interactions. Our findings suggest that CBB moves into adjacent land uses when the coffee resource in the plot is limited. This effect varies according to the interface and the position of the trap. We also found an interaction between the interface and the position of the trap with the wind and relative humidity.

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Main Authors: 128880 Vilchez Mendoza, Sergio J. autor, Ronin, Antoine autor, Bommel, Pierre autor 349011, Cilas, Christian autor 349013, 349014 Bagny Beilhe, Leila Tipo autor
Format: Texto biblioteca
Language:eng
Published: Frontiers 2024
Subjects:PLAGAS DE PLANTAS, PLANT PESTS, HYPOTHENEMUS HAMPEI, MANEJO DEL CULTIVO, CROP MANAGEMENT, CONTROL DE PLAGAS, PEST CONTROL,
Online Access:https://repositorio.catie.ac.cr/handle/11554/12655
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spelling KOHA-OAI-BVE:1531902024-06-24T14:53:33ZQuantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses 128880 Vilchez Mendoza, Sergio J. autor Ronin, Antoine autor Bommel, Pierre autor 349011 Cilas, Christian autor 349013 349014 Bagny Beilhe, Leila Tipo autor textFrontiers2024engpdfIn this study, our objective was to provide evidence of the movement of the coffee berry borer (CBB), the most important pest in coffee cultivation, from neighboring coffee plantations to adjacent land uses at different time periods of the coffee production cycle. For 10 months we captured the CBB with funnel traps in 13 coffee plots that had an interface with forests, pastures, and abandoned coffee plantations in Costa Rica. At each interface, we established three transects with a minimum distance of 50 m between them, in the direction of the wind. Within each transect, we placed four traps 20 m apart. We fitted generalized linear mixed models to evaluate the relationship between CBB captures and the type of interface, the position of the trap, wind velocity, rainfall, temperature and relative humidity, and their interactions. Our findings suggest that CBB moves into adjacent land uses when the coffee resource in the plot is limited. This effect varies according to the interface and the position of the trap. We also found an interaction between the interface and the position of the trap with the wind and relative humidity.In this study, our objective was to provide evidence of the movement of the coffee berry borer (CBB), the most important pest in coffee cultivation, from neighboring coffee plantations to adjacent land uses at different time periods of the coffee production cycle. For 10 months we captured the CBB with funnel traps in 13 coffee plots that had an interface with forests, pastures, and abandoned coffee plantations in Costa Rica. At each interface, we established three transects with a minimum distance of 50 m between them, in the direction of the wind. Within each transect, we placed four traps 20 m apart. We fitted generalized linear mixed models to evaluate the relationship between CBB captures and the type of interface, the position of the trap, wind velocity, rainfall, temperature and relative humidity, and their interactions. Our findings suggest that CBB moves into adjacent land uses when the coffee resource in the plot is limited. This effect varies according to the interface and the position of the trap. We also found an interaction between the interface and the position of the trap with the wind and relative humidity.PLAGAS DE PLANTASPLANT PESTSHYPOTHENEMUS HAMPEIMANEJO DEL CULTIVOCROP MANAGEMENTCONTROL DE PLAGASPEST CONTROLhttps://repositorio.catie.ac.cr/handle/11554/12655
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 eng
topic PLAGAS DE PLANTAS
PLANT PESTS
HYPOTHENEMUS HAMPEI
MANEJO DEL CULTIVO
CROP MANAGEMENT
CONTROL DE PLAGAS
PEST CONTROL
PLAGAS DE PLANTAS
PLANT PESTS
HYPOTHENEMUS HAMPEI
MANEJO DEL CULTIVO
CROP MANAGEMENT
CONTROL DE PLAGAS
PEST CONTROL
spellingShingle PLAGAS DE PLANTAS
PLANT PESTS
HYPOTHENEMUS HAMPEI
MANEJO DEL CULTIVO
CROP MANAGEMENT
CONTROL DE PLAGAS
PEST CONTROL
PLAGAS DE PLANTAS
PLANT PESTS
HYPOTHENEMUS HAMPEI
MANEJO DEL CULTIVO
CROP MANAGEMENT
CONTROL DE PLAGAS
PEST CONTROL
128880 Vilchez Mendoza, Sergio J. autor
Ronin, Antoine autor
Bommel, Pierre autor 349011
Cilas, Christian autor 349013
349014 Bagny Beilhe, Leila Tipo autor
Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses
description In this study, our objective was to provide evidence of the movement of the coffee berry borer (CBB), the most important pest in coffee cultivation, from neighboring coffee plantations to adjacent land uses at different time periods of the coffee production cycle. For 10 months we captured the CBB with funnel traps in 13 coffee plots that had an interface with forests, pastures, and abandoned coffee plantations in Costa Rica. At each interface, we established three transects with a minimum distance of 50 m between them, in the direction of the wind. Within each transect, we placed four traps 20 m apart. We fitted generalized linear mixed models to evaluate the relationship between CBB captures and the type of interface, the position of the trap, wind velocity, rainfall, temperature and relative humidity, and their interactions. Our findings suggest that CBB moves into adjacent land uses when the coffee resource in the plot is limited. This effect varies according to the interface and the position of the trap. We also found an interaction between the interface and the position of the trap with the wind and relative humidity.
format Texto
topic_facet PLAGAS DE PLANTAS
PLANT PESTS
HYPOTHENEMUS HAMPEI
MANEJO DEL CULTIVO
CROP MANAGEMENT
CONTROL DE PLAGAS
PEST CONTROL
author 128880 Vilchez Mendoza, Sergio J. autor
Ronin, Antoine autor
Bommel, Pierre autor 349011
Cilas, Christian autor 349013
349014 Bagny Beilhe, Leila Tipo autor
author_facet 128880 Vilchez Mendoza, Sergio J. autor
Ronin, Antoine autor
Bommel, Pierre autor 349011
Cilas, Christian autor 349013
349014 Bagny Beilhe, Leila Tipo autor
author_sort 128880 Vilchez Mendoza, Sergio J. autor
title Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses
title_short Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses
title_full Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses
title_fullStr Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses
title_full_unstemmed Quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses
title_sort quantifying movement of the coffee berry borer at the interface between coffee plantations and adjacent land uses
publisher Frontiers
publishDate 2024
url https://repositorio.catie.ac.cr/handle/11554/12655
work_keys_str_mv AT 128880vilchezmendozasergiojautor quantifyingmovementofthecoffeeberryborerattheinterfacebetweencoffeeplantationsandadjacentlanduses
AT roninantoineautor quantifyingmovementofthecoffeeberryborerattheinterfacebetweencoffeeplantationsandadjacentlanduses
AT bommelpierreautor349011 quantifyingmovementofthecoffeeberryborerattheinterfacebetweencoffeeplantationsandadjacentlanduses
AT cilaschristianautor349013 quantifyingmovementofthecoffeeberryborerattheinterfacebetweencoffeeplantationsandadjacentlanduses
AT 349014bagnybeilheleilatipoautor quantifyingmovementofthecoffeeberryborerattheinterfacebetweencoffeeplantationsandadjacentlanduses
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