Batrachochytrium dendrobatidis Amphibian Chytrid Fungus

BatrachochytriumdendrobatidisAmphibian Chytrid Fungus Daniel Gillespie Bio 594: Mycology Fall 2013

Overview • B. dendrobatidis(Bd) • Classification • Physiology • Origin & Global Dissemination • Chytridiomycosis • Effect • Notable Amphibians • Population Declines • Going Forward

Classification • Phylum: Chytridiomycota • Class: Chytridiomycetes • Order: Rhizophydiales • Family: Incertaesedis

Naming 1999, Longcore et al., Mycologia Name derived from blue poison dart frog, Dendrobatesazureus Infected specimens from National Zoo in D.C.

Description • Bd infects the skin of amphibians • It grows into a monocentric or colonial thallus • Immature sporangia develop in the deeper layers Bd growth in skin of blue poison dart frog

Description Sporangia push outward to eject zoospores into the environment Discharge tubes develop Zoospores spherical with flagellum In lab only swam about 2 cm before encysting Bd zoospore on agar surface

Description • Growth in wide range of conditions • Optimal growth 17 – 25 ºC • Above 25º growth slows • Sexual reproduction has not been successful in labs • May result in thick-walled, resistant sporangia

Origin Weldon et al. 2004 , Emerging Infectious Diseases Studied museum specimens from around the world First positive: 1938, South Africa First positive outside Africa: 1961, Quebec Primary host: Xenopuslaevis Xenopuslaevis

Dissemination • X. laevisspread began in 1930s worldwide • Pregnancy assay • Pet trade • Since, other vectors have been suggested

Chytridiomycosis • Infects skin of frogs • Outer layers – stratum corneum and stratum granulosum • 2 hypotheses on death of frogs: • Inhibition of skin function • Excretion of proteolytic enzymes • Growth results in hyperkeratosis • Lesions often form in area of infection

Notable Amphibians Several species do not show clinical signs of infection X. laevisproduces antimicrobial peptides in skin Peptides act as barrier Frogs also showed immune system responses fighting Bd growth

Frog Declines • Since 1980 • 435 frog species declining • 233 attributed to habitat loss and exploitation • Many areas experiencing wavelike declines • Areas of significant impact include Australia and So. America

Map of Spread

Going Forward • Why Care? • Biodiversity • Approximately 7,000 species • New species discovered constantly • Importance as Indicator Species • Sensitive to environment • Abundant in wetland habitats Oreophrynegagneorum, discovered in September 2013 in Papa New Guinea

Going Forward • What can we do? • Research • Frogs are hard to find • Current research is limited • Bd genome recently sequenced • Focus on population effects and possible cure needed

