1 / 31

Disease Threats to Amphibian Populations

Evan H Campbell Grant Northeast Amphibian Research and Monitoring Initiative US Geological Survey Patuxent Wildlife Research Center David E. Green, DVM US Geological Survey National Wildlife Health Center David Miller US Geological Survey Patuxent Wildlife Research Center Mitch Eaton

carrieann
Download Presentation

Disease Threats to Amphibian Populations

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Evan H Campbell Grant Northeast Amphibian Research and Monitoring Initiative US Geological Survey Patuxent Wildlife Research Center David E. Green, DVM US Geological Survey National Wildlife Health Center David Miller US Geological Survey Patuxent Wildlife Research Center Mitch Eaton US Geological Survey Patuxent Wildlife Research Center Disease Threats to Amphibian Populations

  2. Color slides of 5 common lethal infectious diseases of amphibians • Considerations for surveillance and monitoring of diseases at multiple scales

  3. 5 Common Lethal Infectious Diseases of Amphibians • Chytrid Fungus • Ranaviruses • Perkinsus-like organism • Ichthyophonus sp. • Ribeiroia ondatrae (fluke)

  4. 1) Pathogenic Chytrid Fungus: Batrachochytrium dendrobatidis (“Bd”) • Major cause of amphibian population declines worldwide • Kills only frogs & toads after metamorphosis; occasionally lethal in adult newts • Die-offs are insidious; rarely are more than 2 dead frogs or toads found at a site • Mixed effect of disease on populations in northeastern US

  5. Chytridiomycosis: Gross Findings: TadpolesLarvae: non-lethal oral infection of tadpoles

  6. Harlequin frog (Panama) Chytridiomycosis: Gross Findings: Adult Frogs Lethal in majority of spp. within 2-3 wks of end of metamorphosis Chiricahua leopard frog (Rana chiricahuensis)

  7. Bd: Salamanders • Pathogenicity largely unknown; non-lethal to aquatic life-stages, occasionallylethal to red-spotted newts. • Susceptibility of terrestrial salamanders is largely unstudied • Stream salamanders susceptible; no die-offs observed.

  8. Chytridiomycosis in Amphibians Year of First Detection Museum specimens Revised Aug 2010 ‘00 ‘99 ‘02 ‘00 ‘00 ‘01 ‘01 ‘01 ‘74 ‘01 c.’95 ‘04 ‘99 ‘01 ‘74 ‘95 ‘97 ‘76 ‘00 ‘06 c.’74 ‘02 ‘02 ‘03 ‘03 ‘02 ‘00 ‘01 Puerto Rico ‘77

  9. 2) Ranaviruses • Agent: Ranavirus; Family: Iridoviridae • - 5 or 6 distinct strains or species in USA • - Some strains are host-specific, other strains may be panzootic • Epizootiology: • - Kills larvae & larvae in metamorphosis • - Seldom affects adult amphibians in USA • - Onset is sudden (explosive) • - Mortality rate often >95% of larvae

  10. Ranavirus Infection • Gross Findings: • 1. Petechia or ulcers in skin

  11. Ranavirus Infection • Gross Findings: • 2. Effusions under skin and into body cavity

  12. Bunch of dead decaying tadpoles Matt Gray, UT

  13. Ranavirus Die-offs: Frogs and Toads (tadpoles) Revised Aug 2010 Puerto Rico Alaska Hawai’i

  14. Ranavirus Die-offs: Salamanders (larvae) Revised Aug 2010 Puerto Rico Alaska Hawai’i

  15. 3) Perkinsus-like Organism • Kills ranid tadpoles only, rarely other spp. • Die-offs may continue for weeks with bloated weak tadpoles floating on surface • Often causes >90% mortality of ranid tadpoles in a pond (hence, little recruitment) Mississippi gopher frog (Rana sevosa)

  16. Perkinsus-like Organism: Gross Findings • - Mildly to massively enlarged light yellow liver, spleen, pronephroi & mesonephroi • - Abdominal distention

  17. Perkinsus-like Organism: Distribution Revised Aug 2010 Puerto Rico Alaska Hawai’i

  18. Eastern red-spotted newt 4) Ichthyophoniasis • Definition: A slight to severe (and lethal) infection of amphibian skeletal muscle “Swollen rump” in recently metamorphosed frogs Lethal Infections occur in Eastern red-spotted newts Larval Rana spp. Adult Rana spp. Green frog

  19. Amphibian Ichthyophoniasis: Distribution Revised Aug 2010 Puerto Rico

  20. 5) Ribeiroiaondatrae-induced Malformations: Infection by metacercariae must occur at very specific tadpole ages to induce malformation (Gosner 26-28) Polydactyly & Skin Web Polymelia Polypodia Ectromelia

  21. Now that we know what we’re looking for… And where it has been found…

  22. Develop an efficient monitoring and surveillance program • Interest in diseases at multiple levels • Mapping – detections/dieoffs • Number of ponds affected • Prevalence at an infected pond • Temporal and spatial dynamics • Population-level effects

  23. Two primary challenges (1) addressing uncertainty with (only partially) observed disease dynamics in the wild (2) determining how environmental, spatial, and community processes interact to cause outbreaks and disease persistence.

  24. Challenge 1: Uncertainty (False positives and/or negatives) McClintock et al. 2010. Ecol Lett. 13:659

  25. Uncertainty at each level: Pr(Refuge contains disease)

  26. Pr(Refuge contains disease) Pr(Pond diseased | Refuge diseased)

  27. Pr(Refuge contains disease) Pr(Pond diseased | Refuge diseased)Pr(Frog diseased | Pond diseased)

  28. Pr(Refuge contains disease) Pr(Pond diseased | Refuge diseased)Pr(Frog diseased | Pond diseased) Pr(Detect disease | Frog diseased)

  29. Ignoring uncertainty • False + and/or – errors • Results in biased estimates of presence, prevalence and dynamics. • We need to design methods and apply sampling to efficiently address these sources of uncertainty. • Probabilistic choice of sampling units • Repeat sampling in space and time • How to allocate effort across the hierarchy?

  30. 2) Determining causes of outbreaks and disease persistence • Sampling design considerations (what, when, where) • Statistical methods which account for imperfect detection • Combinations of field and laboratory studies • Research needs: • Pathogen ecology • Reservoirs/vectors - persistence • Mechanism(s) for outbreaks • Influence of spatial structure of habitats Matt Gray, UT

  31. Recommendations and challenges • Consider hierarchical nature of disease question (presence vs. prevalence; scale)? • Dynamics in presence and prevalence – annual allocation of effort • Uncertainty in ecology of many amphibian diseases. • Management? • Working on developing amphibian disease monitoring program for NE refuges - ehgrant@usgs.gov

More Related