Ross A. Alford scite author profile

Pathogens rarely cause extinctions of host species, and there are few examples of a pathogen changing species richness and diversity of an ecological community by causing local extinctions across a wide range of species. We report the link between the rapid appearance of a pathogenic chytrid fungus Batrachochytrium dendrobatidis in an amphibian community at El Copé , Panama, and subsequent mass mortality and loss of amphibian biodiversity across eight families of frogs and salamanders. We describe an outbreak of chytridiomycosis in Panama and argue that this infectious disease has played an important role in amphibian population declines. The high virulence and large number of potential hosts of this emerging infectious disease threaten global amphibian diversity.extinction ͉ fungus ͉ tropics ͉ chytridiomycosis ͉ Panama

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Global Amphibian Declines: A Problem in Applied Ecology

Alford

Richards

1999

Annu. Rev. Ecol. Syst.

891

591

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▪ Abstract Declines and losses of amphibian populations are a global problem with complex local causes. These may include ultraviolet radiation, predation, habitat modification, environmental acidity and toxicants, diseases, changes in climate or weather patterns, and interactions among these factors. Understanding the extent of the problem and its nature requires an understanding of how local factors affect the dynamics of local populations. Hypotheses about population behavior must be tested against appropriate null hypotheses. We generated null hypotheses for the behavior of amphibian populations using a model, and we used them to test hypotheses about the behavior of 85 time series taken from the literature. Our results suggest that most amphibian populations should decrease more often than they increase, due to highly variable recruitment and less variable adult mortality. During the period covered by our data (1951–1997), more amphibian populations decreased than our model predicted. However, there was no indication that the proportion of populations decreasing changed over time. In addition, our review of the literature suggests that many if not most amphibians exist in metapopulations. Understanding the dynamics of amphibian populations will require an integration of studies on and within local populations and at the metapopulation level.

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Pathogenesis of Chytridiomycosis, a Cause of Catastrophic Amphibian Declines

Voyles

Young

Berger

et al. 2009

Science

538

547

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The pathogen Batrachochytrium dendrobatidis (Bd), which causes the skin disease chytridiomycosis, is one of the few highly virulent fungi in vertebrates and has been implicated in worldwide amphibian declines. However, the mechanism by which Bd causes death has not been determined. We show that Bd infection is associated with pathophysiological changes that lead to mortality in green tree frogs (Litoria caerulea). In diseased individuals, electrolyte transport across the epidermis was inhibited by >50%, plasma sodium and potassium concentrations were respectively reduced by approximately 20% and approximately 50%, and asystolic cardiac arrest resulted in death. Because the skin is critical in maintaining amphibian homeostasis, disruption to cutaneous function may be the mechanism by which Bd produces morbidity and mortality across a wide range of phylogenetically distant amphibian taxa.

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Emerging disease of amphibians cured by elevated body temperature

Woodhams¹,

Alford²,

Marantelli³

2003

Dis. Aquat. Org.

297

273

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Effects of Larval Growth History on Anuran Metamorphosis

Alford¹,

Harris²

1988

The American Naturalist

289

253

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Ross A. Alford

Emerging infectious disease and the loss of biodiversity in a Neotropical amphibian community

Global Amphibian Declines: A Problem in Applied Ecology

Pathogenesis of Chytridiomycosis, a Cause of Catastrophic Amphibian Declines

Emerging disease of amphibians cured by elevated body temperature

Effects of Larval Growth History on Anuran Metamorphosis

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