@article{ponnusamy_travanty_watson_seagle_boyce_reiskind_2024, title={Microbiome of Invasive Tick Species Haemaphysalis Longicornis in North Carolina, USA}, volume={15}, ISSN={["2075-4450"]}, url={https://doi.org/10.3390/insects15030153}, DOI={10.3390/insects15030153}, abstractNote={Ticks are one of the most important vectors of human and animal disease worldwide. In addition to pathogens, ticks carry a diverse microbiota of symbiotic and commensal microorganisms. In this study, we used next-generation sequencing (NGS) to survey the microbiomes of Haemaphysalis longicornis (Acari: Ixodidae) at different life stages collected from field populations in North Carolina (NC), USA. Sequence analyses were performed using QIIME2 with the DADA2 plugin and taxonomic assignments using the Greengenes database. Following quality filtering and rarefaction, the bacterial DNA sequences were assigned to 4795 amplicon sequence variants (ASVs) in 105 ticks. A core microbiome of H. longicornis was conserved across all ticks analyzed, and included bacterial taxa: Coxiella, Sphingomonas, Staphylococcus, Acinetobacter, Pseudomonas, Sphingomonadaceae, Actinomycetales, and Sphingobium. Less abundant bacterial taxa, including Rickettsia and Aeromonas, were also identified in some ticks. We discovered some ASVs that are associated with human and animal infections among the identified bacteria. Alpha diversity metrics revealed significant differences in bacterial diversity between life stages. Beta diversity metrics also revealed that bacterial communities across the three life stages were significantly different, suggesting dramatic changes in the microbiome as ticks mature. Based on these results, additional investigation is necessary to determine the significance of the Haemaphysalis longicornis microbiome for animal and human health.}, number={3}, journal={INSECTS}, author={Ponnusamy, Loganathan and Travanty, Nicholas V. and Watson, D. Wes and Seagle, Steven W. and Boyce, Ross M. and Reiskind, Michael H.}, year={2024}, month={Mar} }
 @article{chen_travanty_garshong_crossley_wasserberg_apperson_roe_ponnusamy_2023, title={Detection of Orientia spp. Bacteria in Field-Collected Free-Living Eutrombicula Chigger Mites, United States}, volume={29}, ISSN={["1080-6059"]}, DOI={10.3201/eid2908.230528}, abstractNote={Scrub typhus, a rickettsial disease caused by Orientia spp., is transmitted by infected larval trombiculid mites (chiggers). We report the molecular detection of Orientia species in free-living Eutrombicula chiggers collected in an area in North Carolina, USA, to which spotted fever group rickettsiae infections are endemic.}, number={8}, journal={EMERGING INFECTIOUS DISEASES}, author={Chen, Kaiying and Travanty, Nicholas V. and Garshong, Reuben and Crossley, Dac and Wasserberg, Gideon and Apperson, Charles S. and Roe, R. Michael and Ponnusamy, Loganathan}, year={2023}, month={Aug}, pages={1676–1679} }
 @article{luan_mccord_west_cave_travanty_apperson_roe_2023, title={Mosquito Blood Feeding Prevention Using an Extra-Low DC Voltage Charged Cloth}, volume={14}, ISSN={["2075-4450"]}, url={https://doi.org/10.3390/insects14050405}, DOI={10.3390/insects14050405}, abstractNote={Mosquito vector-borne diseases such as malaria and dengue pose a major threat to human health. Personal protection from mosquito blood feeding is mostly by treating clothing with insecticides and the use of repellents on clothing and skin. Here, we developed a low-voltage, mosquito-resistant cloth (MRC) that blocked all blood feeding across the textile and was flexible and breathable. The design was based on mosquito head and proboscis morphometrics, the development of a novel 3-D textile with the outer conductive layers insulated from each other with an inner, non-conductive woven mesh, and the use of a DC (direct current; extra-low-voltage) resistor-capacitor. Blockage of blood feeding was measured using host-seeking Aedes aegypti adult female mosquitoes and whether they could blood feed across the MRC and an artificial membrane. Mosquito blood feeding decreased as voltage increased from 0 to 15 volts. Blood feeding inhibition was 97.8% at 10 volts and 100% inhibition at 15 volts, demonstrating proof of concept. Current flow is minimal since conductance only occurs when the mosquito proboscis simultaneously touches the outside layers of the MRC and is then quickly repelled. Our results demonstrated for the first time the use of a biomimetic, mosquito-repelling technology to prevent blood feeding using extra-low energy consumption.}, number={5}, journal={INSECTS}, author={Luan, Kun and McCord, Marian G. and West, Andre J. and Cave, Grayson and Travanty, Nicholas V. and Apperson, Charles S. and Roe, R. Michael}, year={2023}, month={Apr} }
