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Use mathematical analysis to evaluate the effects of interspecific competition and to determine population size and growth patterns.
[
BIOL 1011
]
Conduct regression analysis and t-tests on ecological data
[
BIOL 2060
]
Utilize PRIMER-E statistical software to analyze patterns of species abundance from a rocky shore
[
BIOL 3664
]
Analyze and display a variety of ecological biologging data using multiple statistical techniques and data processing tools.
[
BIOL 4323
]
Complete a plant ecology study: develop objectives, plan the sampling design, collect data, communicate the results and write a report.
[
BIOL 3066
]
Conduct correlation analysis, t-tests and regression on ecological data
[
BIOL 3069
]
Describe methods of estimating population abundance, as well as the underlying data needed. Estimate population abundance using a simple formula.
[
BIOL 3080
]
Develop and use different methods and analyses for sampling plant communities.
[
BIOL 3066
]
Know mechanisms for functional divergence at the molecular level that span a wide range of biological complexity. Understand how specific models of adaptive evolution explain real examples of functional divergence.
[
BIOL 3046
]
Read and interpret scientific papers presenting studies or theory in plant ecology.
[
BIOL 3066
]
Summarize key features of model-based clustering approaches to estimating population structure and gene flow
[
BIOL 3042
]
Understand how molecular evolutionary processes give rise to patterns of genetic diversity that we observe in the natural world, and how to use those patterns to make inferences about different processes.
[
BIOL 3046
]
Understand the importance of molecular evolution in the post-genomic era, and be able to explain this to non-specialists.
[
BIOL 3046
]
Use ecological theory to interpret empirical case studies of population dynamics
[
BIOL 3069
]
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