Dynamic State Variable Models in Ecology: Methods and ApplicationsOxford University Press, 10 de fev. de 2000 - 304 páginas This book introduces readers to a set of powerful and extremely flexible modeling techniques, starting at "square one" and continuing with carefully chosen applications. Some of these applications of methodology include insect oviposition behavior, overwinter survival of birds and fish, avian migration, resource management, conservation biology, agroecology, and human behavior. This book also explains how to construct, test, and use dynamic state variable models in a wide range of contexts in evolutionary ecology, and its complete and up-to-date coverage allows readers to immediately begin using the described techniques. Dynamic State Variable Models in Ecology is designed for self-instruction or for use in upper division undergraduate or graduate courses. It is ideal for students and scientists interested in behavior, ecology, anthropology, conservation biology, and related fields. |
Conteúdo
3 | |
2 Some Details of Technique | 49 |
3 Using the Model | 71 |
4 Oviposition Behavior of Insect Parasitoids | 82 |
5 Winter Survival Strategies | 108 |
6 Avian Migration | 139 |
7 Human Behavioral Ecology | 161 |
8 Conservation Biology | 173 |
9 Agroecology | 192 |
10 PopulationLevel Models | 212 |
11 Stochasticity Uncertainty and Information as a State Variable | 232 |
12 Measures of Fitness | 248 |
Programs available at the OUP Web site | 265 |
References | 267 |
287 | |
Outras edições - Ver todos
Dynamic State Variable Models in Ecology: Methods and Applications Colin W. Clark,Marc Mangel Visualização parcial - 2000 |
Dynamic State Variable Models in Ecology: Methods and Applications Colin Whitcomb Clark,Marc Mangel Prévia não disponível - 2000 |
Termos e frases comuns
Aphytis assume assumption average Bayesian Biology bird migration birds calculate chapter Clark Clark's grebes clutch decision denote discarded discussed distribution dynamic programming equation dynamic state variable Ecology egg complement encounter rate energy reserves environment environmental evolution Evolutionary example expected reproductive success fat reserves feeding female Figure fish fitness function fitness value flight speed foraging effort forward iteration genetic algorithm given growth habitat hoard host-feeding Houston ideal free distribution increase individual larvae life-history life-history theory long-term Mangel maximization maximum McNamara metabolic costs metapopulation migration model predictions mortality obtain offspring organism oviposition parameter values parasitized host parasitoid patch-selection model period Pr{A predation risk prey items probability qualitative rate-maximizing Roitberg Rosenheim Rosenheim and Rosen season species stochastic stopover strategy superparasitize survival tests theory trade-offs unsuccessful searches variable model variation western grebes western sandpipers willow tits winds winter Ydenberg