Brief Summary of Minutes of Annual Meeting

Outcomes

Annual Meeting of Multistate Project S-1076:
Arthropod Management in Animal Agriculture Systems and Impacts on Animal Health and Food Safety

Orlando, FL January 12-13, 2026

Researchers at Kansas State University (KSU), University of Kentucky (UK), and the University of Tennessee (UT) are educating veterinarians and livestock producers on recent investigations into the biology and distribution of Theileria orientalis, an emerging tick-borne hemoparasite of cattle in the United States. KSU researchers detected positive herds in Kansas and Iowa despite the absence of the primary vector, the Asian longhorned tick (ALT). Positive detection of T. orientalis via PCR in stable flies collected from two Kansas cattle operations with positive herds suggests the potential of stable flies as a mechanical vector, warranting further investigation. UT researchers additionally estimated the prevalence of T. orientalis haplotypes in managed and wild animal populations across multiple Tennessee counties through multiple sampling efforts. The pathogen was detected in both animal systems, with no correlation observed among the prevalence of detected haplotypes. In addition to peer-reviewed and extension publications, online resources are being developed to provide Kentucky and Tennessee producers with timely updates on tick and pathogen distribution. Additionally, UT researchers now host the exotic and invasive pest stakeholder call, a group originally convened by USDA APHIS for response to the Asian longhorned tick, with UT leading updates on current geographic distribution of Asian longhorned tick and Thieleria orientalis (vectored by this tick) positive case reports in cattle.

S1076 members are improving knowledge on filth fly and biting midge genomics and biology through multiple approaches. Multistate members advanced genomic resources for Culicoides biting midges by assembling the genome of the primary pathogen vector species in North America into chromosomal format and improving gene annotation. This framework is enabling identification of genes involved in sex determination, stage-specific expression, vector competence, and insecticide resistance. This work provides the foundation for functional genetic studies and supports development of more precise and targeted control strategies for biting midges. Through next generation sequencing analysis, researchers at Texas A&M University (TAMU) have additionally found that stable flies from various Texas animal facilities carry several significant pathogenic taxa.  

S1076 members are attempting to improve pest management strategies by understanding pest impacts in animal production systems and investigating alternative approaches that are efficient and sustainable. KSU researchers evaluated the animal production impacts of stable flies in cattle feedlots to determine potential intervention strategies. Higher pressure from stable flies in outer pen areas resulted in cattle bunching together more frequently than cattle from inner pens, leading to lower feeding efficiency. Future work will investigate utilization of animal rotation in lots, as well as push-pull strategies in pen design, to improve overall productivity and pest management. Researchers at TAMU have developed transgenic fluorescent strains of stable flies for easier tracking and sex differentiation in laboratory assays. Strains include both ubiquitous green fluorescent protein (FP) expression and male-specific red FP expression that are visible at all life stages. Future research may be able to implement stable fly strains in field settings for tracking pest distribution. Additional research in confined livestock production from the University of California-Riverside (UCR) demonstrated the potential eradication of spinose ear tick from a California free-stall dairy. First control efforts using Catron 4 spray worked well but were determined to be logistically impractical. Treated ear tags were implemented next, with significantly reduced tick burdens on cattle as well as lowered cattle stress and hands-on effort for producers.

Researchers at Pennsylvania State University (PSU) and UK are developing novel tools for bed bug control and detection as well as working with industry to educate producers and other personnel on bed bug identification and response. PSU researchers are developing novel bed bug catchment devices and evaluating essential oils for control. UK researchers are evaluating the use of histamine (found in allergen responses to other pests such as cockroaches) to detect bed bugs in poultry facilities as well as the effect of histamine on poultry welfare and production efficiency metrics.

A project using house flies as surveyors of the environment leveraged the multi-state participants of this group across the country. Flies were collected by participants in Tennessee, North Carolina, Florida, Nebraska, Oklahoma, Texas and Kansas and provided them to USDA-ARS for analysis. The goal of the project is to use flies to track both priority bacterial pathogens and antimicrobial resistance genes.   Additionally, a partnership between USDA-ARS and Kansas State University developed a new bioinformatic tool/pipeline for sorting sequence data to identify species relevant to human and animal health. This pipeline showed that that house fly microbial communities comprise a snapshot of the bacteria found both in animals and manure from their surrounding environment. Additionally, this project identified antimicrobial resistance genes from fly associate bacteria that may help us in the early detection of emergent mutations, optimally prior to clinical detection of antimicrobial failure. These findings show that house flies not only are a problem in carrying and disseminating pathogens, but also that that they can help us monitor threats to both livestock and human health at cattle operations, thereby facilitating animal health, animal production and food safety.

