Once upon a time, plastic was heralded as a miracle material. Cheap, lightweight, infinitely customizable…
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Once upon a time, plastic was heralded as a miracle material. Cheap, lightweight, infinitely customizable…
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One easy way to conserve water at home is to swap your standard showerhead for…
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Some of the most breathtaking and specialized wine regions in the world are also the most challenging to maintain.
Vineyards in these areas are part of what is known as “heroic viticulture,” meaning the grapes are grown in extreme environments, such as altitudes of 1,640 feet or more above sea level, on slopes of 30 percent or higher grade, on small islands or on terraces, reported Cell Press.
They are referred to as “heroic” because the grapes there are difficult to cultivate and harvest.
“Viticulture becomes ‘heroic’ when practiced under extreme climatic, geomorphologic, and geographical conditions. Farmers are considered heroes because they deal with this ‘adverse’ environment every day, typically by purely manual operations without the use of mechanized tools,” researchers from the University of Padova wrote in a Backstory published in the journal iScience.
In addition to the inherent challenges of cultivating wine grapes in these regions, scientists are now concerned that extreme weather brought on by climate change, as well as shifting socioeconomic conditions, may present risks to crops and their cultural legacy, according to Cell Press.
“The risk is not only losing an agricultural product or seeing a landscape change, negatively impacting the local economy,” the authors of the Backstory wrote. “The risk is losing entire communities’ history and their cultural roots.”
Some of the world’s most celebrated wines come from the heroic viticulture regions of Portugal, Spain and Italy, including the Prosecco Hills, Cell Press reported.
“Viticulture is one of the most relevant agricultural systems of steep-slope landscapes. In Europe, we can find some of the most famous sites and popular wines (e.g., Port wine, Prosecco, Passito),” the authors wrote. “Landscapes characterized by heroic viticulture have been recognized and protected by the United Nations, being inserted in the United Nations Educational, Scientific and Cultural Organization (UNESCO) World Heritage Sites and the Food and Agriculture Organization (FAO) Globally Important Agricultural Heritage Systems (GIAHS). Here, a virtuous combination of agronomic practice, famous wine, networks of restaurants, green tourism, and even religion and art (if churches are on the site) created an optimal condition for a circular economy and socioeconomic sustainability. Nevertheless, these landscapes are under threat [from the] changing climate.”
These rare wines come under a multitude of climate-related threats, as the authors highlight in the Backstory.
“The increased frequency of weather extremes driven by climate change accelerates soil degradation. Intense and localized rainfall events, if soil and water conservation solutions are not optimally adopted, can quickly trigger slope failures and widespread soil erosion processes on cultivated hillslopes. In addition, prolonged droughts, as we observed in Europe in 2022, could pose another criticality: sustainable water resources management on steep slopes,” the authors wrote.
The authors went on to say that socioeconomic factors pose additional issues for the survival of heroic vineyards.
“The last half past century has been characterized by rural exodus and a gradual abandonment of mountain landscapes. The new generation is unwilling to continue working under extreme conditions if economic benefits are insignificant.”
Solutions such as small water storage systems that prevent runoff, as well as discussions and collaboration between farmers, scientists and consumers were suggested by the authors, reported Cell Press.
“The key to success lies in combining the traditional knowledge of winemakers with innovation and scientific rigor,” the authors of the Backstory wrote. “In this way, farms can work closely with scientists to optimize investments for a more functional, sustainable, and safe agricultural landscape — a winning alliance to face these diverse natural and anthropogenic challenges.”
The post Some of Europe’s Most Popular Wines at Risk From Climate Crisis appeared first on EcoWatch.
This week and last, Europe has been buffeted from one heat wave to another, and when “heat storms” start being named, you know they must be intense.
Last week, a heat wave named after Cerebus — a three-headed dog from Greek mythology that guards the entrance to Hades — brought scorching temperatures and wildfires to southern and eastern Europe, from Spain to Turkey.
