Research
Pacific Ocean Boundary Ecosystem - [
www.Pacific-Ecosystems-Climate.org ]
Using US and international observational datasets combined with physical
and biological models, this project investigates the mechanisms of
climate-related variability in three Pacific boundary ecosystems: Gulf
of Alaska (GOA) and California Current System (CCS) referred to as the
Northeast Pacific (NEP), the Humboldt or Peru-Chile Current System
(PCCS), and the Kuroshio-Oyashio Extension (KOE) region. - [
OpenDAP data
access ]
Low Frequency Variability
in the North Pacific - [
The NPGO ]
Decadal fluctuations in salinity, nutrients, chlorophyll, a variety of
zooplankton taxa, and fish stocks in the Northeast Pacific are often
poorly correlated with the most widely-used index of large-scale climate
variability in the region - the Pacific Decadal Oscillation (PDO).
We define a new pattern of climate change, the North Pacific Gyre
Oscillation (NPGO)
and show that its variability is significantly correlated with
previously unexplained fluctuations of salinity, nutrients and
chlorophyll. The NPGO pattern extends beyond the North Pacific and is
part of a global-scale mode of climate variability that is evident in
global sea level trends and sea surface temperature. This projects uses a combination of high
resolution ocean modeling ensembles and observational data to explore
the physical mechanisms that are responsible for decadal-scale physical
and ecosystem variations, which to date remain unclear. - [
OpenDAP data
access ]
Inverse Ocean Modeling
- [
IOM ]
The IOM is a modular data assimilation system which is being developed using
Information Technology, including modern software engineering concepts. The
IOM implements weak-constraint, four-dimensional variational assimilation.
Indo-Pacific decadal coupled dynamics
- [ no webpage ]
The goal of this project is to build a new coupled ocean-atmospheric model
to study decadal variations of the indo-pacific thermocline and of the
Indian monsoon. The ocean component is the Regional Ocean Modeling System
(ROMS), which allows better resolution of the upwelling boundary systems
with respect to other ocean general circulation models. The atmospheric
component is the SPEEDY general circulation model, which is a fast and
computationally inexpensive reduced physics model.
Mediterranean Ocean Forecasting System
- [
MED-ROMS ]
Bayesian Hierarchical Models (BHM) are implemented to establish ensemble
ocean forecasting tools for the Mediterranean Forecast System (MFS).
Med-MultiModel-BHM is a superensemble forecast system that will include
contributions from a Mediterranean implementation of the Regional Ocean
Modelling System (ROMS) to combine with MFS forecasts. - [
OpenDAP
data access ]
California Current Ecosystem -
[ CCE-LTER ]
The California Current System is a coastal upwelling biome, as found along
the eastern margins of all major ocean basins. These are among the most
productive ecosystems in the world ocean. The California Current Ecosystem
LTER is investigating nonlinear transitions in the California Current
coastal pelagic ecosystem, with particular attention to long-term forcing by
a secular warming trend, the Pacific Decadal Oscillation, and El Nino in
altering the structure and dynamics of the pelagic ecosystem. The California
Current sustains active fisheries for a variety of finfish and marine
invertebrates, modulates weather patterns and the hydrologic cycle of much
of the western United States, and plays a vital role in the economy of
myriad coastal communities.
Dynamics of Ocean Climate in the Gulf of
Alaska - [
GOA ]
The ocean circulation of the Gulf of Alaska is studied using a combination
of eddy-resolving ocean models, observational analyses and ocean data
assimilation products to elucidate the dynamics that controls the mean,
mesoscale variability and interannual to interdecadal climate variations of
the Alaska Current, the Alaskan Stream, as well as the broader-scale
interior gyre flows. This proect i funded by NSF through the
US
GLOBEC program- [
GLOBEC Ocean
Modeling Page ]
Intra-American-Seas Real-time Forecasting
System - [
IASFoR ]
The Regional Ocean Modeling System (ROMS)
is used for data assimilation and ocean prediction in the Intra-Americas Sea
(IAS) with particular emphasis on the Caribbean Sea. Through an innovative
partnership between the University of Miami Rosenstiel School of Marine and
Atmospheric Science (RSMAS), the Royal Caribbean Cruise Line (RCCL), NOAA
and NSF, an RCCL cruise ship, the Explorer of the Seas, has been equipped
with a comprehensive suite of oceanic and atmospheric sensors, which provide
continuous observations along two cruise tracks that circumnavigate the
Caribbean Sea once every 2 weeks. This is an unprecedented research data
set, and provides an unique opportunity to test ROMS and its associated
ocean data assimilation and prediction systems in real-time and at sea. This
can also be viewed as a proof of concept study both for similar enterprises
that are planned for future commercial cruise ships in other parts of the
world oceans, and for operational data assimilation and prediction aboard
Navy vessels at sea.