Thermal ecology experiments demonstrated that while house flies can oviposit across a broad temperature range (12.5–42.5°C), reproductive preference narrows to 26–30°C when given a choice. This distinction between environmental tolerance and behavioral preference improves predictive modeling of fly population peaks and supports more precise timing of control interventions in livestock facilities. Furthermore, researchers at the University of Florida (UFL) investigated Ethiprole as a candidate insecticide for house fly control. Electrophysiological responses to topical applications indicated that Ethiprole is more potent than Fipronil, but it was noted that an RDL mutation in house flies could likely confer resistance to Ethiprole, though this mutation has yet to be found in house flies.

Extension at Oklahoma State University developed a horn fly management pocket card to give producers quick information on horn fly management, as well as shared cattle producer survey responses for tick biology and management perspectives to develop targeted extension materials. UK Extension has developed statewide pest surveys to evaluate producer and caretaker pest concerns, control strategies, and needs for equine and cattle management across Kentucky, as well as developed Extension talks, fact sheets, and other resources for producers and Extension Agents. Similarly, PSU researchers developed the VectorED Network Vector library database, as well as three different surveys to assess the needs and knowledge of both pet owners and veterinarians.

S1076 members shared state and nationwide updates on multiple key livestock pests of concern. Group members reviewed the current status of the northward expansion of the New World screwworm fly. This review provided an opportunity for members to share knowledge among our national group of veterinary entomologists. Entomologists representing several states and federal government agencies shared strategies on how best to prepare for the potential return of screwworm into the USA.

Associated-grants

1. Alexander P; Machtinger ET.2026. Integrated Pest Management (IPM) strategies for dairy and beef cattle production in the Northeast. Southern IPM Center Crop Profile $4,999.
2. Bingham GV, UNL, Prevalence of pathogens in the blood meals of stable flies. UCARE 2025: $3,600.00, Stipend; $500 Consumables.
3. Bingham GV, Black soldier flies and Clothes Moths, can CRSPR CAS-9 be used to allow BSF to digest plastic UNL, UCARE 2025: $6,240.00 Stipend.
4. North Central Integrated Pest Management Center Mini-grant. Investigating the Efficacy of a Water-Based Garlic Formulationfor Pasture Fly Control on Cattle. Funding provided by the United States Department of Agriculture, National Institute of Food and Agriculture. Grant period, 6/1/2024 – 12/1/2025. $ 5,000
5. 2025 Assessing the impact of heat stress and radiation dosage on the effectiveness of sterile insect technique (SIT) males in the Coachella Valley.Coachella Valley Mosquito and Vector Control District. $59,917.94 
6. 2025 Efficacy of two forms application methods of cyfluthrin insecticide on prevention of keratoconjunctivitis (pinkeye) in pastured stockers. Center for Animal Health .$20,000.00 
7. 2025 Restricting mosquito use of underground storm drain system in the Coachella Valley by the application of botanical repellents . Coachella Valley MVCD .$60,525.78 
8. 2025 Restricting mosquito use of USDS in the Coachella Valley by application of botanical repellents. CMVCD $67,953.82 
9. 2025 Evaluation of insecticide efficacy against field strains of house fly. ENVU. $12,000 
10. 2025 Support for pest management extension for poultry. US Poultry. $3,000
11. 2026. Systemic control in complex systems: Understanding Exzolt® efficacy, environmental fate, and host–parasite interactions in poultry facilities. Pennsylvania Center for Poultry and Livestock Excellence $111,450.
12. Murillo and Gerry. 2025. SCREWworm: Surveillance, Control, Research, and Education Working group for IPM of a critical invasive threat to California. California Department of Food and Agriculture. $507,421.00
13. Murillo and Gerry. 2025Reducing the Impacts of Biting Flies on Cattle. Agricultural Research Institute at Cal Poly. $32,379.00 
14. Oct. 1, 2024-Sep. 30, 2025. Using house flies as sentinels to monitor existing, emerging, and cryptic microbial threats to U.S. military personnel. Global Emerging Infections Surveillance. $146,000
15. Oct. 1, 2025-present. Using house flies as sentinels to monitor existing, emerging, and cryptic microbial threats to U.S. military personnel. Global Emerging Infections Surveillance. $217,253
16. Oct. 1, 2024-Sep. 30, 2025.Role of arthropods and dairy waste in HPAI transmission. Animal and Plant Health Inspection Service. $150,000
17. Oct. 1, 2025-Present.Role of arthropods and dairy waste in HPAI transmission. Animal and Plant Health Inspection Service. $380,000
18. Olds and McGregor. Evaluating novel botanical repellents for public health protection against Culicoides American Mosquito Control Association. $ 142,151.00
19. Tooker J; Skvarla M; Wolfin M; Lopez-Uribe M; Acevedo F; Grab H; Machtinger ET. Pennsylvania Extension Integrated Pest Management Program. USDA National Institute of Food and Agriculture.$696,062. (2024-2027)(Year 2 renewal)
20. Trout Fryxell RT, CI- Harper C. 2025. Effects of timing of prescribed fire on ticks and associated pathogens. Mississippi Department of Fish, Wildlife and Parks. July 2026-June 2028. Awarded $85,579.00.
21. Trout Fryxell, CI- DeLong KL, Olds CO, Hinkle NC, Swiger SL. 2024. REEVES- Research and Extension Experience in Veterinary Entomology for students. Awarded from USDA-NIFA (September 2024 – August 2028) Award Number: 2024-67037-42432. $600,000
22. Trout Fryxell. 2024.Educating and training for preventing tick-borne diseases in animal agriculture: a focus on preventing Theileria orientalis Ikeda in cow-calf herds in the Tennessee Valley. USDA-APHIS-NADPRP. (July 2023-June 2027). Award Number: AP24VSSP0000C07. $246,884.