This week, the Charon anticyclone and accompanying heat wave, which also takes its name from Greek mythology — in this case the ferry operator who brought souls across the river to the underworld — will move from north Africa into Europe, bringing temperatures that may break records.
The hottest locations are predicted to be Italy, Greece, Spain and portions of the Balkans, reported The Guardian. Tuesday and Wednesday could bring temperatures as high as 118.4 degrees Fahrenheit on the islands of Sardinia and Sicily. In 2021, the mercury reached 119.8 degrees Fahrenheit in Sicily, a record high for Europe.
Rome is also predicted to see record heat this week.
“We need to prepare for a severe heat storm that, day after day, will blanket the whole country,” warned Italian weather news service Meteo.it on Sunday, as Reuters reported. “In some places ancient heat records will be broken.”
Orazio Schillaci, Italy’s Minister of Health, warned tourists who plan to visit popular Roman ruins to take precautions.
“Going to the Colosseum when it is 43C (109.4F) is not advisable,” Schillaci told Il Messaggero newspaper yesterday, adding that people should remain indoors from 11 a.m. to 6 p.m., reported Reuters.
According to authorities, at least 4,000 people were evacuated on the Spanish island of La Palma in the Canary Islands due to a forest fire.
“The #ClimateCrisis is not a warning. It’s happening. I urge world leaders to ACT now,” said Tedros Adhanom Ghebreyesus, Director-General of the World Health Organization, in a tweet.
Some tourists have collapsed and suffered from heat stroke, and Greece’s Acropolis has been closed by authorities during the hottest hours of the day, according to the Daily Mail.
“This is not normal. I don’t remember such intense heat, especially at this time of year,” said Federico Bratti, a Lake Garda sunbather, as the Daily Mail reported.
Scientists have warned of the combination of El Niño, which brings higher sea surface and air temperatures, and climate change.
“We’re from Texas and it’s really hot there, we thought we would escape the heat but it’s even hotter here,” said Colman Peavy, on vacation in Rome with his wife Ana, as reported by CBS News.
The post Intense Heat Wave Grips Europe as Wildfires Rage, Monuments Close appeared first on EcoWatch.
This story is part of Record High, a Grist series examining extreme heat and its impact on how — and where — we live.
As a second “heat storm” bears down on Southern Europe, millions of people across the continent are bracing another week of record-setting temperatures.
“The bubble of hot air that has inflated over Southern Europe has turned Italy and surrounding countries into a giant pizza oven,” said Hannah Cloke, a climate scientist at the University of Reading in England. “We haven’t even seen the highest temperatures yet.”
Wide swaths of Europe are expected to see the mercury climb above 100 degrees Fahrenheit, with the Italian weather news service Meteo.it forecasting temperatures as high as 46 degrees Celsius (115 Fahrenheit). The swelter comes as places across the globe are also being hit by extreme heat, flooding, and other climate-driven disasters.
“This is not normal,” a sunbather in Italy told Reuters. “I don’t remember such intense heat, especially at this time of year.”
The searing conditions are the result of back-to-back high-pressure systems, known as anticyclones, which have moved across the Mediterranean from Northern Africa. The first was popularly, though unofficially, called Cerberus, after the three-headed dog from Greek mythology that guards the underworld. The latest is named for the ferryman to the Greek underworld: Charon.
“These heat waves are exactly in line with expectations under human-caused climate change,” said Ilan Kelman, a professor of disaster and death at University College London. Europe also experienced a stretch of record-setting heat earlier this year. ”As the rising temperatures drive worsening heat waves, including terrible humidity, we expect to see substantial increases in related deaths.”
A recent study published in Nature Medicine found that last year’s European heat waves led to 61,000 deaths. While the toll from this year’s blistering conditions remains unknown, at least one heat-related death has been reported: a 44-year old road worker who collapsed and died outside Milan.
As of Monday, the Italian health ministry had put more than a dozen cities under a red-alert heat advisory — the country’s highest level. Greek authorities have been keeping the Acropolis during peak heat hours and have similarly banned risky work during the afternoon.
