NBIK14016U Experimental Design and Statistical Methods in Biology (StatBio)

Knowledge:

The student will get an overview of a range of statistical concepts and tools:

• Regression
• ANOVA
• ANCOVA
• Interaction between factors
• Design considerations
• Model check and fit, data representation
• Systematic and random effects
• MANOVA
• Generalized Linear Models
• Contingency tables
• Use of statistical software (SAS and R)

Skills:

A student that has successfully finished the course will possess the following qualifications:

• be able to select the appropriate statistical model for the design in question.
• be able to apply General Linear Models (analysis of variance (ANOVA), analysis of covariance (ANCOVA), polynomial and multiple regression, nested and mixed ANOVAs).
• be able to apply multivariate ANOVA (MANOVA), repeated measurements ANOVA, and log-linear models.
• be able to apply Generalized Linear Models (with non-Gaussian error distributions, including logistic regression).
• be able to summarize and analyze data in contingency tables.
• be able to construct statistical models that incorporate qualitative (both fixed and random effects) and quantitative variables, main effects, interactions, and second or higher order terms.
• be able to use statistical software (SAS and/or R) to load a data set, to sort and summarize data, to perform relevant statistical analyses, and to report the results either graphically or in tables.
• be able to estimate the parameters of a statistical model and their standard errors, and to test whether they are significantly different from 0.
• be able to identify significant and non-significant factors so as to simplify statistical models using various criteria for best fit.
• be able to apply a priori and a posteriori tests to identify treatment differences.
• be able to use statistical models as a predictive tool to forecast the expected outcome of an observation from a set of independent variables.
• be able to check whether data meet the assumptions of the model and, if needed, to select an appropriate data transformation or another type of model.
• Be able to use Principal Component Analysis for variable reduction and visualisation of multivariate data.

Competences:

The student will learn the most commonly used experimental designs and appreciate their advantages with respect to the subsequent statistical analysis of data. The student will be able to construct a statistical model for the experimental design, state the relevant statistical hypotheses, conduct the statistical analysis (generally using statistical software), present the results in a clear and understandable way, and finally interpret the results in a biological context to reach a sound conclusion based on the empirical evidence. In addition, the student should possess the necessary theoretical insight in statistics to be able to understand and comment critically on the use of statistics by others.