Tracking the distribution of Anopheles mosquitoes in a laboratory setting is a rather complicated undertaking. The whole idea of studying and tracking the spread of a disease like malaria in an entomological laboratory comes with its own set of concerns. What do you do if the disease suddenly appears in large numbers in a new area or in your own laboratory? What if the disease that you’re tracking isn’t endemic to the area? How can you know when it’s already too late and the disease has spread?
The first thing you need to ask yourself before proceeding is whether you’re dealing with a rare environmental outbreak or a widespread, pandemic-like outbreak caused by a mosquito. If the answer is yes to both questions, then you may have bigger problems on your hands. Fortunately, in many parts of the world, an infectious disease like malaria is not considered a hazardous or contagious disease. Thus, there are few legal or ethical issues surrounding insecticide use in insect laboratories. In many places, the use of insecticides is not even strictly necessary as many areas have a long history of good living and low instances of malaria transmission.
On the other hand, if malaria is considered to be a dangerous disease, then the use of insecticides becomes a necessity. It’s better to be safe than sorry and to track the spread of these mosquitoes to ensure that they don’t multiply in the wild. Luckily, there are some excellent products on the market today that allow laboratory personnel to accurately trace the geographic extent of the epidemic. Companies like Can Flytain, Insect Growth Resource and MosquitoBorne are among the leaders in the field of malaria tracking. These companies provide a wide range of services to help track and monitor malaria in various settings, including the tropics. Some of their tracking solutions include the delivery of mosquito repellent to selected locations; mosquito DNA profiling and population monitoring; tracking mosquito breeding sites; and advising the appropriate steps to take when a case of active malaria is suspected.
So, now you know how can mark and track an insect, but the question remains: where do you get access to the data that is generated by these experiments? Many companies have developed software programs that make it simple to collect information from remote locations using a laptop. Most of these software solutions come with the capability of generating maps, barometric pressure, infrared thermography, and barometer readings. For researchers, this is the best option because it eliminates the need for worrying about getting your measurements and samples delivered to a lab.
Is malaria contagious? Unfortunately, there is no way to get around the fact that parasites are transmittable through insecticide spraying. However, it’s unlikely that this problem will become a huge issue anytime in the near future. Mosquitoes have always lived in areas where malaria has lived. With their complex life cycle, they simply follow the parasites wherever they go.
Now that you understand how can mark and track an insecticide spray, you should be aware that there are other dangers that stem from using this product in the wrong hands. Some companies have also been known to use expired insecticides. This can be fatal to humans and animals, so always consider the risks involved before using this type of mosquito repellent or pesticide. By following these steps, you can reduce the likelihood of having dangerous side effects.