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      Atmospheric CH 4in the first decade of the 21st century: Inverse modeling analysis using SCIAMACHY satellite retrievals and NOAA surface measurements : CH4INVERSE MODELING 2000-2010

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          The ERA-Interim reanalysis: configuration and performance of the data assimilation system

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            Simultaneously mitigating near-term climate change and improving human health and food security.

            Tropospheric ozone and black carbon (BC) contribute to both degraded air quality and global warming. We considered ~400 emission control measures to reduce these pollutants by using current technology and experience. We identified 14 measures targeting methane and BC emissions that reduce projected global mean warming ~0.5°C by 2050. This strategy avoids 0.7 to 4.7 million annual premature deaths from outdoor air pollution and increases annual crop yields by 30 to 135 million metric tons due to ozone reductions in 2030 and beyond. Benefits of methane emissions reductions are valued at $700 to $5000 per metric ton, which is well above typical marginal abatement costs (less than $250). The selected controls target different sources and influence climate on shorter time scales than those of carbon dioxide-reduction measures. Implementing both substantially reduces the risks of crossing the 2°C threshold.
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              An atmospheric perspective on North American carbon dioxide exchange: CarbonTracker.

              We present an estimate of net CO(2) exchange between the terrestrial biosphere and the atmosphere across North America for every week in the period 2000 through 2005. This estimate is derived from a set of 28,000 CO(2) mole fraction observations in the global atmosphere that are fed into a state-of-the-art data assimilation system for CO(2) called CarbonTracker. By design, the surface fluxes produced in CarbonTracker are consistent with the recent history of CO(2) in the atmosphere and provide constraints on the net carbon flux independent from national inventories derived from accounting efforts. We find the North American terrestrial biosphere to have absorbed -0.65 PgC/yr (1 petagram = 10(15) g; negative signs are used for carbon sinks) averaged over the period studied, partly offsetting the estimated 1.85 PgC/yr release by fossil fuel burning and cement manufacturing. Uncertainty on this estimate is derived from a set of sensitivity experiments and places the sink within a range of -0.4 to -1.0 PgC/yr. The estimated sink is located mainly in the deciduous forests along the East Coast (32%) and the boreal coniferous forests (22%). Terrestrial uptake fell to -0.32 PgC/yr during the large-scale drought of 2002, suggesting sensitivity of the contemporary carbon sinks to climate extremes. CarbonTracker results are in excellent agreement with a wide collection of carbon inventories that form the basis of the first North American State of the Carbon Cycle Report (SOCCR), to be released in 2007. All CarbonTracker results are freely available at http://carbontracker.noaa.gov.
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                Author and article information

                Journal
                Journal of Geophysical Research: Atmospheres
                J. Geophys. Res. Atmos.
                Wiley
                2169897X
                July 16 2013
                July 16 2013
                July 01 2013
                : 118
                : 13
                : 7350-7369
                Affiliations
                [1 ]Institute for Environment and Sustainability, Joint Research Centre; European Commission; Ispra Italy
                [2 ]SRON Netherlands Institute for Space Research; Utrecht Netherlands
                [3 ]Institute for Marine and Atmospheric Research Utrecht (IMAU); Utrecht Netherlands
                [4 ]Netherlands Organisation for Applied Scientific Research (TNO); Utrecht Netherlands
                [5 ]Meteorology and Air Quality Department; Wageningen University and Research Centre; Wageningen Netherlands
                [6 ]Jet Propulsion Laboratory; California Institute of Technology; Pasadena California USA
                [7 ]Global Monitoring Division; NOAA Earth System Research Laboratory; Boulder Colorado USA
                [8 ]School of Engineering and Applied Science and Department of Earth and Planetary Sciences; Harvard University; Cambridge Massachusetts USA
                [9 ]CIRES; University of Colorado; Boulder Colorado USA
                [10 ]Max Planck Institute for Chemistry; Mainz Germany
                [11 ]Center for Isotope Research; University of Groningen; Groningen Netherlands
                [12 ]Max Planck Institute for Biogeochemistry; Jena Germany
                Article
                10.1002/jgrd.50480
                9f0b5e15-d312-4009-8c0f-e141c2dd6d72
                © 2013

                http://doi.wiley.com/10.1002/tdm_license_1.1

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