Biogeography, Evolution and Diversity of Free-Living Protists : Insights from Testate Amoebae

Although widely recognized as essential actors of ecosystem processes and representing a significant part of the Earth's biodiversity, free-living protists are poorly known. Major questions concerning their diversity, ecology, and evolution remain completely unresolved, partly because our knowledge of their taxonomy, at each different levels, is still extremely limited. In this thesis, I used testate amoebae as model organisms to get insights into the diversity and biogeography of protists. Testate amoebae are a polyphyletic group of free-living protists that are characterized by a shell composed of proteinaceous, calcareous, or siliceous material. The shells are differentiated by their shapes and ultrastructures, allowing for the identification of morphospecies more easily than in the vast majority of other protists. However, the taxonomic validity of the characters used to define morphospecies and the true diversity of testate amoebae are largely unknown. We studied the taxonomy of cyphoderiid testate amoebae (Rhizaria: Euglyphida), by combining morphological and molecular genetic approaches (chapters 2 and 3). We used light- and scanning electron microscopy to analyze the shell ultrastructure and biometry of several Cyphoderia morphospecies and sequenced gene portions of the Cytochrome Oxidase Subunit 1 (COI) and nuclear small subunit rDNA (SSU). These analyses revealed that while several described species are morphologically distinct and well-supported by the genetic data, other species, such as Cyphoderia ampulla, represent a complex of cryptic or pseudo-cryptic species. The presence of cryptic or pseudo-cryptic Cyphoderia species illustrates the limits of a morphology-based approach for assessing protist diversity using only characters visible by light microscopy. DNA sequence analyses may allow for a better resolution for both species identification and diversity estimates, provided that appropriate genetic markers can be developed. Genetic marker development in protists is particularly challenging because their representation in the international genomic databases is still very limited. The SSU marker also allowed us to build an extensive phylogeny of eulgyhid testate amoebae. We then used this phylogeny as a framework to analyze macro-evolutionary processes in testate amoebae, in particular, how easily a species can cross an ecological barrier and colonize new habitats. The taxa included in our phylogeny occurred either in marine, marine supralittoral or freshwater habitats, and species of each habitat segregated into distinct sub-clades. This indicates that transitions between these environments occur only rarely in the course of evolution (chapter 4). A reliable taxonomy for microorganisms is not only an essential prerequisite for estimating species diversities, it would also be a key component to resolve the long-lasting debate of whether free-living microorganisms are strictly cosmopolitan, or whether at least some species have limit