 @article{travanty_vargo_schal_apperson_ponnusamy_2022, title={Bacterial Isolates Derived from Nest Soil Affect the Attraction and Digging Behavior of Workers of the Red Imported Fire Ant, Solenopsis invicta Buren}, volume={13}, ISSN={["2075-4450"]}, url={https://doi.org/10.3390/insects13050444}, DOI={10.3390/insects13050444}, abstractNote={Populations of monogyne and polygyne red imported fire ants (RIFA), Solenopsis invicta Buren, are distributed throughout the southern United States. This ant species is hazardous to farm animals and workers, damages infrastructure, and depletes native arthropod populations. Colony expansion is affected by several biotic factors, but the effects of soil microbes on ant behavior related to soil excavation within nest sites have not been investigated. Consequently, we cultured bacteria from RIFA nest soils. The effects of individual bacterial isolates and bacterial cell densities on the choice of digging site as well as digging activity of monogyne and polygyne RIFA worker ants were evaluated in two-choice bioassays. Based on phylogenetic analysis, 17 isolates were selected and tested initially at 5 × 108 cells/mL and 20 workers per assay. Firmicutes (Bacillus, Paenibacillus, Brevibacillus) repelled the ants, but Arthrobacter woluwensis strongly attracted ants. Subsequently, the six isolates having the greatest positive or negative effects on ant behavior were evaluated at a lower bacterial cell and worker ant densities. Ant responses to these bacteria generally decreased as cell densities declined to 5 × 106 cells/mL. Observations of ant behavior during a three-hour, two-choice bioassay revealed that ants generally visited both control and bacteria-treated sand prior to making a digging site choice. Our research results indicate that soil bacteria may mediate ant nest expansion or relocation and foraging tunnel construction. Identification of bacterial metabolites that affect RIFA digging behavior merits additional research because these compounds may provide a basis for novel management strategies that repel RIFA away from sensitive infrastructure or attract fire ants to insecticidal baits.}, number={5}, journal={INSECTS}, publisher={MDPI AG}, author={Travanty, Nicholas V and Vargo, Edward L. and Schal, Coby and Apperson, Charles S. and Ponnusamy, Loganathan}, year={2022}, month={May} }
 @article{deguenon_dhammi_ponnusamy_travanty_cave_lawrie_mott_reisig_kurtz_roe_2021, title={Bacterial Microbiota of Field-Collected Helicoverpa zea (Lepidoptera: Noctuidae) from Transgenic Bt and Non-Bt Cotton}, volume={9}, ISSN={["2076-2607"]}, url={https://www.mdpi.com/2076-2607/9/4/878}, DOI={10.3390/microorganisms9040878}, abstractNote={The bollworm, Helicoverpa zea (Boddie) (Lepidoptera: Noctuidae), is an important agricultural pest in U.S. cotton and is managed using transgenic hybrids that produce insecticidal proteins from the bacterium, Bacillus thuringiensis (Bt). The reduced efficacy against H. zea caterpillars of Bt plants expressing Cry toxins is increasing in the field. In a first step towards understanding Bt cotton–bollworm–microbiota interactions, we investigated the internal bacterial microbiota of second–third stadium H. zea collected in the field from non-Bt versus Bt (WideStrike) cotton in close proximity (in North Carolina, USA). The bacterial populations were analyzed using culture-dependent and -independent molecular approaches. We found that WideStrike samples had a higher bacterial density and diversity per larva than insects collected from non-Bt cotton over two field seasons: 8.42 ± 0.23 and 5.36 ± 0.75 (log10 colony forming units per insect) for WideStrike compared to 6.82 ± 0.20 and 