(CBSDFW/CNN) — A plan to release genetically modified mosquitoes won federal approval for their release into Harris County beginning in 2021, according to Oxitec, the US-owned, British-based company that developed the genetically modified organism (GMO).
The Environmental Protection Agency granted Oxitec’s request after years of investigating the impact of the genetically altered mosquito on human and environmental health.READ MORE: Duncanville Basketball Star Anthony Black Stays Positive Despite Ongoing Legal Battle Over Eligibility
“This is an exciting development because it represents the ground-breaking work of hundreds of passionate people over more than a decade in multiple countries, all of whom want to protect communities from dengue, Zika, yellow fever, and other vector-borne diseases,” Oxitec CEO Grey Frandsen said in a statement at the time.
However, state and local approval for the Texas release was not granted, according to Sam Bissett, a communication specialist with Harris County Public Health.
“Local health officials confirm that there is no agreement in place or plans to move forward with the project at this time,” Bissett told CNN. “Our focus is on our efforts with the COVID-19 pandemic.”
However, a plan to release more than 750 million genetically modified mosquitoes into the Florida Keys in 2021 and 2022 has received final approval from local authorities, against the objection of many local residents and a coalition of environmental advocacy groups. The proposal had already won state and federal approval.
“With all the urgent crises facing our nation and the State of Florida — the COVID-19 pandemic, racial injustice, climate change — the administration has used tax dollars and government resources for a Jurassic Park experiment,” said Jaydee Hanson, policy director for the International Center for Technology Assessment and Center for Food Safety, in a statement released Wednesday. “Now the Monroe County Mosquito Control District has given the final permission needed. What could possibly go wrong? We don’t know, because EPA unlawfully refused to seriously analyze environmental risks, now without further review of the risks, the experiment can proceed,” she added.
Approved by the Environment Protection Agency in May, the pilot project is designed to test if a genetically modified mosquito is a viable alternative to spraying insecticides to control the Aedes aegypti. It’s a species of mosquito that carries several deadly diseases, such as Zika, dengue, chikungunya and yellow fever.
The mosquito, named OX5034, was altered to produce female offspring that die in the larval stage, well before hatching and growing large enough to bite and spread disease. Only the female mosquito bites for blood, which she needs to mature her eggs. Males feed only on nectar, and are thus not a carrier for disease.
A long fight in Florida
In June the state of Florida issued an Experimental Use Permit after seven state agencies unanimously approved the project. But it has taken more than a decade to obtain that approval.
In 2009 and 2010, local outbreaks of dengue fever, which is spread by the Aedes aegypti, left the Florida Keys Mosquito Control District desperate for new options. Despite an avalanche of effort — from aerial, truck and backpack spraying to the use of mosquito-eating fish — local control efforts to contain the Aedes aegypti with larvicide and pesticide had been largely ineffective.
And costly, too. Even though Aedes aegypti is only 1% of its mosquito population, Florida Keys Mosquito Control typically budgets more than $1 million a year, a full tenth of its total funding, to fighting it.READ MORE: ‘It’s A Great Concern For Us’ Ukrainians In North Texas Worried About Possible Russian Invasion.
In 2012, the district reached out to Oxitec for help. The company had developed a male mosquito named OX513A, programmed to die before adulthood unless it was grown in water that contained the antibiotic tetracycline.
Batches of the sterile OX513A would be allowed to live and mate with females; however, their male and female offspring would inherit the “kill” programming and die, thus limiting population growth.
OX513A had been field tested in the Cayman Islands, Panama and Brazil, with Oxitec reporting a large success rate with each release. For example, a trial in an urban area of Brazil reduced the Aedes aegypti by 95%.
But when word spread in the Florida Keys that the mosquito was on the way, public backlash was swift: More than 100,000 people signed a Change.org petition against the proposal; that number has grown to more than 242,000 today.
Public relations campaigns reminding Floridians that the GMO mosquito doesn’t bite because he’s male didn’t completely solve the problem. Media reports quoted angry residents refusing to be treated as “guinea pigs” for the “superbug” or “Robo-Frankenstein” mosquito.
The EPA spent years investigating the mosquito’s impact on both human health and the environment, allowing time for public input. But in the midst of the evaluation, Oxitec developed a second-generation “Friendly Mosquito” technology and withdrew the application for the first.
The new male mosquito, OX5034, is programmed to kill only female mosquitoes, with males surviving for multiple generations and passing along the modified genes to subsequent male offspring.
The EPA permit requires Oxitec to notify state officials 72 hours before releasing the mosquitoes and conduct ongoing tests for at least 10 weeks to ensure none of the female mosquitoes reach adulthood.
However, environmental groups worry that the spread of the genetically modified male genes into the wild population could potentially harm threatened and endangered species of birds, insects and mammals that feed on the mosquitoes.
“The release of genetically engineered mosquitoes will needlessly put Floridians, the environment and endangered species at risk in the midst of a pandemic,” said Dana Perls, food and technology program manager at Friends of the Earth, in Wednesday’s statement.MORE NEWS: Suspect In DeSoto Sunday Morning Fatal Shooting In Custody, Victim Not Yet ID'd