Axodine Explained

The axodines are a group of unicellular stramenopiles that includes silicoflagellate and rhizochromulinid algae, actinomonad heterotrophic flagellates and actinophryid heliozoa. Alternative classifications treat the dictyochophytes as heterokont algae, or as Chrysophyceae.[1] Other overlapping taxonomic concepts include the Actinochrysophyceae, Actinochrysea or Dictyochophyceae sensu lato. The grouping was proposed on the basis of ultrastructural similarities, and is consistent with subsequent molecular comparisons.[2]

The Axodine grouping was unusual in breaking with the traditions of botanical and protozoological taxonomy to include the actinophryid heliozoa as part of the lineage that also contained the pedinellid algae along with colorless relatives such as Actinomonas, Pteridomonas, and Ciliophrys; the axodines further included the silicoflagellates, and Rhizochromulinales. This followed a growing consensus that the actinophryid heliozoa were not related to other types of heliozoa.[3] [4] [5]

Characteristics

The name points to a character that is deemed to be synapomorphic for the group: that is the microtubular arrays that extend from the surface of the nucleus. Many flagellated forms have a single emergent flagellum, that lacks the root structure found in related chrysophytes.

Classification and history

The traditional botanical treatment of the group follows

Order Dictyochales

See main article: Dictyochales. The most notable group is the silicoflagellates, marine plankton that form siliceous skeletons and are well known as fossils.

Order Pedinellales

See main article: Pedinellales. Most other axodines form a group variously called the pedinellids.

Order Rhizochromulinales

In addition to the silicoflagellates and actinodines, the marine amoeboid Rhizochromulina marina is included here based on the structure of its zoospores. It is considered closer to the latter group than the former.

Notes and References

  1. Book: Chrysophyte Algae: Ecology, Phylogeny and Development. Sandgren, C.D.. Smol, J.P.. Kristiansen, J.. 1995. Cambridge University Press. 9780521462600. 49. 2014-12-12.
  2. Nikolaev, S.I., Berney, C., Fahrni, J., Bolivar, I.,Polet, S., Mylnikov, A.P., Aleshin, V.V., Petrov, N. B., Pawlowski, J. 2004. The twilight of Heliozoa and rise of Rhizaria, an emerging supergroup of amoeboid eukaryotes. Proceedings of the National Academy of Sciences 101 (21) 8066-8071; DOI: 10.1073/pnas.0308602101
  3. Patterson, D. J. and Fenchel, T. 1985. Insights into the evolution of heliozoa (Protozoa, Sarcodina) as provided by ultrastructural studies on a new species of flagellate from the genus Pteridomonas. Biol. J. Linn. Soc. 34: 381-403
  4. Patterson, D. J. 1986. The actinophryid heliozoa (Sarcodina, Actinopoda) as chromophytes. pp. 49 - 67 in Kristiansen, J. & Anderson, R. A. Chrysophytes: aspects and problems, Cambridge University Press, Cambridge & New York.
  5. Smith, R. McK. & Patterson, D. J. 1986. Analyses of heliozoan inter-relationships: an example of the potentials and limitations of the ultrastructural approaches to the study of protistan phylogeny. Proc. R. Soc. Lond. 227:325 - 366.