07 Jan 2010: Report

Behind Mass Die-Offs,
Pesticides Lurk as Culprit

In the past dozen years, three new diseases have decimated populations of amphibians, honeybees, and — most recently — bats. Increasingly, scientists suspect that low-level exposure to pesticides could be contributing to this rash of epidemics.

by sonia shah

Ever since Olga Owen Huckins shared the spectacle of a yard full of dead, DDT-poisoned birds with her friend Rachel Carson in 1958, scientists have been tracking the dramatic toll on wildlife of a planet awash in pesticides. Today, drips and puffs of pesticides surround us everywhere, contaminating 90 percent of the nation’s major rivers and streams, more than 80 percent of sampled fish, and one-third of the nation’s aquifers. According to the U.S. Fish and Wildlife Service, fish and birds that unsuspectingly expose themselves to this chemical soup die by the millions every year.

But as regulators grapple with the lethal dangers of pesticides, scientists are discovering that even seemingly benign, low-level exposures to pesticides can affect wild creatures in subtle, unexpected ways — and could even be contributing to a rash of new epidemics pushing species to the brink of extinction.

In the past dozen years, no fewer than three never-before-seen diseases have decimated populations of amphibians, bees, and — most recently — bats. A growing body of evidence indicates that pesticide exposure may be playing an important role in the decline of the first two species, and scientists are investigating whether such exposures may be involved in the deaths of more than 1 million bats in the northeastern United States over the past several years.

White Nose Bats
White-nose Syndrome, named for the tell-tale white fuzz it leaves on bats’ ears and noses, has killed more than a million bats in the northeastern United States.
For decades, toxicologists have accrued a range of evidence showing that low-level pesticide exposure impairs immune function in wildlife, and have correlated this immune damage to outbreaks of disease. Consumption of pesticide-contaminated herring has been found to impair the immune function of captive seals, for example, and may have contributed to an outbreak of distemper that killed over 18,000 harbor seals along the northern European coast in 1988. Exposure to PCBs has been correlated with higher levels of roundworm infection in Arctic seagulls. The popular herbicide atrazine has been shown to make tadpoles more susceptible to parasitic worms.

The recent spate of widespread die-offs began in amphibians. Scientists discovered the culprit — an aquatic fungus called Batrachochytrium dendrobatidis, of a class of fungi called “chytrids” — in 1998. Its devastation, says amphibian expert Kevin Zippel, is “unlike anything we’ve seen since the extinction of the dinosaurs.” Over 1,800 species of amphibians currently face extinction.

It may be, as many experts believe, that the chytrid fungus is a novel pathogen, decimating species that have no armor against it, much as Europe’s smallpox and measles decimated Native Americans in the sixteenth and seventeenth centuries. But “there is a really good plausible story of chemicals affecting the immune system and making animals more susceptible,” as well, says San Francisco State University conservation biologist Carlos Davidson.

In California, for example, insecticides coated on the crops of the San Joaquin Valley are known to waft upwind to the Sierra Nevada mountains,
There is a strong correlation between upwind pesticide use and declining amphibian populations.
where they settle in the air, snow, and surface waters, and inside the tissues of amphibians. And when Davidson compared historical reports of pesticide use, habitat loss, wind patterns, and amphibian population counts in California for the years 1971 to 1991, he found a strong correlation between upwind pesticide use — in particular cholinesterase-inhibiting chemicals such as the insecticide carbaryl — and declining amphibian populations.

Experimental evidence bolsters Davidson’s findings. In lab experiments, exposure to carbaryl dramatically reduced yellow-legged frogs’ production of fungus-fighting compounds called antimicrobial peptides, which may be crucial to amphibians’ ability to fend off chytrid fungus. Further testing has shown that amphibian species that produce the most effective mixes of antimicrobial peptides resist experimental chytrid infection, and tend to be those that survive most successfully in the wild.

Six years after scientists discovered the fungal assault on amphibians, a mysterious plague began decimating honeybees. Foraging honeybees first started vanishing from their hives, abandoning their broods and queens to certain death by starvation, in 2004. Alarmed beekeepers dubbed the devastating malady “colony collapse disorder.” Between 2006 and 2009, colony collapse disorder and other ills destroyed 35 percent of the U.S. honeybee population.

Some experts believe colony collapse disorder is the result of a “perfect storm” of honeybee-debilitating factors: poor nutrition, immune dysfunction from decades of industrial beekeeping practices, and the
Some scientists believe a new class of chemicals based on nicotine may be to blame for “colony collapse disorder” that destroyed nearly 35 percent of the U.S. honeybee population between 2006 and 2009.
opportunism of multiple pathogens, acting in malevolent concert. But many beekeepers believe that a new class of chemicals based on nicotine, called neonicotinoids, may be to blame.

Neonicotinoids came into wide use in the early 2000s. Unlike older pesticides that evaporate or disperse shortly after application, neonicotinoids are systemic poisons. Applied to the soil or doused on seeds, neonicotinoid insecticides incorporate themselves into the plant’s tissues, turning the plant itself into a tiny poison factory emitting toxin from its roots, leaves, stems, pollen, and nectar.

