Université de Liège
Faculté des Sciences
Unité de Biologie du Comportement
poissons amphibiens oiseaux mammifères
Unité de biologie du comportement

N. Oromi





pdfs of all papers are available via

Open Reposititory and Bibliography
University of Liège




Neus Oromi

Post-Doc (BeIPD-COFUND fellowship) - Université de Liège

Laboratoire d'Ethologie des Poissons et Amphibiens,
Unité de Biologie du Comportement, Université de Liège, Quai van Beneden 22, 4020 Liège, Belgique

Tél : (+32) (0) 4.366.50.77 - Fax : (+32) (0) 4.366.51.13
E-mail : noromi@ulg.ac.be


My research has been centred in the study of the behaviour, ecology and biology of amphibians, especially in order to understand the different mechanisms that can promote adaptation. My previous works has mainly based in the analysis of the variation of life history traits using skeletochronology methods (age-size variation) in several amphibian species (e.g. Bufo calamita, Calotriton asper and C. arnoldi) and its relationship with genetic variability (molecular markers). I have worked in thermal behaviour and in population dynamics using radiotememetry methods in amphibians (B. calamita) and reptiles (Emys orbicularis). I have also used genetic technics of Next Generation Sequencing (RNA-seq) to detect polymorphisms related to the behaviours of the brown trout (Salmo trutta).

The aims of my post-doc research are focused in the understanding the causes of phenotypic variation in amphibians, concretely in newts (supervision: M. Denoël & J. Michaux). Polyphenism are useful models to explore as alternative developmental phenotypes can be compared in different environments. I am interested in the study of facultative paedomorphosis, a polymorphism that occurs in several species of newts and salamanders. This adaptive strategy results in the coexistence of two different morphs: the metamorphs that develop from an aquatic larvae to an adult through metamorphosis and the paedomorphs that mature in a larval stage. In this study, we evaluate the dynamic of coexistence of the two phenotypes in the same reproductive habitat that brings then the question of their sexual compatibility. The project allows to test the hypothesis that fish presence is a disrupter of developmental pathways in newts through both proximate and ultimate mechanisms.

Study species (post-doc):

Lissotriton helveticus

Methodology and technics:

Laboratory experiments in controlled conditions, population genetic analysis, paternity analysis and microsatellites genotyping.







M. Denoël


Université de Liège Faculté des sciences