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ARS Home » Plains Area » Sidney, Montana » Northern Plains Agricultural Research Laboratory » Agricultural Systems Research » Research » Publications at this Location » Publication #204672
Title: Tillage and crop rotation effects on dryland soil carbon and nitrogen pools

Author
item Sainju, Upendra
item Caesar, Thecan
item Lenssen, Andrew
item Waddell, Jed

Submitted to: American Society of Agronomy Meetings
Publication Type: Abstract Only
Publication Acceptance Date: 8/11/2005
Publication Date: 11/6/2005
Citation: Sainju, U.M., Caesar, T., Lenssen, A.W., Waddell, J.T. 2005. Tillage and crop rotation effects on dryland soil carbon and nitrogen pools. In: American Society of Agronomy Meetings, November 6-10, 2005. Salt Lake City, UT. Paper No. 318-4. Page 317.

Interpretive Summary:

Technical Abstract: The effects of two tillage practices [conventional till (CT) and no-till (NT)], five crop rotations [continuous spring wheat(CW), spring wheat-fallow (W-F), spring wheat-lentil (W-L), spring wheat-spring wheat-fallow (W-W-F), and spring wheat-pea-fallow (W-P-F)], and a Conservation Reserve Program (CRP) planting were examined on soil microbial biomass C and N (MBC and MBN), potential C and N mineralization (PCM and PNM), and NH4-N and NO3-N contents in drylands of the Northern Great Plains. Each phase of the crop rotation (W-F, F-W, W-L, L-W, W-W-F, W-F-W, F-W-W, W-P-F, P-F-W, and F-W-P) was included in every year. The MBC, PCM, and NH4-N contents were not influenced by treatments and averaged 1548, 210, and 5 kg ha-1 at 0- to 20-cm, respectively. The MBN at 0- to 5-cm was greater in P-F-W (42 kg ha-1) than in CRP, F-W, and W-W-F in CT, but was greater in F-W-W (35 kg ha-1) than in W-F, F-W, L-W, and W-F-W in NT. At 5- to 20-cm, MBN was greater in W-F-W (137 kg ha-1) than in other rotations, except in CW and P-F-W, in CT. Similarly, PNM at 0- to 5-cm was greater in W-P-F (13 kg ha-1) than in other rotations, except in W-L, in CT. The NO3-N content at 0- to 5-cm was greater in W-W-F (31 kg ha-1) than in other rotations, except in W-F and W-P-F, in NT. At 5- to 20-cm, NO3-N was greater in W-P-F (64 kg ha-1) than in other rotations, except in W-L, in CT, but was greater in W-W-F (44 kg ha-1) than in CRP, CW, and P-F-W in NT. Differences in soil and crop management practices and environmental conditions among rotations and phases of rotations altered N mineralization and availability in CT and NT in dryland soils, which could influence crop yields.