There is also a fear that the increasingly dry conditions could exacerbate wildfires, which are already burning “out of control” in Spain. Greece, which experienced devastating fires in 2021, lists multiple areas as at very high risk for wildfires.
The brutal temperatures come just days after the hottest week in Earth’s recorded history, which saw unprecedented temperatures and heat indices in the American Southwest, India, and elsewhere. Other spots on the globe, such as the Northeast United States and South Korea, endured extreme rainfall and flooding. Cloke says this confluence of devastating events is becoming a new normal.
“Sea-level rise, melting ice, extreme heat waves, intense rainfall, wildfires, drought, and floods are cropping up in many parts of the world at the same time,” she said. “Today’s extremes of weather are increasingly throwing everything everywhere all at once.”
This story was originally published by Grist with the headline Heat storms turn Southern Europe into ‘giant pizza oven’ on Jul 17, 2023.
Sophie’s BioNutrients, a food tech company, has developed a vegan ice cream made from chlorella protein concentrate, a product made from microalgae. The algae-based ice cream is nutritious, providing B12 and iron as well as other nutrients in each serving.
The company collaborated with Danish Technological Institute (DTI) to develop the ice cream, which is made from concentrated chlorella protein powder along with sugar, coconut oil and other ingredients. The ice cream has “a complete nutrition profile, and in combination with other functional ingredients mimics natural ice cream texture,” Food Business News reported. It can be made into various different flavors of vegan ice cream.
Sophie’s BioNutrients explained that it grows the microalgae using bioreactors and limited amounts of water and local food waste (such as spent grains or okara, a soy byproduct), which takes about three days. The result is a fermented microalgae made from the microalgae species Chlorella vulgaris.
The process uses about 0.02 hectares of space, much smaller than conventional farming, and the company boasted on its website that this system requires no fertilizers, herbicides, antibiotics or other products to make the protein. Microalgae has the added benefit of being good for capturing carbon from the atmosphere.
“Microalgae is one of the most nutrient-rich and versatile resources on the planet,” said Eugene Wang, co-founder and CEO of Sophie’s BioNutrients. “Today we have shown another facet of the unlimited possibilities this superfood can offer — a dairy and lactose-free alternative to ice cream that, thanks to microalgae, offers a higher nutrition content than most available dairy-free alternatives.”
According to the company, the microalgae-based ice cream could possibly provide more than double the recommended daily value of B12 in a 1-ounce serving. The microalgae protein made by Sophie’s BioNutrients has been categorized as GRAS (Generally Recognized as Safe) in the U.S. and has the European Food Safety Authority approval for use as food ingredients or supplements, VegNews reported.
Sophie’s BioNutrients has also recently partnered with NewFish, another food tech company developing microalgae proteins, and other collaborators to develop other dairy alternatives made from algae.
Microalgae proteins could be an important food source in the future, and farming microalgae could help boost global food production 50% by 2050 to feed the rapidly growing human population.
“Microalgae is definitely part of the future,” said Anne Louise Dannesboe Nielsen, director of food technology at DTI. “It is a sustainable ingredient with a lot of potential in multiple food applications.”
The post Would You Eat Vegan Ice Cream Made From Algae? appeared first on EcoWatch.
More than half of the deep blue sea is turning green, but scientists aren’t sure why.
In the past two decades, 56 percent of Earth’s oceans have become greener — an area larger than the planet’s total land mass, according to a new study by a team of scientists from the United States and the United Kingdom.
“The reason we care about this is not because we care about the colour, but because the colour is a reflection of the changes in the state of the ecosystem,” said lead author of the study B. B. Cael, an ocean and climate scientist at the National Oceanography Centre in Southampton, UK, as The Guardian reported.
There are a host of things that can lead to changes in the ocean’s color, reported the journal Nature. One example is when deep-sea nutrients rise up to feed on phytoplankton blooms containing green-tinted chlorophyll.
