Your search keyword '"Unlu, Isik"' showing total 228 results

1. Comparing the effectiveness of adulticide application interventions on mitigating local transmission of dengue virus

Author

Kummer, Allisandra G., Wilke, André B. B., Ventura, Paulo C., Vasquez, Chalmers, Medina, Johana, Unlu, Isik, Gonzalez, Yaziri, Mhlanga, Adquate, Benelli, Giovanni, Ejima, Keisuke, Mutebi, John-Paul, and Ajelli, Marco

Published

2024

2. Presence and abundance of malaria vector species in Miami-Dade County, Florida

Author

Wilke, André B. B., Vasquez, Chalmers, Medina, Johana, Unlu, Isik, Beier, John C., and Ajelli, Marco

Published

2024

3. Climate Change, Emerging Vector-Borne Illnesses, and Anesthetic Considerations

Author

Jaramillo Arias, Manuela, primary, Kulkarni, Nikhil, additional, Le, Anh, additional, Holder, Cheryl L, additional, Unlu, Isik, additional, and Fu, Eugene S, additional

Published

2024

4. A molecular surveillance-guided vector control response to concurrent dengue and West Nile virus outbreaks in a COVID-19 hotspot of Florida

Author

Coatsworth, Heather, Lippi, Catherine A., Vasquez, Chalmers, Ayers, Jasmine B., Stephenson, Caroline J., Waits, Christy, Florez, Mary, Wilke, André B.B., Unlu, Isik, Medina, Johana, Ryan, Sadie J., Lednicky, John A., Beier, John C., Petrie, William, and Dinglasan, Rhoel R.

Published

2022

5. The L1014F Knockdown Resistance Mutation Is Not a Strong Correlate of Phenotypic Resistance to Pyrethroids in Florida Populations of Culex quinquefasciatus

Author

Estep, Alden S., primary, Sanscrainte, Neil D., additional, Stuck, Jason, additional, Unlu, Isik, additional, Prasauskas, Agne, additional, Mundis, Stephanie J., additional, Cotter, Nicholas, additional, Romero-Weaver, Ana L., additional, Fedirko, Troy J., additional, Kendziorski, Natalie L., additional, Kosinski, Kyle J., additional, Ramirez, Daviela, additional, and Buckner, Eva A., additional

Published

2024

6. The L1014F Knockdown Resistance Mutation Is Not a Strong Correlate of Phenotypic Resistance to Pyrethroids in Florida Populations of Culex quinquefasciatus

Author

Estep, Alden S, primary, Sanscrainte, Neil D, additional, Stuck, Jason, additional, Unlu, Isik, additional, Prasauskas, Agne, additional, Mundis, Stephanie J, additional, Cotter, Nicholas, additional, Romero-Weaver, Ana L, additional, Fedirko, Troy J, additional, Kendziorski, Natalie L, additional, Kosinski, Kyle J, additional, Ramirez, Daviela, additional, and Buckner, Eva A, additional

Published

2024

7. Comparing the effectiveness of adulticide application interventions on mitigating local transmission of dengue virus

Author

Kummer, Allisandra G., primary, Wilke, André B.B., additional, Ventura, Paulo C., additional, Vasquez, Chalmers, additional, Medina, Johana, additional, Unlu, Isik, additional, Gonzalez, Yaziri, additional, Mhlanga, Adequate, additional, Benelli, Giovanni, additional, Ejima, Keisuke, additional, Mutebi, John-Paul, additional, and Ajelli, Marco, additional

Published

2024

8. Comparing the effectiveness of adulticide application interventions on mitigating local transmission of dengue virus

Author

Kummer, Allisandra G., primary, Wilke, André B.B., additional, Ventura, Paulo C., additional, Vasquez, Chalmers, additional, Medina, Johana, additional, Unlu, Isik, additional, Gonzalez, Yaziri, additional, Ejima, Keisuke, additional, and Ajelli, Marco, additional

Published

2023

9. Heterodissemination: precision insecticide delivery to mosquito larval habitats by cohabiting vertebrates

Author

Unlu, Isik, Faraji, Ary, Wang, Yi, Rochlin, Ilia, and Gaugler, Randy

Published

2021

10. Insecticide resistance of Miami-Dade Culex quinquefasciatus populations and initial field efficacy of a new resistance-breaking adulticide formulation.

