CIGLR welcomes new members to our team!
Andrew Camilleri joined
Hayden Henderson joined
Holly Kelchner joined
Yuchun Lin, PhD, joined
CIGLR as a Benthic Ecologist
CIGLR as an Observing
CIGLR as an Aquatic Ecology
CIGLR as a Postdoctoral
to work with Drs. Ashley Elgin
Systems Engineer working with
Research Analyst working
Research Fellow working with
(NOAA GLERL) and Casey
Mechanical Technician Russ
with Drs. Casey Godwin
Assistant Research Scientist
Godwin (CIGLR) on research
Miller (CIGLR), supporting both
(CIGLR) and Reagan Errara
Dr. Ayumi Fujisaki-Manome.
to understand the interactive
field and laboratory efforts
(NOAA GLERL) to execute the
Their research uses numerical
effects of harmful algal blooms
related to the Synthesis,
western Lake Erie harmful
modeling and data analyses
(HABs), hypoxia, and invasive
Observations and Response
algal bloom (HAB) monitoring
to understand Great Lakes ice
mussels in the Great Lakes.
System (SOAR) project.
cruises and laboratory toxin
hotspots, ice cover predictions,
analysis efforts.
and wave-ice interactions.
Michael Fraker, PhD,
Yi Hong, PhD, is a CIGLR
joined CIGLR as an Assistant
Postdoctoral Research Fellow
Clayton Kingdon joined CIGLR
Timothy Maguire, PhD,
Research Scientist. His
collaborating with NOAA GLERL
as a Modeling Data Analyst
is a Postdoctoral Research
research develops predictive
and the National Center for
working with Dr. Michael Fraker
Fellow working with Drs.
models that link biological to
Atmospheric Research (NCAR)
(CIGLR), Dr. Mark Rowe (NOAA
Casey Godwin (CIGLR) and
physical processes in aquatic
in Boulder, Colorado, to improve
GLERL), and Peter Alsip (CIGLR)
Craig Stow (NOAA GLERL).
ecosystems. He is currently
NOAA National Water Model
on the Coordinated Science
His research uses a variety of
researching the interactions
predictions for the Great Lakes
Monitoring Initiative where
frequentist, Bayesian, GIS, and
between piscivores, larval
basin.
he uses programming tools
artificial intelligence/machine
fish, and zooplankton in Lake
to analyze data and evaluate
learning techniques to develop
Erie. Fraker uses a variety of
model performance.
numerical water quality models
approaches (observational, experimental, mathematical), to understand ecological systems.
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in the Great Lakes.
