Thermal Infrared Radiation Guides Host-Seeking Behavior in Aedes aegypti Mosquitoes
แนวคิดหลัก
Aedes aegypti mosquitoes use thermal infrared radiation emanating from their targets, in combination with other cues, to effectively navigate and locate human hosts.
บทคัดย่อ
The article investigates how Aedes aegypti mosquitoes, a primary vector of viruses that cause dengue, yellow fever, and Zika, use thermal infrared (IR) radiation as a cue to locate and navigate towards human hosts.
The key insights are:
- Ae. aegypti mosquitoes can sense the IR radiation emanating from their targets and use this information, along with other cues like CO2, organic odors, and visual cues, to effectively locate and navigate towards human hosts.
- The detection of thermal IR requires the heat-activated channel TRPA1, which is expressed in neurons at the tip of the mosquito's antenna. Two opsins are also co-expressed with TRPA1 in these neurons, promoting the detection of lower IR intensities.
- The authors propose that the radiant energy causes local heating at the end of the antenna, activating temperature-sensitive receptors in the thermosensory neurons.
- This discovery of thermal IR radiation as an important mid-range directional cue used by mosquitoes expands our understanding of their highly effective host-seeking abilities.
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www.nature.com
Thermal infrared directs host-seeking behaviour in Aedes aegypti mosquitoes - Nature
สถิติ
Mosquito-borne diseases affect hundreds of millions of people annually and disproportionately impact the developing world.
Ae. aegypti is a primary vector of viruses that cause dengue, yellow fever, and Zika.
คำพูด
"We demonstrate that Ae. aegypti sense the infrared (IR) radiation emanating from their targets and use this information in combination with other cues for highly effective mid-range navigation."
"The realization that thermal IR radiation is an outstanding mid-range directional cue expands our understanding as to how mosquitoes are exquisitely effective in locating hosts."
สอบถามเพิ่มเติม
How can the understanding of mosquito thermal IR sensing be leveraged to develop more effective mosquito control strategies?
The understanding of mosquito thermal IR sensing can be leveraged to develop more effective mosquito control strategies by incorporating this knowledge into the design of traps or repellents. For instance, traps could be developed that emit thermal IR radiation to attract mosquitoes, leading them away from human hosts. Repellents could also be formulated to interfere with the mosquitoes' ability to detect thermal IR, making humans less attractive to them. By targeting this specific sensory modality, control strategies can be more precise and efficient in reducing mosquito populations and the spread of diseases.
What other sensory modalities or environmental cues might mosquitoes use in combination with thermal IR to locate human hosts, and how can this knowledge inform the design of repellents or traps?
In addition to thermal IR, mosquitoes may use cues such as CO2, organic odors, and visual cues to locate human hosts. These cues are sensed at different ranges and play a crucial role in host-seeking behavior. By understanding how mosquitoes integrate multiple sensory modalities, repellents or traps can be designed to target these cues simultaneously. For example, traps could be designed to emit CO2 or organic odors in combination with thermal IR to attract mosquitoes effectively. Repellents could also be formulated to disrupt the mosquitoes' ability to detect these cues, making humans less appealing as hosts.
Given the importance of thermal IR sensing in mosquito host-seeking, what evolutionary pressures or adaptations might have led to the development of this capability in Ae. aegypti and other mosquito species?
The development of thermal IR sensing in Ae. aegypti and other mosquito species can be attributed to evolutionary pressures related to their blood-feeding behavior. Mosquitoes have evolved to efficiently locate hosts for blood meals, which are essential for their reproduction. The ability to detect thermal IR radiation allows mosquitoes to locate warm-blooded hosts, such as humans, with precision. This capability likely evolved as a response to the need for effective host-seeking strategies in diverse environments. Over time, mosquitoes that were better able to detect and utilize thermal IR radiation for host-seeking would have had a survival advantage, leading to the development and refinement of this sensory modality in Ae. aegypti and other mosquito species.