Author

Unlu, Isik, Buckner, Eva A., Medina, Johanna, Vasquez, Chalmers, Cabrera, Aimee, Romero-Weaver, Ana L., Ramirez, Daviela, Kendziorski, Natalie L., Kosinski, Kyle J., Fedirko, T. J., Ketelsen, Leigh, Dorsainvil, Chelsea, and Estep, Alden S.

Subjects

*CULEX quinquefasciatus, *WEST Nile virus, *SUBURBS, *PYRETHROIDS, *DELTAMETHRIN

Abstract

Sporadic outbreaks of human cases of West Nile virus (WNV), primarily vectored by Culex quinquefasciatus Say in suburban and urban areas, have been reported since introduction of the virus into Florida in 2001. Miami-Dade County, Florida is part of one of the largest metropolitan areas in the United States, supports Cx. quinquefasciatus year-round, and recently experienced over 60 human cases of WNV during one outbreak. To facilitate more effective integrated vector management and public health protection, we used the Centers for Disease Control and Prevention (CDC) bottle bioassay method to evaluate the susceptibility of adult Cx. quinquefasciatus collected from 29 locations throughout Miami-Dade County to pyrethroid and organophosphate adulticide active ingredients (AIs) used by Miami-Dade County Mosquito Control. We also determined the frequency of the 1014 knockdown resistance (kdr) mutation for Cx. quinquefasciatus from a subset of 17 locations. We detected resistance to two pyrethroid AIs in all tested locations (permethrin: 27 locations, deltamethrin: 28 locations). The 1014F allele was widely distributed throughout all 17 locations sampled; however, 29.4% of these locations lacked 1014F homozygotes even though phenotypic pyrethroid resistance was present. Organophosphate resistance was more variable; 20.7% of the locations tested were susceptible to malathion, and 33.3% of the populations were susceptible to naled. We subsequently conducted a field trial of ReMoa Tri, a recently approved multiple AI adulticide formulation labelled for resistant mosquitoes, against a mixed location field population of Miami-Dade Cx. quinquefasciatus. Average 24-hr mortality was 65.1 ± 7.2% and 48-hr mortality increased to 85.3 ± 9.1%, indicating good control of these resistant Cx. quinquefasciatus. This current study shows that insecticide resistance is common in local Cx. quinquefasciatus but effective options are available to maintain control during active disease transmission in Miami-Dade County. [ABSTRACT FROM AUTHOR]

Published

2024

11. Presence and Abundance of Malaria Vector Species in Miami-Dade County, Florida

Author

Wilke, Andre B. B., primary, Vasquez, Chalmers, additional, Medina, Johana, additional, Unlu, Isik, additional, Beier, John C., additional, and Ajelli, Marco, additional

Published

2023

12. Infection and transmission of Cache Valley virus by Aedes albopictus and Aedes aegypti mosquitoes

Author

Ayers, Victoria B., Huang, Yan-Jang S., Lyons, Amy C., Park, So Lee, Dunlop, James I., Unlu, Isik, Kohl, Alain, Higgs, Stephen, Blitvich, Bradley J., and Vanlandingham, Dana L.

Published

2019

13. Supplementary material 1 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

14. Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

15. Supplementary material 3 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

16. Supplementary material 4 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

17. Supplementary material 2 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

18. Supplementary material 9 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

19. Supplementary material 8 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

20. Supplementary material 7 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

21. Supplementary material 5 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

22. Supplementary material 6 from: Gloria-Soria A, Shragai T, Ciota AT, Duval TB, Alto BW, Martins AJ, Westby KM, Medley KA, Unlu I, Campbell SR, Kawalkowski M, Tsuda Y, Higa Y, Indelicato N, Leisnham PT, Caccone A, Armstrong PM (2022) Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA. NeoBiota 78: 99-127. https://doi.org/10.3897/neobiota.78.84986