1. Brown JE, Chuard P, Machtinger ET.Permission to bite: white-footed mice show no increased grooming response to tick infestation. J Zool. doi: 10.1111/jzo.70010.
2. Bird E, Pickens V, Olds C, Silver K, Nayduch D. BALROG-ISO: a high-throughput pipeline for Bacterial AntimicrobiaL Resistance annOtation of Genomes-ISOlate whole genome. MicroPubl Biol. 2025 Nov 5;2025:10.17912/micropub.biology.001719. doi: 10.17912/micropub.biology.001719. PMID: 41268369; PMCID: PMC12628073
3. Butler RA, Muller L, Poh KC, Aguilar M, Hokkanen-Harmon KS, Chandler JG, Grove D, Trout Fryxell RT. In review. Retrospective discovery of Theileria orientalis Ikeda in Haemaphysalis longicornis Neumann ticks on a cow-calf farm. Frontiers in Veterinary Science. 1770304.
4. Butler RA, Chandler J, Paulsen DJ, Trout Fryxell RT. In review. Statewide passive surveillance confirms novel Theileria orientalis Ikeda and increased Anaplasmataceae bacteria in ticks collected from companion animals and livestock in Tennessee (USA). Journal of Medical Entomology. JME-2025-0365.
5. D'Arco S, Maistrello L, Hubbard CB, Murillo AC, Gerry AC. Use of the Proboscis Extension Response Assay to Evaluate the Mechanism of House Fly Behavioral Resistance to Imidacloprid. Insects. 2024 Mar 1;15(3):168. doi: 10.3390/insects15030168. PMID: 38535364; PMCID: PMC10971017.
6. ElAshmawy WR, Ferreira FC, Williams DR, Gerry AC, Aly SS. Daily Milk Losses Associated with Dairy Cow Bunching, Cattle's Protective Behavior Against Stable Flies (Stomoxys calcitrans) in California. Vet Sci. 2025 Oct 26;12(11):1035. doi: 10.3390/vetsci12111035. PMID: 41295673; PMCID: PMC12656969.
7. Foy PD, Loetzerich SR, Boxler D, Burgess IV ER, Trout Fryxell RT, Gerry AC, Hinkle NC, Machtinger ET, Olds C, Tarone AM, Watson W, Scott JG, Meisel RP. Frequencies of house fly proto-Y chromosomes across populations are predicted by temperature heterogeneity within populations. J Hered. 2025 Jun 2; 116(3):208-215. Doi: 10.1093/jhered/esae056. PMID 39403852; PMCID https://doi.org/10.1093/jhered/esae056 *Editor’s Choice
8. Gerry AC, Mullens BA, Zahn L, Jirjis F, Murillo AC, Hubbard CB, Wang Z. Efficacy of fluralaner solution administered to egg layer chickens through drinking water for control of northern fowl mite (Ornithonyssus sylviarum). Parasit Vectors. 2026 Jan 21. doi: 10.1186/s13071-025-07240-w. Epub ahead of print. PMID: 41559731.
9. Griese H, Nayduch D, Silver K, Marshall J, Olds C. Impacts of agricultural antibiotic exposure on the development and gene expression of Musca domestica [dissertation]. 2025.
10. Grimenstein AE, Doyle MA,  King BH, Geden CJ. Longevity, Feeding Behavior, and Egg Production of Adult House Flies (Diptera: Muscidae) Provided with Potential Foods on Dairy Farms. J Insect Sci 2025 May 2025; 25(3): 1 org/10.1093/jisesa/ieaf045
11. Hogsette JA, Kline DL, Bowman A. 2025. Alternative sources of carbon dioxide for attracting stable flies, Stomoxys calcitrans(L.), to traps. J. Fla. Mosq. Ctrl. Assn. 2025 Aug 14; 73(1);
12. Hubbard CB, Gerry AC, Murillo AC. Evaluation of the stability of physiological and behavioral resistance to imidacloprid in the house fly (Musca domestica L.) (Diptera: Muscidae). Pest Manag Sci. 2024 Mar;80(3):1361-1366. doi: 10.1002/ps.7866. Epub 2023 Nov 20. PMID: 37915306.
13. Lu S, Miller N, Wilson A, Geden CJ, Stoffolano JG, Ribiero J. A Deep Insight into the Sialome of the Housefly, Musca domestica, Infected with the Salivary Gland Hypertrophy Virus (MdSGHV). Sci Rep 2025 15: 8047. https://doi.org/10.1038/s41598-025-92569-6
14. Mazzatosta A, Cleveland CA, Yabsley MJ, Hayes E, Tiffin HS, Machtinger ET, Johnson JB, Ternent M, Carollo E, Brown JD.Prevalence of Dirofilariamicrofilaria in American black bears (Ursus americanus) in Pennsylvania, 2018–2020. J Parasitol. doi: 10.1645/24-51.