4.30 ± 0.56 for non-Bt cotton for seasons 1 and 2, respectively. Fifteen phyla, 103 families, and 229 genera were identified after performing Illumina sequencing of the 16S rRNA. At the family level, Enterobacteriaceae and Enterococcaceae were the most abundant taxa. The Enterococcaceae family was comprised mostly of Enterococcus species (E. casseliflavus and another Enterococcus sp.). Members of the Enterococcus genus can acidify their environment and can potentially reduce the alkaline activation of some Bt toxins. These findings argue for more research to better understand the role of cotton–bollworm–bacteria interactions and the impact on Bt toxin caterpillar susceptibility.}, number={4}, journal={MICROORGANISMS}, publisher={MDPI AG}, author={Deguenon, Jean M. and Dhammi, Anirudh and Ponnusamy, Loganathan and Travanty, Nicholas V and Cave, Grayson and Lawrie, Roger and Mott, Dan and Reisig, Dominic and Kurtz, Ryan and Roe, R. Michael}, year={2021}, month={Apr} }
 @article{travanty_vargo_apperson_ponnusamy_2021, title={Colonization by the Red Imported Fire Ant, Solenopsis invicta, Modifies Soil Bacterial Communities}, volume={8}, ISSN={["1432-184X"]}, url={https://doi.org/10.1007/s00248-021-01826-4}, DOI={10.1007/s00248-021-01826-4}, abstractNote={The long-standing association between insects and microorganisms has been especially crucial to the evolutionary and ecological success of social insect groups. Notably, research on the interaction of the two social forms (monogyne and polygyne) of the red imported fire ant (RIFA), Solenopsis invicta Buren, with microbes in its soil habitat is presently limited. In this study, we characterized bacterial microbiomes associated with RIFA nest soils and native (RIFA-negative) soils to better understand the effects of colonization of RIFA on soil microbial communities. Bacterial community fingerprints of 16S rRNA amplicons using denaturing gradient gel electrophoresis revealed significant differences in the structure of the bacterial communities between RIFA-positive and RIFA-negative soils at 0 and 10 cm depths. Illumina sequencing of 16S rRNA amplicons provided fine-scale analysis to test for effects of RIFA colonization, RIFA social form, and soil depth on the composition of the bacterial microbiomes of the soil and RIFA workers. Our results showed the bacterial community structure of RIFA-colonized soils to be significantly different from native soil communities and to evidence elevated abundances of several taxa, including Actinobacteria. Colony social form was not found to be a significant factor in nest or RIFA worker microbiome compositions. RIFA workers and nest soils were determined to have markedly different bacterial communities, with RIFA worker microbiomes being characterized by high abundances of a Bartonella-like endosymbiont and Entomoplasmataceae. Cloning and sequencing of the 16S rRNA gene revealed the Bartonella sp. to be a novel bacterium.}, journal={MICROBIAL ECOLOGY}, publisher={Springer Science and Business Media LLC}, author={Travanty, Nicholas V. and Vargo, Edward L. and Apperson, Charles S. and Ponnusamy, Loganathan}, year={2021}, month={Aug} }
 @article{luan_west_mccord_denhartog_shi_bettermann_li_travanty_mitchell_cave_et al._2021, title={Mosquito-Textile Physics: A Mathematical Roadmap to Insecticide-Free, Bite-Proof Clothing for Everyday Life}, volume={12}, ISSN={2075-4450}, url={http://dx.doi.org/10.3390/insects12070636}, DOI={10.3390/insects12070636}, abstractNote={Garments treated with chemical insecticides are commonly used to prevent mosquito bites. Resistance to insecticides, however, is threatening the efficacy of this technology, and people are increasingly concerned about the potential health impacts of wearing insecticide-treated clothing. Here, we report a mathematical model for fabric barriers that resist bites from Aedes aegypti mosquitoes based on textile physical structure and no insecticides. The model was derived from mosquito morphometrics and analysis of mosquito biting behavior. Woven filter fabrics, precision polypropylene plates, and knitted fabrics were used for model validation. Then, based on the model predictions, prototype knitted textiles and garments were developed that prevented mosquito biting, and comfort testing showed the garments to possess superior thermophysiological properties. Our fabrics provided a three-times greater bite resistance than the insecticide-treated cloth. Our predictive model can be used to develop additional textiles in the future for garments that are highly bite resistant to mosquitoes.