Resistance to the crayfish plague, Aphanomyces astaci (Oomycota) in the endangered freshwater crayfish species, Austropotamobius pallipes

Introduction of invasive North American crayfish species and their pathogen Aphanomyces astaci has significantly contributed to the decline of European freshwater crayfish populations. In this study, noble crayfish, a susceptible native European species, and marbled crayfish, an invasive disease-resistant species, were challenged with haplogroup A (low virulence) and haplogroup B (high virulence) strain of A. astaci. Hepatopancreatic tissue was isolated 3 and 21 days post-challenge. Our results revealed strong up-regulation in expression levels of the prophenoloxidase cascade immune-related genes in the haplogroup B challenged noble crayfish 3 days post-challenge. In the marbled crayfish, we observed an up-regulation of immune system relevant genes (DSCAM, AP, ALFs, CTLs and hemocyanin) 3 days post-challenge. This response highlights the marbled crayfish capability of building the immune tolerance. Furthermore, we successfully characterised several novel immune related gene groups in both crayfish species, contributing to our current understanding of crayfish immune related genes landscape.

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Tracing the origin of the crayfish plague pathogen, Aphanomyces astaci, to the Southeastern United States

Scientific Reports ◽

10.1038/s41598-021-88704-8 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Laura Martín-Torrijos ◽

María Martínez-Ríos ◽

Gloria Casabella-Herrero ◽

Susan B. Adams ◽

Colin R. Jackson ◽

...

Keyword(s):

North American ◽

Haplotype Diversity ◽

Disease Outbreaks ◽

Freshwater Crayfish ◽

Geographical Patterns ◽

Aphanomyces Astaci ◽

Southeastern Us ◽

Infectious Pathogen ◽

Mass Mortalities ◽

Crayfish Species

AbstractThe oomycete Aphanomyces astaci is an emerging infectious pathogen affecting freshwater crayfish worldwide and is responsible for one of the most severe wildlife pandemics ever reported. The pathogen has caused mass mortalities of freshwater crayfish species in Europe and Asia, and threatens other susceptible species in Madagascar, Oceania and South America. The pathogen naturally coexists with some North American crayfish species that are its chronic carriers. Presumptions that A. astaci originated in North America are based on disease outbreaks that followed translocations of North American crayfish and on the identification of the pathogen mainly in Europe. We studied A. astaci in the southeastern US, a center of freshwater crayfish diversity. In order to decipher the origin of the pathogen, we investigated (1) the distribution and haplotype diversity of A. astaci, and (2) whether there are crayfish species-specificities and/or geographical restrictions for A. astaci haplotypes. A total of 132 individuals, corresponding to 19 crayfish species and one shrimp species from 23 locations, tested positive for A. astaci. Mitochondrial rnnS and rnnL sequences indicated that A. astaci from the southeastern US exhibited the highest genetic diversity so far described for the pathogen (eight haplotypes, six of which we newly describe). Our findings that A. astaci is widely distributed and genetically diverse in the region supports the hypothesis that the pathogen originated in the southeastern US. In contrast to previous assumptions, however, the pathogen exhibited no clear species-specificity or geographical patterns.

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A plan of restauration in Navarra for the native freshwater crayfish species of Spain,Austropotamobius pallipes

Bulletin Français de la Pêche et de la Pisciculture ◽

10.1051/kmae/1997056 ◽

1997 ◽

pp. 625-637 ◽

Cited By ~ 17

Author(s):

J. DIÉGUEZ-URIBEONDO ◽

A. RUEDA ◽

E. CASTIEN ◽

J.C. BASCONES

Keyword(s):

Freshwater Crayfish ◽

Austropotamobius Pallipes ◽

Crayfish Species

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May atyid shrimps act as potential vectors of crayfish plague?

