1. Scheele, B. C., Pasmans, F., Skerratt, L. F., Berger, L., Martel, A. N., Beukema, W., … & Canessa, S. (2019). Amphibian fungal panzootic causes catastrophic and ongoing loss of biodiversity. Science, 363(6434), 1459-1463.
2. Bielby, J., Bovero, S., Sotgiu, G., Tessa, G., Favelli, M., Angelini, C., … & Garner, T. W. (2009). Fatal chytridiomycosis in the Tyrrhenian painted frog. EcoHealth, 6, 27-32.
3. Thumsová, B., González-Miras, E., Faulkner, S. C., & Bosch, J. (2021). Rapid spread of a virulent amphibian pathogen in nature. Biological Invasions, 23(10), 3151-3160.
4. Harmos, K., Bosch, J., Thumsová, B., Martínez-Silvestre, A., Velarde, R., & Voros, J. (2021). Amphibian mortality associated with chytridiomycosis in Central-Eastern Europe. Herpetology Notes, 14, 1213-1218.
5. Martel, A., Blooi, M., Adriaensen, C., Van Rooij, P., Beukema, W., Fisher, M. C., … & Pasmans, F. (2014). Recent introduction of a chytrid fungus endangers Western Palearctic salamanders. Science, 346(6209), 630-631.
6. Spitzen-van der Sluijs, A., Martel, A., Asselberghs, J., Bales, E. K., Beukema, W., Bletz, M. C., … & Lötters, S. (2016). Expanding distribution of lethal amphibian fungus Batrachochytrium salamandrivorans in Europe. Emerging infectious diseases, 22(7), 1286.
7. Lötters, S., Wagner, N., Albaladejo, G., Böning, P., Dalbeck, L., Düssel, H., … & Wegge, J. (2020). The amphibian pathogen Batrachochytrium salamandrivorans in the hotspot of its European invasive range: past-present-future. Salamandra, 56(3).
8. Duffus, A. L., Nichols, R. A., & Garner, T. W. (2014). Experimental evidence in support of single host maintenance of a multihost pathogen. Ecosphere, 5(11), 1-11.
9. Pearman, P. B., & Garner, T. W. (2005). Susceptibility of Italian agile frog populations to an emerging strain of Ranavirus parallels population genetic diversity. Ecology Letters, 8(4), 401-408.
10. Raffel, T.R., Rohr, J.R., Kiesecker, J.M., Hudson, P.J. (2006). Negative effects of changing temperature on amphibian immunity under field conditions. Functional Ecology 20, 819–828.
11. Thumsová, B., Price, S. J., González-Cascón, V., Vörös, J., Martínez-Silvestre, A., Rosa, G. M., … & Bosch, J. (2022). Climate warming triggers the emergence of native viruses in Iberian amphibians. Iscience, 25(12).
12. Cohen, J. M., Venesky, M. D., Sauer, E. L., Civitello, D. J., McMahon, T. A., Roznik, E. A., & Rohr, J. R. (2017). The thermal mismatch hypothesis explains host susceptibility to an emerging infectious disease. Ecology letters, 20(2), 184-193.
13. Cohen, J. M., McMahon, T. A., Ramsay, C., Roznik, E. A., Sauer, E. L., Bessler, S., … & Rohr, J. R. (2019). Impacts of thermal mismatches on chytrid fungus Batrachochytrium dendrobatidis prevalence are moderated by life stage, body size, elevation and latitude. Ecology letters, 22(5), 817-825.
14. Pounds, J.A., Bustamante, M.R., Coloma, L.A., Consuegra, J.A., Fogden, M.P.L., Foster, P.N., La Marca, E., Masters, K.L., Merino-Viteri, A., Puschendorf, R., Ron, S.R., Sánchez-Azofeifa, G.A., Still, C.J., Young, B.E. (2006). Widespread amphibian extinctions from epidemic disease driven by global warming. Nature 439, 161–167.
15. Xie, G.Y., Olson, D.H., Blaustein, A.R. (2016) Projecting the Global Distribution of the Emerging Amphibian Fungal Pathogen, Batrachochytrium dendrobatidis, Based on IPCC Climate Futures. PLoS ONE 11(8): e0160746.
16. Bosch, J., Martı́nez-Solano, I., & Garcı́a-Parı́s, M. (2001). Evidence of a chytrid fungus infection involved in the decline of the common midwife toad (Alytes obstetricans) in protected areas of central Spain. Biological conservation, 97(3), 331-337.
17. Walker, S. F., Bosch, J., Gomez, V., Garner, T. W., Cunningham, A. A., Schmeller, D. S., … & Fisher, M. C. (2010). Factors driving pathogenicity vs. prevalence of amphibian panzootic chytridiomycosis in Iberia. Ecology letters, 13(3), 372-382.
18. Marquez, R., Olmo, J. L., & Bosch, J. (1995). Recurrent mass mortality of larval midwife toads Alytes obstetricans in a lake in the Pyrenean Mountains. Herpetological Journal, 5(3), 287-289.
