Background
EarthClim -- Integrated Earth System Approach to Explore Natural Variability and Climate Sensitivity -- is a multi-institutional, coordinated
climate research project in Norway, funded by the Research Council of Norway for the period 2011-2013.
EARTHCLIM gathers Universities and research institutes from Bergen, Oslo and
Tromsø.
Central to EARTHCLIM is to improve, implement and verify climate processes
in the Norwegian community Earth System Model (ESM) NorESM
that are of particular importance at high latitudes, and consequently
for polar climate.
As the tropics are central for global heat and moisture budgets, as
well as for generating major climate variability modes, analysis of
climate feedbacks, responses and sensitivities incorporates lower
latitudes as well.
As choice of method, the model development, testing and analysis is based
on (but not limited to) NorESM. NorESM is unique notably through the
state-of-the-art aerosol-cloud scheme and the isopycnic coordinate
ocean component, and it contributes to the much desired climate
model diversity in the Fifth Assessment Report of the
Intergovernmental panel on Climate Change (IPCC), due 2013/14.
The large range in climate sensitivity and its long tail create a
possibility of strong future warming and hinders a quantification
of emissions reductions needed to meet future temperature targets.
In EARTHCLIM, climate sensitivity and climate feedback mechanisms,
based on but not limited to NorESM, will be quantified with respect
to its climate sensitivity. The carbon cycle feedback will be given
particular consideration.
A fundamentally different method to quantify
the climate sensitivity is to use the observed temperature record and
estimates of net radiative forcing and fast feedbacks. This quantification
has been difficult due to the large uncertainties related to short-lived
components; in particular aerosols and clouds. To improve this a better
quantification of the aerosol effects in NorESM will be sought.
To further explore the sensitivity of the climate system, the natural variability and spatial variations in the response will also be investigated.
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