Hypothesized evolutionary trends in zoospore ultrastructural characters in Chytridiales (Chytridiomycota)

Chytridiales is an order of zoosporic fungi currently comprising species representing 19 genera. Although morphologically and genetically diverse, these taxa have in common a zoospore with a suite of ultrastructural characters unique among Chytridiomycota. However, multiple states have been reported for almost every character that defines the Chytridiales zoospore. Two zoospore types have been recognized, each corresponding to a family. Here we examine zoospore ultrastructure of 52 isolates in Chytridiales and assess states for six characters to hypothesize evolutionary trends, using parsimony ancestral state reconstruction for evolutionary analysis. Based on suites of character states, we describe four additional zoospore types in Chytridiales. Five of the six characters ([i] location of the nucleus, [ii] morphology of the kinetosome-associated structure, [iii] complexity of the microtubular root, [iv] microbody-lipid globule complex cisterna structure and [v] thickness of the flagellar plug) revealed ancestral and derived states. The sixth character, structure of the paracrystalline inclusion, did not resolve ancestral and derived states. In each of the lineages within Chytridiales, the evolutionary trend appears to have been from a more complex zoospore to a less complex zoospore with reduced features. As we isolate and analyze additional taxa, we discover new ultrastructural character states that assist in taxon delineation and phylogenetic interpretation.