Skip to main page content
U.S. flag

An official website of the United States government

Dot gov

The .gov means it’s official.
Federal government websites often end in .gov or .mil. Before sharing sensitive information, make sure you’re on a federal government site.

Https

The site is secure.
The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

Access keys NCBI Homepage MyNCBI Homepage Main Content Main Navigation
. 2022:114:247-283.
doi: 10.1007/978-3-030-93306-7_10.

Microsporidian Pathogens of Aquatic Animals

Jamie Bojko  1   2 Grant D Stentiford  3
Affiliations

Microsporidian Pathogens of Aquatic Animals

Jamie Bojko et al. Exp Suppl. 2022.

Abstract

Around 57.1% of microsporidia occupy aquatic environments, excluding a further 25.7% that utilise both terrestrial and aquatic systems. The aquatic microsporidia therefore compose the most diverse elements of the Microsporidia phylum, boasting unique structural features, variable transmission pathways, and significant ecological influence. From deep oceans to tropical rivers, these parasites are present in most aquatic environments and have been shown to infect hosts from across the Protozoa and Animalia. The consequences of infection range from mortality to intricate behavioural change, and their presence in aquatic communities often alters the overall functioning of the ecosystem.In this chapter, we explore aquatic microsporidian diversity from the perspective of aquatic animal health. Examples of microsporidian parasitism of importance to an aquacultural ('One Health') context and ecosystem context are focussed upon. These include infection of commercially important penaeid shrimp by Enterocytozoon hepatopenaei and interesting hyperparasitic microsporidians of wild host groups.Out of ~1500 suggested microsporidian species, 202 have been adequately taxonomically described using a combination of ultrastructural and genetic techniques from aquatic and semi-aquatic hosts. These species are our primary focus, and we suggest that the remaining diversity have additional genetic or morphological data collected to formalise their underlying systematics.

Keywords: Aquaculture; Ecosystem; Fisheries; Freshwater; Hyperparasite; Marine; OneHealth; Opportunistic; Pathobiome; Taxonomy.

PubMed Disclaimer

References

    1. Abdel-Baki AAS, Tamihi AF, Al-Qahtani HA et al (2015) Glugea jazanensis sp. nov. infecting Lutjanus bohar in the Red Sea: ultrastructure and phylogeny. Dis Aquat Org 116:185–190 - DOI
    1. Abdel-Ghaffar F, Bashtar AR, Morsy K et al (2012) Morphological and molecular biological characterization of Pleistophora aegyptiaca sp. nov. infecting the Red Sea fish Saurida tumbil. Parasitol Res 110:741–752 - PubMed - DOI
    1. Agnew P, Bedhomme S, Haussy C, Michalakis Y (1999) Age and size at maturity of the mosquito Culex pipiens infected by the microsporidian parasite Vavraia culicis. Proc R Soc Lond B 266:947–952 - DOI
    1. Anderson LG, Bojko J, Bateman KS et al (2021) Patterns of infection in a native and an invasive crayfish across the UK. J Invert Pathol 184:107595 - DOI
    1. Andreadis TG (1988) Amblyospora connecticus sp. nov. (Microsporida: Amblyosporidae): horizontal transmission studies in the mosquito Aedes cantator and formal description. J Invert Pathol 52:90–101 - DOI