The world's deadliest organism does not have claws, giant teeth or piercing eyes, nor is it as large as one might imagine. The deadliest organism is actually a mosquito. According to the World Health Organization, mosquito bites cause the deaths of more than 1 million people each year, and these deaths occur more frequently in developing countries. Considering that there are numerous mosquito-borne diseases such as West Nile virus, malaria, yellow fever and dengue fever, it is clear that mosquitoes have secured their dangerous reputation. The need for more advanced preventive measures is becoming increasingly necessary as the rate of mosquito-borne infections is increasing at an astonishing rate. The fear that turns the need for new preventive measures into a necessity is associated with global warming as rising temperatures are likely to directly result in an increase in mosquito-borne diseases worldwide. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an Original EssayIn the past, as humans attempted to combat the difficult issue of mosquito-borne disease prevention, people living in both developing and developed countries experienced numerous fluctuations when it came to mosquito regulation and public perception. Problems are also associated with ignorance, monetary funding, and fear of previously implemented solutions that did not have the desired or prolonged effect. The issues that currently need to be addressed by developing countries are linked to the preventative measures that have been and are currently taken and the only way they can be addressed is through the analysis of the multitude of sources that have been, are , and will be implemented. Vector control research initially took place during the early part of the twentieth century. According to the Journal Of The American Mosquito Control Association, the first solutions implemented were mainly based on “source reduction, the use of petroleum oils and the promotion of larvivorous fish” (1994). These solutions are not suitable for large-scale problems. Their impact is only evident at the semi-local level, and even then the effect of these solutions lasted for a limited time, leading to the conclusion that there is significant scope for technological improvement. This improvement is addressed during the latter part of the twentieth century, when chemical larvicides and adulticides were considered a more effective and long-lasting solution, as noted in an all-encompassing account by Takken, a professor and scientist with both a professional and educational background to provide credibility of his statements (2002). There are two current solutions that share similarities with previous ideas implemented in the latter part of the twentieth century, in that they incorporate technological and chemical advances. There are currently two solutions that scientists consider to be one of the most likely solutions to the mosquito problem and which will most likely be implemented in the near future. The first is the nuclear tool: the sterile insect technique. According to L. Alphey, a highly regarded New Biotechnology researcher and scientist, SIT uses radiation to sterilize male flies, which are mass-produced in special breeding facilities. What happens is that the sterile males are placed in a specific place where they end up mating with wild females and when the number of sterile males exceeds the reproductive number, the population (2016)..