}, number={7}, journal={Insects}, publisher={MDPI AG}, author={Luan, Kun and West, Andre J. and McCord, Marian G. and DenHartog, Emiel A. and Shi, Quan and Bettermann, Isa and Li, Jiayin and Travanty, Nicholas V. and Mitchell, Robert D., III and Cave, Grayson L. and et al.}, year={2021}, month={Jul}, pages={636} }
 @article{travanty_apperson_ponnusamy_2019, title={A Diverse Microbial Community Supports Larval Development and Survivorship of the Asian Tiger Mosquito (Diptera: Culicidae)}, volume={56}, ISSN={["1938-2928"]}, url={https://doi.org/10.1093/jme/tjz003}, DOI={10.1093/jme/tjz003}, abstractNote={Abstract Laboratory microcosm experiments were conducted to evaluate effects of bacteria isolated from senescent white oak leaves on the growth and survivorship of larval Aedes albopictus (Skuse). Larvae hatched from surface-sterilized eggs were reared in microcosms containing individual bacterial isolates, combined isolates (Porphyrobacter sp., Enterobacter asburiae, Acidiphilium rubrum, Pseudomonas syringae, and Azorhizobium caulinodans), a positive control containing a microbial community from an infusion of white oak leaves, and a negative control consisting of sterile culture media. Experiments were conducted for 21 d after which microcosms were deconstructed, larval survivorship was calculated, and bacteria contained in pupae, and adults that developed were quantified to determine rates of transstadial transmission. Positive control microcosms containing diverse microbial communities had an average (±SE) pupation rate of 89.3 (±5.8)% and average larval survivorship of 96.0 (± 2.3)%. Pupation in microcosms with bacterial isolates only occurred twice among all experimental replications; average larval survivorship ranged from 19 to 56%, depending on treatment. Larval growth was not found to be dependent on bacterial isolate density or isolate species, and larval survivorship was dependent on bacterial isolate density, not on isolate species. Potential mechanisms for failed development of larvae in microcosms with bacterial isolates are discussed. Bacterial isolates alone did not support larval development. High larval survivorship in positive control microcosms suggests that a diverse microbial community is required to complete larval development. Additional studies are needed to evaluate larval growth and survivorship on nonbacterial microbes, such as fungi and protozoa.}, number={3}, journal={JOURNAL OF MEDICAL ENTOMOLOGY}, publisher={Oxford University Press (OUP)}, author={Travanty, Nicholas V. and Apperson, Charles S. and Ponnusamy, Loganathan}, year={2019}, month={May}, pages={632–640} }
 @article{travanty_ponnusamy_kakumanu_nicholson_apperson_2019, title={Diversity and structure of the bacterial microbiome of the American dog tick, Dermacentor variabilis, is dominated by the endosymbiont Francisella}, volume={79}, ISSN={["1878-7665"]}, url={https://doi.org/10.1007/s13199-019-00642-2}, DOI={10.1007/s13199-019-00642-2}, number={3}, journal={SYMBIOSIS}, publisher={Springer Science and Business Media LLC}, author={Travanty, Nicholas V. and Ponnusamy, Loganathan and Kakumanu, Madhavi L. and Nicholson, William L. and Apperson, Charles S.}, year={2019}, month={Nov}, pages={239–250} }
 @article{deguenon_travanty_zhu_carr_denning_reiskind_watson_roe_ponnusamy_2019, title={Exogenous and endogenous microbiomes of wild-caught Phormia regina (Diptera: Calliphoridae) flies from a suburban farm by 16S rRNA gene sequencing}, volume={9}, ISSN={["2045-2322"]}, url={http://dx.doi.org/10.1038/s41598-019-56733-z}, DOI={10.1038/s41598-019-56733-z}, abstractNote={Abstract}, journal={SCIENTIFIC REPORTS}, author={Deguenon, Jean M. and Travanty, Nicholas and Zhu, Jiwei and Carr, Ann and Denning, Steven and Reiskind, Michael H. and Watson, David W. and Roe, R. Michael and Ponnusamy, Loganathan}, year={2019}, month={Dec} }