Aquatain® causes anti-oviposition, egg retention and oocyte melanization and triggers female death in Aedes aegypti

Hamady Dieng; Storm McLean; Holly Stradling; Cole Morgan; Malik Gordon; Whitney Ebanks; Zoila Ebanks; Alan Wheeler

doi:10.1186/s13071-022-05202-0

Aquatain® causes anti-oviposition, egg retention and oocyte melanization and triggers female death in Aedes aegypti

Parasit Vectors. 2022 Mar 22;15(1):100. doi: 10.1186/s13071-022-05202-0.

Authors

Hamady Dieng¹, Storm McLean², Holly Stradling³, Cole Morgan⁴, Malik Gordon², Whitney Ebanks⁵, Zoila Ebanks⁵, Alan Wheeler⁵

Affiliations

¹ Mosquito Research and Control Unit (MRCU), George Town, Cayman Islands. Hamady.dieng@gov.ky.
² The University College of the Cayman Islands, Olympic Way, George Town, Cayman Islands.
³ The University of Liverpool, Liverpool, L69 3BX, UK.
⁴ The Forensic Department, Health Services Authority, George Town, Cayman Islands.
⁵ Mosquito Research and Control Unit (MRCU), George Town, Cayman Islands.

Abstract

Background: In arboviral disease systems where the virus can be transmitted from male to female vectors and from one generation to the next, targeting the female (especially when she is gravid) can help alter the persistence of the virus in nature and its transmission. A typical example is Aedes aegypti, which has become unmanageable due to the development of insecticide resistance. Despite evidence that monomolecular surface films prevent the selection of genetic resistance, their potential in Aedes vector control remains largely unexplored.

Methods: We examined the oviposition, egg retention, oocyte melanization, and female mortality of the Cayman Islands strain of Ae. aegypti, using choice (balanced and unbalanced) and no-choice bioassays involving Aquatain® Mosquito Formulation (AMF; Aquatain Products Pty Ltd.), a polydimethylsiloxane-based liquid used for mosquito control.

Results: When presented with similar opportunities to oviposit in two sites treated with AMF and two other sites with untreated water (control), egg deposition rates were significantly higher in the untreated water sites than in the AMF-treated sites (P < 0.05). We also observed a matching pattern of egg deposition preference in environments with more options in terms of AMF-treated sites. Females laid significantly more eggs when water was the only available medium than when all sites were treated with AMF (P < 0.05). Also, significantly more mature eggs were withheld in the AMF no-choice environment than in the no-choice test involving only water (P < 0.05). Internal oocyte melanization was not observed in females from the oviposition arenas with the lowest AMF presence (equal-choice and water-based no-choice); in contrast, this physiological response intensified as the number of AMF-treated sites increased. Female death occurred at high rates in AMF-treated environments, and this response increased with the increasing presence of such egg deposition sites.

Conclusions: This study demonstrated that AMF acted as a deterrent signal to ovipositing Ae. aegypti and as an indirect adulticide. These results suggest that AMF may be a promising control tool against the dengue vector, and this warrants further evaluation under field settings.

Keywords: Aedes aegypti; Aquatain®; Egg retention; Female death; Melanization; Oviposition.

MeSH terms

Aedes* / physiology
Animals
Female
Male
Mosquito Vectors
Oocytes
Oviposition / physiology
Silicon

Substances

Aquatain
Silicon