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"This work is an important example of how infectious diseases are influenced by climate conditions," said the lead author of a new report.
Scientists at the University of California noticed that cases of Valley fever, a respiratory infection that is spread only through the inhalation of fungal spores, only peaked in certain parts of the state in recent years—and when they set out to discover why, they found that drought may play a major role in rising cases of the disease.
In a study published in The Lancet Regional Health - Americas on Tuesday, the researchers explained that increased droughts in the state have created conditions for a growing number of people to inhale coccidioides spores, which thrive in soil and can be inhaled through dust.
The scientists analyzed cases of Valley fever from 2000-22, and found that cases have risen dramatically since the turn of the century—particularly from 2014-18 and again from 2018-22, two periods when reported cases tripled.
Cases of the seasonal illness have long been known to occur mostly between September and November, but the researchers found "there were certain years during which few or no counties had a seasonal peak in Valley fever cases," said lead author Alexandra Heaney, an assistant professor at the UC San Diego Herbert Wertheim School of Public Health and Human Longevity Science. "This made us wonder what was driving these differences in seasonality between years, and based on the timing we observed, we hypothesized that drought might be playing a role."
"Even though droughts appear to decrease Valley fever cases in the short term, the net effect is an increase in cases over time, particularly as we experience more frequent and severe droughts due to climate change."
During periods of drought, seasonal peaks of Valley fever were less severe, according to the study. It was after the dry periods, when heavy rains returned, that cases spiked.
The researchers suggested that the return of rainy weather could allow the heat-resistant coccidioides fungus to proliferate because of the newly moist soil and the influx of nutrients. Another hypothesis was that droughts cause a decline in the population of rodents that host the fungus.
"Because dead rodents are thought to be an important source of nutrients for the fungus, it may be able to survive and spread more easily in drought conditions," reported UC San Diego Today.
"This work is an important example of how infectious diseases are influenced by climate conditions," Heaney said. "Even though droughts appear to decrease Valley fever cases in the short term, the net effect is an increase in cases over time, particularly as we experience more frequent and severe droughts due to climate change."
The study comes a month after a music festival in the state's Central Valley was linked to 14 cases of Valley fever, which can cause joint pain and fatigue as well as respiratory symptoms and can spread to the bones or brain in rare, potentially fatal cases.
People who work outside, including farmworkers and construction workers, are most at risk for breathing in the fungus.
The scientists called for more thorough monitoring of the fungus, which can be difficult to detect and whose symptoms are often confused for other respiratory illnesses. They also called for people in the state to wear face coverings when coming into contact with soil and dust and to minimize time outdoors, if possible, during dry and dusty periods.
Heaney said the team is next looking at climate dynamics related to Valley fever in Arizona, where about two-thirds of cases occur in the United States.
"Understanding where, when, and in what conditions Valley fever is most prevalent is critical for public health officials, physicians, and the public to take precautions during periods of increased risk," said Heaney.
"Effectively managing the plants and fungi that form the building blocks of our habitable planet is key to halting wider biodiversity loss and restoring Earth's ecosystems to full function," says a scientific report.
Global scientists warned Tuesday that 45% of known flowering plant species could be at risk of disappearing, underscoring the need for urgent international action to tackle the planet's sixth mass extinction—the first driven by human activity.
That figure is among the key findings from State of the World's Plants and Fungi, the fifth annual report from the U.K.'s Royal Botanic Gardens (RBG), Kew about such species amid the intertwined biodiversity crisis and climate emergency.
"The resources and services that nature provides—from food to fresh water—have arisen through eons of ecosystem-building by microbes (including fungi), plants, and animals, and their interactions with geochemical processes," says the report. "Because we are currently degrading ecosystems, releasing greenhouse gases into the air, and polluting water resources at such a rapid rate, we risk destabilizing the global equilibrium that these evolutionary processes have established."
"Effectively managing the plants and fungi that form the building blocks of our habitable planet is key to halting wider biodiversity loss and restoring Earth's ecosystems to full function," the publication stresses.
"Every species we lose is a species that we don't know what opportunities we're losing... It could be a cancer-fighting drug, it could be the solution to hunger."
The report "relies on two major advances," said Alexandre Antonelli, director of science at RBG Kew. "Firstly, the recent release of the first geographically complete World Checklist of Vascular Plants—a landmark achievement after more than 35 years of meticulous and highly collaborative work. Secondly, the wealth of information on fungal diversity newly harnessed from the analyses of environmental DNA in soil samples across the world, integrated with other morphological and molecular evidence from fungarium specimens."
"In 11 chapters, we present compelling stories of what we can learn from these and related sources of data, and how these learnings can help us foster future research and conservation. This report is based on groundbreaking original research papers and reviews from many international teams of scientists," he added. Specifically, it draws on the expertise of 200 researchers at 102 institutions across 30 countries.
The checklist features 350,386 species of known vascular plants—but as many as 100,000 more have not yet been formally identified, and experts estimate that 3 in 4 undescribed vascular plants are likely already at risk. Given that, Kew scientists are calling for all newly described species to be treated as threatened unless proven otherwise.
"Ideally, partnerships between taxonomists and experienced conservation assessors would aim to describe and assess species simultaneously, to maximize opportunities for effective conservation action," said Matilda Brown, a researcher in conservation assessment and analysis at RBG Kew. "In the meantime, if accepted, our recommendation could aid in the protection of many tens of thousands of undescribed threatened species, by treating them as threatened as soon as they become known to us."
The fungi section of the report points out that "only 155,000 species have been formally named, while estimates of the total diversity have ranged from 250,000 in the 1800s to as many as 19 million species in recent decades." Now, scientists estimate that there are 2.5 million fungal species on the planet—meaning that over 90% remain unnamed.
However, the effort to identify species continues. Since just 2020, scientists have named more than 8,600 plant species and over 10,200 fungal species.
"Naming and describing a species is the vital first step in documenting life on Earth," said former Kew scientist Tuula Niskanen, now at the University of Helsinki in Finland. "Without knowing what species there are and having names for them, we won't be able to share information on the key aspects of species' diversity, make any assessments of species' conservation status to know whether they are at risk from extinction, or explore their potential to benefit people and society."
"It is essential to know what species of fungi we have here on Earth and what we need to do for them," she added, "so that we don't lose them."
Brown issued a similar warning about plant losses, telling the BBC that "when we consider that 9 out of 10 of our medicines come from our plants, what we are potentially staring down the barrel at is losing half of all of our future medicines."
"Every species we lose is a species that we don't know what opportunities we're losing," she added. "It could be a cancer-fighting drug, it could be the solution to hunger... And so to lose that, before we get a chance to study it would be a tragedy."
The new publication joins a series of alarming reports this year, from February NatureServe research that found 34% of plants species and 40% of animal species in the United States are at risk of extinction while 41% of U.S. ecosystems could collapse, to a September study that revealed dozens of genera—the next thickest branch from species on tree of life—have been lost since A.D. 1500 due to human activity.
The Kew report also comes after last December's Kunming-Montreal Biodiversity Framework—a historic pact to safeguard and restore nature that followed years of negotiations but which some global advocates warned is nowhere near strong enough.