Abstract
Understanding the biology of reproduction of an organismal lineage is important for retracing key evolutionary processes, yet gaining detailed insights often poses major challenges. Planktonic Foraminifera are globally distributed marine microbial eukaryotes and important contributors to the global carbon cycle. They cannot routinely be cultured under laboratory conditions across generations, and thus details of their life cycle remain incomplete. The production of flagellated gametes has long been taken as an indication of exclusively sexual reproduction, but recent research suggests the existence of an additional asexual generation in the life cycle. To gain a better understanding of the reproductive biology of planktonic Foraminifera, we applied a dynamic, individual-based modelling approach with parameters based on laboratory and field observations to test if sexual reproduction is sufficient for maintaining viable populations. We show that temporal synchronization and potentially spatial concentration of gamete release seems inevitable for maintenance of the population under sexual reproduction. We hypothesize that sexual reproduction is likely beneficial during the adaptation to new environments, while population sustenance in stable environments can be ensured through asexual reproduction.
Highlights
The mode of reproduction exerts a strong influence on the evolution of organisms [1,2] and has ramifications for adaptation, diversification and speciation as well as population dynamics
We aim to answer the following questions: (i) Can planktonic Foraminifera maintain their populations in the open ocean by relying on sexual reproduction or does asexual reproduction play a more important role than previously assumed? (ii) How is reproductive success distributed across the population and what does this mean for gene flow within the population? (iii) Under which circumstances is either sexual or asexual reproduction favourable?
We evaluated reproductive success in two ways. (i) We estimated the number of zygotes produced per successful individual and in relation to the population
Summary
The mode of reproduction exerts a strong influence on the evolution of organisms [1,2] and has ramifications for adaptation, diversification and speciation as well as population dynamics. Sexual reproduction is assumed to be a widespread, ancient trait among eukaryotes, including microbial taxa [3] It has a major influence on populations since gene flow alters genetic diversity and the potential for local adaptations and speciation. Sexually reproducing planktonic species must have developed efficient strategies to overcome the obstacle of mate encounter to maintain gene flow across areas with low population densities Such adaptive strategies include the synchronization of reproduction in time or space [7,8,9], mate detection mechanisms through chemical communication [10], the generation of reproductive cysts [11], or the production of eggs [12] or numerous motile gametes [13,14]. Many protist groups are assumed to reproduce purely asexually [16,17], while alternations of sexual and asexual stages [18,19] and exclusively sexual reproduction have been assumed for others [20]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
