Journal
JOURNAL OF MATHEMATICAL BIOLOGY
Volume 67, Issue 3, Pages 509-533Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s00285-012-0549-2
Keywords
Adaptive dynamics; Function-valued traits; Theory of optimal control; Pontryagin's maximum principle; Environmental feedback
Categories
Funding
- Academy of Finland [128323]
- Bergen Research Foundation
- European Science Foundation
- Austrian Science Fund
- Austrian Ministry of Science and Research
- Vienna Science and Technology Fund
- European Commission, through the Marie Curie Research Training Network FishACE
- Specific Targeted Research Project FinE
- Academy of Finland (AKA) [128323, 128323] Funding Source: Academy of Finland (AKA)
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In this article we further develop the theory of adaptive dynamics of function-valued traits. Previous work has concentrated on models for which invasion fitness can be written as an integral in which the integrand for each argument value is a function of the strategy value at that argument value only. For this type of models of direct effect, singular strategies can be found using the calculus of variations, with singular strategies needing to satisfy Euler's equation with environmental feedback. In a broader, more mechanistically oriented class of models, the function-valued strategy affects a process described by differential equations, and fitness can be expressed as an integral in which the integrand for each argument value depends both on the strategy and on process variables at that argument value. In general, the calculus of variations cannot help analyzing this much broader class of models. Here we explain how to find singular strategies in this class of process-mediated models using optimal control theory. In particular, we show that singular strategies need to satisfy Pontryagin's maximum principle with environmental feedback. We demonstrate the utility of this approach by studying the evolution of strategies determining seasonal flowering schedules.
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