Scientists are able to approximate the levels of chlorophyll, as well as how many organisms like algae and phytoplankton there are, by observing sunlight wavelengths reflected off the surface of the ocean.
In surface waters, the amount of chlorophyll can vary greatly each year, so it can be difficult to pick up differences between natural changes and those brought on by climate change.
Theoretically, warmer ocean waters due to climate change should lead to differences in biological productivity, but scientists believe it could take as long as four decades to be able to pinpoint any clear shifts.
“These are not ultra, massive ecosystem-destroying changes, they may be subtle,” Cael said, as The Guardian reported. “But this gives us an additional piece of evidence that human activity is likely affecting large parts of the global biosphere in a way that we haven’t been able to understand.”
The study, “Global climate-change trends detected in indicators of ocean ecology,” was published in Nature.
The research team looked at data from NASA’s Aqua satellite sensor Moderate Resolution Imaging Spectroradiometer (MODIS) to try and spot trends in seven distinct ocean light wavelengths, reported Nature.
“I’ve thought for a long time that we could do better by looking at the full colour spectrum,” Cael said.
By analyzing 20 years of MODIS data, the researchers noticed long-term differences in the color of the ocean. Most of the changes were in waters between the tropical and subtropical latitudes 40 degrees South and 40 degrees North. The waters in these regions don’t usually have significant color changes during the year due to their lack of extreme seasons, so Cael said the team was able to pick up on smaller long-term shifts.
“On the whole, low-latitude oceans have become greener in the past 20 years,” the study said.
In order to find out if the changes could be caused by climate change, the scientists used the results of a simulation model that played out the possible responses of marine ecosystems to increasing levels of atmospheric greenhouse gases. They found that the changes in the model matched those of their observations.
Cael said the cause of the increased greenish hue of the ocean is likely not the warming ocean because the parts of the ocean that had changed color didn’t match those where temperatures have increased. Cael went on to say that the distribution of nutrients could have affected the shift, as stratification of upper ocean layers occurs as surface waters warm, making it more difficult for nutrients to rise. Fewer nutrients mean smaller phytoplankton can survive better, which alters the ecosystem and could affect the overall color of the water.
However, the scientists aren’t exactly sure why the ocean is changing color.
NASA’s next big mission to observe the color of the ocean will be the Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) satellite — set to launch in early 2024 — which will be able to measure the ocean’s color in more wavelengths than any satellite has before.
“All of this definitely confirms the need for global hyperspectral missions such as PACE,” said Ivona Cetinić, an oceanographer at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, who works on PACE, according to Nature. The satellite “should allow us to understand the ecological implications of the observed trends in ocean ecosystem structure in years to come.”
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This story is part of Record High, a Grist series examining extreme heat and its impact on how — and where — we live.
During a summer that has already shattered temperature records, the 340,000 drivers, dispatchers, and warehouse workers currently in contract negotiations with UPS — the United States’ largest unionized employer — have made climate change and extreme heat a headline labor issue. And if they don’t secure a contract by July 31, they are poised to initiate the largest single-employer strike in U.S. history.
On summer days, the back of a delivery truck can exceed 120 degrees Fahrenheit. When Viviana Gonzalez, a package delivery driver for United Postal Service in Los Angeles, pulls open the back of her truck, she often thinks: “Am I going to pass out back here? Will anybody find out that I’m here in the back of the truck?”
Gonzalez is all too aware of how dangerous her job can be. Since 2015, UPS has reported at least 143 heat-related injuries to the federal Occupational Safety and Health Administration. Last year, one of her co-workers, Esteban Chavez, died of heat stroke in his delivery truck after delivering his last parcel. “I’m a single mom,” said Gonzalez, “and being able to provide for my son means I have to suck it up.”
While climate change is making summers hotter and even more dangerous for delivery workers, Moe Nouhaili, a UPS driver in Las Vegas, told the Guardian that it’s the working conditions that make the heat so deadly. “It’s how they’re making us work, expecting us to meet these unrealistic productivity numbers even through the weather,” he said.
