U.S. agriculture consists of more than 2 million farms that collectively manage more than 922 million acres of cropland, grassland pasture, and range. These farms exhibit immense diversity across a wide array of economic, production, socio-demographic, geographic, and environmental characteristics. This diversity can and will affect where and when farms choose to adopt specific technologies and practices that mitigate greenhouse gas (GHG) emissions.
The primary purpose of this report is to identify and describe specific technologies and practices that farmers could adopt in their crop and livestock production systems and in their land management decisions that would result in net greenhouse gas mitigation. For each technology or practice considered the report contains:
While the focus is on technologies and practices that have readily available data on farm-level cost and GHG reduction potential, the report also contains qualitative descriptions of a number of potential GHG mitigation technologies and practices for which insufficient data exists to estimate break-even prices.
This report presents an analysis of the greenhouse gas (GHG) mitigation potential associated with
changes in U.S. agricultural management practices. Marginal abatement cost curves (MACCs) are developed
that illustrate how much GHG mitigation various sets of U.S. crop and livestock producers
could supply across a schedule of mitigation incentives. Separate MACCs focus on incentivizing specific
changes in technologies and practices in animal production
systems, cropland systems, land management, and rangeland
and pastureland management.