Your browser has javascript turned off or blocked. This will lead to some parts of our website to not work properly or at all. Turn on javascript for best performance.

The browser you are using is not supported by this website. All versions of Internet Explorer are no longer supported, either by us or Microsoft (read more here: https://www.microsoft.com/en-us/microsoft-365/windows/end-of-ie-support).

Please use a modern browser to fully experience our website, such as the newest versions of Edge, Chrome, Firefox or Safari etc.

Molecular Ecology and Evolution BIOR25

15 credits

The course is offered during the second period of the autumn semester, and the language of instruction is English.

Molecular DNA techniques are now instrumental in a wide range of applications from conservation biology to evolutionary ecology.

 

A person showing up a small frog. Photo.
Frog

You will learn how to use such methods in the lab and in computer based analyses and to read scientific papers using molecular techniques. It is a practically oriented course providing the basics for DNA analyses in any kind of free living organism. Steps included are:

  • DNA extraction
  • PCR
  • DNA sequencing
  • primer design
  • microsatellite analyses
  • phylogenetic reconstructions
  • population genetic analyses of DNA sequences and polyallelic markers

Computer programs that will be used include:

  • BioEdit
  • MEGA
  • DNAsp
  • FSTAT
  • STRUCTURE

To provide a common basis for the course, we start with basic lectures and a two-day excursion. The course is organized in five blocks. The first block is about using DNA sequencing for species identification (barcoding) and phylogenies. We then continue with analyses of genetic variation within species for genetic identification of individuals, parents and populations. The third block brings up analyses of coding genes for specific traits and how to use candidate genes to find the genetics behind adaptations. We then move from single genes to genomes, introducing the microarray technique, bioinformatics and how to make use of information in large genomic databases. At the end of the course you will carry out a ten day project of your own in one of the research groups in Ecology.

Exam

There is a written exam before the start of the individual projects, and to pass the course you also have to take part in the wet and dry labs during the course period. The course will end with oral presentations of the individual projects.

Aims

For students in ecology and evolution who want to learn the basics of molecular techniques to study wild species of animals, plants, fungi, bacteria, etc. For students in molecular biology who want to learn how molecular techniques can be applied to ecological and evolutionary questions in non-model organisms.

 

You find information about application, prerequisites and the syllabus for the course Molecular Ecology and Evolution at Lund University's central web pages.

Questions?

Lotta Persmark Study advisor
Biology and Bioinformatics

Tel: +46 46 222 37 28
Email: Lotta [dot] Persmark [at] biol [dot] lu [dot] se

Course coordinator

Course literature, 2021

An introduction to Molecular Ecology (third edition), Rowe, Sweet & Beebee (2017) Oxford University Press (ISBN: 9780198716990)

Schedule

The latest schedule for the course Molecular Ecology and Evolution in the schedule software TimeEdit.

Evaluation

You find the latest evaluation on our web page with course evaluations.