Quantitative Ecology
A.Y. 2024/2025
Learning objectives
To learn how to apply quantitative methods in ecological researches and how to rigorously plan a research project
Expected learning outcomes
Application of quantitative methods in ecology and how to rigorously plan a research project
Lesson period: First semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course can be attended as a single course.
Course syllabus and organization
Single session
Responsible
Lesson period
First semester
Course syllabus
LECTURES
Problems and opportunities from a quantitative approach to ecological studies: planning a research program, reverse planning, basic concepts in statistics.
Application of multivariate statistical methods to ecological data: cluster analysis, principal component analysis, redundancy analysis and canonical correlation, analysis of variance, regression, and introduction to generalized linear models.
Design and analysis of experiments: sample size determination, non-parametric methods, randomized block designs.
Sampling and census methods: introduction to sampling theory, capture-mark-.recapture methods, transects, and abundance indices.
PRACTICALS
Introduction to the R statistical software and its use.
Descriptive statistics and graphs with R.
Cluster analysis, principal component analysis, redundancy analysis with R.
Analysis of variance with R.
Regression analysis with R.
Generalized linear models with R.
Problems and opportunities from a quantitative approach to ecological studies: planning a research program, reverse planning, basic concepts in statistics.
Application of multivariate statistical methods to ecological data: cluster analysis, principal component analysis, redundancy analysis and canonical correlation, analysis of variance, regression, and introduction to generalized linear models.
Design and analysis of experiments: sample size determination, non-parametric methods, randomized block designs.
Sampling and census methods: introduction to sampling theory, capture-mark-.recapture methods, transects, and abundance indices.
PRACTICALS
Introduction to the R statistical software and its use.
Descriptive statistics and graphs with R.
Cluster analysis, principal component analysis, redundancy analysis with R.
Analysis of variance with R.
Regression analysis with R.
Generalized linear models with R.
Prerequisites for admission
This is an advanced course that requires basic knowledge of both ecology and statistics. The ecological background is taken for granted (but notions can be recalled by the teacher if necessary). The statistical background is recalled during the first part of the course.
Teaching methods
This course will employ a variety of instructional methods to accomplish its objectives, including:
Lectures
Practicals where exercises are solved under the supervision of the teacher
Individual and/or Team Projects
Lectures
Practicals where exercises are solved under the supervision of the teacher
Individual and/or Team Projects
Teaching Resources
Eberhardt L.L A course in quantitative ecology (http://www.afsc.noaa.gov/nmml/library/resources/pdf/Quantitative_Ecology_Course.pdf)
Sutherland WJ (ed.), Ecological census techniques Cambridge University Press
Smith TM & Smith RL, Elementi di ecologia (6a ed.) Pearson
Kokko H Modelling for field biologists and other interesting people. Cambridge University Press
Montgomery D.C. Progettazione e analisi degli esperimenti. McGraw-Hill
Sutherland WJ (ed.), Ecological census techniques Cambridge University Press
Smith TM & Smith RL, Elementi di ecologia (6a ed.) Pearson
Kokko H Modelling for field biologists and other interesting people. Cambridge University Press
Montgomery D.C. Progettazione e analisi degli esperimenti. McGraw-Hill
Assessment methods and Criteria
Computer practice tests aimed at assessing the student's ability to analyze ecological data sets.
Oral test (question) aimed at assessing the understanding of the critical concepts illustrated in the lessons. The following will be evaluated: the level of experience and knowledge of the contents of the subject, the essential ability of reasoning, the quality of the exposure, and the use of a specialized lexicon.
Marks out of thirty.
Oral test (question) aimed at assessing the understanding of the critical concepts illustrated in the lessons. The following will be evaluated: the level of experience and knowledge of the contents of the subject, the essential ability of reasoning, the quality of the exposure, and the use of a specialized lexicon.
Marks out of thirty.
BIO/07 - ECOLOGY - University credits: 6
Practicals with elements of theory: 12 hours
Lessons: 40 hours
Lessons: 40 hours
Professor:
Ambrosini Roberto
Shifts:
Turno
Professor:
Ambrosini RobertoEducational website(s)
Professor(s)
Reception:
Tuesday 10-12 am by appointment to be requested via email a few days before
tower C, 6th floor, Via Celoria 26