This country isn't dropping missiles, bombs, or explosives by drones but releasing mosquitoes due to..., reason will amaze you, place is...
Drones dropped tiny biodegradable pods, each containing approximately 1,000 mosquitoes. They were not just any mosquitoes. They were genetically engineered male mosquitoes in the lab. Why is this country using drones to release mosquitoes instead of weapons?
These lab-reared male mosquitoes have a certain bacterium that hinders the capability for the eggs to hatch when the females reproduce. The purpose of this new technology? To save Hawaii's endangered native birds threatened by mosquito-borne diseases.
These birds are crucial pollinators and seed disperse agents. According to a CNN report, they are now in great peril. Once, Hawaii had over 50 species of honeycreepers, but now only 17 are left, with most being endangered.
A tiny bird named the 'akikiki' became almost extinct in the wild last year. As per the report, less than 100 birds of 'yellow-green 'akeke'e are estimated to remain. What threat are scientists trying to fight with these mosquitoes?
According to Dr. Chris Farmer, the director of the Hawaii program for the American Bird Conservancy (ABC), development and deforestation certainly have effects on the environment, but the 'existential threat' to Hawaii's birds is avian malaria, which is carried by mosquitoes.
Hawaii was originally mosquito-free, and they were not found in the islands until 1826, when the whaling vessels came to the islands. The whaleships had not been aware that mosquitoes were in the water, so with the introduction of mosquitoes, then, the environment was altered. Mosquitos managed to proliferate widely. Later, it became a serious threat to the birds. Moreover, the birds lacked the evolved defenses against the diseases that mosquitoes present.
In the past, the birds would escape mosquitoes by moving to higher elevations on the mountains, where the colder temperatures prevent the mosquitoes from surviving, but now the temperatures in the higher elevations are rising as a result of climate change or global warming, which allowed the mosquitoes to move to higher elevations as well.
In an effort to save the birds, researchers worked on a method called IIT, or Incompatible Insect Technique. IIT involves injecting male mosquitoes with a bacterium named Wolbachia. Once a lab-bred male mates with a wild female, her eggs will not hatch. Because females can't lay eggs that hatch, the population will start to slowly decline.
The American Bird Conservancy and an organization called 'Birds, Not Mosquitoes', began researching this method in 2016. Millions of mosquitoes were reared in a laboratory in California and then released in Maui and Kauai in Hawaii. Roughly 1 million mosquitoes are being released each week now. 'Right now, we're releasing 500,000 mosquitoes a week on Maui and 500,000 mosquitoes a week on Kauai,' Dr. Chris Farmer, the director of the Hawaii program for the American Bird Conservancy (ABC), was quoted as saying to CNN.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
The Hindu
22 minutes ago
- The Hindu
IIT-M hosts session on ‘Policy Directions & Research for the Future'
The Indian Institute of Technology-Madras (IIT-M) hosted a brainstorming session on 'Policy Directions & Research for the Future' bringing together faculty members from various universities and colleges alongside senior industry leaders to chart India's policy roadmap across critical sectors. The initiative, was organised jointly by Thenmozhi, Department of Management Studies IIT Madras and Mythili Parthasarathy, Tamil Nadu Chapter Head, Swadeshi Shodh Sansthan. The session identified critical challenges in India's education ecosystem, particularly the disconnect between academia and industry that has resulted in a shortage of employable engineers in emerging fields like automation and Industry 5.0. Participants highlighted that only 8% of current research benefits society, emphasizing the urgent need for relevant, practical education initiatives.
Time of India
a day ago
- Time of India
Why are thousands of mosquitoes being dropped over islands in Hawaii?
If you've heard about drones dropping mosquitoes over Hawaii and done a double take—you're not alone. It sounds strange, but it's a carefully planned conservation effort. These aren't your everyday pests, either. The mosquitoes being released are part of a strategy to protect some of Hawaii's rarest birds from a disease that's pushing them toward extinction. Hawaii's birds, especially the Hawaiian honeycreepers, are in crisis. Once numbering more than 50 distinct species, only 17 remain today, and most are endangered. One of them, the 'akikiki' , was declared functionally extinct in the wild in 2023. So what's killing them? The villain is avian malaria, a deadly disease spread by mosquitoes. The tragedy is that mosquitoes aren't even native to Hawaii. They arrived in 1826 and their presence has thrown local ecosystems into chaos. These disease-carrying invaders thrive in low-elevation tropical areas, pushing the birds uphill in a desperate search for cooler, mosquito-free zones. But climate change is changing the game. 'With climate change, we are seeing warmer temperatures, and we're watching the mosquitoes move up the mountains,' Dr. Chris Farmer, Hawaii program director for the American Bird Conservancy, told CNN. 'It's a constant march of mosquitoes moving up as the temperatures allow them, and the birds getting pushed further and further up until there's no habitat left that they can survive in. ' If this cycle isn't broken, Farmer warned, 'we're going to lose our honeycreepers.' Millions of mosquitoes… on purpose Here's where the drones and lab mosquitoes come in. The ones being released aren't blood-suckers. They're lab-reared males, and males don't bite. More importantly, these particular mosquitoes carry a naturally occurring bacteria that renders them sterile when they mate with wild females. The result? No viable offspring. Fewer mosquitoes. Fewer disease vectors. Over time, as these releases continue, the population of wild mosquitoes should shrink. This method has never been used at this scale before, but researchers are betting on it. Honeycreepers aren't just beautiful, they play a vital role in Hawaii's ecology, acting as pollinators and seed dispersers. Their extinction would ripple across ecosystems already strained by invasive species and climate change. Farmer doesn't sugarcoat the stakes: mosquitoes are creating 'waves of extinction.' And if this solution works, Hawaii's forests might once again echo with the calls of birds that were on the edge of vanishing.
New Indian Express
2 days ago
- New Indian Express
ISRO shares new findings on black hole
BENGALURU: A team of scientists and researchers from the Indian Space Research Organisation (ISRO) on Friday listed out their unique findings while studying the Black Hole as part of their noted that the X-ray brightness from the fascinating and mysterious black hole, GRS 1915+105, fluctuates dramatically over time. It exhibits a unique pattern of alternating low-brightness ('dips') and high-brightness ('non-dips') phases, each lasting a few hundred seconds. During the high-brightness phase, the team discovered that the rapid flickers in X-rays were repeating about 70 times per second, known as Quasi-periodic Oscillations (QPOs). Interestingly, such 'fast' flickers vanish during the low-brightness phase, noted the researchers Anju Nandi from ISRO, Santabrata Das from IIT- Guwahati, Sreehari H from Hafiza University and Seshadri Majumder from IIT Guwahati. India's first dedicated multi-wavelength space observatory, AstroSat, has been continuously monitoring the black hole GRS 1915+105 since its launch in September 2015 and is working to provide insights into the source's behaviour. The research team stated that they found that these rapid QPOs are intimately connected to a super-heated cloud of energetic plasma surrounding the black hole, known as the corona. During the bright, high-energy phases when QPOs are strongest, the corona becomes more compact and significantly hotter with higher luminosity. Conversely, in the dimmer dip phases, the corona expands and cools, causing the flickers to vanish. This pattern suggests that the compact oscillating corona seems to be the origin of these fast QPO signals. This research work titled- Evidence of oscillating 'compact' Comptonised corona in GRS 1915+105: insights into HFQPOs with AstroSat- was also published in the journal Monthly Notices of the Royal Astronomical Society, on July 4, 2025. ISRO shared the details on July 25. The research team noted that these findings will help scientists understand what happens in the vicinity of a black hole, where gravity is incredibly strong and conditions are extreme.