Author

Gloria-Soria, Andrea, primary, Shragai, Talya, additional, Ciota, Alexander T., additional, Duval, Todd B., additional, Alto, Barry W., additional, Martins, Ademir J., additional, Westby, Kathleen M., additional, Medley, Kim A., additional, Unlu, Isik, additional, Campbell, Scott R., additional, Kawalkowski, Malgorzata, additional, Tsuda, Yoshio, additional, Higa, Yukiko, additional, Indelicato, Nicholas, additional, Leisnham, Paul T., additional, Caccone, Adalgisa, additional, and Armstrong, Philip M., additional

Published

2022

23. Culex tarsalis is a competent vector species for Cache Valley virus

Author

Ayers, Victoria B., Huang, Yan-Jang S., Lyons, Amy C., Park, So Lee, Higgs, Stephen, Dunlop, James I., Kohl, Alain, Alto, Barry W., Unlu, Isik, Blitvich, Bradley J., and Vanlandingham, Dana L.

Published

2018

24. A molecular surveillance-guided vector control response to concurrent dengue and West Nile virus outbreaks in a COVID-19 hotspot of Florida

Author

Coatsworth, Heather, primary, Lippi, Catherine A., additional, Vasquez, Chalmers, additional, Ayers, Jasmine B., additional, Stephenson, Caroline J., additional, Waits, Christy, additional, Florez, Mary, additional, Wilke, André B. B., additional, Unlu, Isik, additional, Medina, Johana, additional, Alcaide, Maria L., additional, Ryan, Sadie J., additional, Lednicky, John A., additional, Beier, John C., additional, Petrie, William, additional, and Dinglasan, Rhoel R., additional

Published

2021

25. Do tigers hunt during the day? Diel activity of the Asian tiger mosquito, Aedes albopictus (Diptera: Culicidae), in urban and suburban habitats of North America

Author

Unlu, Isik, primary, Faraji, Ary, additional, Indelicato, Nicholas, additional, and McNelly, James R., additional

Published

2021

26. Population genetics of an invasive mosquito vector, Aedes albopictus in the Northeastern USA.

Author

Gloria-Soria, Andrea, Shragai, Talya, Ciota, Alexander T., Duval, Todd B., Alto, Barry W., Martins, Ademir J., Westby, Kathleen M., Medley, Kim A., Unlu, Isik, Campbell, Scott R., Kawalkowski, Malgorzata, Yoshio Tsuda, Yukiko Higa, Indelicato, Nicholas, Leisnham, Paul T., Caccone, Adalgisa, and Armstrong, Philip M.

Subjects

AEDES albopictus, WINTER, MOSQUITO vectors, GLOBAL warming, POPULATION genetics, MICROSATELLITE repeats, CLIMATE change

Abstract

The Asian tiger mosquito (Aedes albopictus) arrived in the USA in the 1980's and rapidly spread throughout eastern USA within a decade. The predicted northern edge of its overwintering distribution on the East Coast of the USA roughly falls across New York, Connecticut, and Massachusetts, where the species has been recorded as early as 2000. It is unclear whether Ae. albopictus populations have become estab-lished and survive the cold winters in these areas or are recolonized every year. We genotyped and analyzed populations of Ae. albopictus from the northeast USA using 15 microsatellite markers and compared them with other populations across the country and to representatives of the major global genetic clades to investigate their connectivity and stability. Founder effects or bottlenecks were rare at the northern range of the Ae. albopictus distribution in the northeastern USA, with populations displaying high levels of genetic diversity and connectivity along the East Coast. There is no evidence of population turnover in Connecticut during the course of three consecutive years, with consistent genetic structure throughout this period. Overall, these results support the presence of established populations of Ae. albopictus in New York, Connecticut, and Massachusetts, successfully overwintering and migrating in large numbers. Given the stability and interconnectedness of these populations, Ae. albopictus has the potential to continue to proliferate and expand its range northward under mean warming conditions of climate change. Efforts to control Ae. albopictus in these areas should thus focus on vector suppression rather than eradication strategies, as local populations have become firmly established and are expected to reemerge every summer. [ABSTRACT FROM AUTHOR]

