
pmid: 32807503
Generalizing the effect of traits on performance across species may be achievable if traits explain variation in population fitness. However, testing relationships between traits and vital rates to infer effects on fitness can be misleading. Demographic trade-offs can generate variation in vital rates that yield equal population growth rates, thereby obscuring the net effect of traits on fitness. To address this problem, we describe a diversity of approaches to quantify intrinsic growth rates of plant populations, including experiments beyond range boundaries, density-dependent population models built from long-term demographic data, theoretical models, and methods that leverage widely available monitoring data. Linking plant traits directly to intrinsic growth rates is a fundamental step toward rigorous predictions of population dynamics and community assembly.
Evolutionary Biology, comparative functional ecology, Ecology, Population Dynamics, Genetic Variation, demographic trade-offs, Biological Sciences, Environmental sciences, Biological sciences, plant community assembly, vital rates, density dependence, intrinsic growth rate, population growth rate, Genetic Fitness, Environmental Sciences
Evolutionary Biology, comparative functional ecology, Ecology, Population Dynamics, Genetic Variation, demographic trade-offs, Biological Sciences, Environmental sciences, Biological sciences, plant community assembly, vital rates, density dependence, intrinsic growth rate, population growth rate, Genetic Fitness, Environmental Sciences
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