References • Berger, L., Hyatt, A. D., Speare, R., & Longcore, J. E. (2005). Life cycle stages of the amphibian chytridBatrachochytriumdendrobatidis. Diseases of aquatic organisms, 68, 51-63. • Berger, L., Speare, R., Hines, H. B., Marantelli, G., Hyatt, A. D., McDonald, K. R., ... & Tyler, M. J. (2004). Effect of season and temperature on mortality in amphibians due to chytridiomycosis. Australian Veterinary Journal, 82(7), 434-439. • Berger L, Speare R, Hyatt A (1999) Chytrid fungi and amphibian declines: overview, implications and future directions. In: Campbell A (ed) Declines and disappearances of Australian frogs. Environment Australia, Canberra, p 23–33 • Johnson, M. L., & Speare, R. (2005). Possible modes of dissemination of the amphibian chytridBatrachochytriumdendrobatidis in the environment. Diseases of aquatic organisms, 65, 181-186. • Kilpatrick, A. M., Briggs, C. J., & Daszak, P. (2010). The ecology and impact of chytridiomycosis: an emerging disease of amphibians. Trends in Ecology & Evolution, 25(2), 109-118. • Kriger, K. M., & Hero, J. M. (2007). The chytrid fungus Batrachochytriumdendrobatidis is non‐randomly distributed across amphibian breeding habitats.Diversity and Distributions, 13(6), 781-788. • Longcore, J. E., Pessier, A. P., & Nichols, D. K. (1999). Batrachochytriumdendrobatidis gen. et sp. nov., a chytrid pathogenic to amphibians. Mycologia, 219-227. • Morgan, J. A., Vredenburg, V. T., Rachowicz, L. J., Knapp, R. A., Stice, M. J., Tunstall, T., ... & Taylor, J. W. (2007). Population genetics of the frog-killing fungus Batrachochytriumdendrobatidis. Proceedings of the National Academy of Sciences, 104(34), 13845-13850. • Orchard, S. A. (1999). The Gordian knots of the international declining amphibian populations task force (DAPTF). In: Campbell A (ed) Declines and disappearances of Australian frogs. Environment Australia, Canberra, p 9-13 • Piotrowski, J. S., Annis, S. L., & Longcore, J. E. (2004). Physiology of Batrachochytriumdendrobatidis, a chytrid pathogen of amphibians. Mycologia,96(1), 9-15. • Ramsey, J. P., Reinert, L. K., Harper, L. K., Woodhams, D. C., & Rollins-Smith, L. A. (2010). Immune defenses against Batrachochytriumdendrobatidis, a fungus linked to global amphibian declines, in the South African clawed frog, Xenopuslaevis. Infection and immunity, 78(9), 3981-3992. • Rosenblum, E. B., James, T. Y., Zamudio, K. R., Poorten, T. J., Ilut, D., Rodriguez, D., ... & Stajich, J. E. (2013). Complex history of the amphibian-killing chytrid fungus revealed with genome resequencing data. Proceedings of the National Academy of Sciences, 110(23), 9385-9390. • Skerratt, L. F., Berger, L., Speare, R., Cashins, S., McDonald, K. R., Phillott, A. D., ... & Kenyon, N. (2007). Spread of chytridiomycosis has caused the rapid global decline and extinction of frogs. EcoHealth, 4(2), 125-134. • Stuart, S. N., Chanson, J. S., Cox, N. A., Young, B. E., Rodrigues, A. S., Fischman, D. L., & Waller, R. W. (2004). Status and trends of amphibian declines and extinctions worldwide. Science, 306(5702), 1783-1786. • Weldon, C., du Preez, L. H., Hyatt, A. D., Muller, R., & Speare, R. (2004). Origin of the amphibian chytrid fungus. Emerging infectious diseases, 10(12), 2100. • Welsh Jr, H. H., & Ollivier, L. M. (1998). Stream amphibians as indicators of ecosystem stress: a case study from California's redwoods. Ecological Applications, 8(4), 1118-1132.

Links to Photos http://www.amphibianark.org/the-crisis/chytrid-fungus/ http://www.arkive.org/dyeing-poison-frog/dendrobates-tinctorius/image-G15404.html http://www.arkive.org/dyeing-poison-frog/dendrobates-tinctorius/image-G104487.html Longcore, J. E., Pessier, A. P., & Nichols, D. K. (1999). Batrachochytriumdendrobatidis gen. et sp. nov., a chytrid pathogenic to amphibians. Mycologia, 219-227 Longcore, J. E., Pessier, A. P., & Nichols, D. K. (1999). Batrachochytriumdendrobatidis gen. et sp. nov., a chytrid pathogenic to amphibians. Mycologia, 219-227 http://upload.wikimedia.org/wikipedia/commons/b/b4/Xenopus_laevis_02.jpg http://www.fcps.edu/islandcreekes/ecology/Amphibians/Bullfrog/bull2.jpg http://www.xenopus.com/box_of_frogs.jpg http://mongabay-images.s3.amazonaws.com/13/0918fungus1.jpg http://www.earthfiles.com/Images/news/A/AmphibianAfricanClawedFrogLo.jpg http://cdn4.sci-news.com/images/2013/09/image_1400_3-Oreophryne.jpg

Batrachochytrium dendrobatidis Amphibian Chytrid Fungus

Batrachochytrium dendrobatidis Amphibian Chytrid Fungus

Presentation Transcript

Amphibian

Fungus:

Amphibian Anatomy

Fungus Stations

Fungus

FUNGUS

Amphibian ADAPTATIONS

Amphibian ADAPTATIONS

Amphibian Diseases

Chytridiomycosis Batrachochytrim dendrobatidis

Amphibian Ark

Nail Fungus

Amphibian Digestion

AMPHIBIAN NOTES

FUNGUS GNAT

Frog Chytrid Fungus By Maggie McKitrick 2007 Block II

Amphibian Taxonomy

Amphibian Classification

Fungus

Fungus Characteristics

The Fungus causes toenail Fungus

Amphibian Diversity