@article{Beach:211208,
      recid = {211208},
      author = {Beach, Robert and Creason, Jared and Ohrel, Sara and  Ragnauth, Shaun and Ogle, Stephen and Li, Changsheng and  Salas, William},
      title = {Marginal Abatement Cost Curves for Global Agricultural  Non-CO2 Emissions},
      address = {2015},
      number = {1008-2016-80195},
      pages = {22},
      year = {2015},
      abstract = {Agricultural emissions account for 53% of 2010 global  non-CO2 emissions and are
projected to increase  substantially in the future, especially in Asia, Latin  America and
Africa. While agriculture is a substantial  source of emissions, it is also a potential
source of  cost-effective non-CO2 GHG abatement. Previous “bottom-up”  analyses
provided marginal abatement cost (MAC) curves for  use in modeling these options
within economy-wide and  global mitigation analyses. In this study, we utilize  updated
economic and biophysical data and models to extend  and improve upon previous work.
Key enhancements include  incorporation of additional mitigation options,  updated
baseline emissions projections, greater spatial  disaggregation, and development of
MAC curves to 2030. MAC  curves are generated accounting for net GHG  reductions,
yield effects, livestock productivity effects,  commodity prices, labor requirements, and
capital costs  where appropriate. MAC curves are developed at the country  level and
reveal large potential for non-CO2 GHG mitigation  at low carbon prices.},
      url = {http://ageconsearch.umn.edu/record/211208},
      doi = {https://doi.org/10.22004/ag.econ.211208},
}