In Germany, France, Italy, and Slovenia, beekeepers’ concerns about neonicotinoids’ effect on bee colonies have resulted in a series of bans on the chemicals. In the United States, regulators have approved their use, despite the fact that the Environmental Protection Agency’s standard method of protecting bees from insecticides — by requiring farmers to refrain from applying them during blooming times when bees are most exposed — does little to protect bees from systemic pesticides.

“The companies believe this stuff is safe,” says U.S. Department of Agriculture (USDA) entomologist Jeff Pettis. “It is used at lower levels, and is a boon for farmers,” since neonicotinoids don’t require repeated application, nor wide broadcasting into the environment, he explains. Plus, years of research have shown that only very low levels of the chemicals are exuded from the pollen and nectar of treated plants.

But University of Padua entomologist Vincenzo Girolami believes he may have discovered an unexpected mechanism by which neonicotinoids — despite their novel mode of application — do in fact kill bees. In the spring,
The bat die-off ‘is the most precipitous wildlife decline in the past century in North America.’
neonicotinoid-coated seeds are planted using seeding machines, which kick up clouds of insecticide into the air. “The cloud is 20 meters wide, sometimes 50 meters, and the machines go up and down and up and down,” he says. “Bees that cross the fields, making a trip every ten minutes, have a high probability of encountering this cloud. If they make a trip every five minutes, it is certain that they will encounter this cloud.”

And the result could be immediately devastating. In as-yet-unpublished research, Girolami has found concentrations of insecticide in clouds above seeding machines 1,000 times the dose lethal to bees. In the spring, when the seed machines are working, says Girolami, “I think that 90 percent or more of deaths of bees is due to direct pesticide poisoning.”

Girolami has also found lethal levels of neonicotinoids in other, unexpected — and usually untested — places, such as the drops of liquid that treated crops secrete along their leaf margins, which bees and other insects drink. (The scientific community has yet to weigh in on Girolami’s new, still-to-be-published research, but Pettis, who has heard of the work, calls it “a good and plausible explanation.”)

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Two years after the honeybees started disappearing, so, too, did bats. The corpses of hibernating bats were first found blanketing caves in the northeastern United States in 2006. The disease that killed them, caused by a cold-loving fungus called Geomyces destructans — and dubbed White-nose Syndrome for the tell-tale white fuzz it leaves on bats’ ears and noses — has since destroyed at least one million bats. University of Florida wildlife ecologist John Hayes calls it “the most precipitous wildlife decline in the past century in North America.”

Like the mysterious Batrachochytrium dendrobatidis fungus infesting amphibians, Geomyces could be a novel pathogen, newly preying upon defenseless bat species. But scientists have also started to investigate whether pesticide exposure might be playing a role.

Bats are especially vulnerable to chemical pollution. They’re small — the little brown bat weighs just 8 grams — and can live for up to three decades. “That’s lots of time to accumulate pesticides and contaminants,” points out Boston University bat researcher and Ph.D. candidate Marianne Moore, who is studying whether environmental contaminants suppress bats’ immune function. “We know they are exposed to and accumulate organochlorines, mercury, arsenic, lead, dioxins,” she says, “but we don’t understand the effects.”

Which, in the end, is the central dilemma facing pesticide-reliant societies. Proving, with statistical certainty, that low-level pesticide exposure makes living things more vulnerable to disease is notoriously difficult. There are too many different pesticides, lurking in too many complex, poorly understood habitats to build definitively damning indictments. The evidence is subtle, suggestive. But with the rapid decimation of amphibians, bees, and bats, it is accumulating, fast.

POSTED ON 07 Jan 2010 IN Biodiversity Pollution & Health North America 


A January 2009 study published in CONSERVATION BIOLOGY documented that millions of American bullfrogs commercially raised in SE Asia are shipped to New York and California every year for the live animal food markets for human consumption. These markets are generally found in major metropolitan areas around the country.

Of the frogs necropsied, 62 percent tested positive for the chytrid fungus. Though it's illegal to do so, these same frogs are commonly bought and released into the wild by well-meaning but uninformed people, causing major problems for our native wildlife.

This trade should be stopped, esp. in light of the fact that the chytrid fungus is a prime suspect in the extinctions of dozens of species of amphibians around the world in recent years.

Posted by Eric Mills on 07 Jan 2010

It is worth scrutinizing the author's apparently determined focus on obtaining evidence to confirm her personal beliefs, I quote.. "Proving, with statistical certainty, that low-level pesticide exposure makes living things more vulnerable to disease is notoriously difficult." But let's hope we get there in the end heh Sonia?

Posted by John on 08 Jan 2010

Does human arrogance and avarice have something to do with massive and accelerating die-off of Earth's creatures?

