The marine mixotroph, Mesodinium rubrum is far more than a greenhouse ciliate

Wonho Yih, Gumog Myung, Hyung-seop Kim, Yeong Doo Yoo and Jung-rae Rho, Kunsan National University
Abstract:
Permanent symbiosis between the mixotrophic ciliate Mesodinium rubrum and the cryptomonad symbionts has long been assumed since 1908, when Hans Lohmann firstly described the reddish-brown globules inside M. rubrum (“Halteria rubra”) cells as symbiotic algae (“Erythromonas haltericola”). Thus, M. rubrum was envisioned as a host greenhouse where numerous cryptomonad symbionts could be farmed. During last two decades, however, information on the species interaction among marine protists including M. rubrum was so impressively accumulated that the more real picture of the ‘symbiotic relationship’ could be revealed. In addition to the obligate replacement of the selected organelles from a ‘symbiont’, multiple donor strains for the klepto-organelles of M. rubrum was also explored. Hence, experimentally designed organelle trades for M. rubrum is not impossible today.

 This unique mixotrophic ciliate must be a pivotal member of marine plankton ecosystem with its superior klepto-organelles, motility, growth rate, and linkablilty to higher trophic levels. M. rubrum can link marine heterotrophic bacteria and cyanobacteria to its own predators which in turn could be consumed by other carnivores. Supported by the klepto-organelles and vitamins from prey cryptomonads as well as N(from cyanobacteria) and P(from heterotrophic bacteria) nutrients, M. rubrum thrives at diverse marine environments. Bacterivory by the protistan members of ‘Mesodinium food chain’ may need to be further studied before we can better understand the superiority of the unique ciliate species in the sea.