Published

2022

27. Potential Distribution of Aedes (Ochlerotatus) scapularis (Diptera: Culicidae): A Vector Mosquito New to the Florida Peninsula

Author

Campbell, Lindsay P., primary, Burkett-Cadena, Nathan D., additional, Miqueli, Evaristo, additional, Unlu, Isik, additional, Sloyer, Kristin E., additional, Medina, Johana, additional, Vasquez, Chalmers, additional, Petrie, William, additional, and Reeves, Lawrence E., additional

Published

2021

28. Potential Distribution of Aedes (Ochlerotatus) scapularis (Diptera: Culicidae): A Vector Mosquito New to the Florida Peninsula

Author

Campbell, Lindsay P., primary, Burkett-Cadena, Nathan, additional, Miqueli, Evaristo, additional, Unlu, Isik, additional, Sloyer, Kristin, additional, Medina, Johana, additional, Vasquez, Chalmers, additional, Petrie, William, additional, and Reeves, Lawrence, additional

Published

2020

29. The development of autonomous unmanned aircraft systems for mosquito control

Author

Williams, Gregory M., primary, Wang, Yi, additional, Suman, Devi S., additional, Unlu, Isik, additional, and Gaugler, Randy, additional

Published

2020

30. Heterodissemination: precision targeting container Aedes mosquitoes with a cohabiting midge species carrying insect growth regulator

Author

Wang, Yi, primary, Suman, Devi S, additional, Chandel, Kshitij, additional, Williams, Gregory M, additional, Unlu, Isik, additional, and Gaugler, Randy, additional

Published

2020

31. Large-Scale Operational Pyriproxyfen Autodissemination Deployment to Suppress the Immature Asian Tiger Mosquito (Diptera: Culicidae) Populations

Author

Unlu, Isik, primary, Rochlin, Ilia, additional, Suman, Devi S, additional, Wang, Yi, additional, Chandel, Kshitij, additional, and Gaugler, Randy, additional

Published

2020

32. Timing of Lambda-Cyhalothrin and Pyriproxyfen Barrier Treatments for Aedes albopictus (Diptera: Culicidae) Management

Author

Williams, Gregory M, primary, Unlu, Isik, additional, Rochlin, Ilia, additional, Wang, Yi, additional, and Gaugler, Randy, additional

Published

2019

33. Truck-mounted area-wide applications of larvicides and adulticides for extended suppression of adult Aedes albopictus

Author

Unlu, Isik, primary, Faraji, Ary, additional, Williams, Gregory M, additional, Marcombe, Sebastien, additional, Fonseca, Dina M, additional, and Gaugler, Randy, additional

Published

2018

34. Comparison of BG-Sentinel Prototype, BG-Sentinel-1, and BG-Sentinel-2: Better Results With Modification of Earlier Design

Author

Unlu, Isik, primary and Baker, Mark, additional

Published

2018

35. North American Culex pipiens and Culex quinquefasciatus are competent vectors for Usutu virus

Author

Cook, Christian L., primary, Huang, Yan-Jang S., additional, Lyons, Amy C., additional, Alto, Barry W., additional, Unlu, Isik, additional, Higgs, Stephen, additional, and Vanlandingham, Dana L., additional

Published

2018

36. Nighttime Applications of Two Formulations of Pyrethroids are Effective Against Diurnal Aedes albopictus

Author

Unlu, Isik, primary, Baker, Mark A., additional, Indelicato, Nicholas, additional, Drews, Derek, additional, Zeng, Zishuo, additional, and Vaidyanathan, Rajeev, additional

Published

2018

37. Evaluation of Lambda-Cyhalothrin and Pyriproxyfen Barrier Treatments for Aedes albopictus (Diptera: Culicidae) Management in Urbanized Areas of New Jersey

Author

Unlu, Isik, primary, Williams, Gregory M, additional, Rochlin, Ilia, additional, Suman, Devi, additional, Wang, Yi, additional, Chandel, Kshitij, additional, and Gaugler, Randy, additional

