Ilias Bougoudis
ibougoudis@eoas.ubc.ca Combining numerical models and machine learning to study the evolution of the Salish Sea Spatial domain of the SalishSeaCast model. In particular, I am seeking to use SalishSeaCast outputs to predict how the physics, chemistry and ecology of the Salish Sea will change in the future. To identify potential dominant drivers of key ecosystem […]
Grace Watts
gwatts@eoas.ubc.ca I’m looking at circulation and dispersion at depth in the Strait of Georgia with neutrally buoyant expendable drifters.
Cassidy Donaldson
cdonaldson@eoas.ubc.ca I am studying freshwater from small and medium river sources in the Salish Sea using SalishSeaCast, a 3D numerical ocean model. I aim to evaluate the model’s performance for a set of river plumes, then use the model to investigate the influence of riverine freshwater and identify physical regions of salinity and temperature. Characterizing […]
Kate Schuler
kschuler@eoas.ubc.ca My research makes use of high-resolution shipboard measurements of climate active gases and their isotopic ratios. I am interested in using these measurements to constrain the sources and biogeochemical cycling of methane in the Arctic and sub-Arctic Pacific, to better understand the ocean’s effect on our atmospheric budget of methane.
Yayla Sezginer
ysezginer@eoas.ubc.ca For my research, I use Chlorophyll fluorescence measurements to monitor marine primary productivity and phytoplankton physiology.
Anran Xu
anranxu@eoas.ubc.ca My research applies machine learning to Geophysics problems such as DCIP data classification and GPR data pre-processing.
Christina Eunjin Kong
ckong@eoas.ubc.ca Marine phytoplankton play a pivotal role in absorbing carbon dioxide from the atmosphere, and thus in regulating Earth’s carbon cycle. These single-celled photosynthetic organisms convert vast quantities of carbon dioxide into organic biomass, which is sequestered into the deep ocean through the so-called Ocean Biological Carbon Pump (OBCP). My research focuses on understanding the […]
Rebecca Rust
rrust@eoas.ubc.ca My research focuses on biogeochemical cycling, with an emphasis on understanding the processes controlling methane and nitrous oxide cycles in marine ecosystems.
Sacchidanandan Pillai
spillai@eoas.ubc.ca My work focuses on using ship-board hyperspectral optical data to infer phytoplankton community composition and biogeochemical variables (C:Chl, DMS).
Cassidy Donaldson
I study the impact of freshwater from small and medium rivers on the physical, biological, and chemical oceanography of the Salish Sea using a high-resolution 3D numerical model called SalishSeaCast. An enhanced understanding how these rivers influence the region’s dynamics will not only lead to better real-time modelling capabilities, but also facilitate forecasting of climate-induced […]
Becca Beutel
bbeutel@eoas.ubc.ca I use models to track where in the Pacific Ocean the water that reaches the Salish Sea (the semi-enclosed sea that Vancouver, Victoria, and Seattle are situated on the coast of) comes from, and how a changing climate might alter these dynamics. The sources of water to the region have huge implications for the […]
Claire Parrott
cparrott@eoas.ubc.ca I am a masters student studying glacier-ocean interactions in the Canadian Arctic using both oceanographic observations as well as a high resolution sea ice-ocean model of the Arctic and Northern Hemisphere Atlantic ocean. My work provides understanding on how glacier meltwater is altering ocean structure near marine-terminating glaciers and how glacially-derived freshwater is contributing […]
Camryn Stang
camstang15@gmail.com Examining biogeochemical transport through branching channels in the Salish Sea using Lagrangian tracking and model manipulation of 3-dimensional numerical model, SalishSeaCast. I’m specifically looking at the transport through Haro Strait, San Juan Channel, and Rosario Strait and trying to determine what controls the exchange through these restricted straits.
Alex Hughes
alex.hughes@ubc.ca In my research, I use various seafloor datasets including high-resolution bathymetry, seismological data, and shallow subsurface data to investigate active tectonics and the links between earthquakes and surface processes on the seafloor.
Ross McCulloch
rmccullo@eoas.ubc.ca https://www.eoas.ubc.ca/people/rossmcculloch My research focuses on the creation of new instrumental methods and techniques which allow us to study complex biogeochemical cycling processes with marine environments.
