Persistence of Soil Organic Carbon after Plowing a Long-Term No-Till Field in Southern Ontario, Canada

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DIVISION S-6—SOIL & WATER MANAGEMENT & CONSERVATION

Persistence of Soil Organic Carbon after Plowing a Long-Term No-Till Field in Southern Ontario, Canada

A. J. VandenBygaart^a^,* and B. D. Kay^b

^a Eastern Cereal and Oilseed Research Centre, Agriculture & Agri-Food Canada, KW Neatby Building, 960 Carling Ave., Ottawa, ON, Canada K1A 0C6
^b Dep. of Land Resource Science, Univ. of Guelph, Guelph, ON, Canada, N1G 2W1

^* Corresponding author (vandenbygaarta{at}agr.gc.ca).

There is abundant evidence that minimizing soil disturbancereduces mineralization of organic matter and can result in largerstorage of soil organic carbon (SOC) relative to conventionaltillage. However, little is known about the persistence of SOCwhen no-till lands are plowed periodically. This study set outto determine the change in SOC when a long-term (22 yr) no-tillfield in southern Ontario, Canada, was plowed once. Four plotswere located within three textural classes [sandy loam (SL),sandy clay loam (SCL), and silty clay loam (SiCL)] within twohydrologic conditions (well- and poorly drained) in the field.The plots were sampled before and three times after (3 d, 7mo, and 18 mo) the no-till field was moldboard plowed. The singletillage event homogenized the SOC through the profile and reducedthe stratification. When calculated on an equivalent mass basisbeyond the plow depth, there was no significant change in SOC18 mo after plowing the SCL, SiCL, and SL high SOC plots. However,in the SL plot with low SOC, there was a loss of about 3 MgSOC ha^–1 after 18 mo, and the loss occurred primarilybetween the 15- and 30-cm depths in the profile. The loss mayhave accounted for as much as two-thirds of the SOC gained fromno-tillage. This study also emphasized the need for additionalcare to account for changes in bulk density when comparing thequantity of soil constituents, such as SOC, after plowing.

Abbreviations: SCL, sandy clay loam • SiCL, silty clay loam • SL, sandy loam • SOC, soil organic carbon • SLHC, sandy loam, high carbon • SLLC, sandy loam, low carbon

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				T. O. West, C. C. Brandt, B. S. Wilson, C. M. Hellwinckel, D. D. Tyler, G. Marland, D. G. De La Torre Ugarte, J. A. Larson, and R. G. Nelson Estimating Regional Changes in Soil Carbon with High Spatial Resolution Soil Sci. Soc. Am. J., January 25, 2008; 72(2): 285 - 294. [Abstract] [Full Text] [PDF]

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				A. S. Grandy, G. P. Robertson, and K. D. Thelen Do Productivity and Environmental Trade-offs Justify Periodically Cultivating No-till Cropping Systems? Agron. J., October 3, 2006; 98(6): 1377 - 1383. [Abstract] [Full Text] [PDF]

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				A. S. Grandy and G. P. Robertson Aggregation and Organic Matter Protection Following Tillage of a Previously Uncultivated Soil Soil Sci. Soc. Am. J., June 21, 2006; 70(4): 1398 - 1406. [Abstract] [Full Text] [PDF]

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