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Tag: Michael Strand

Proximal Remote Sensing to Non-destructively Detect and Diagnose Physiological Responses by Host Insect Larvae to Parasitism

Donna Huber on December 4, 2018

As part of identifying and characterizing physiological responses and adaptations by insects, it is paramount to develop non-destructive techniques to monitor individual insects over time. Such techniques can be used to optimize the timing of when in-depth (i.e., destructive sampling of insect tissue) physiological or molecular analyses should be deployed. In this article, we present evidence that hyperspectral proximal remote sensing can be used effectively in studies of host responses to parasitism. We present time series body reflectance data acquired from individual soybean loopers (Chrysodeixis includens) without parasitism (control) or parasitized by one of two species of parasitic wasps with markedly different life histories: Microplitis demolitor, a solitary larval koinobiont endoparasitoid and Copidosoma floridanum, a polyembryonic (gregarious) egg-larval koinobiont endoparasitoid. Despite considerable temporal variation in reflectance data 1–9 days post-parasitism, the two parasitoids caused uniquely different host body reflectance responses. Based on reflectance data acquired 3–5 days post-parasitism, all three treatments (control larvae, and those parasitized by either M. demolitor or C. floridanum) could be classified with >85 accuracy. We suggest that hyperspectral proximal imaging technologies represent an important frontier in insect physiology, as they are non-invasive and can be used to account for important time scale factors, such as: minutes of exposure or acclimation to abiotic factors, circadian rhythms, and seasonal effects. Although this study is based on data from a host-parasitoid system, results may be of broad relevance to insect physiologists. Described approaches provide a non-invasive and rapid method that can provide insights into when to destructively sample tissue for more detailed mechanistic studies of physiological responses to stressors and environmental conditions.

Christian Nansen and Michael R. Strand. 2018. Frontiers in Physiology. https://doi.org/10.3389/fphys.2018.01716

Trainee Spotlight: Ruby Harrison

Donna Huber on November 28, 2017

trainee Ruby Harrison

NIH T32 trainee Ruby Harrison is a co-advised by Drs. Michael Strand and Mark Brown in the UGA Department of Entomology. She received a Bachelor’s of Science in Entomology from the University of Wisconsin-Madison in 2012 and lived in Madison an additional two years working with mosquitoes as a research assistant. Before coming to UGA to begin my doctoral studies, she spent a year in Gabon, Africa, working as a tropical ecology field technician.

Ruby’s research focus

Ruby studies mosquito-microbiome interactions. Currently, she is investigating the influence of the gut microbiome on mosquito reproductive processes. She also plans to begin exploring the role of the mosquito microbiome in deterring pathogen infection in the very near future.

“I chose this research focus because I was inspired by the research of a former graduate student of Dr. Strand’s, Dr. Kerri Coon. Kerri pioneered fascinating work on the influence of the microbiota on development in mosquitoes in the immature (larval) stage,” said Ruby. “I saw an opportunity to extend her work, to observe if the same bacterial signal essential to larval development is recapitulated in any way in the adult stage.”

More broadly, she sees insect-microbe interactions as a promising field which may offer new solutions for mosquito population control and reduction of pathogen transmission.

NIH T32 Fellowship helps trainees achieve their goals

Ultimately, Ruby hopes to build a career as a vector biologist. For the capstone experience provided by the NIH T32 Training Grant, she is interested in returning to francophone West or Central Africa to work with mosquitoes in the field.

“I am truly grateful to receive the T32 pre-doctoral training fellowship, which presents me the opportunity to interact more closely with the CTEGD, opens doors for possible collaboration, and will help me to pursue my research goals,” said Ruby.