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Replication Data for: Copidosoma koehleri (Blanchard 1940)

International Potato Center Dataverse OAI Archive

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Title Replication Data for: Copidosoma koehleri (Blanchard 1940)
 
Identifier https://doi.org/10.21223/P3/TZJNH0
 
Creator Canedo, Veronica
Carhuapoma, Pablo
Lopez, Erika
Kroschel, Jurgen
 
Publisher International Potato Center
 
Description The effect of temperature on the development of immature stages and survival, as well as adult longevity and reproduction of the potato tuber moth parasitoid Copidosoma koehleri was studied in controlled incubator chambers at constant temperatures from 14º to 30ºC on its host Phthorimaea operculella. Data collected in the life-table studies under constant temperature conditions were arranged in incomplete life-table formats as required by ILCYM’s ‘model builder’ to process, analyze and develop the phenology model (development time and its variation, development rate, senescence, mortality, total oviposition and relative oviposition frequency). ILCYM’s ‘validation and simulation’ module was applied for simulating life-table parameters and for model validation. The best fit model was selected based on Akaike’s Information Criterion, a well-known goodness of fit indicator or other built in statistics (R2, Adjusted R2, MSE). The development of the Copidosoma koehleri phenology model and its life-table parameter simulation were conducted using the Insect Life Cycle Modeling (ILCYM) software version 3.0 developed by CIP. It is freely available at CIP’s website https://research.cip.cgiar.org/confluence/display/ilcym/
 
Subject Agricultural Sciences
Earth and Environmental Sciences
Copidosoma koehleri
Development time
Reproduction
Longevity
Temperature-Dependent Phenology Model
Non-linear equation
Life-table parameters
Pest risk assessment
 
Language English
 
Contributor Administrator, CIP
International Potato Center
CGIAR Research Program on Roots, Tubers and Bananas (RTB)
Federal Ministry of Cooperation and Development (BMZ), Germany.
(PI) Jurgen Kroschel
Project: Predicting climate change-induced vulnerability of African agricultural systems to major insect pests through advanced insect phenology modeling and decision aid development for adaptation planning
 
Type txt, asc