15. MüllerGC, Hogsette JA, Junnila A, Traore MM, Revay EE, Prozorov AM, Israël DK, Yakovlev RV, Saldaitis A, Arheart KL, Penner RL, Kline DL, Beier JC, Cui L, Xue RD, Schlein Y. Toxic Contact Targets (TCTs) for management of sand flies and reduction of Leishmania infection rates in residual populations. J Fla Mosq Cntrl Assn. 2025 June 30;72(1):56-65. doi:10.32473/jfmca.72.1.139358
16. Murillo AC, Abdoli A, Blatchford RA, Keogh EJ, Gerry AC. Low levels of chicken body louse (Menacanthus stramineus) infestations affect chicken welfare in a cage-free housing system. Parasit Vectors. 2024 May 14;17(1):221. doi: 10.1186/s13071-024-06313-6. PMID: 38745229; PMCID: PMC11092089.
17. Narvaez ZE, Egizi AM, Yabsley MJ, Thompson AT, Moustafa M, Alt E, Bickerton M, Bjorgo K, Butler RA, Cumbie A, Eastwood G, Falco RC, Fonseca DM, Hang J, Harper VL, Lewis N, Lovy J, Maestas LP, Mather TN, Nakao R, Occi JL, Rainey T, Sal M, Stoops CA, Trout-Fryxell RT, Watson W, Wagner NE, Zheng A, Saelao P, Price DC. Multiple Introductions of the Asian Longhorned Tick (Haemaphysalis longicornis) to the United States Revealed Using Mitogenomics. Ecol Evol. 2025 Apr 24;15(4):e71312. doi: 10.1002/ece3.71312. PMID: 40276246; PMCID: PMC12018891.
18. Nayduch D, Scroggs SLP, Shults P, Brendel LA, Reister-Hendricks LM, Taylor C, Bird E, Lopez B, Marshall ES. Detection of H5N1 highly pathogenic avian influenza virus RNA in filth flies collected from California farms in 2024. Sci Rep. 2025 Nov 28;16(1):375. doi: 10.1038/s41598-025-29856-9. PMID: 41315678; PMCID: PMC12770564.
19. Neupane S, Davis T, Olds C, Nayduch D, McGregor BL. Unraveling the relationships between midge abundance and incidence, microbial communities, and soil and water properties in a protected natural tallgrass prairie. Parasit Vectors. 2025 Apr 19;18(1):146. doi: 10.1186/s13071-025-06780-5. PMID: 40253342; PMCID: PMC12009528.
20. Roberts C, Brown J, Esoldo M, Green K, Chambers GZ, Marconi RT, Andrews B, Thangamani S, Durden L, Machtinger ET. Ectoparasite burden and tick-borne pathogen prevalence in eastern gray squirrels: a suburban risk factor for tick-borne disease? J Med Entomol. doi: 10.1093/jme/tjaf125.
21. Smith KV, Chandler JG, Butler RA, Smartt W, Beaty S, Trout Fryxell RT. Detection and response to Haemaphysalis longicornis and Theileria orientalis Ikeda on a cow-calf farm in Tennessee (USA). Med Vet Entomol. 2025 Dec 15. doi: 10.1111/mve.70043. Epub ahead of print. PMID: 41397043.
22. Swanson DA, Snyder D, Bingham GV, Cohnstaedt LW. Efficacy of treated nets to impede Culicoides (Diptera: Ceratopogonidae) and mosquitoes (Diptera: Culicidae). J Vector Ecol. 2025 Dec;50(2):111-119. doi: 10.52707/1081-1710-50.2-111. PMID: 41420813.
23. Pickens V, Hall B, Yeater K, Purvis T, Bird E, Brooke G, Olds C, Nayduch D. Bacterial abundance and antimicrobial resistance prevalence carried by adult house flies (Diptera: Muscidae) at Kansas dairy and beef cattle operations. J Med Entomol. 2025 Jul 17;62(4):984-994. doi: 10.1093/jme/tjaf052. PMID: 40261132.
24. Tiffin HS, Brown JD, Kelly K, Van Why KR, Ternent M, Camire AC, Schulerf EJA, Marconi RT, Machtinger ET.
    Infestation by Sarcoptes scabieicauses distinct differences in sarcoptic mange disease syndromes among sympatric carnivoran species in Pennsylvania, USA. Int J Parasitol Parasites Wildl. doi: 10.1016/j.ijppaw.2025.101070.
25. Tsecouras JC, Hung KY, Henke JA, Gerry AC. EFFECT OF SEX AND AGE ON SURVIVAL OF ADULT CULEX TARSALIS FROM A SUSCEPTIBLE LABORATORY STRAIN EXPOSED TO PERMETHRIN IN THE CDC BOTTLE BIOASSAY. J Am Mosq Control Assoc. 2024 Dec 1;40(4):169-173. doi: 10.2987/24-7167. PMID: 39552080.
26. Zhang X, Li J, Gerry AC. Seasonal change and influence of environmental variables on host-seeking activity of the biting midge Culicoides sonorensis at a southern California dairy, USA. Parasit Vectors. 2024 May 10;17(1):212. doi: 10.1186/s13071-024-06290-w. PMID: 38730488; PMCID: PMC11083819.

