Grantee Research Project Results
2023 Progress Report: Development of a Data-Driven Model for Assessing Benefits and Risks of the pgSIT Approach for Ae. aegypti Eradication in Hawaii
EPA Grant Number: R840204Title: Development of a Data-Driven Model for Assessing Benefits and Risks of the pgSIT Approach for Ae. aegypti Eradication in Hawaii
Investigators: Akbari, Omar , Lee, Yoosook , Marshall, John
Institution: University of California San Diego , University of California - Berkeley , University of Florida
EPA Project Officer: Callan, Richard
Project Period: July 1, 2021 through June 30, 2024
Project Period Covered by this Report: July 1, 2022 through June 30,2023
Project Amount: $749,887
RFA: Assessment Tools for Biotechnology Products (2020) RFA Text | Recipients Lists
Research Category: Chemical Safety for Sustainability , Safer Chemicals
Objective:
The successful application of a synthetic sterile insect technique (SIT) technology, precision guided SIT (pgSIT), in the Hawaii region could eliminate the Aedes aegypti mosquito vector responsible for dengue outbreaks in the region. This novel technology may also have positive environmental impacts by reducing insecticide or insect growth hormone-based usage that also impacts other native insect taxa in the region. However, before this work makes it to the field, we need a robust, data-driven modeling framework that will accurately predict the outcome of pgSIT release scenarios so we can inform stakeholders involved in approving this product for field use. The objective of this work is to generate data-driven tools and surveillance technologies to predict the behavior of a synthetic pgSIT technology to support technological risk assessments and future field releases.
Progress Summary:
We have developed a CRISPR-based system, termed Sensitive Enzymatic Nucleic-acid Sequence Reporter (SENSR), to effectively detect virus and transgenic pgSIT mosquitoes within 20 minutes. This SENSR system can be used to support pgSIT monitoring programs.
Accurate modeling of pgSIT performance and risk requires evaluation of mosquito life history, population connectivity, size, and movement. We collected mosquitoes to evaluate the life history characteristics of Hawaiian Aedes mosquitoes. We have generated genomic data to analyze mosquito population structure and migration, which will allow us to infer movement patterns for Aedes mosquitoes and predict potential resistance to the technology in the population. These data will support a model to assess pgSIT performance in wild Hawaiian populations and a risk assessment of this technology.
Future Activities:
● Continuing to test and optimize the SENSR technology for pathogen and transgene identification.
● Completing the collection of mosquito life history parameters for the Hawaiian strain
● Continue to collect samples from the Big Island and some of the other Hawaiian Islands to determine population structure and the genetic exchange rate between islands.
● Continue to collect biotic and abiotic environmental data (meteorological + landscape) and assess the relationship of these variables to the relative density of Aedes mosquitoes
● Conduct modeling to build confined small-scale field pgSIT release scenarios in Hawaii.
● Risk assessment to address gaps in knowledge for further study.
Journal Articles on this Report : 3 Displayed | Download in RIS Format
Other project views: | All 4 publications | 3 publications in selected types | All 3 journal articles |
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Seok S, Jacobsen C, Romero-Weaver A, Want X, Nguyen V. Complete mitogenome sequence of Aedes (Hulecoeteomyia) japonicus japonicus from Hawai'i Island. MITOCHONDRIAL DNA PART B 2023;8(2):64-68 |
R840204 (2022) R840204 (2023) |
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Seok S, Raz CD, Miller JH, Malcolm AN, Eason MD, Romero-Weaver AL, Giordano BV, Jacobsen CM, Wang X, Akbari OS, Raban R. Arboviral disease outbreaks, Aedes mosquitoes, and vector control efforts in the Pacific. Frontiers in Tropical Diseases 2023;4:1035273. |
R840204 (2023) |
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Brisco KK, Jacobsen CM, Seok S, Wang X, Lee Y, Akbari OS, Cornel AJ. Field evaluation of In2Care mosquito traps to control Aedes aegypti and Aedes albopictus (Diptera:Culicidae) in Hawai’i Island. Journal of Medical Entomology 2023;60(2):364-372. |
R840204 (2023) |
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Supplemental Keywords:
mosquito control, CRISPR-Cas9 technologies, synthetic biology, risk assessment, modeling, monitoring, Hawaii (HI), entomology, ecology, environmental, genetics, population geneticsProgress and Final Reports:
Original AbstractThe perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.