In the last decade, genetic data has forced us to dramatically rethink our assumptions on the evolution of stony corals (Order Scleractinia) and how best to classify them. The emerging consensus is that a pair of lineages—informally referred to as “complex” and “robust” corals—define the evolutionary history of the group; however, it has been unclear what (if any) morphological traits might actually unite the many disparate forms contained within these diverse clades. Now, some newly published research is finally helping to shed some light on the matter. The physical differences between “complex” and “robust” corals have always been somewhat nebulous, though these groups consistently find strong support when we analyze their DNA. Those in the “complex” clade show a greater tendency towards porous skeletons and branching shapes, while the “robust” species tend to be more solidly calcified and grow in flattened or rounded shapes. Think of the differences between a delicate, finely branched Acropora versus a thick, boulder-like colony of Favites. These examples typify the extremes of coral morphology, but, in truth, the distinction between these two groups is not always quite so stark.
Tubastraea embryogenesis. Note the spherical shape and yolk-filled center characteristic of the Suborder Nefertina. Credit: Okubo 2016
Another approach to solving this problem is to look for differences in their developmental biology. This has led to the recently published discovery that some of the earliest stages in the life histories of these corals differ quite dramatically in their structure. As seen in the above diagram, there are two competing ways for a coral to develop: 1) The center of the embryo fills with yolk and cells, with the mouth forming by an invagination of the outer wall. 2) The center of the embryo remains hollow, with the mouth formed from a U-shaped “blastopore”.
Cyphastrea embryogenesis. Note the U-shaped embryo and the hollow center (=blastocoel) characteristic of the Suborder Vacatina. Credit: Okubo 2016
These two ways of growing a coral correspond almost perfectly to the “complex” and “robust” lineages seen in genetic studies, though it bears mention that only a limited number of species have so far been examined in this manner. An important exception is seen in the “complex” coral Pavona, which develops the hollow embryo seen in “robust” species, but this may just be indicative of a close relationship Pavona shares with the “robust” lineage, as seen in the phylogenetic tree below.… More:
The post A New Classification For Stony Corals appeared first on Reefs.com.