New findings provide first evidence of amphibian declines affecting human health
The global collapse of frogs and other amphibians, due to the amphibian chytrid fungus, exacerbated malaria outbreaks in Costa Rica and Panama during the 1990s and 2000s, according to new research.
The findings provide the first evidence that amphibian population declines have directly affected human health and show how preserving biodiversity can benefit humans as well as local ecosystems.
Said Joakim Weill, an environmental economist at the University of California Davis who will present the results Tuesday, December 8, 2020, at AGU’s Fall Meeting 2020: “This is like a small building block showing that there could be unwanted human health consequences of amphibian collapses, and so we should really be trying to account for these impacts. We really view this as an important first step leveraging this type of interdisciplinary work, trying to tease out causal relationship between environmental change and human health.”
The global spread of Batrachochytrium dendrobatidis, an extremely virulent fungal pathogen known as amphibian chytrid fungus, has been responsible for massive worldwide die-offs of amphibians since the 1980s. A 2019 study (PDF) found the fungal disease has played a role in the decline of over 500 amphibian species over the past five decades and presumably caused extinctions of 90 species. The authors of that study referred to the die-offs as “the greatest recorded loss of biodiversity attributable to a disease.”
Chytrid fungal disease traveled across Costa Rica and Panama from the early 1980s through the 2000s. Both countries experienced large increases in malaria cases following this rolling collapse of amphibian populations.
In the new study, researchers investigated whether these malaria outbreaks were connected to the amphibian declines because amphibians eat mosquitoes that transmit the disease. They compared the timing and spatial extent of amphibian die-offs with malaria cases in Costa Rica and Panama at the county level from 1976 to 2016.
The researchers found a significant increase in malaria cases in these countries that started immediately after the amphibian die-offs began and peaked 5 to 6 years after. In 1980, there were fewer than 1,000 cases of malaria in the two countries, but cases began to rise in 1990 and peaked at about 7,000 in Costa Rica in the mid-1990s and 5,000 in Panama in the mid-2000s.
Malaria cases went back down after this peak, and the researchers suspect this is due to local public health interventions like spraying of insecticides.
The results show some of the first evidence that species extinctions and biodiversity loss can directly affect human health, according to the researchers.
Other environmental factors like deforestation also played a role in exacerbating the outbreaks, but no other factor had as much of an impact on malaria cases as the amphibian declines, according to the study. Said Weill:
“We are able to find what really seems to be this striking causal relationship between amphibian declines and malaria. It’s pretty incredible that we are finding anything in the first place, because these are events that occurred 40 years ago and the right people were in the right place to make observations about amphibian populations and human disease that we can use today to arrive at new insights.”
Source: American Geophysical Union