The human family cannot keep recklessly overproducing unnecessary stuff, hyperconsuming and excessively hoarding limited resources, and overpopulating the planet as the leaders in our not-so-great generation are advocating so adamantly. Everyone in the human community appears to be implicated in the work at hand of finding a different way from the patently unsustainable "primrose path" set out by those who extol the virtue of greed and arrogantly proclaim that their greed-mongering is God's work.

The most dangerous fraud consciously perpetrated in our midst is the widely shared perception that insatiable avarice is an inherent aspect of human nature. Unbridled greed may rule the world in our time but such behavior is contrived ..... a willful, foolish and selfish result of a consensually validated misperception of what is real about the nature of being human, I suppose.

Posted by Steven Earl Salmony on 09 Jan 2010

I was out walking in a park where I live the other year and was truly shocked to see what looked like a couple of hundred bees all dead on the ground. At the time I had no idea what was going on but I have since watched some TV documentaries about colony collapse.

It's very worrying and I think that we need to grow everything organically. It's very important.

Posted by Pheobe on 11 Jan 2010

We read here that - "Increasingly, scientists suspect that low-level exposure to "pesticides" could be contributing to this rash of epidemics."

How about this very old idea from an English journal reported in the LA Times, 14 September, 1897? "The fear is expressed, that when England is lighted from one end to the other with electricity the song birds will die out from the failure of their (insect) food supply."

The electricity referred to here is street lighting which causes the light pollution bane of astronomers. Perhaps it should be perceived now as the "old" DDT? Most insectivores are having a bad time today in 2010. Perhaps it has been a "hidden" problem for 113 years?

Posted by Graham Cliff on 15 Jan 2010

More than 20 to 25 years that I see a wasp in any rural or urban area of Puerto Rico. Just disappeared ...

Posted by Aristides on 16 Jan 2010

Some years ago there were noises and jumpings of frogs and snakes in rice paddies of Northern Provinces of Iran and food web was on its right track but now when you look on those rice fields polluted for many years with high pressure of diazinon/ other pesticides and fertilizers the view is different and there is a high decline in frogs/ snakes populations.
We need an immediate action to get back to nature.

Posted by Ahmad Mahdavi on 16 Jan 2010

Thanks for tying the BCC to Bat Die-off.

I had researched the organic (method) beekeepers view here. They have no BCC problems, yet mainstream journalism won't report their experience, as the mainstream is chasing profitable high-tech analysis and treatments:


Posted by Jim West on 11 Aug 2010

The crazy thing is that bats actually eat many agricultural pests. Could it be that these chemicals are intelligently eliminating their competition?

Posted by Joe on 12 Aug 2010

Velp 04 September 2010,

Comment from another Continent from Europe also the Netherlands where I listen to my honeybees they did more as 130.000.000 years in Europe their good work pollinate from flowers on plants, bush and trees.............But your and my generation will destroy their good work in shorter as 100 years.

The most of the 194 Governments- and Presidents Worldwide they are worry about this Insects the Bees-Honeybees 'Apis Mellifera' BUT forgotten that now all 6.600.000.000 Citizens Worldwide must breathe GMO-Pollen..........This is a real DANGER for Girls-Woman with a Fetus or a Baby in their belly and Mothers they given their Babys breast-milk the GMO-Pollen is a danger for animals, birds, insects, amfibians, fish and bacterium, plants, bush and trees but also for the air, the soil, the water in the rivers, lakes, oceans our groundwater- and our drinkwater with other words our 'own' Governments- and Presidents included the WTO, FAO, WHO, also the VATICAN and EUROPEAN FOOD SAFETY AGENCY the EU-EFSA the last three all in Italy in Rom - Parma.

Why must Farmers produce CHEMICAL DUST and Consumers pay for food with all kind of Toxic Chemcials and who did given the permission from GMO-Seeds, Plants, Bush and Trees yes our 'own' Politic People.

Can we say the Rich People promote GMO Worldwide the answer is yes............See what the Bill and Melinde Gates Foundation promote example in Continent Africa GMO Seeds.

All beekeepers Worldwide they make a mistake when they sell their products as pollen, honey, propolis, royal jelly also beewax this is mostly included gmo-pollen all kind of toxic chemicals, heavy metals, fine dust with example asbestos, pak's, pa's a lot yellow flowers on plants, bush and trees given pyrrolizidine alkaloiden and this can given the illness of Cancer we will find allways the Bacterium 'Clostridium Botulinum' in beeproducts by consumption Feuts-Baby and Child up to one year can die..............We must tell Consumers.

Best regards,
Hans van den Broek
Posted by Hans van den Broek on 04 Sep 2010

I think its also Transgenic Plants and will kill off birds as well.

Posted by irena Monticelli on 13 Oct 2010

Comments have been closed on this feature.
Sonia Shah is an author and science journalist whose writing has appeared in The Nation, New Scientist, The Washington Post and elsewhere. Her third book, The Fever: How Malaria Ruled Humankind for 500,000 Years, will be published in 2010. In a recent article for Yale Environment 360, she wrote about the emerging field of study of how ecosystem disturbance and changing interactions between wildlife and humans can lead to the spread of new pathogens.



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