An innovative multistage, physiologically structured, population model to understand the European grapevine moth dynamics
PICART, Delphine
Tools of automatic control for scientific computing, Models and Methods in Biomathematics [ANUBIS]
Unité Mixte de Recherche en Santé Végétale (INRA/ENITA) [UMRSV]
Tools of automatic control for scientific computing, Models and Methods in Biomathematics [ANUBIS]
Unité Mixte de Recherche en Santé Végétale (INRA/ENITA) [UMRSV]
PICART, Delphine
Tools of automatic control for scientific computing, Models and Methods in Biomathematics [ANUBIS]
Unité Mixte de Recherche en Santé Végétale (INRA/ENITA) [UMRSV]
< Reduce
Tools of automatic control for scientific computing, Models and Methods in Biomathematics [ANUBIS]
Unité Mixte de Recherche en Santé Végétale (INRA/ENITA) [UMRSV]
Language
en
Article de revue
This item was published in
Journal of Mathematical Analysis and Applications. 2011, vol. 382, n° 1, p. 34--46
Elsevier
English Abstract
We present a multistage, physiologically structured, population model for studying the dynamics of one of the most important grapevine insect pests. Growth of the population at each stage is modeled considering the climatic ...Read more >
We present a multistage, physiologically structured, population model for studying the dynamics of one of the most important grapevine insect pests. Growth of the population at each stage is modeled considering the climatic variations and the grape variety. A result of existence and uniqueness of solutions is presented for this original hyperbolic system as well as simulations of experimental field data.Read less <
Keywords
population dynamics
age-structured population model
English Keywords
partial differential equations
grape variety
hyperbolic system
Origin
Hal imported