Abstract
Symbiosis with photoautotrophic organisms has evolved in various species and even whole animal lineages, which allowed them to directly benefit from photosynthesis. This so-called photosymbiosis is best studied in cnidarians, which primarily establish symbioses with dinoflagellates from the family Symbiodiniaceae. In most other animals the mechanisms of establishing photosymbiosis, the physiological basis, and the evolution of a photosymbiotic life history remain poorly understood. Sea slugs belonging to the Cladobranchia (Gastropoda, Nudibranchia) are no exception, and are a rather neglected animal lineage in the research field of photosymbiosis. Yet, studying these sea slugs holds great potential to establish a unique photosymbiosis model, as they are the only known taxon that has evolved two different strategies to acquire their symbiont: either from cnidarian prey (thus becoming a secondary host) or directly out of the water column. The mechanisms for photobiont uptake and maintenance are unknown for these sea slugs, but might be similar to those of cnidarians. However, in terms of the evolution of photosymbiosis, Cladobranchia seem to share many commonalities with more closely related sea slugs belonging to the Sacoglossa, which only maintain the chloroplasts of the algae they feed on. Hence, Cladobranchia have the potential to shed light on the evolution of photosymbiosis in taxonomically divergent animals that also harbor photobionts of different evolutionary lineages.
Highlights
Symbiotic relationships shape genomic and morphological plasticity, which is a driving force of evolution within prokaryotes and eukaryotes (Margulis, 1981; Burki et al, 2020)
Corals primarily form a mutualistic symbiosis with dinoflagellates of the family Symbiodiniaceae (Fensome, 1993), that are referred to zooxanthellae when in hospite
More recently the mutualism of the photosymbiosis has been questioned and some authors refer to a host-controlled parasitism of the photobiont (Wooldridge, 2010; Blackstone and Golladay, 2018)
Summary
Symbiotic relationships shape genomic and morphological plasticity, which is a driving force of evolution within prokaryotes and eukaryotes (Margulis, 1981; Burki et al, 2020). Genome-sequencing initiatives such as the recently launched Aquatic Symbiosis Genomics Project by the Welcome Sanger Institute and the Gordon and Betty Moore Foundation are addressing this lack of genomic data Among others, this initative focuses on key photosymbiotic species in different lineages, which will provide a wealth of data and enable us to boost our understanding of photosymbioses. We propose that a specific group of sea slugs, the Cladobranchia that belong to the Nudibranchia, should be studied in more detail This lineage could considerably contribute to our understanding of photosymbiotic processes and the evolution of photosymbiosis in distantly related animals.
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