Tillage Intensity and Tillage-Induced CO<sub>2</sub> Loss
2004
Jóri, István J.
Field experiments were done to measure the effect of different primary tillage methods on the CO<sub>2</sub> flux from soil and to evaluate the effect of conservation tillage tools on short-term CO<sub>2</sub> emissions. The experiments were conducted on a clay loam soil winter wheat field and a corn field. The three tillage treatments included stubble mulching (disc harrow, mulch tiller, chisel plough), primary tillage (disc harrow, moldboard plough, and chisel plough) and secondary tillage (combined seedbed maker). The control treatment was no-till with soil and residues left by the harvester. The CO<sub>2</sub> flux from the tilled soil surface was measured by a portable closed-chamber tester. Moldboard ploughing produced the roughest soil surface and the highest initial CO<sub>2</sub> flux and maintained the highest flux throughout the experiment. The moldboard ploughing caused higher CO<sub>2</sub> loss than less intensive tillage such as chisel ploughing, mulch cultivating, or disc harrowing. Primary tillage caused higher CO<sub>2</sub> emission in the fall than seedbed preparation did in the spring. These results support increased use of new and improved forms of conservation tillage equipment and offer a significant potential for preserving or increasing soil C levels while decreasing carbon dioxide emissions.
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