For the study, Gentine and Lemordant took Earth system models with decoupled surface (vegetation physiology) and atmospheric (radiative) CO2 responses and used a multi-model statistical analysis from CMIP5, the most current set of
coordinated climate model experiments set up as an international cooperation project for the International Panel on Climate Change.
Not exact matches
http://www.metoffice.gov.uk/research/news/cmip5 ``... (CMIP5) is an internationally
coordinated activity to perform
climate model simulations for a common set of
experiments across all the world's major
climate modelling centres....
Well, it is a very ambitions and painstaking project which has managed to bring together all the aforementioned
modeling groups which run specified
model experiments with very similar forcings and then performed
coordinated diagnostic analyses to evaluate these
model simulations and determine the uncertainty in the future
climate projections in their
models.
Observing System Simulation
Experiments use the Hybrid
Coordinate Ocean
Model (HYCOM) and GFDL's GM2.6 climate model to interpret data and develop analysis and observing techniques in the Earth's oc
Model (HYCOM) and GFDL's GM2.6
climate model to interpret data and develop analysis and observing techniques in the Earth's oc
model to interpret data and develop analysis and observing techniques in the Earth's oceans.
In a recent
coordinated multi-model study between NOAA GFDL and NCAR, published in Journal of
Climate, researchers performed idealized
experiments using state - of - the - art global coupled
models, in which the North Atlantic SSTs are restored to time - invariant anomalies corresponding to the observed AMV.
It supports the Coupled
Model Intercomparison Project (CMIP) and the
Coordinated Regional
Climate Downscaling
Experiment (CORDEX), whose protocols enable the periodic assessments carried out by the IPCC.
The need for more simulations to characterise uncertainty is being further addressed through international initiatives to have many
modelling groups contribute simulations to the same ensembles (e.g. CORDEX -
COordinated Regional
climate Downscaling
EXperiment http://wcrp-cordex.ipsl.jussieu.fr/).
The US CLIVAR Hurricane Working Group was formed in January of 2011 to
coordinate efforts to produce a set of
model experiments designed to improve understanding of the variability of tropical cyclone formation in
climate models.
We have three excellent participants joining this discussion: Bart van den Hurk of KNMI in The Netherlands who is actively involved in the KNMI scenario's, Jason Evans from the University of Newcastle, Australia, who is coordinator of
Coordinated Regional
Climate Downscaling Experiment (CORDEX) and Roger Pielke Sr. who through his research articles and his weblog Climate Science is well known for his outspoken views on climate mod
Climate Downscaling
Experiment (CORDEX) and Roger Pielke Sr. who through his research articles and his weblog
Climate Science is well known for his outspoken views on climate mod
Climate Science is well known for his outspoken views on
climate mod
climate modelling.
The need for more simulations to characterise uncertainty is being further addressed through international initiatives to have many
modelling groups contribute simulations to the same ensembles (e.g. CORDEX —
COordinated Regional
climate Downscaling
EXperiment http://wcrp-cordex.ipsl.jussieu.fr/).
R Krishnan's group at the Indian Institute of Tropical Meteorology in Pune is leading the South Asia component of the World
Climate Research Programme's Coordinated Regional Downscaling Experiment (CORDEX) to help develop more - reliable regional climate change models that contribute to the climate research community's understanding of regional climate and monsoon issues under a changing climate, beyo
Climate Research Programme's
Coordinated Regional Downscaling
Experiment (CORDEX) to help develop more - reliable regional
climate change models that contribute to the climate research community's understanding of regional climate and monsoon issues under a changing climate, beyo
climate change
models that contribute to the
climate research community's understanding of regional climate and monsoon issues under a changing climate, beyo
climate research community's understanding of regional
climate and monsoon issues under a changing climate, beyo
climate and monsoon issues under a changing
climate, beyo
climate, beyond AR5.
The Coupled
Model Intercomparison Project (CMIP; currently in it's 6th phase) is organized under the auspices of the World
Climate Research Programme (WCRP) and designed to better understand past, present, and future climate change through coordinated international multi-model experiments that have become a central element of national and international assessments of climate change, e.g., IPCC r
Climate Research Programme (WCRP) and designed to better understand past, present, and future
climate change through coordinated international multi-model experiments that have become a central element of national and international assessments of climate change, e.g., IPCC r
climate change through
coordinated international multi-
model experiments that have become a central element of national and international assessments of
climate change, e.g., IPCC r
climate change, e.g., IPCC reports.