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United States Department of Agriculture

Agricultural Research Service

Title: Soil carbon change under switchgrass in the northern Great Plains

Authors
item Liebig, Mark
item Schmer, Marty
item Vogel, Kenneth
item Mitchell, Robert

Submitted to: ASA-CSSA-SSSA Annual Meeting Abstracts
Publication Type: Abstract Only
Publication Acceptance Date: August 13, 2007
Publication Date: November 4, 2007
Citation: Liebig, M.A., Schmer, M.R., Vogel, K.P., Mitchell, R. 2007. Soil carbon change under switchgrass in the northern Great Plains. IN: ASA-CSSA-SSSA Annual Meeting Abstracts (CDROM), 4-8 November 2007. New Orleans, LA. ASA-CSSA-SSSA, Madison, WI.

Technical Abstract: Switchgrass (Panicum virgatum L.) is considered a valuable perennial biofeedstock with significant potential to sequester soil organic carbon (SOC). A study was conducted to document SOC change under switchgrass at 10 sites along a transect from Nebraska to North Dakota. The sites, located on farmer-managed fields, were sampled prior to planting switchgrass in 2000 and 2001, and again in 2005 and 2006 to determine change in SOC over time. Sites in Nebraska were sampled to a depth of 1.2 m, while sites in North and South Dakota were sampled to 0.3 m. Soil organic carbon increased over time (P<0.1) in at least one sampled depth at seven sites (Streeter, ND; Highmore and Ethan, SD; Atkinson, Crofton, Douglas, and Lawrence, NE). Soil organic carbon increased most consistently across sites at 0 to 0.05 m and below 0.2 m. Cumulative depth assessments indicated significant increases in SOC at Streeter, ND (P=0.08), Highmore, SD (P=0.09), and Atkinson and Lawrence, NE (P=0.10 and 0.09, respectively) for the 0 to 0.3 m depth, and at Lawrence, NE (P=0.01) for the 0 to 1.2 m depth. Rates of SOC accrual for the 0 to 0.3 m depth at responsive sites ranged from 0.9 to 1.4 Mg C/ha/yr, while the SOC accrual rate at the Lawrence, NE site for the 0 to 1.2 m depth averaged 3.8 Mg C/ha/yr. On-farm documentation of increased SOC over time underscores the capacity of switchgrass to effectively sequester atmospheric C in soil.

Last Modified: 10/20/2014