I am a passionate and data-driven biologist & R programmer with over four years of experience working in microbiology laboratories on projects related to molecular diagnostics, public health, laboratory quality, data analysis, entomology, virology, medical entomology and quality assurance.
Oct 2022 - Present
Winnipeg, Manitoba
Oct 2022 - Present
April 2020 - June 2022
Brandon, Manitoba
I led a small team of research assistants on mosquito-borne virus surveillance and mosquito metagenomic next generation sequencing projects. My team and I collected and identified ~300,000 mosquitoes, identified the presence of Cache Valley virus in mosquitoes in Manitoba, and identified 66 viruses being harboured by mosquitoes in Manitoba including 17 novel viruses.
April 2020 - June 2022
January 2022 - April 2022
Brandon, Manitoba
Conducted a pilot analysis on tick metagenomic next-generation sequencing data to inform future grant applications.
January 2022 - April 2022
January 2022 - May 2022
Brandon, Manitoba
Instructed a third year biology course.
January 2022 - May 2022
January 2021 - May 2021
Brandon, Manitoba
Assited with teaching a first year biology course.
January 2021 - May 2021
May 2022 - July 2022
Winnipeg, Manitoba
Assisted with canola research activities and data analysis on a short term contract.
May 2022 - July 2022
Brandon University2020-2022 Master of Science in BiologyGPA: 4.3 out of 4.3 | ||
University of Winnipeg2014-2019 Bachelor of Science in BiologyTaken Courses:
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Led a metagenomic next-generation sequencing project on mosquitoes in Manitoba. We have identified 66 viruses being harboured by mosquitoes including 17 novel viruses. My work was published in mSphere in 2024 and resulted in a short communication in the Journal of Insect Science in 2023.
Piloted a tick mNGS project to inform future grant applications and trained a staff member on bioinformatics and molecular biology techniques. I identified a number of bacteria and viruses being harboured by ticks in Manitoba.
Led a mosquito surveillance project over two years. My team and I trapped and identified ~300,000 mosquitoes in Manitoba and described the relationships between trap counts and weather through GLMMs. Our work was published in Parasites & Vectors in 2022.
Led a targeted RT-PCR California Serogroup Virus surveillance project in Manitoba. Over summers in 2020 and 2021, mosquitoes were trapped twice weekly in >8 communities in Manitoba. Specimens were identified and RNA isolations were carried out followed by RT-PCR. Two positive pools were identified, one confirmed to be Cache Valley virus by Sanger sequencing.
Maintains a workflow and Shiny app that displays City of Winnipeg mosquito trap count in a more digestable format. The workflow also features a Twitter Bot that tweets when the city updates their data. Read about it here.
In my role with the Public Health Agency of Canada, I oversee and run two international external quality control programs for HIV-1.
In my role with the Public Health Agency of Canada I conceived, developed and deployed a desktop application ("GIA") built using R, Shiny, and Bash that provides easy access to point-of-care test data across Canada. The app also increases efficiency and accuracy within the Federal Government.
In my role with the Public Health Agency of Canada I conceived, developed and maintains a R package ("qasiCleaner") for internal use containing a variety of data cleaning and manipulation, statistical, and visualization tools to increase departmental effiency and accuracy.
Conducts hobby data analysis projects using R, exploring diverse topics such as social media analytics, video game data insights, and visualizing trends in local weather patterns and forest fire activity.
Black queen cell virus (BQCV) is a ubiquitous honeybee virus and a significant pathogen to queen bee (Apis mellifera) larvae. However, many aspects of the virus remain poorly understood, including the transmission dynamics. In this study, we used next-generation sequencing to identify BQCV in Aedes vexans (n = 4,000) collected in 2019 and 2020 from Manitoba, Canada. We assembled de novo the nearly complete (>96%) genome sequence of the virus, which is the first available from North America and the first report of BQCV being harbored by mosquitoes. Phylogenetic tree reconstructions indicated that the genome had 95.5% sequence similarity to a BQCV isolate from Sweden. Sequences of a potential vector (Varroa destructor) and a microsporidian associated with BQCV (Nosema apis) were not identified in the mosquito samples, however, we did detect sequences of plant origin. We, therefore, hypothesize that the virus was indirectly acquired by mosquitoes foraging at the same nectar sources as honeybees.
Mosquito seasonal activity is largely driven by weather conditions, most notably temperature, precipitation, and relative humidity. The extent by which these weather variables influence activity is intertwined with the animal’s biology and may differ by species. For mosquito vectors, changes in weather can also alter host–pathogen interactions thereby increasing or decreasing the burden of disease.
The microbiome plays vital roles in the life history of mosquitoes, including their development, immunity, longevity, and vector competence. Recent advances in sequencing technologies have allowed for detailed exploration into the diverse microorganisms harbored by these medically important insects. Although these meta-studies have cataloged the microbiomes of mosquitoes in several continents, much of the information currently available for North America is limited to the state of California. In this study, we collected >35,000 mosquitoes throughout Manitoba, Canada, over a 3-year period and then harnessed RNA sequencing and targeted reverse transcriptase-PCR to characterize the microbiomes of the eight most pervasive and important vector and pest species. The consensus microbiome of each species was overwhelmingly composed of viruses but also included fungi, bacteria, protozoa, and parasitic invertebrates. The microbial assemblages were heterogeneous between species, even within the same genus. We detected notable pathogens, including the causal agents of Cache Valley Fever, avian malaria, and canine heartworm. The remaining microbiome consisted largely of putatively insect-specific viruses that are not well characterized, including 17 newly discovered viruses from 10 different families. Future research should focus on evaluating the potential application of these viruses in biocontrol, as biomarkers, and/or in disrupting mosquito vectorial capacity. Interestingly, we also detected viruses that naturally infect honeybees and thrips, which were presumably acquired indirectly through nectar foraging behaviors. Overall, we provide the first comprehensive catalog of the microorganisms harbored by the most common and important mosquito vectors and pests in the Canadian Prairies.
Designed and presented a poster to showcase an app we built to clean GeneXpert data. Our poster received an award for “Best Poster Presentation”.
Designed and delivered a research presentation for the August 23 West Nile Virus Scientific Committee meeting hosted by Manitoba Health.
Designed and delivered a research presentation for the August 10 National Vector Borne Disease Info Sharing Table hosted by the Public Health Agency of Canada.
Designed and delivered a poster presentation for the 2022 North Central Mosquito Control Association 2022 Annual Meeting. I received an award for an outstanding presentation.
Designed and delivered a poster presentation for the 2021 Entomological Society of America Conference in Denver, Colorado.
Designed and delivered a research presentation for the 2020 Brandon University Science Seminar Series.