UPS often requires drivers and warehouse employees to work six days a week and more than 12 hours a day in the heat, and the company measures worker productivity by surveillance cameras and sensors inside trucks. Drivers say these tactics make it harder to take breaks. “The same amount of work that would be done in, say, 30 routes is now being forced to be done in 20 or 25,” said Nouhaili. “Less people get more work done.”
An increasing portion of the work is also done by part-time drivers who are paid less than full-time employees, as well as gig workers who often need to take on multiple jobs to make ends meet.
That’s why the UPS workers, who are part of the International Brotherhood of Teamsters union, have tied their heat-safety demands to other key issues: higher wages for all workers; more full-time jobs with full benefits; an end to forced overtime, surveillance, and harassment from management; and elimination of a two-tier wage system that pays part-time workers and newer employees differently for the same work.
According to Anastasia Christman, a senior policy analyst at the National Employment Law Project, many of these benefits and protections form the basis of climate justice at work and can better protect workers from the heat.
“Workers who are fighting for better health care benefits are going to be more physically able to deal with excessive heat, because they can address other underlying health problems,” she said. “An increase in pay might mean workers can spend time at home without having to take on a second job to support their family, eat healthy food, or afford to get an air conditioner in their house and really cool down and recover from the heat during their off-hours.”
She also argues that part-time employment, piece-wage and contract pay structures, and low-grade wage tiers can affect workers on the margins to a greater extent than others.
“These workers, who are overwhelmingly Black workers, immigrant workers, and women, literally can’t afford to take breaks or lose time to take care of their health,” she explained. By pushing for more full-time direct employees and fewer contractors, Christman said, workers build solidarity and make sure that certain job classes don’t disproportionately face environmental harms like extreme heat.
UPS workers negotiate a new contract once every five years, and the strike authorization in June was the result of a yearlong campaign on behalf of the union to build leverage at the bargaining table. The strategy appears to be working: In the last month, with the strike threat looming, UPS agreed to install air-conditioning systems in each of their delivery trucks, end the secondary wage tier that allows them to pay newer drivers less, and do away with mandatory overtime.
“UPS Teamsters have strategically navigated this process for maximum leverage against this multibillion-dollar corporation,” said Teamsters President Sean O’Brien. “At every step, we are forcing them to do what they don’t want to do, which is give our members more money and better protections at work.”
While air-conditioning will indeed offer welcome relief to UPS drivers in the heat, experts argue that at a global scale, energy-intensive cooling systems pale as a long-term climate-justice solution. Air-conditioning units burn more fossil fuels, increase ambient temperatures in cities, and are inaccessible to most outdoor workers — and most of the global population.
On its own, the company’s concession also doesn’t address the growing issues of pay, contracting, and worker productivity that drive workers to heat exhaustion.
So despite the gains, UPS workers are still not satisfied. The biggest remaining issue is pay: They are looking to raise the starting hourly wage for part-time workers from $15.50 to $20. And they have repeatedly said that if UPS does not meet their baseline wage demands, they will be forced to strike to win them.
In recent years, restaurant workers at Voodoo Donuts in Portland, Oregon; a McDonalds in Detroit; a Jack in the Box in Sacramento; and a Hooters location in Houston have collectively walked off the job to protect themselves from extreme heat. The Occupational Safety and Health Administration, which is in the process of developing a federal workplace heat standard, has acknowledged that taking collective action can help workers stay safe on the job and has developed a legal framework “to obtain the best possible relief for employees” when they choose to do so.
“The suggestion box sitting in the break room is not really the place to address the dangers of systemic heat exposure,” said Christman, the National Employment Law Project analyst. “When workers come together, they build power to really make changes at the workplace.”
The Teamsters union has plainly stated that this campaign will be an example for workers across the country. “What we do in these negotiations,” said O’Brien, “is going to set the tone for the entire country, the entire labor movement, moving forward. The UPS fight today may be your fight tomorrow.”