Extension Factsheets

1. Smith KV, Trout Fryxell RT. Species Highlight: New World Screwworm. University of Tennessee Institute of Agriculture; Extension Publication W1338. 2025. https://utia.tennessee.edu/publications/wp-content/uploads/sites/269/2025/08/W1338.pdf

Popular Press

1. Boxler, D. (2025, April). Rangeland grasshoppers in 2025. Beef Watch. University of Nebraska–Lincoln Extension. https://beef.unl.edu/rangeland-grasshoppers-2025/ [242 page views]
2. Boxler, D. (2025, May). Horn flies and grazing cattle. Beef Watch. University of Nebraska–Lincoln Extension. https://beef.unl.edu/horn-flies-and-grazing-cattle/ [551 page views]
3. Boxler, D. (2025, June). Stable flies on pastured cattle. Beef Watch. University of Nebraska–Lincoln Extension. https://beef.unl.edu/stable-flies-pastured-cattle/ [316 page views]
4. Boxler, D. (2025, September). Asian longhorned ticks spreading west toward Nebraska. Beef Watch. University of Nebraska–Lincoln Extension. https://beef.unl.edu/asian-longhorned-ticks-spreading-west-towards-nebraska/ [266 page views]
5. Boxler, D. (2025, December). Preparing cattle for lice. Beef Watch. University of Nebraska–Lincoln Extension. https://beef.unl.edu/prepare-cattle-lice/ [196 page views]
6. Total Entomology Reach (Beef Watch, 2025): 1,571 page views
7. Smith KV, Trout Fryxell RT. Protecting Tennessee Cattle: New Training Project to Combat Tick-Borne Diseases. Tennessee Cattle Business, Vol. 40. No. 2. February 2025.
8. Smith KV, Trout Fryxell RT. House Flies on Cattle Farms: A Hidden Threat to Herd Health. Tennessee Cattle Business, Vol. 40. No. 4. April 2025.
9. Smith KV, Trout Fryxell RT. Updates from the University of Tennessee Medical and Veterinary Entomology Lab: New World Screwworm and REEVES Expo. Tennessee Cattle Business, Vol. 40. No. 6. June 2025.
10. Smith KV, Trout Fryxell RT. Highlights from the 2025 Livestock Insect Workers Conference. Tennessee Cattle Business, Vol. 40. No. 9. September 2025.
11. Smith KV, Trout Fryxell RT. National Longhorned Tick Website to be Launched Under the University of Tennessee’s Leadership. Tennessee Cattle Business, Vol. 40. No. 11. November 2025.

