The internship project will work to deliver a weight loss protein that will combat obesity. The intern will coat DNA for the protein with a natural substance that can be delivered orally or through surgery. If successful, the team expects to see the presence of this weight loss protein in the blood of the specimens. Moreover, the levels should increase after meals and this should encourage less eating and weight loss. enGene, a biotech company specializing in DNA delivery to the gut, will provide the training necessary for this project.
A system for the detection of deep vein thrombosis (DVT), a disease where blood clots form in the legs, has been developed by the student and his supervisors at UBC. The current project is aimed at determining an approach using pre-screening criteria to evaluate the system in a clinical setting without having to examine hundreds of patients to obtain reliable results, as a consequence of the low incidence of the disease.
The project involves creating a vision based system to perform multi-camera 3D tracking of persons in an indoor environment. The implementation of this system will be using Open Vision Library (a standard library for image processing that is designed with hardware acceleration in mind) and it will be running on one or multiple processor hardware platform developed by LightHaus. LightHaus Logic is a Vancouver-based company that develops compact high-performance systems for advanced video analytics and embedded computer applications.
The intern is confronted with a classical question in political economy: what kind of political institutions can facilitate economic development? The City of Vancouver represents a fascinating case study in which three important players are locked up in a strategic relationship that can either spur or damage the prospects of further economic development of the city. Player A, City Government, seeks to extract more revenues in taxation in order to accommodate the demands to provide welfare and services.
A 150m high mine slope has been subject to movement, requiring the mine to reduce the slope steepness while extensive investigation and analysis is undertaken. This reduction in ore production has major implications for the economical viability of the mine.
Forest soils are a significant sink for the greenhouse gas, CO2. Concerns over climate change have led to increased interest in methods to increase the forest C sink. Fertilization of forests has been demonstrated to increase productivity of many forest types and this has an associated benefit of increased C sequestration in biomass. There is mounting evidence that N fertilization will also increase C sequestration in soil as more and more little material is produced. N also appears to interfere with the decomposition of this litter.
This project will use vegetation indicators of biodiversity to define response curves for measuring ecological resilience in three forest ecosystems in central BC. The vegetation indicators to be evaluated are: 1) the rate of regrowth; 2) the rate of recovery of species richness; and 3) the rate of recovery of original species composition. The research team hypothesizes that ecological resilience increases with site productivity and decreases with the length of intervals between wildfires.
The intern will map, collect field geophysical data and sample the Tertiary Chilcotin Group (CG) volcanic rocks throughout its known extent in southern BC with the intent of creating a new regional geological map for the CG. The Tertiary Chilcotin Group covers approximately 36,500km2 of Mesozoic and Paleozoic basement rocks which are potentially highly prospective for base and precious metal deposits as well as hydrocarbon deposits in the Nechako Basin. However, the nature, distribution, stratigraphy, thickness variation, age and composition of this voluminous flood are poorly known.
Historical fire suppression and subsequent increases in fuel loading have led to more frequent and damaging forest fires across North America. This has prompted much research into how changing disturbance regimes affect forests and how to manage fires appropriately and in a more natural way. Parks Canada is interested in how disturbance regimes have shifted, how these shifts affect ecosystem function and what this means for management.
Viruses are an abundant and dynamic component of marine microbial communities. The project will use information encoded in the genomes of viruses and their bacterial hosts to obtain a measure of the number of different types of viruses and bacterial species in Canadian Arctic waters. Additionally, the project will focus on the relationship between viral and bacterial communities by trying to identify patterns in their geographical distribution in response to changing environmental conditions such as temperature or salinity.