Deep Tillage May Be of Value in Ohio

March 26, 2002

COLUMBUS, Ohio - Deep tillage, also known as subsoiling, may be beneficial in alleviating soil compaction and improving crop yields.

A culmination of 10 years of Ohio State University research on subsoiling has shown that certain soil types benefit from deep loosening, extending the benefits of tillage over time and increasing corn and soybean yields an average of 4-5 percent each year.

"The main factor is the soil type. Not all soils are equally susceptible to compaction, and hence, not all soils will benefit from deep tillage," said Randall Reeder, an Ohio State Extension agricultural engineer. "Research on some soils in other states has shown no yield improvement." Researchers found that silty clay loam, most commonly found in northwest Ohio, responded the best to deep tillage. Reeder said the soil type tends to "compact naturally" creating drainage problems that are only compounded with additional compaction from heavy machinery.

"Probably 10 percent of the corn and soybeans grown in Ohio are planted in this type of soil," said Reeder.

The researchers intentionally compacted silty clay loam during the course of their 10-year trials with a 20-ton axle load to measure the effects of subsoiling on yield increases. "We saw benefits on the silty clay loam the first year of subsoiling and the benefits continued two years after tillage in areas not trafficked," said Reeder. "The biggest surprise was that subsoiling increased yields on soil that had never been abused by heavy machinery." Subsoiling is a practice that breaks up soil, usually 12-18 inches deep, to allow increased water movement, better aeration of the roots and access to additional minerals and nutrients for plant growth. By comparison, conventional tillage breaks up the soil 6-8 inches below the surface, and in areas of heavy compaction, such a practice is not adequate.

"In some situations, fields develop a plow pan, a layer of tight soil that acts like plastic that prevents water from getting down to the roots below that six inches of soil," said Reeder. "So the surface of the soil stays wet and below that plow pan it's dry. As a result, the roots tend to tunnel sideways and when the soil surface dries out later in the season the roots dry out as well and there's damage to the crop." Like other production practices, subsoiling has its advantages and disadvantages. One of its attractive features is the ability for a farmer to practice no-till, a popular conservation practice whereby residue from the previous year's harvest remains on the surface and the following season's crop is planted directly into it. No-till conserves and improves water quality and stores more carbon in the soil than tilled land. Hence it improves soil quality and helps reduce carbon inputs to the atmosphere that are thought to be the cause of global warming.

Low-disturbance subsoiling equipment is capable of breaking up deep soil while leaving surface residue virtually untouched, affording the farmer the benefits of both deep tillage and no-till.

"Subsoiling is normally a very aggressive tillage operation, designed to break up the soil and mix the residue in with the soil," said Reeder. "But some machines are equipped with more narrow shanks that break up very little of the soil. They just tend to raise the soil and drop it back down. You have to look close to tell where the machine has run." A disadvantage of subsoiling is the increased horsepower that is needed to reach extreme soil depths, raising production costs for the farmer. In addition, heavier machinery just re-compacts the soil in areas that are not traffic-controlled, negating the long-term benefits of tillage.

"This is a situation where subsoiling would benefit the farmer more if controlled traffic was practiced," said Reeder. Controlled traffic involves keeping all farming equipment uniform in width, decreasing the surface area in the field that is impacted by heavily loaded tires or tracks.

"If a field is subsoiled in the fall, and a year and a half later when the second crop is ready to come up, 60-80 percent of the field may be re-compacted if there is random traffic," said Reeder. "But if a farmer practices controlled traffic, other than where the tires run, the soil is untouched and the benefits of tillage with that soil, which includes all the soil under the crop rows, could last three or four years, at least." That could mean thousands of dollars gained from increased yields for the farmer each year.

"I don't think farmers realize how much compaction is costing them," said Reeder. Based on Ohio State research on Hoytville soil, compaction was leaving10-15 percent yield potential in the field. For a corn crop that translates into $30,000-$45,000 lost, based on a150 bushel-per-acre harvest at $2 per bushel for 1,000 acres.

Author(s): 
Candace Pollock
Source(s): 
Randall Reeder