Loren M. Smith Scott T. McMurry Brian Tangen Charles F. Dahl Ned Euliss Ted LaGrange Dale W. Daniel 2019 <p><span>In the High Plains, U.S., native prairie conversion to cropland agriculture has resulted in a loss of service delivery capabilities from most depressional wetlands as a result of sedimentation. Restoring historic hydrological conditions to affected wetlands may rejuvenate some services, however, there may be tradeoffs due to emissions of CH</span>₄<span>&nbsp;and N</span>₂<span>O. We evaluated the influence of two predominant conservation programs (Wetlands Reserve Program, WRP and Conservation Reserve Program, CRP) on gas emissions (CO</span>₂<span>, CH</span>₄<span>, N</span>₂<span>O) from 42 playas and uplands in the High Plains of Nebraska. Because playa restoration through the WRP is most prevalent in the Rainwater Basin (RWB), we studied 27 playas/uplands among reference condition, cropland, and WRP land uses. We studied 15 playas/uplands within native grassland, cropland, and CRP land uses in the Western High Plains (WHP) of Nebraska. Emissions were collected bi-weekly from April-October of 2012 and 2013 from four landscape positions extending outward from the wetland center into upland. In RWB playas, CH</span>₄<span>&nbsp;and N</span>₂<span>O emissions were similar among land uses but CO</span>₂<span>&nbsp;was 28% higher in cropland than WRP wetlands. Cropland uplands emitted 648% more N</span>₂<span>O than reference and WRP uplands. Overall, net CO</span>_2-equiv<span>&nbsp;emissions were lower in playas/uplands in WRP, suggesting that benefits of playa restoration may include climate mitigation services as well as increased water storage capacity and biodiversity provisioning. In the WHP, cropland and grassland playas emitted 46 and 23 times more CH</span>₄<span>, respectively, than CRP in 2013. Playas in CRP emitted 43% less N</span>₂<span>O than cropland playas. In 2013, net emissions for cropland and native grassland playas were 75% and 39% greater, respectively, than CRP playas. In the WHP, the benefits of lower gas emissions must be appropriately weighted against tradeoffs of ecosystem services related to shorter hydroperiods as a result of reduced runoff into playas in CRP.</span></p> application/pdf 10.4236/as.2019.102016 en Scientific Research Effects of land use on greenhouse gas flux in playa wetlands and associated watersheds in the High Plains, USA article