Not exact matches
The group hopes other scientists will conduct similar
experiments using
different models to help hone in on a more reliable measure of
climate sensitivity.
To understand the role of human - induced
climate change in these new records they compare simulations of the Earth's
climate from nine
different state - of - the - art
climate models and the very large ensemble of
climate simulations provided by CPDN volunteers for the weather@home ANZ
experiments for the world with and without human - induced
climate change.
Using thus 10
different climate models and over 10,000 simulations for the weather@home
experiments alone, they find that breaking the previous record for maximum mean October temperatures in Australia is at least six times more likely due to global warming.
The weather@home regional
climate modelling system for Australia and New Zealand has been used for a number of
different experiments in 2016.
GCM results are used: «The large - scale thermodynamic boundary conditions for the
experiments — atmospheric temperature and moisture profiles and SSTs — are derived from nine
different Coupled
Model Intercomparison Project (CMIP2 +)
climate models.»
Both periods had a substantially
different climate compared to the present, and there is relatively good information from data synthesis and
model simulation
experiments (Braconnot et al., 2004; Cane et al., 2006).
To examine the relative influence of
different processes on the lake basin
climate, a suite of
model experiments...
• The effects of management strategies on
climate, ecosystem services, and the resilience of ecosystems to
climate change; field
experiments and
models designed to learn about coupled human - and environmental systems and to test
different management interventions • The valuation of ecosystem services, including the economic or other costs associated with impacts of
climate and other environmental changes • Adaptive approaches and institutional and governance mechanisms for addressing the regulatory aspects of special status species management
The
climate fingerprints in response to
different forcing factors are typically estimated with computer
models, which can be used to perform the controlled
experiments that we can not conduct in the real world.
Here, we introduce the Precipitation Driver and Response
Model Intercomparison Project (PDRMIP), where a set of idealized
experiments designed to understand the role of
different climate forcing mechanisms were performed by a large set of
climate models.
We study
climate sensitivity and feedback processes in three independent ways: (1) by using a three dimensional (3 - D) global
climate model for
experiments in which solar irradiance So is increased 2 percent or CO2 is doubled, (2) by using the CLIMAP
climate boundary conditions to analyze the contributions of
different physical processes to the cooling of the last ice age (18K years ago), and (3) by using estimated changes in global temperature and the abundance of atmospheric greenhouse gases to deduce an empirical
climate sensitivity for the period 1850 - 1980.
We are using the citizen science regional
climate modelling project weather@home to perform large ensembles of the
different experiments described below.