![]() ![]() The passage of statewide emissions reductions legislation has the highest potential to impact carbon sequestration, although political and administrative feasibility of this option are relatively low. The largest opportunities were found in state-level policies and policies impacting forests, grasslands, and wetlands. ![]() We found that numerous policy opportunities to sequester carbon exist at different jurisdictional levels and across multiple land cover types. Over the 40-year study period, forest and woodland areas are projected to shrink while shrubland and developed areas are projected to grow. It is clear that land management can play a crucial role in meeting Colorado's statewide climate goals. In addition, reforesting all of the current burned areas across the state would result in a carbon stock increase of about 160 MMT CO 2eq. Avoiding the conversion of all grasslands, forests, and wetlands in Colorado over 40 years would increase carbon stocks by 32 MMT CO 2eq, 1,053 MMT CO 2eq, and 36 MMT CO 2eq, respectively. The findings indicate that Colorado's lands hold a carbon stock of 3,334 MMT CO 2eq, with forests and woodlands holding the largest stocks, at 1,490 and 774 MMT CO 2eq respectively. This study draws from the existing literature to quantify and project Colorado's carbon stocks, analyze the impact of three land management scenarios on carbon stocks, and recommend policy opportunities that enhance carbon sequestration in Colorado's lands. Managing landscapes to enhance terrestrial carbon sequestration has significant potential to mitigate climate change.
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