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MSc and PhD students wanted!

Posted by Sebastien Faucher on June 12, 2015 at 10:30 AM

Master’s and PhD Positions Available to Study the Interplay Between Legionella pneumophila and the Microbiome of Water Systems.

 

One Master’s and one PhD positions are available at McGill University, Macdonald Campus. The students will work with Dr. Sebastien Faucher in collaboration with Dr. Michèle Prévost (École Polytechnique), Cécile Tremblay (U. Montréal) and Jacques Corbeil (U. Laval). This project is funded by the FRQNT.

Legionella pneumophila (Lp) is an aquatic bacterium that thrives in natural and artificial water systems, such as cooling towers and water distribution networks. Lp can be aerosolized by such systems and transmitted to humans. After inhalation, the bacterium reaches the lungs and causes a pneumonia called Legionnaire’s disease. In water systems, Lp is found associated with biofilms and grows inside phagocytic protozoans, such as amoeba and ciliates. The goal of this project is to evaluate the relationship between Lp and the microbiome of water systems and to identify the properties of the microbiome that support the growth of Lp. For this project, the students will use high-throughput screening procedures and next-gen sequencing (Illumina Hi-Seq).

Interested applicants should hold a BSc degree in microbiology or related field. Experience in molecular biology and/or bioinformatics is considered an asset. Start date: fall 2015 or winter 2016.

Please send a detailed CV, university transcripts and contact information of 2 references to:

Sebastien P. Faucher (see contact info on the right).

 

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4 Comments

Reply frank uyi Amadasun
9:08 AM on August 5, 2016 
Hello sir,
I saw your information and work on request for student on research on interplay between Legionella pnuemophillia and the Microbiome of water systems. I am holds a Bsc degree in Microbiology and Msc degree in Environmental and Public health Microbiology from the University of Benin, Benin City, Edo state, Nigeria.I read throughyour work and develop interest in what you are doing. I will be very greatful if i will be consider for an Msc or Phd student in your institution under your tutorship.
Thanks
Reply CaseyRalay
9:44 PM on September 24, 2017 
More info!
Reply Christhorn
10:14 AM on January 11, 2018 
Global warming is expected to unleash more rain, exposing millions more people to river flooding particularly in the United States and parts of Asia, Africa and central Europe, researchers said Wednesday.

The study in the journal Science Advances calculates how much more flood protection will be needed to keep the risks of high-end floods constant in the next 25 years.

Unless actions are taken -- such as enhancing dykes, boosting building standards, relocating settlements and managing rivers -- the number of people affected by devastating floods could skyrocket, warns the report, based on models that are 10 times more precise than commonly used climate computer simulations.

Asia -- the continent with the largest historical high-end flood risk -- would get hit the hardest, with the number of people affected by river flooding projected to go from 70 to 156 million by 2040, it said.

For instance, Pakistan, already prone to flooding, "will observe almost a doubling in high-end flood risk," with 11 million people at risk of floods unless protective measures are taken by 2040.

"In South America the number of people affected by flooding risks will likely increase from six to 12 million, in Africa from 25 to 34 million," it added.

In Germany the number of people affected is projected to rise sevenfold, from 100,000 to 700,000.

In North America, it could rise from 100,000 to one million.

"More than half of the United States must at least double their protection level within the next two decades if they want to avoid a dramatic increase in river flood risks," said lead author Sven Willner from the Potsdam Institute for Climate Impact Research (PIK).

The increase in river flood risks over the next few decades is being driven by the amount of greenhouse gases already emitted into the atmosphere by the burning of fossil fuels.

When more heat-trapping pollutants surround the Earth, more moisture is held in the air, leading to more rainfall.

Cutting these emissions is crucial to reducing flood risks for future generations.

"It is clear that without limiting human-caused warming to well below two degrees Celsius (36 Fahrenheit), river flood risks in our century will increase in many regions to a level that we cannot adapt to," said Anders Levermann, a researcher at Columbia University's Lamont-Doherty Earth Observatory in New York.

"The findings should be a warning to decision-makers," added Levermann.

"Doing nothing will be dangerous."

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Reply MytishiGex
10:50 AM on February 9, 2018 
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