NeoBiota ◽

10.3897/neobiota.51.37718 ◽

2019 ◽

Vol 51 ◽

pp. 65-80 ◽

Cited By ~ 1

Author(s):

Agata Mrugała ◽

Miloš Buřič ◽

Adam Petrusek ◽

Antonín Kouba

Keyword(s):

Procambarus Clarkii ◽

Freshwater Crayfish ◽

Transmission Experiment ◽

Shrimp Species ◽

Aphanomyces Astaci ◽

Freshwater Shrimps ◽

Successful Infection ◽

In The Wild ◽

Species Specific ◽

Crayfish Species

The causative agent of crayfish plague, Aphanomyces astaci Schikora, was long considered to be a specialist pathogen whose host range is limited to freshwater crayfish. Recent studies, however, provided evidence that this parasite does not only grow within the tissues of freshwater-inhabiting crabs but can also be successfully transmitted by them to European crayfish species. The potential to act as alternative A. astaci hosts was also indicated for freshwater shrimps. We experimentally tested resistance of two freshwater atyid shrimps: Atyopsis moluccensis (De Haan, 1849) and Atya gabonensis Giebel, 1875. They were infected with the A. astaci strain associated with the globally widespread North American red swamp crayfish, Procambarus clarkii (Girard, 1852), the typical host of the A. astaci genotype group D. As popular ornamental species, both shrimps may get in contact with infected P. clarkii not only in the wild but also in the aquarium trade. We assessed the potential of shrimps to transmit A. astaci to susceptible crayfish by cohabiting A. gabonensis previously exposed to A. astaci zoospores with the European noble crayfish, Astacus astacus (Linnaeus, 1758). In both experiments, the presence of A. astaci infection was analysed with species-specific quantitative PCR. We detected A. astaci in bodies and exuviae of both shrimp species exposed to A. astaci zoospores, however, the intensity of infection differed between the species and analysed samples; it was higher in A. moluccensis and the exuviae of both species. A. astaci was also detected in one A. astacus individual in the transmission experiment. This finding reveals that freshwater shrimps may be able to transmit A. astaci to crayfish hosts; this is particularly important as even a single successful infection contributes to the spread of the disease. Moreover, our results indicate that the tested shrimp species may be capable of resisting A. astaci infection and reducing its intensity through moulting. Although their potential to act as prominent A. astaci vectors requires further research, it should not be ignored as these freshwater animals may then facilitate A. astaci spread to susceptible crayfish species in aquarium and aquaculture facilities as well as in the wild.

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Money Kills Native Ecosystems: European Crayfish as an Example

Frontiers in Ecology and Evolution ◽

10.3389/fevo.2021.648495 ◽

2021 ◽

Vol 9 ◽

Author(s):

Japo Jussila ◽

Lennart Edsman ◽

Ivana Maguire ◽

Javier Diéguez-Uribeondo ◽

Kathrin Theissinger

Keyword(s):

Alien Species ◽

Aquatic Ecosystems ◽

Significant Proportion ◽

Suitable Habitat ◽

Freshwater Crayfish ◽

Aphanomyces Astaci ◽

Commercial Activities ◽

Disease Agent ◽

Native Crayfish ◽

Crayfish Species

Native European crayfish conservation was triggered by invasion of crayfish plague disease agent, Aphanomyces astaci, starting 1860s in Northern Italy. Resulting crayfish plague epidemics quickly spread over Continental Europe, then to Finland, Sweden and finally, after running amok around Europe, A. astaci was discovered also in Iberian Peninsula, Norway, Ireland, and United Kingdom in 1970s and 1980s. By that time significant proportion of native crayfish stocks had been lost, and while crayfish plague epidemics were still recorded, also industrialization and waterways construction were causing damage to remaining native crayfish stocks. While alien crayfish introductions, at least Faxonius limosus, already gave rise to first wave of crayfish plague epidemics in late 19th century, later in 1960s it was decided that introductions of alien Pacifastacus leniusculus should be initiated to replace native European crayfish populations. Decisions were based on presumed advantages for fishery, suitable habitat requirements and supposed immunity against A. astaci. Furthermore, conservation of native European crayfish species was sidelined and focus shifted toward alien crayfish stocking routine and consumption. Alien crayfish species introductions resulted in repeated waves of crayfish plague epidemics among remaining native crayfish stocks. It was soon discovered that alien crayfish of North American origin were, as suspected, permanent reservoirs for A. astaci, that some of those alien species were losing their resistance against selected strains of A. astaci and struggled in European aquatic ecosystems. In this article, we introduce numerous motives behind grand mistake of introducing alien crayfish species to Europe and then promoting their stocks instead of focusing on conservation of native crayfish species. We outline how false economical, biological and ecologic assumptions were used to justify a hasty introduction of alien crayfish, which has further devastated native crayfish and also permanently changed European aquatic ecosystems, both with disastrous consequences. Lesson to be learnt is that science-based warnings about alien species damage to native ecosystems and native crayfish must be taken with utmost caution. Protection of native European crayfish should be core issue, not commercial activities. Finally, we summarize main threats and actions needed to protect remaining native freshwater crayfish fauna in Europe.

