Cryptic sympatric species across the Australian range of the global estuarine invader Ficopomatus enigmaticus (Fauvel, 1923) (Serpulidae, Annelida)

Ficopomatus enigmaticus (Fauvel, 1923) is a reef-building serpulid polychaete that has invaded estuaries worldwide, causing environmental and economic harm. Although Australia has long been suggested as a place of origin for the species, this remains unclear. We tested for genetic patterns across the range of F. enigmaticus in southern Australia, predicting that if the species is an Australian native, it would show evidence of (east-west) phylogeographic patterns often observed in native marine species in southern Australia. Unexpectedly, concordant patterns from mitochondrial (Cyt B) sequencing and nuclear marker (iSSR) profiles suggested the presence of at least three genetic groups (putative species), not distributed simply as “east” or “west”. Two common (and closely related) groups were present across Australia and were often found together in the same aggregations. A third group was only found in southeast Australia and was morphologically similar to F. uschakovi (Pillai, 1960), a species previously reported from tropical areas. The discovery of multiple cryptic species with overlapping ranges means that more work is needed to resolve whether any of the F. enigmaticus sensu lato group has an Australian origin and to determine how they are related to invasive populations of F. enigmaticus elsewhere

A study on spermatogenesis of three Mediterranean serpulid species

Sperm ultrastructure and some steps of spermatogenesis of the serpulids Hydroides dianthus, Serpula vermicularis and Vermiliopsis infundibulum are reported. In all the species examined the germinal cells originated from a germinative epithelium associated to blood vessels in the intersegmental septa. The spermatocytes were irregular in shape with a large nucleus and a thin cytoplasmic layer. In early spermatids in which the nucleus gradually condensed, a developed endoplasmic reticulum and some electron-dense bodies were observed. The nucleus was dehydrated in the late spermatids and assumed a cylindrical shape. In all the examined species, the morphology of the ripe spermatozoa can be ascribed to the ect-aquasperm type. The acrosome had a simple cup shape in V. infundibulum, whilst it was more developed extending laterally to the nucleus in H. dianthus, and cup-shaped with a swelling towards the nucleus in S. vermicularis. When the morphology of the serpulid spermatozoa was superimposed on a phylogenetic scheme, some trends could be highlighted. Although the paucity of data on serpulid spermatozoa ultrastructure at present prevents any phylogenetic inference, the comparison of acrosome ultrastructure within a group having similar reproductive strategies showed an increase in the internal complexity of the acrosome

Live history evolution in Serpulimorph polychaetes: a phylogenetic analysis

The original publication can be found at www.springerlink.comThe widely accepted hypothesis of plesiomorphy of planktotrophic, and apomorphy of lecithotrophic, larval development in marine invertebrates has been recently challenged as a result of phylogenetic analyses of various taxa. Here the evolution of planktotrophy and lecithotrophy in Serpulimorph polychaetes (families Serpulidae and Spirorbidae) was studied using a hypothesis of phylogenetic relationships in this group. A phylogenetic (parsimony) analysis of 36 characters (34 morphological, 2 developmental) was performed for 12 selected serpulid and 6 spirorbid species with known reproductive/developmental strategies. Four species of Sabellidae were used in the outgroup. The analysis yielded 4 equally parsimonious trees of 78 steps, with a consistency index (CI) of 0.654 (CI excluding uninformative characters is 0.625). Under the assumption of unweighted parsimony analysis, planktotrophic larvae are apomorphic and non-feeding brooded embryos are plesiomorphic in serpulimorph polychaetes. The estimated polarity of life history transitions may be strengthened by further studies demonstrating an absence of a unidirectional bias in planktotrophy-lecithotrophy transition in polychaetes.Elena K. Kupriyanov