Alternosema astaquatica n. sp. (Microsporidia: Enterocytozoonida), a systemic parasite of the crayfish Faxonius virilis.

Crayfish have strong ecological impacts in freshwater systems, yet our knowledge of their parasites is limited. This study describes the first systemic microsporidium (infects multiple tissue types) Alternosema astaquatica n. sp. (Enterocytozoonida) isolated from a crayfish host, Faxonius virilis, using histopathology, transmission electron microscopy, gene sequencing, and phylogenetics. The parasite develops in direct contact with the host cell cytoplasm producing mature spores that are monokaryotic and ellipsoid in shape. Spores have 9-10 coils of the polar filament and measure 3.07 ± 0.26 µm (SD) in length and 0.93 ± 0.08 µm (SD) in width. Our novel isolate has high genetic similarity to Alternosema bostrichidis isolated from terrestrial beetles; however, genetic data from this parasite is restricted to a small fragment (396 bp) of the SSU gene. Additional data related to spore morphology and development, host, environment, and ecology indicate that our novel isolate is distinct from A. bostrichidis, which supports a new species description. Alternosema astaquatica n. sp. represents a novel member of the Orthosomella-like group which appears to be a set of opportunists within the Enterocytozoonida. The presence of this microsporidium in F. virilis could be relevant for freshwater ecosystems across this crayfish's broad geographic range in North America and may affect interactions between F. virilis and invasive rusty crayfish Faxonius rusticus in the Midwest USA.

Cambaraspora faxoni n. sp. (Microsporidia: Glugeida) from native and invasive crayfish in the USA and a novel host of Cambaraspora floridanus.

Crayfishes are among the most widely introduced freshwater taxa and can have extensive ecological impacts. Knowledge of the parasites crayfish harbor is limited, yet co-invasion of parasites is a significant risk associated with invasions. In this study, we describe a novel microsporidium, Cambaraspora faxoni n. sp. (Glugeida: Tuzetiidae), from two crayfish hosts in the Midwest USA, Faxonius virilis and Faxonius rusticus. We also expand the known host range of Cambaraspora floridanus to include Procambarus spiculifer. Cambaraspora faxoni infects muscle and heart tissue of F. rusticus and develops within a sporophorous vesicle. The mature spore measures 3.22 ± 0.14 µm in length and 1.45 ± 0.13 µm in width, with 8-9 turns of the polar filament. SSU sequencing indicates the isolates from F. virilis and F. rusticus were identical (100%) and 93.49% similar to C. floridanus, supporting the erection of a new species within the Cambaraspora genus. The novel parasite was discovered within the native range of F. rusticus (Ohio, USA) and within a native congeneric (F. virilis) in the invasive range of F. rusticus (Wisconsin, USA). Faxonius virilis is invasive in other regions. This new parasite could have been introduced to Wisconsin with F. rusticus or it may be a generalist species with a broad distribution. In either case, this parasite infects two crayfish species that have been widely introduced to new drainages throughout North America and could have future effects on invasion dynamics or impacts.

The plot thickens: Ovipleistophora diplostomuri infects two additional species of Florida crayfish.

Ovipleistophora (Microsporidia) is a globally distributed genus of obligate parasites that infect fish, Crustacea, and trematodes. We report on two additional crayfish hosts, Procambarus pictus (Simms Creek, Florida) and Procambarus fallax (Santa Fe River, Florida), that exhibited signs of high-intensity microsporidian infection in the musculature. Sequence data (SSU) for the isolates were 99.79% and 99.97% similar to Ovipleistophora diplostomuri parasitizing Procambarus bivittatus. Additional screening of regional fish species (Lepomis macrochirus) revealed additional microsporidian diversity (Potaspora) but did not include Ovipleistophora. Detecting Clade V isolates in multiple host groups provides further evidence for trophic transmission among Clade V microsporidia.

Revising the Freshwater Thelohania to Astathelohania gen. et comb. nov., and Description of Two New Species.

Crayfish are common hosts of microsporidian parasites, prominently from the genus Thelohania. Thelohania is a polyphyletic genus, with multiple genetically distinct lineages found from freshwater and marine environments. Researchers have been calling for a revision of this group for over a decade. We provide evidence that crayfish-infecting freshwater Thelohania are genetically and phylogenetically distinct from the marine Thelohania (Clade V/Glugeida), whilst also describing two new species that give further support to the taxonomic revision. We propose that the freshwater Thelohania should be transferred to their own genus, Astathelohania gen. et comb. nov., in a new family (Astathelohaniidae n. fam.). This results in the revision of Thelohania contejeani (Astathelohania contejeani), Thelohania montirivulorum (Astathelohania montirivulorum), and Thelohania parastaci (Astathelohania parastaci). We also describe two novel muscle-infecting Astathelohania species, A. virili n. sp. and A. rusti n. sp., from North American crayfishes (Faxonius sp.). We used histological, molecular, and ultrastructural data to formally describe the novel isolates. Our data suggest that the Astathelohania are genetically distinct from other known microsporidian genera, outside any described family, and that their SSU rRNA gene sequence diversity follows their host species and native geographic location. The range of this genus currently includes North America, Europe, and Australia.

A new lineage of crayfish-infecting Microsporidia: The Cambaraspora floridanus n. gen. n. sp. (Glugeida: Glugeidae) complex from Floridian freshwaters (USA).

Crayfish are a vital ecological asset in their native range but can be highly damaging as invasive species. Knowledge of their diseases, including high levels of research on Aphanomyces astaci (crayfish plague), show that disease plays a vital role during crayfish invasions. Microsporidian diseases in crayfish are less studied but are thought to have important links to crayfish health and invasion dynamics. In this study we provide a systematic description of a novel microsporidian parasite from the Floridian crayfish, Procambarus paeninsulanus, with additional genetic identification from related Microsporidia from Procambarus fallax, Cambarellus shufeldtii and Cambarellus blacki. This novel microsporidium from P. paeninsulanus is described in a new genus, Cambaraspora, and species, Cambaraspora floridanus, and represents a novel member of the Clade V Microsporidia within the Glugeidae. The parasite develops in the muscle tissue of P. paeninsulanus, within a sporophorous vesicle, and produces a spore with 19-21 turns of the polar filament measuring 6.136 ± 0.84 µm in length and 2.12 ± 0.23 µm in width. The muscle-infecting nature of the parasite suggests that it is horizontally transmitted. Genetic data for the 18S of the parasite from all hosts confirms its assignment to Clade V and reveal it to be a relative of multiple fish-infecting parasites. It shows closest genetic relationship to Glugea plecoglossi, but branches alongside multiple microsporidia from fish, crustaceans and eDNA isolates. The information presented here suggests that this novel parasite may have the potential to infect piscine hosts and is a likely mortality driver in the P. paeninsulanus population. Its potential as a control agent or wildlife disease invasion threat is explored, as well as the placement of this novel microsporidium within the Glugeidae.