“It’s time for UPS to feel the heat,” said Rick Jordan, another delivery driver in Southern California. “We feel it all the time.”
This story was originally published by Grist with the headline 340,000 UPS drivers poised to strike over extreme heat, safe working conditions on Jul 17, 2023.
A young girl, home alone, wakes up in the middle of the night and walks over to her neighbor’s house. She opens the front door and encounters a horrific scene: a zombified grandma committing an act of cannibalism. Instead of teeth in the woman’s mouth, it’s long tendrils of fungus.
That’s one of the first scenes in The Last of Us, the HBO show about a global fungal pandemic that gripped viewers this past winter. The premise is pure fiction. The fungus depicted in the show, cordyceps, is harmless to humans. But the world’s susceptibility to fungal pathogens is genuine. When the real fungal pandemic comes, it won’t look like anything you’ve seen on screen.
In her new book Blight: Fungi and the Coming Pandemic, author, professor, and researcher Emily Monosson unravels the expansive and unsettling history of fungal invasions across the globe and how they have shaped our lives in both visible and invisible ways. A fungus called batrachochytrium dendrobatidis, or Bd, has wiped out more than 200 species of frogs and other amphibians. White-nose syndrome, a fungal illness in bats, has killed millions of the winged critters across North America. A fungal pathogen wiped out the world’s most popular banana, the Gros Michel, in the first half of the 20th century. Fungi are now coming for the Cavendish, the banana we bred to replace the bananas we lost.
And, of course, fungi threaten humans, too — not just by decimating the biodiversity of the world around us, but also by infiltrating our bodies and causing new illnesses. Candida auris, a drug-resistant yeast, emerged in 2009 on three continents simultaneously. The disease, Monosson writes in her book, “seemed to come from nowhere and everywhere at once.” C. auris quickly started claiming lives, particularly in hospital settings, where it preys on the immunocompromised. The pathogen kills roughly one-third of hospitalized patients, according to an analysis of hospital data collected between 2017 and 2022, and that’s likely an underestimate.
Some researchers theorize that C. auris has always lived among us, unable to survive inside the human body due to our species’ high internal temperature. But as global temperatures have risen over the decades, the fungus may have evolved to adapt to a warmer climate. Climate change, the theory goes, has trained C. auris how to infiltrate our bodies. And global warming could help other fungal pathogens spread, too.
“Over the past century fungal infections have caused catastrophic losses in other species, but so far we have been lucky,” Monosson writes. “Our luck may be running out.” She calls for better prevention measures — regulations on the import of foreign flora and fauna, better testing technologies for plants and animals that cross borders, and more funding for conservation work that protects wild species in their existing habitats. Blight: Fungi and the Coming Pandemic is available this week in bookstores and libraries.
This Q&A has been edited and condensed for clarity and length.
Q.Readers might pick up your book and assume it is entirely focused on the impact of fungal disease on human health. But Blight is about so much more. Can you speak to your approach here? What overarching story were you trying to tell?
A.The thing that got me started thinking about the book was a paper that was written years ago by a group of different scientists across disciplines. They were in medicine, ecology, agriculture, and a few others. That’s kind of unusual, to see a review written by so many different scientists. The focus of the paper was fungi, and they were trying to get people more aware. They felt that people didn’t really appreciate the potential consequences of large fungal infections.
For a lot of us, once in a while in the news we’ll hear, “Oh, we’re not going to have our bananas anymore,” or “The frogs are dying,” or “The bats are dying.” But you hear those warnings and then it goes out of the news cycle and seems like, oh, OK that was a weird thing.
If you talk to somebody who’s in any of these fields, you’ll see that it’s not so odd that this is happening, because fungal pathogens can be really catastrophic when they strike. So the purpose of the book was to put all of this together, to say that these aren’t just one-offs. We need to think about the potential of fungal pathogens and the breadth of impact that they have across species.