Published

2017

38. Reduced performance of a PVC-coated Biogents Sentinel prototype in comparison to the original Biogents Sentinel for monitoring the Asian tiger mosquito, Aedes albopictus, in temperate North America

Author

Unlu, Isik, primary, Faraji, Ary, additional, Morganti, Michael, additional, Vaeth, Randy, additional, Akaratovic, Karen, additional, Kiser, Jay, additional, Abadam, Charles, additional, and Kline, Dan, additional

Published

2017

39. Effectiveness of autodissemination stations containing pyriproxyfen in reducing immature Aedes albopictus populations

Author

Unlu, Isik, primary, Suman, Devi S., additional, Wang, Yi, additional, Klingler, Kim, additional, Faraji, Ary, additional, and Gaugler, Randy, additional

Published

2017

40. Targeting a Hidden Enemy: Pyriproxyfen Autodissemination Strategy for the Control of the Container Mosquito Aedes albopictus in Cryptic Habitats

Author

Chandel, Kshitij, primary, Suman, Devi Shankar, additional, Wang, Yi, additional, Unlu, Isik, additional, Williges, Eric, additional, Williams, Gregory M., additional, and Gaugler, Randy, additional

Published

2016

41. Field Comparisons of the GravidAedesTrap (GAT) and BG-Sentinel Trap for MonitoringAedes albopictus(Diptera: Culicidae) Populations and Notes on Indoor GAT Collections in Vietnam

Author

Johnson, Brian J., primary, Hurst, Tim, additional, Quoc, Hung Luu, additional, Unlu, Isik, additional, Freebairn, Christopher, additional, Faraji, Ary, additional, and Ritchie, Scott A., additional

Published

2016

42. CulexSpecies Mosquitoes and Zika Virus

Author

Huang, Yan-Jang S., primary, Ayers, Victoria B., additional, Lyons, Amy C., additional, Unlu, Isik, additional, Alto, Barry W., additional, Cohnstaedt, Lee W., additional, Higgs, Stephen, additional, and Vanlandingham, Dana L., additional

Published

2016

43. Truck‐mounted area‐wide applications of larvicides and adulticides for extended suppression of adult Aedes albopictus.

Author

Unlu, Isik, Faraji, Ary, Williams, Gregory M, Marcombe, Sebastien, Fonseca, Dina M, and Gaugler, Randy

Subjects

AEDES aegypti, AEDES albopictus, PYRIPROXYFEN, ZIKA virus, INSECTICIDES

Abstract

BACKGROUND Given the lack of vaccines for most vector‐borne diseases, vector control is often the primary option for disease control. Aedes albopictus are difficult to control because the immatures primarily develop in containers ubiquitous in residential properties. Conventional adulticide campaigns often result in brief, rebounding population declines, so incorporating new techniques into an integrated pest management program is imperative. We performed combined area‐wide applications of the larvicides Bacillus thuringiensis var. israelensis and pyriproxyfen with the adulticide sumithrin and prallethrin to achieve extended suppression of Ae. albopictus populations in Trenton, NJ, USA. We deployed bioassay cups to assess the spatial penetration and efficacy of the applications. RESULTS: Inhibition of adult emergence was significantly higher in the treatment bioassay cups than in laboratory controls (z = 4.65, P < 0.0001) and field control bioassay cups (z = 8.93, P < 0.0001). We observed a lower trend in adult numbers following season‐long combined application of pyriproxyfen and adulticide, with numbers of adult Ae. albopictus at the treatment site up to five times lower than at the control site. CONCLUSION: Pyriproxyfen is a powerful mosquito larvicide and pupacide with low mammalian toxicity that shows promise for area‐wide vehicle‐mounted (either ground or airborne) applications. © 2018 Society of Chemical Industry Our results indicate that a combination of larviciding and adulticiding can be an effective method for area‐wide management of Aedes albopictus populations over a season. [ABSTRACT FROM AUTHOR]

Published

2019

44. The Eye of the Tiger, the Thrill of the Fight: Effective Larval and Adult Control Measures Against the Asian Tiger Mosquito,Aedes albopictus(Diptera: Culicidae), in North America

