The Impact of White-Nose Syndrome on Human Infant Mortality

The Impact of White-Nose Syndrome on Human Infant Mortality

The discovery of white-nose syndrome (WNS) in bats in 2006 marked the beginning of a devastating fungal disease that has significantly impacted bat populations across the United States. A recent study has shed light on the broader consequences of this phenomenon, revealing a surprising link between the decline in bat populations and an increase in human infant mortality rates in North America.

Bats, often misunderstood and feared by humans, play a crucial role in maintaining ecological balance. As natural predators of insects, especially those that damage crops, bats help regulate pest populations and reduce the need for chemical pesticides. However, with bat mortality rates reaching above 70 percent in the US due to WNS, farmers have had to resort to increased pesticide use to protect their crops.

The study, conducted by ecological economist Eyal Frank from the University of Chicago, used quasi-experimental methods to analyze the impact of bat die-offs on pesticide use and infant mortality rates. Frank found a direct correlation between counties affected by WNS-related bat deaths and a 31 percent increase in pesticide use. This sharp rise in pesticide application was accompanied by a significant drop in crop sales revenue, highlighting the economic consequences of the decline in bat populations.

Perhaps the most alarming revelation of the study was the link between increased pesticide use and a rise in infant mortality rates in WNS-affected counties. Frank estimated that there were approximately 1,334 additional infant deaths in North America between 2006 and 2017 as a result of the use of pesticides in response to the decline in bat populations. These findings underscore the far-reaching impact of ecological disruptions on human health.

The study’s results emphasize the urgent need for conservation efforts aimed at protecting bat populations and preserving their crucial role in ecosystems. While the economic cost of conserving bats may be relatively small compared to the expenses of pesticide use, the benefits to society in terms of reduced pesticide exposure and improved ecosystem balance are invaluable.

The study by Eyal Frank highlights the interconnectedness of species within ecosystems and the ripple effects that can occur when key species like bats are endangered by diseases such as white-nose syndrome. By recognizing the value of bats in maintaining ecological balance and preventing the need for harmful chemical pesticides, we can work towards a more sustainable future for both wildlife and human populations.

Science

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