Views: 37 Author: Site Editor Publish Time: 2023-05-08 Origin: Site
Mosquitoes are vector-borne diseases.
Santa Clara County is using agricultural drones to spray larvicides on non-residential locations in an effort to prevent mosquitoes and vector-borne illnesses like West Nile virus from proliferating this year after an especially rainy winter.
The county's vector control division will utilize agricultural drones for the first time this year to disperse larvicides. a mosquito larval-targeting pesticide. Only distant, desolate locations that are inaccessible by foot will be exploited for agricultural drone use, including several county marshes in the Palo Alto Berlands Nature Reserve.
The agricultural drones will be flown about 200 feet above the ground, controlled by staff.
As opposed to gas helicopters, agricultural drones are electric, allowing for more accurate administration of larvicides and being more environmentally friendly. According to the study, using drones will cost $1.5 million this year.
This year, the Vector Control District anticipates that mosquitoes will pose a greater threat since the rains have left standing water over the county. Some mosquitoes in the Bay Area may travel 1,000 miles once they reach adulthood, and they often reproduce by depositing their eggs in calm water.
The biggest issue is that this might become problematic if the mosquitoes spread illnesses like West Nile virus. According to the California Department of Public Health, it is the most prevalent and dangerous illness spread by mosquitoes, resulting in 7,597 human infections and 345 fatalities in the state over a 25-year period.
The district hopes to help avoid mosquitoes by using
How is drones used in agriculture?
Drones, or unmanned aerial vehicles (UAVs), are increasingly being used in agriculture to gather data, monitor crops, and perform specific tasks. Here are some of the ways drones are used in agriculture:
1.
Crop monitoring: Drones equipped with cameras and sensors can fly over crops and collect data on plant health, growth, and soil moisture levels. This data can help farmers make better decisions about when to water, fertilize, and harvest their crops.
2.
3.
Precision agriculture: Drones can be used to create high-resolution maps of farms, showing variations in soil type and crop health. This data can be used to create targeted fertilizer or pesticide applications, which can save money and reduce the environmental impact of farming.
4.
5.
Crop spraying: Drones can be equipped with tanks and spray nozzles, allowing them to spray pesticides or fertilizers over crops more efficiently and accurately than traditional methods.
6.
7.
Livestock monitoring: Drones can be used to monitor the health and movement of livestock, allowing farmers to quickly identify sick animals or locate herds that have strayed.
8.
9.
Crop mapping: Drones can be used to create detailed maps of crop fields, allowing farmers to identify problem areas or areas that require more attention.
10.
11.
Irrigation management: Drones can be used to analyze soil moisture levels and assess crop stress, helping farmers optimize their irrigation practices.
12.
13.
Planting: Drones can be used to plant seeds or seedlings in a precise and efficient manner, reducing labor costs and improving planting accuracy.
14.
Overall, drones can help increase efficiency, reduce costs, and improve crop yields while minimizing the environmental impact of farming.
2、What is agricultural spraying drone?
3、Are agricultural drones sustainable?
4、What are 5 benefits of drones?
to eliminate more mosquito larvae.
If you have any questions about this report or would like more information, please contact us at