Q.Blight is about fungi, yes, but it’s also about facets of modern life that researchers have been worried about for quite some time — globalization, biosecurity, climate change. How are all of these things connected?
A.The first epidemics and pandemics that I write about, the decline of the chestnut and pine blister rust in forests, started about 100 years ago. And for forever before that there were fungal pathogens in agriculture —- probably ever since humans started doing agriculture. But most of the book focuses on the past 100 years. And that’s because there’s been an increase in fungal pandemics or epidemics across species in the last 100 years. That’s because we have been moving plants and animals around, and ourselves around, at a rate that is really unprecedented in our long history on Earth.
Every time you move something around, there’s all sorts of other things on them. And when we take them to another place, they have the opportunity to find a new host. And if that host is susceptible, then you’ve got a problem. So between trade, travel, and the changing climate that you mentioned, there’s potential for fungi to adapt to changes in crops and agriculture, and adapt to warmer temperatures and drought conditions faster than, say, a crop can. Fungi are adaptable. And there’s a pretty good chance that fungi will be able to adapt to a changing temperature or changing climate.
Q.This book is publishing at a moment when a lot of people are thinking about pathogenic fungi thanks to recent news reports about Candida auris and the success of The Last of Us. Cordyceps is a harmless fungus, but there are very real fungal threats out there. Can you talk about Candida auris and why you chose to feature it in the beginning of your book?
A.To be honest, I hoped that Candida auris might draw readers in and then they’d read about all the other problems across other species. But it is also one of the newest emergent fungal diseases. It was kind of unknown until 2009 or 2010, and then the CDC issued its first warning about Candida auris in 2016. So it’s really pretty new, and we don’t often get a really new emergence, except for something like COVID. But COVID is viral — that’s almost to be expected. To have a newly emergent fungal pathogen was something different.
What was most interesting about Candida auris, and I think what was most frightening to public health workers and doctors, is that it emerged in many different places at once, within a couple of years. And when it emerged, it was different strains of the fungus, which means that it wasn’t like COVID where it could be traced back to one patient zero. So that was something odd, and I don’t think anyone really knows why.
One thought is maybe climate change: Maybe this fungus was just out living in the environment, as many do, and not bothering us. And it couldn’t really survive in our warmer bodies. It didn’t tolerate our internal temperature. But with warmer and warmer days over time, that fungus eventually evolved to be able to tolerate our temperature and could live in us. And when it did, it became a problem.
I should qualify that humans are pretty well protected against fungal pathogens. We have our temperature, for one, but we also have a pretty robust immune system that can fend off most fungi. We’re all breathing spores right now. And for most of us, it’s not a problem. But if you’re immunocompromised, and there are a growing number of people who are immunocompromised, then the threat of a fungal pathogen is more important.
Q.You’ve written books on a number of topics, including chemicals, genes, and germs. Why did you choose to focus on fungi this time?
A.It was a personal experience of having a fungus-like organism kill my tomatoes. Just seeing that happen, I got interested in it. So I thought I’d write a little article about it. And that’s around the same time that paper I mentioned came out. It was curiosity at first, because I didn’t really think about fungal pathogens back then.
I started this in 2019, before COVID. When it was clear that COVID was something really big and bad, I actually emailed my editor and I was like, “Should I keep writing this? Because who is going to want to read about a pandemic after we get through this pandemic?”
Q.But you kept going. Is that because there’s light at the end of the tunnel?
A.I think the hopeful thing is there’s a lot of really passionate scientists working on these problems. We should support them, the policies that may come out of the science, the conservation organizations that are trying to do prevention work. Really the goal here is prevention, and that involves all of us.
We need to take responsibility for our actions. I know that’s trite. But maybe if we are even a little more thoughtful about how we do things, what we think we “need” in our lives, and how that impacts the world around us — we might do less harm to the natural world and to other humans.
This story was originally published by Grist with the headline The author of ‘Blight’ explains how humans supercharged fungal pathogens on Jul 17, 2023.