Observing the carbon-climate system
Abstract
Increases in atmospheric CO2 and CH4 result from a combination of forcing from anthropogenic emissions and Earth System feedbacks that reduce or amplify the effects of those emissions on atmospheric concentrations. Despite decades of research carbon-climate feedbacks remain poorly quantified. The impact of these uncertainties on future climate are of increasing concern, especially in the wake of recent climate negotiations. Emissions, long concentrated in the developed world, are now shifting to developing countries, where the emissions inventories have larger uncertainties. The fraction of anthropogenic CO2 remaining in the atmosphere has remained remarkably constant over the last 50 years. Will this change in the future as the climate evolves? Concentrations of CH4, the 2nd most important greenhouse gas, which had apparently stabilized, have recently resumed their increase, but the exact cause for this is unknown. While greenhouse gases affect the global atmosphere, their sources and sinks are remarkably heterogeneous in time and space, and traditional in situ observing systems do not provide the coverage and resolution to attribute the changes to these greenhouse gases to specific sources or sinks. In the past few years, space-based technologies have shown promise for monitoring carbon stocks and fluxes. Advanced versions of these capabilities could transform our understanding and provide the data needed to quantify carbon-climate feedbacks. A new observing system that allows resolving global high resolution fluxes will capture variations on time and space scales that allow the attribution of these fluxes to underlying mechanisms.
Cite
@article{arxiv.1604.02106,
title = {Observing the carbon-climate system},
author = {David Schimel and Piers Sellers and Berrien Moore and Abhishek Chatterjee and David Baker and Joe Berry and Kevin Bowman and Phillipe Ciais David Crisp and Sean Crowell and Scott Denning and Riley Duren and Pierre Friedlingstein and Michelle Gierach and Kevin Gurney and Kathy Hibbard and Richard A Houghton and Deborah Huntzinger and George Hurtt and Ken Jucks and Randy Kawa and Randy Koster and Charles Koven and Yiqi Luo and Jeff Masek and Galen McKinley and Charles Miller and John Miller and Paul Moorcroft and Ray Nassar and Chris ODell and Leslie Ott and Steven Pawson and Michael Puma and Tristan Quaife and Haris Riris and Anastasia Romanou and Cecile Rousseaux and Andrew Schuh and Elena Shevliakova and Compton Tucker and Ying Ping Wang and Christopher Williams and Xiangming Xiao and Tatsuya Yokota},
journal= {arXiv preprint arXiv:1604.02106},
year = {2016}
}