For her senior project, Yuanyuan Gao is asking whether infection with Borrelia burgdorferi, the bacterium that causes Lyme disease, affects the behavior of white-footed mice, Peromyscus leucopus, which are common hosts for the bacterium. In the lab at the Cary Institute of Ecosystem Studies in Millbrook, NY, Yuanyuan is comparing the activity levels of wild mice that have been vaccinated against B. burdorgeri to the activity levels of mice that have not.
In this short article for Science, Felicia Keesing and her colleague Rick Ostfeld synthesize recent research that shows how and why areas with high diversity frequently have lower rates of transmission of infectious diseases of wildlife, humans, and plants. This is particularly compelling because it aligns environmental conservation with public health.
Citation: Keesing, F., & Ostfeld, R. S. (2015). Is biodiversity good for your health?.Science, 349(6245), 235-236.
Full version of the paper can be found at Researchgate.
Sam Israel began his Biology work at Bard in Eukaryotic Genetics (BIO202, currently known as “Genetics and Evolution”) with Mike Tibbetts. During his time at Bard, Sam took an ambitious load of courses, including Evolution, Molecular Evolution, Biostatistics, Introduction to Physiology, Biochemistry, Protein Structure & Function, Molecular Biology, an Advanced Seminar in Ecology, Microbiology, Cancer Biology, and a Cell Biology Tutorial. He was also a member of the Bard Music Conservatory and graduated with degrees in both music and biology. His coursework was complemented by 3 (!) summer research experiences, including a semester and summer at the Bard-Rockefeller Semester in Science Program. Sam completed his senior project in the lab of Mike Tibbetts.
As of Fall 2015, Sam is close to the completion of his PhD in the lab of John Ngai at UC Berkeley, where he studies how smell drives fear behaviors in larval Zebrafish. He also works as a science educator and is one of the leaders of the finance team for “Beyond Academia”: a series of highly successful student-run conferences educating students and researchers about non-academic jobs.
Sam’s Linkedin profile: https://www.linkedin.com/pub/samuel-israel/48/5b7/1b3
Sam talking about his graduate program: https://vimeo.com/79831189
Beyond Academia: http://www.beyondacademia.org/
Below is a sample of Sam’s current work: a double-stained confocal microscopy prep of the olfactory bulb in a 5-days old larval Zebrafish. Here, magenta displays the various glomeruli in the olfactory bulb, while green shows a particular subtype of olfactory sensory neurons that project from the olfactory epithelium to the olfactory bulb. The cell bodies of these neurons, that look like flask-shaped bright glowing blobs in this picture, contain olfactory receptors that allow the fish to sense (smell) chemicals in the water. The scale bar represents 20um.
Alexis came to Bard with equal passions for both science and the arts. He graduated from the Biology program in 2003, with his senior project dedicated to the reconstruction of microbial genome rearrangements in Chlamydia. After Bard, Alexis got a Masters degree in Bioinformatics from the University of Marne la Vallée, and then a PhD from the Rockefeller University, where he studied apoptosis in fruit flies.
During his graduate career, Alexis founded the Imagine Science Film Festival in New York, which celebrates films that feature science. The mission of the festival is “to bridge the gap between art and science through film, thereby transforming the way science is communicated to the public and encouraging collaboration across disciplines”.
In 2014 Alexis completed his first feature film, The Fly Room, parts of which were shot at Bard College.
The spread of antibiotic resistance in human pathogens is one of the most urgent challenges in public health today. While the discovery of new drugs remains central in our fight against microbial infections, our ability to understand how antibiotic resistance evolves in the first place is crucial in the development of sound public health policies. In this Special Issue published in Evolutionary Applications, Dr. Perron, acting as guest-editor, present a collection of articles discussing the different contributions of evolutionary biology and ecology to help solving the current antibiotic crisis.