11 mars 2024
15h00
Louvain-la-Neuve
Conference Room B.059 - Carnoy Building - Croix du Sud - Will also take place in videoconference
Relationships amoung functional traits in experimental microcosms of the protist Tetrahymena thermophila by Nils SVENDSEN
Pour l'obtention du grade académique de Doctorat en Sciences
Functional traits are phenotypic traits that affect an organism's performance and shape ecosystem-level processes. However, estimating functional diversity (i.e. the sum of functions induced by the diversity of functional traits) as a measure of biodiversity remains difficult in practice. One of the main challenges is to choose which phenotypic traits should be considered functional and measured, since effort and money are limited.
As one way of dealing with this, Hodgson et al. (1999) introduced the idea of two types of traits, with soft traits that are easy and quick to quantify, and hard traits that are directly linked to ecosystem functioning but difficult to measure. If a link exists between the traits, then one could use soft traits as a proxy for hard traits for a quick but meaningful assessment of biodiversity. However, this is usually limited by two factors: (1) traits must be tightly connected to allow reliable prediction of one using the other; (2) the relationship between traits must be monotonic and linear to be detected by the most commonly used statistical techniques (e.g. linear model, PCA).
Following that logic, my aim during this thesis was to test the presence of such relationships by focusing on six functional traits of the protist species Tetrahymena thermophila. In the first experiment, I tested the presence of these relationships using linear and non-linear relationship detection methods in a stable environment. Then, in the second experiment, I tested how these relationships were varying along two environmental gradients using similar detection methods.
Both times, the traits were proved to be rather independent, indicating that each represents a distinct aspect of functional diversity for this organism, and a high number of non-linear relationships and patterns between the traits were detected, highlighting the need to be careful about what statistical techniques one uses to estimate relationships between traits.
Jury members :
- Prof. Hans Van Dyck (UCLouvain, Belgium) (President)
- Prof. Nicolas Schtickzelle (UCLouvain, Belgium) (Supervisor)
- Prof. Thierry Hance (UCLouvain, Belgium) (Secretary)
- Dr. Viktoriia Radchuk (Leibniz Institute for Zoo and Wildlife Research, Germany)
- Dr. Delphine Legrand (CNRS, France)
- Prof. Frédérik De Laender (UNamur, Belgium)
Pay attention : the public defense will also take place in the form of a video conference