Decades of Combat: The United States Faces a Renewed Battle Against the Flesh-Eating Screwworm

For over 50 years, the United States has invested hundreds of millions of dollars to keep the flesh-eating screwworm at bay. Unfortunately, it’s back.

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While screwworms can infest any warm-blooded animal, they pose a significant threat to livestock, often resulting in fatalities among cattle. The ethical implications of intentionally eradicating this species have prompted debate among environmental bioethicists.

“Some species warrant consideration for complete eradication, and the screwworm is among them,” commented Gregory Koebnick, a senior research fellow at the Hastings Center for Bioethics.

Recently, the Department of Agriculture confirmed the presence of New World screwworms in calves in Texas. This marks the first occurrence of natural infestation in U.S. cattle since 1982, as reported in a recent study. A second case was subsequently identified, approximately 6 miles from the initial infection, as documented in tweets by researchers. This discovery represents a troubling resurgence of the species, reigniting the U.S.’s decades-long battle against screwworms.

Experts suggest that the U.S. will adopt a similar strategy to the one employed in the late 1950s, during which an aggressive, collaborative approach aimed at the screwworm population was initiated. The strategy involves mass-producing sterile males that, when released, render natural mating attempts futile since female screwworms mate only once.

“This strategy is effective,” stated Chad Cross, a professor of parasitology at Texas Tech University’s College of Veterinary Medicine. “It has proven successful in the past, and I believe it will continue to be effective.”

He also pointed out that the new cases in Texas serve as a critical reminder of the urgent need to prevent further outbreaks.

The screwworm fly, classified as a black fly, thrives in southern regions of the U.S. These flies are drawn to infected, neglected wounds, where females can deposit up to 300 eggs, leading to invasive larvae development.

“The larvae emerge from the eggs and feed on the flesh of warm-blooded hosts,” explained Philip Kaufman, a professor of entomology at Texas A&M University. “They pose a threat not only to domestic animals but also to wildlife, and even humans.”

Screwworm larvae possess specialized hooks that allow them to penetrate animal flesh and burrow deeper. Infection manifests as open, rotting sores on the skin, often accompanied by an unpleasant odor, which can attract other fly species. If left untreated, the infection is likely to lead to death unless proper intervention occurs, including insecticide and antibiotic treatments.

Cows graze June 2 in Quemado, Texas.
Brandon Bell/Getty Images

Infections in humans are rare but extremely painful.

“You are essentially consuming tissue, whether it is muscle, fat, or skin,” Kaufman stated. “It’s highly probable that you would become aware of this issue.”

Currently, screwworms are primarily found in the southernmost areas of the United States but can adapt to milder climates provided they remain warm enough.

“They could survive in the Midwest during favorable weather conditions, but they can’t endure the winter,” Kaufman remarked. “South Texas and South Florida will remain warm enough to sustain their survival.”

These regions were previously the main habitats for screwworms until aggressive elimination efforts began in the 1960s, which involved constructing factories and spray fields in Florida, Texas, and Central America to produce and release sterile flies.

These sterile flies are irradiated and released in large quantities to saturate outbreak areas. Their mass presence prevents wild female screwworms from successfully mating, thereby curtailing egg-laying and reproduction.

The approach yielded success, and when infections reached zero in 1982, the U.S. continued operations in Mexico and Central America, driving the screwworms further south.

“It wasn’t until around 2004 that their effectiveness extended past the Panama Canal,” Kaufman remarked.

However, the U.S. and its partners gradually reduced investments in facilities that produced and distributed sterile insects in locations where screwworms had been eliminated.

“As new factories were opened further south, those in the north were shut down, leading to the closure of the Texas facility followed by those in Mexico and Nicaragua, leaving only the Panama factory operational,” Kaufman explained. “That aging plant is now showing signs of wear.”

For two decades, the Darien Valley, an inaccessible rainforest bordering Panama and Colombia, marked the northern limit of screwworm distribution. However, in 2023, outbreaks began spreading northward, initially to Panama and Costa Rica, and subsequently to Mexico and the United States.

“The crucial question now is: why have they re-emerged?” Kaufman ponders. “No one really knows.”

