Invasive, disease-carrying Aedes aegypti mosquito sterilized with bacteria and eradicated in large-scale trial
In a first for the Southern Hemisphere, researchers have shown a bacteria can successfully sterilize and eradicate the invasive, disease carrying Aedes aegypti mosquito which is responsible for spreading dengue, yellow fever and Zika. The breakthrough could support the suppression and potential eradication of Aedes aegypti worldwide.
Published today in PNAS, the landmark trial involved releasing 3 million male Aedes aegypti mosquitoes in Northern Queensland sterilized with bacteria called Wolbachia. The trial was conducted across three sites over a 20-week period during the summer of 2018. The sterile male insects search out and mate with wild females, preventing the production of offspring.
Scientists returned the following year and found one of the trial sites, Mourilyan in Queensland, was almost devoid of mosquitoes.
The trial was an international collaboration between Australia's national science agency CSIRO, University of Queensland (UQ), Verily Life Sciences, QIMR Berghofer Medical Research Institute and James Cook University (JCU).
CSIRO Chief Executive Dr. Larry Marshall said the organization was proud to build on a 100-year legacy of protecting Australia and Australians.
"The creation of our Health and Biosecurity team back in 2016 meant we were prepared for COVID-19, and that preparation is paying off across other biosecurity threats like mosquitos which spread some of the world's most serious diseases," Dr. Marshall said.
"Over 40 percent of humans suffer from mosquito-spread diseases, so it's an opportunity for Australia to develop environmentally-friendly mosquito control tools to tackle current and future mosquito incursions.
"By working with Australian and international partners we can tackle two of Australia's greatest challenges at once—health and security—with breakthrough research translated into effective global export solutions.
"CSIRO is leveraging great Australian science to create new technologies to make this approach more cost effective and suitable for the climates of less developed countries that suffer most from mosquito-borne viruses, strengthening and protecting our region."
JCU Adjunct Professor Scott Ritchie said the Wolbachia trial was a successful international collaboration which saw contemporary science working together with cutting-edge technology, to help eliminate the dengue-carrying Aedes aegypti mosquito.
"It was a hugely successful project. We reared the three million male Aedes aegypti mosquitoes needed for the trial in the insectary at James Cook University in Cairns," Prof Ritchie said.
Verily Product Manager, Nigel Snoad, said community engagement was also essential to success of the project.
"It was a huge achievement by the joint team to setup and operate the mosquito rearing, sorting and release systems, and develop strong community engagement and support," Mr Snoad said.
"We were proud of the work we were able to do in collaboration with the CSIRO, James Cook University and the local community. The ongoing suppression after releases stopped is an important result, indicating that sustained impact is feasible for this disease vector."
CSIRO scientist and UQ Associate Professor, Nigel Beebe, said the trial demonstrates this technique is robust and capable of effectively suppressing mosquito populations.
"During the trial, we saw over 80 percent of the mosquito population suppressed across our three trial sites," Associate Professor Beebe said.
"When we surveyed the sites the following year, we were very encouraged to see the suppression still in effect, with one of our most productive towns for Aedes aegypti almost devoid of this mosquito with a 97 percent reduction across the following season.
"One year on, the mosquito population at the second trial site remained substantially suppressed, while the population fully recovered at the third site.
"We are currently investigating the differences observed in the following mosquito season as they are incredibly informative in further developing this technology and in modeling how we could remove this exotic virus-transmitting pest in other locations worldwide."