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Crayfish arts: an evaluation into the efficacy of artificial refuge traps for monitoring lotic white-clawed crayfish Austropotamobius pallipes (Lereboullet, 1858) (Decapoda, Astacidae) populations

Crustaceana ◽

10.1163/15685403-00003772 ◽

2018 ◽

Vol 91 (3) ◽

pp. 297-309 ◽

Cited By ~ 1

Author(s):

James O’Connor ◽

Sakinah Brennan ◽

Jan-Robert Baars

Keyword(s):

Population Studies ◽

Sampling Effort ◽

Irish Population ◽

Effective Technique ◽

Austropotamobius Pallipes ◽

Population Structures ◽

Capture Method ◽

Crayfish Population ◽

Capture Techniques ◽

Crayfish Species

White-clawed crayfishAustropotamobius pallipes(Lereboullet, 1858) are one of five crayfish species indigenous to Europe, and the only crayfish species to occur in Ireland. With no known invasive species posing a risk, the Irish population is of considerable conservation importance, particularly in a European context. While there are a number of capture techniques described for crayfish population studies, many have a number of limitations associated with them. There is a need therefore to evaluate new and emerging techniques, so as to assess their efficacy for monitoringA. pallipespopulations. Artificial refuge traps (ARTs), an alternative passive capture method, were evaluated against three other widely used capture techniques during the summer months of 2015. Results indicate ARTs to be an effective technique for sampling crayfish, and suggest that, in combination with other capture methods, ARTs could depict accurate population structures, and reduce some of the sampling effort and bias associated with crayfish monitoring.

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Calcium Balance at the Premoult Stage of the Freshwater Crayfish Austropotamobius Pallipes (Lereboullet)

Journal of Experimental Biology ◽

10.1242/jeb.61.1.27 ◽

1974 ◽

Vol 61 (1) ◽

pp. 27-34

Author(s):

PETER GREENAWAY

Keyword(s):

Body Surface ◽

The Body ◽

Ionized Calcium ◽

Freshwater Crayfish ◽

Calcium Balance ◽

Electrochemical Gradient ◽

Austropotamobius Pallipes

The premoult stage in Austropotamobius pallipes is characterized by a net loss of calcium which increases from D0 to a maximum of 0.83 µmoles/g/h at D4. The concentration of ionized calcium in the haemolymph does not increase during the premoult stage although there is an increase in complexed calcium. The electrochemical gradient across the body surface is similar to that at the intermoult stage and favours calcium outflux. Possible routes for calcium net loss have been discussed and a mechanism for elimination of calcium has been proposed.

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Evidence for multiple paternity in two species of Orconectes crayfish

Canadian Journal of Zoology ◽

10.1139/cjz-2014-0132 ◽

2014 ◽

Vol 92 (11) ◽

pp. 985-988 ◽

Cited By ~ 6

Author(s):

A.F. Kahrl ◽

R.H. Laushman ◽

A.J. Roles

Keyword(s):

Genetic Variation ◽

Life History ◽

Multiple Mating ◽

Natural Populations ◽

Multiple Paternity ◽

The Body ◽

Freshwater Crayfish ◽

Decapod Crustaceans ◽

Freshwater Habitats ◽

Crayfish Species

Multiple mating is expected to be common in organisms that produce large clutches as a mechanism by which sexual reproduction can enrich genetic variation. For freshwater crayfish, observation of multiple mating suggests the potential for high rates of multiple paternity, but genetic confirmation is largely lacking from natural populations. We studied paternity within wild-caught broods of two crayfish species in the genus Orconectes (Sanborn’s crayfish (Orconectes sanbornii (Faxon, 1884)) and the Allegheny crayfish (Orconectes obscurus (Hagen, 1870))). Although females have been observed mating with multiple males, this is the first genetic confirmation of multiple paternity in broods of these two species. Berried females were collected in the field and maintained in aquaria until their eggs hatched. We amplified and genotyped extracted DNA from maternal and hatchling tissue for several microsatellite loci. For both species, paternity reconstruction (GERUD 2.0) yielded 2–3 sires per brood and no single paternity clutches. We discuss these results from natural populations in light of the body of work on reproductive ecology of decapod crustaceans and in the context of changes in life history following the transition from marine to freshwater habitats.

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