Regardless of the cause, the U.S. is investing again. The USDA is constructing a $750 million facility in Texas expected to produce around 300 million sterile screwworms weekly, tripling current production levels and aligning with capabilities established in the 1960s. However, the facility is not expected to be operational until late 2027, requiring time to ramp up to full capacity.

Until then, the likelihood of outbreaks remains significant. Screwworm infestations could inflict roughly $1.8 billion in losses each year to the Texas economy alone, encompassing livestock deaths, veterinary care, treatment, and additional labor costs, according to USDA estimates for 2024.

The ultimate goal is the complete eradication of the screwworm fly from the U.S. and Central America. Some researchers argue for considering the species’ total elimination. In 2024, a consortium of bioethicists, conservation biologists, and scientists debated whether refining sterilization methods and employing genetic modifications to introduce lethal genes into the gene pool of screwworms could lead to extinction, as discussed in a paper published in Science magazine last year.

The authors contend that screwworms cause immense suffering to livestock under human care. The infections they inflict upon animals are slow to develop and agonizing for both livestock and humans, raising questions about the environmental value or benefits provided by this species.

Koebnick, the bioethicist, noted that while the group includes individuals who cherish biodiversity and advocate species conservation, they ultimately concluded that there may be instances where eradication is justifiable.

The researchers were predominantly speculating. Currently available genetic modification techniques geared towards screwworm eradication have not been tested at a large scale and are not yet viable for implementation. “If such options were available, it would represent a significant decision with potential long-term consequences,” Kebnick explained.

“These methods are not yet ready for deployment,” he added.

Source: www.nbcnews.com

Are Flesh-Eating Parasites Approaching the U.S. Border? Here’s What You Need to Know.

In September, Mexican officials confirmed an outbreak of the lethal flesh-eating parasite in Nuevo Leon, located less than 70 miles (113 kilometers) from the Texas border.

The outbreak was identified in an 8-month-old cow along the busy Monterrey to Laredo highway. Cocliomia hominivorax – the New World screwworm – has resurfaced for the first time in decades, threatening its eradication status achieved in the United States over fifty years ago.

This discovery raised concerns among U.S. ranchers and veterinarians who vividly recall the destruction this voracious insect once wreaked. The screwworm fly, a metallic blue-gray, appears relatively ordinary until its larvae begin to burrow into the living flesh of animals.

“The adults resemble the blowflies commonly found in my lab in North Carolina,” remarks Professor Max Scott, an entomologist at North Carolina State University who has dedicated his career to pest research. “The difference is that this blowfly is an obligate parasite. The female must lay her eggs in a living host.”

Within hours of being laid in a wound or natural opening, the eggs hatch into maggots that burrow deep into the tissue. After several days of feeding, the larvae drop to the ground and pupate, often leaving the host deformed or dead.

Each female can lay hundreds of eggs, and untreated infestations often attract other species of flies, exacerbating the host’s decline.

In livestock, screwworms can result in significant weight loss, skin damage, and even fatalities, representing a multibillion-dollar challenge for the livestock industry in South America.

A Terrible Past

The New World screwworm once plagued regions in the southern United States, Mexico, and the Caribbean. It wasn’t until the mid-20th century that an unexpected mix of genetics, radiation, and air transport helped regain control over the species.

Post-World War II, scientists at the United States Department of Agriculture (USDA) pioneered germ-free insect technology, a groundbreaking method for genetic control. The approach was both simple and radical—breed millions of screwworm flies in captivity, sterilize them using gamma rays, and release them into the wild.

Females mate only once, so even if they pair with a sterile male, they won’t produce offspring, leading to a population collapse.

In the 1950s, experiments on Curaçao confirmed the method’s effectiveness. By the early 1960s, screwworms had been eradicated from Florida. The initiative spread west and south, ultimately eliminating the fly from the continental United States, Mexico, and much of Central America by the early 2000s.

The eradication campaign was costly, reportedly exceeding $750 million. However, it saved the livestock industry billions in losses annually and allowed U.S. cattle production to thrive in the following years.

A small production facility in Panama, jointly managed by the U.S. and Panamanian governments, maintained permanent barriers, releasing 100 million sterile flies weekly along the Panama-Colombia border and regularly developing new strains for longevity.