Author

Faraji, Ary, primary and Unlu, Isik, additional

Published

2016

45. TrapTech R-Octenol Lure Does Not Improve the Capture Rates of Aedes albopictus (Diptera: Culicidae) and Other Container-Inhabiting Species in Biogents Sentinel Traps

Author

Unlu, Isik, primary, Faraji, Ary, additional, Indelicato, Nicholas, additional, and Rochlin, Ilia, additional

Published

2016

46. Droplet Characterization and Penetration of an Ultra-Low Volume Mosquito Adulticide Spray Targeting the Asian Tiger Mosquito, Aedes albopictus, within Urban and Suburban Environments of Northeastern USA

Author

Faraji, Ary, primary, Unlu, Isik, additional, Crepeau, Taryn, additional, Healy, Sean, additional, Crans, Scott, additional, Lizarraga, Griffith, additional, Fonseca, Dina, additional, and Gaugler, Randy, additional

Published

2016

47. Efficacy of pyrethroid insecticide applied as barrier treatments for managingAedes albopictuspopulations

Author

Unlu, Isik, primary

Published

2016

48. Effects of a Red Marker Dye onAedesandCulexLarvae: Are There Implications for Operational Mosquito Control?

Author

Unlu, Isik, primary, Leisnham, Paul T., additional, Williams, Gregory M., additional, Klingler, Kim, additional, Dow, Garrett W., additional, Kirchoff, Nicole, additional, Jin, Sophie, additional, Delisi, Nicholas, additional, Montenegro, Katherine, additional, and Faraji, Ary, additional

Published

2015

49. Suppression ofAedes albopictus, the Asian tiger mosquito, using a ‘hot spot’ approach

Author

Unlu, Isik, primary, Klingler, Kim, additional, Indelicato, Nicholas, additional, Faraji, Ary, additional, and Strickman, Daniel, additional

Published

2015

50. Taming a Tiger in the City: Comparison of Motorized Backpack Applications and Source Reduction Against the Asian Tiger Mosquito, Aedes albopictus

Author

RUTGERS - THE STATE UNIV NEW BRUNSWICK NJ CENTER FOR VECTOR BIOLOGY, Sun, Debin, Williges, Eric, Unlu, Isik, Healy, Sean, Williams, Gregory M, Obenauer, Peter, Hughes, Tony, Schoeler, George, Gaugler, Randy, Fonseca, Dina, RUTGERS - THE STATE UNIV NEW BRUNSWICK NJ CENTER FOR VECTOR BIOLOGY, Sun, Debin, Williges, Eric, Unlu, Isik, Healy, Sean, Williams, Gregory M, Obenauer, Peter, Hughes, Tony, Schoeler, George, Gaugler, Randy, and Fonseca, Dina

Abstract

We evaluated 2 strategies to manage Aedes albopictus: 1) motorized backpack applications and 2) source reduction (coupled with hand-applied applications of larvicide). Backpack applications used a water-dispersible granular formulation (VectoBacH WDG) of Bacillus thuringiensis var. israelensis (Bti), whereas source reduction used granular formulations of the insect growth regulator methoprene (AltosidH) combined with a monomolecular film surfactant (AgniqueH). Six subplots (total 8.02 ha) were selected for backpack applications, source reduction, and control groups. The experiments were blind with applications conducted randomly and independently. Efficacy was determined through placement of bioassay cups with larvae within experimental plots 1 day before treatment. Backpack applications resulted in 76% (68.2% SE) and source reduction resulted in 92% (64.1% SE) larval mortality. Backpack applications required 50 times less labor than source reduction (0.25 versus 0.005 ha/h). The cost of backpack applications, including labor, was $159.88/ha, compared with $659.65/ha for source reduction. Although overall efficacy was slightly lower, motorized backpack applications of Bti were more efficient and cost-effective than source reduction methods to control Ae. albopictus in urban settings at the community level., Pub. in Journal of the American mosquito Control Association, v30 n2, p99-105, 2014. Sponsored in part by Department of the Navy.

Published

2014