The environment is one of the key landscape components which determine population isolation and divergence. For marine populations, it is still not well-known how differences in environmental variables contribute to adaptation and speciation. Especially in this changing world it is imperative we understand how populations might respond. We use the clearly defined spatio-temporal context of marine lakes, "island of sea", to answer the following questions:
Aims and objectives
- To what extent are marine lake populations genetically connected?
- What drives genetic differentiation on small spatial scales?
- Do we find signatures of selection related to specific local adaptation?
- Can we link genetic variation to morphological and physiological variation?
We have selected marine lakes along a gradient in connection to the sea and local environment. They represent "natural laboratories", which hold long-term exposed populations. By employing state-of-the art genomic sequencing and bioinformatic techniques, we can explore demographic histories and signatures of selection. Micro ct scans will be used to complement genetic data with morphology.
Recognizing peripheral ecosystems in marine protected : A case study of golden jellyfish lakes in Raja Ampat, Indonesia
Rapid divergence of mussel populations despite incomplete barriers to dispersal
First come, first served : Possible role for priority effects in marine populations under different degrees of dispersal potential
Highly divergent mussel lineages in isolated Indonesian marine lakes