Conference Presentations

1. Smith KV, Chavez Renteria JG, Ragland C, Craft L, Chandler J, Trout Fryxell RT. A S.M.A.R.T. approach to fly and tick surveillance in beef cattle production systems.” Student Presentation. Entomological Society of America Meeting, Portland, OR. Nov. 9-12, 2025.
2. Smith KV, Gan H, Nasiri A, Trout Fryxell RT. “Developing a S.M.A.R.T. surveillance platform for fly and tick detection on beef cattle.” Invited Poster at Bayer Crop Science FFAR Fellows Residential Session, St. Louis, MO. Oct. 26-29, 2025.
3. Smith KV, Gan H, Nasiri A, DeLong KL, Trout Fryxell RT. “A S.M.A.R.T. approach to fly and tick surveillance in beef cattle production systems.” Student Presentation. Livestock Insect Workers Conference Annual Meeting. Cody, WY. July 6-9, 2025.

4. Trout Fryxell RT, Smith KV, Saufley JO, Chavez Renteria JG, Fajardo AD, Frost SR, Piper SI, Ratliff CC, Stacy SE, Stroup PL, Hinkle N, Olds C, Swiger SL.July 2025. Developing a collaborative tick surveillance and management network: Insights from eight veterinary entomology scholars on emerging tick-borne threats to U.S. cattle (year 1). Submitted 30-minute presentation at the Livestock Insects Workers Conference, Cody, WY. July 6-9, 2025.
5. Smith KV, Trout Fryxell RT. Team Science in Action. July 2025. 10-minute online presentation in the 2025 REEVES REEU Expo. July 23, 2025.
6. Smith KV, Saufley JO, Chavez Renteria JG, Fajardo AD, Frost SR, Piper SI, Ratliff CC, Stacy SE, Hinkle N, Olds C, Swiger SL. November 2025. Learning from the past, while working in the present, to train the next generation of future veterinary entomologists. Invited Poster at the Entomological Society of America Meeting, Portland, OR. Nov. 9-12, 2025.
7. Smith KV, Chavez Renteria JG, Ragland C, Craft L, Chandler J, Trout Fryxell RT. A S.M.A.R.T. approach to fly and tick surveillance in beef cattle production systems. Student Presentation. Entomological Society of America Meeting, Portland, OR. Nov. 9-12, 2025.
8. Hogsette JA, Kline DL, Norris EJ. The search continues for effective stable fly and mosquito repellents. Ent Soc Am Ann Meet, Phoenix, AZ. 2024 Nov 10.
9. Hogsette JA, Kline DL, Norris EJ. Evaluation of chemicals with prospective attractant and repellent properties against stable flies, Stomoxys calcitrans(L.). 20th Arbovirus Surveill Mosq Cntrl Wkshp, St. Augustine, FL. 2025 March 25. 
10. Bingham GV, Johnston N, Zhu J, Wang HJ, Hetherington M, Morrison WR III, Brewer G, Boxler D. Alternatives to conventional insecticides for control of biting and nuisance flies on pasture cattle. Entomological Society of America Annual Meeting; Nov 2025; Portland, OR
11. Hogsette JA. 2025. Vector Control for Veterinary Facilities. Vector Management and Disease Risks for Veterinarians Training Meeting. Anastasia Mosq Cntrl Dist St. Johns Cty, St. Augustine, Fla. 2025 April 23. 
12. Hetherington M, Johnston N, Morrison WR III, Brewer G, Bingham GV. Alternatives to conventional insecticides for control of biting and nuisance flies on pasture cattle. Entomological Society of America Annual Meeting; Nov 2025; Portland, OR.