19. Price, S. J., Garner, T. W., Nichols, R. A., Balloux, F., Ayres, C., de Alba, A. M. C., & Bosch, J. (2014). Collapse of amphibian communities due to an introduced Ranavirus. Current Biology, 24(21), 2586-2591.
20. Bosch, J., Mora-Cabello de Alba, A., Marquínez, S., Price, S. J., Thumsová, B., & Bielby, J. (2021). Long-term monitoring of amphibian populations of a National Park in northern Spain reveals negative persisting effects of Ranavirus, but not Batrachochytrium dendrobatidis. Frontiers in veterinary science, 8, 645491.
21. Martel, A., Vila‐Escale, M., Fernández‐Giberteau, D., Martinez‐Silvestre, A., Canessa, S., Van Praet, S., … & Pasmans, F. (2020). Integral chain management of wildlife diseases. Conservation Letters, 13(2), e12707.
22. Garner, T. W., Schmidt, B. R., Martel, A., Pasmans, F., Muths, E., Cunningham, A. A., … & Bosch, J. (2016). Mitigating amphibian chytridiomycoses in nature. Philosophical Transactions of the Royal Society B: Biological Sciences, 371(1709), 20160207.
23. Bosch, J., Sanchez-Tomé, E., Fernández-Loras, A., Oliver, J. A., Fisher, M. C., & Garner, T. W. (2015). Successful elimination of a lethal wildlife infectious disease in nature. Biology Letters, 11(11), 20150874.
24. Thumsová, B., González-Miras, E., Rubio, Á., Granados, I., Bates, K. A., & Bosch, J. (2024). Chemical disinfection as a simple and reliable method to control the amphibian chytrid fungus at breeding points of endangered amphibians. Scientific Reports, 14(1), 5151.
25. Alonso, A., Bosch, J., Pérez, J., Rojo, D., & Boyero, L. (2023). Salamander loss alters montane stream ecosystem functioning and structure through top-down effects.
26. Alonso, A., Monroy, S., Bosch, J., Pérez, J., & Boyero, L. (2022). Amphibian loss alters periphyton structure and invertebrate growth in montane streams. Journal of Animal Ecology, 91(11), 2329-2337.
27. Alonso, A., Bosch, J., & Boyero, L. (2024). Loss of amphibian species alters periphyton communities in montane ponds. Hydrobiologia, 1-14.
28. Richards‐Hrdlicka, K. L. (2012). Extracting the amphibian chytrid fungus from formalin‐fixed specimens. Methods in Ecology and Evolution, 3(5), 842-849.
29. Soto-Azat, C., Clarke, B. T., Fisher, M. C., Walker, S. F., & Cunningham, A. A. (2009). Non-invasive sampling methods for the detection of Batrachochytrium dendrobatidis in archived amphibians. Diseases of Aquatic Organisms, 84(2), 163-166.
30. Hyatt, A. D., Boyle, D. G., Olsen, V., Boyle, D. B., Berger, L., Obendorf, D., Dalton, A., … & Colling, A. (2007). Diagnostic assays and sampling protocols for the detection of Batrachochytrium dendrobatidis. Diseases of aquatic organisms, 73(3), 175-192.
31. Bosch, J., & Carabias, J. (2014). Primeros resultados del programa SARE en anfibios.
32. Bosch, J., Thumsová, B., Puschendorf, R., & Bielby, J. (2023). Drivers of Batrachochytrium dendrobatidis infection load, with evidence of infection tolerance in adult male toads (Bufo spinosus). Oecologia, 202(1), 165-174.
33. Benito, B. M., Cayuela, L., & Albuquerque, F. S. (2013). The impact of modelling choices in the predictive performance of richness maps derived from species‐distribution models: Guidelines to build better diversity models. Methods in Ecology and Evolution, 4(4), 327-335.
34. Blooi, M., Pasmans, F., Longcore, J. E., Spitzen-Van Der Sluijs, A., Vercammen, F., & Martel, A. (2013). Duplex real-time PCR for rapid simultaneous detection of Batrachochytrium dendrobatidis and Batrachochytrium salamandrivorans in amphibian samples. Journal of clinical microbiology, 51(12), 4173-4177.
35. Leung, W. T., Thomas-Walters, L., Garner, T. W., Balloux, F., Durrant, C., & Price, S. J. (2017). A quantitative-PCR based method to estimate Ranavirus viral load following normalisation by reference to an ultraconserved vertebrate target. Journal of Virological Methods, 249, 147-155.
36. Comas, M., Reguera, S., Zamora-Camacho, F. J., Salvadó i Cabré, H., & Moreno-Rueda, G. (2016). Comparison of the effectiveness of phalanges vs. humeri and femurs to estimate lizard age with skeletochronology. Animal Biodiversity and Conservation, 2016, vol. 39, num. 2, p. 237-240.
37. Zhao, M., Klaassen, C. A., Lisovski, S., & Klaassen, M. (2019). The adequacy of aging techniques in vertebrates for rapid estimation of population mortality rates from age distributions. Ecology and Evolution, 9(3), 1394-1402.
SOSanfibios.org 