This system functioned effectively for two decades until it faltered. By 2023, infection cases began to re-emerge in Panama. Within two years, the parasite spread to Costa Rica, Nicaragua, and Honduras, now reaching northern Mexico.

New World screwworm larvae feed on infected animal wounds for about seven days, then fall to the ground, burrow into the soil, and pupate. – Credit: COPEG

What Went Wrong?

The specific reasons behind the barrier’s collapse remain unclear, but Scott noted “warning signs indicating trouble along the border.”

Farmers failing to adhere to protocols when transporting livestock may have further facilitated the spread of infection, explaining the surge in cases beyond the natural movement of fly populations.

Scott pointed out that the Panama facility is currently overburdened, producing around 110 million sterile flies weekly. In contrast, during the initial eradication efforts in Mexico, local facilities generated between 500 million and 700 million units weekly. “We needed that volume,” he noted.

This shortfall means an insufficient supply of sterile flies to manage the ongoing outbreak.

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The Enemy at the Gate

As of now, there is no evidence that the screwworms have crossed into the U.S. The USDA has deployed approximately 8,000 traps in Texas, Arizona, and New Mexico but has not detected any flies. Nevertheless, vigilance is high.

“The risks are substantial,” Scott cautions. “The best chance to curb the outbreak was further south, near the Isthmus of Tehuantepec. Reports of cases further north complicate containment given the current production capacities.”

In response, the U.S. government initiated a “five-pillar plan,” which includes constructing two new fly dispersal facilities in Texas. One facility at Moore Air Force Base can spray 100 million sterile flies weekly, while plans for a larger production plant in southern Texas aim to triple that capacity.

The USDA is also investing $100 million into innovative pest control technologies, exploring options from electron beam and X-ray sterilization to genetically modified flies.

A significant resurgence of screwworms could be catastrophic for U.S. livestock producers. An outbreak may incur billions in animal losses, quarantines, and trade restrictions. When the parasite re-emerged in Florida in 2016 from Caribbean-imported deer, it infected 145 animals, taking nearly a year to eradicate.

Human infections are rare but can be severe. The parasite’s scientific name, Cocliomia hominivorax, translates to “man-eating fly.” Most cases affect travelers to infested regions, leading to infections from wounds and nasal passages.

“This is not a major public health issue,” Scott explained. “However, caution is advised when visiting affected areas.”

The bulges on the larva’s body are the origin of the name “screw maggot.” – Credit: USDA Agricultural Research Service

Modern Genetic Upgrades

Scott believes that the old sterile fly method remains viable, especially when enhanced by new biotechnology. His lab at North Carolina State University has spent years developing genetically engineered screwworm strains that produce only males, significantly increasing efficiency.

Traditional sterile insect techniques require releasing both males and females, resulting in many males mating with sterile females.

This means that very high doses of radiation are needed to fully sterilize females, Scott noted. In contrast, his team’s method yields only males. They can then focus on sterilizing these males specifically, allowing researchers to maintain a higher quantity of healthier flies unlikely to reproduce.

These male-only stocks were field-tested in Panama in 2018 but were not deployed because existing methods were deemed sufficient. As the parasite moves northward, regulatory approval for genetically modified screwworms might become essential.

Moreover, researchers are investigating “gene drive systems” utilizing CRISPR technology to bias genetics, ensuring that most offspring carry infertile or male-only genes. In theory, this could drastically reduce the number of flies needed for suppression.

“We hope funding will be available to develop more effective technologies,” Scott stated. “The goal is to reduce releases from 100 million sterile flies to potentially just 10 million. This would make genetic control far more feasible.”

For the time being, strategies remain focused on aerial dispersal, targeted capture, and cross-border collaboration. Yet, scientists are increasingly concerned about the screwworm’s capability to migrate northward faster than anticipated.

“Given the current fly population, we sincerely hope to prevent them from entering the United States,” Scott warned. “But uncertainties remain.”

At present, the border remains intact. With each new case emerging towards the north, the focus shifts from whether the screwworms will invade the U.S. to whether they will be prepared upon their arrival.

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Source: www.sciencefocus.com