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■Bio-mathematics, Statistics and Nano-Technologies: Mosquito Control Strategies
1.6.2
Incompatible Insect Technique (IIT)
The incompatible insect technique (IIT) employs the symbiont-associated (e.g., Wol-
bachia bacteria) reproductive incompatibility as a biopesticide for the control of insect
pests and disease vectors (WHO 2019, Mains et al. 2019). Wolbachia bacteria are obliga-
tory intracellular and maternally inherited bacteria that infect and spread through natural
arthropod populations by inducing male-killing, feminization, parthenogenesis, and, most
commonly, unidirectional and bidirectional cytoplasmic incompatibility (CI). Cytoplasmic
incompatibility can be used to control natural populations of mosquitos, in a way anal-
ogous to the Sterile Insect Technique (SIT). For the successful application of IIT (based
on a unidirectional CI approach) against a target species of mosquitos, it is essential that
only males are released, as the release of females would lead to fertile mating between
the released males and the released females and the establishment of a Wolbachia-carrying
field population. Release of Wolbachia infected male Aedes mosquitos showed a signif-
icant reduction in a natural population of mosquitos (Mains et al. 2019). The combined
SIT and IIT also provided more effective control of dengue vector mosquito populations
in Thailand (Kittayapong et al. 2019).
1.6.3
Sterile Insect Technique (SIT)
The sterile insect technique (SIT) is a method of biological insect control and requires
the release of a large number of sterile insects into the wild. This technique was developed
in the 1940s and 1950s and adopted for Anopheles, Culex, and Aedes mosquito control in
the early 1970s and is now being utilized and accepted by some mosquito control programs.
The released mosquitos are preferably sterile males that compete with wild males to mate
with females of the natural populations. After mating with a sterile male, females produce
no offspring, thus reducing the next generation’s population. This is an environmentally
friendly control method involving mass-rearing and sterilization by radiation and other
methods. The release of sterile male mosquitos requires repeated mass releases over low
population densities to control target populations of mosquitos in certain areas. There are
many reports about the successful mass rearing and release of male Aedes mosquitos ster-
ilized by radiation against dengue vector mosquitos in Malaysia, Brazil, and several other
countries. Recently, the International Atomic Energy Agency (IAEA) and WHO (2020)
published a comprehensive guideline for the testing and application of SIT for control of
Aedes mosquitos and mosquito-borne diseases.
1.6.4
Adult Mosquito Control Traps
Usually mosquito traps, such as New Jersey light trap, CDC light trap, Biogenet (BG)
traps, DynaTraps, and other traps baited with different attractants (UV, LED, regular light,
CO2, octenol, lactic acid, naphtha, human and animal odors, or heat) have been used for the
surveillance of adult mosquito populations. Several new trap designs, have been developed
for control of adult mosquitos through direct killing by electric wires or collecting adult
mosquitos to be killed (Kline 2006). These traps use UV, LED, and regular light plus
different attractants to attract adult mosquitos to the traps and killed by electric shock,
pesticides, sticky pads, and other mechanical methods. The traps usually operated by a