Ben O’Connor
bennoconnor@gmail.com https://www.eoas.ubc.ca/people/benjaminoconnor No profile information at the moment.
Brandon McNabb
bmcnabb@eoas.ubc.ca https://www.eoas.ubc.ca/people/brandonmcnabb My project is examining the dynamics behind marine sulfur cycling using a combination of experimental and modelling techniques.
Jose Valentí Muelas
jvalentimuelas@gmail.com https://mp.ubc.ca/people/jose-valenti-muelas My research aims to include a microbial loop and microplastics dynamics into the SalishSeaCast, a high-resolution ocean model of the Salish Sea. The first piece of my research focuses on describing microplastics distribution, dynamics and fate within the Salish Sea. To do so, I am using SalishSeaCast output to run Ocean Parcels, a […]
Geena Littel
geenalittel10@gmail.com https://www.eoas.ubc.ca/people/geenalittel In short, I study the seismotectonics offshore and onshore western British Columbia. My PhD is aimed at better understanding big-picture tectonics of western British Columbia by studying the diverse flavors of seismicity, from slow fault slip and tectonic tremor in the Cascadia subduction zone to microseismicity offshore in the Queen Charlotte Triple Junction […]
Rebecca Beutel
rbeutel@eoas.ubc.ca https://www.eoas.ubc.ca/people/rebeccabeutel I’m looking at the path of and composition of water entering and leaving the Salish Sea through the Juan de Fuca Strait, by applying Lagrangian particle tracking to three-dimensional physical-biological-chemical ocean circulation models of the region. This knowledge will tell us about the net fluxes of biogeochemical tracers such as dissolved inorganic carbon […]
Wasja Bloch
wbloch@eoas.ubc.ca https://www.eoas.ubc.ca/people/wasjabloch I study ocean dynamics and biogeochemical cycling in the Canadian Arctic using models of trace elements Mn and Pb within a coupled sea-ice ocean model. Building on observations in this region, these models help enhance our understanding of this unique environment and assist the interpretation of future climate-related changes.
Birgit Rogalla
brogalla@eoas.ubc.ca https://www.eoas.ubc.ca/~brogalla/ I study ocean dynamics and biogeochemical cycling in the Canadian Arctic using models of trace elements Mn and Pb within a coupled sea-ice ocean model. Building on observations in this region, these models help enhance our understanding of this unique environment and assist the interpretation of future climate-related changes.
Lindsey Heagy
lheagy@eoas.ubc.ca https://lindseyjh.ca I am interested in using Inverse Theory and Machine Learning to build models with geophysical data, with a major emphasis is on the use of electrical and electromagnetic data. Some applications include geologic carbon capture and storage and environmental studies such as locating and classifying unexploded ordnance from electromagnetic data. Supervised Students
Susan Allen
sallen@eoas.ubc.ca https://www.eoas.ubc.ca/people/susanallen I am a physical oceanographer with skills in fluid mechanics including scaling, analytics, laboratory and numerical modeling. My areas of application include coastal oceanography, mesoscale meteorology and biogeochemical-physical interactions in the ocean. My largest scholarly contributions have been to 1) understand flow over and around topography; particularly canyons, and the resulting impacts on […]
Stephanie Waterman
swaterman@eoas.ubc.ca http://www.stephaniewaterman.ca My research aims to advance our understanding of ocean mixing: To do so we are: 1. Pioneering the use of a robotic ocean observing platform (an ‚”ocean glider”) that provides near-continuous, sustained measurements of ocean turbulence and delivers unprecedented views of the ocean mixing environment; 2. Exploiting turbulence parameterizations to infer mixing rates […]
Philippe Tortell
ptortell@eoas.ubc.ca https://www.eoas.ubc.ca/people/philippetortell My research interests include: Supervised Students
Michael Bostock
bostock@eoas.ubc.ca https://www.eoas.ubc.ca/people/michaelbostock My research over the past few years has been directed toward two important issues in Solid Earth Science: i) the structure and dynamics of subduction zones; and ii) the formation and evolution of the first continental landmasses. I have addressed these topics using the tools of seismology, and have invested considerable effort in […]