- PRODUCTION -
Bed Height, Longevity Yield Study
Non-irrigated, no-till study began in the fall of 2005, using a controlled traffic system to evaluate the life expectancy of different bed heights and the effect on yields.
|By Normie Buehring
Kansas State University research also has shown old crop residue cover reduced evapotranspiration by 14 percent, saved 3 to 3.5 inches of irrigation water and reduced pumping costs by $25 per acre.
These crop residues also contain valuable fertilizer phosphate (P) and potash (K) nutrients. Corn stover residue from a 175-bushels-per-acre corn yield is estimated to contain 22 pounds per acre of phosphate (P205) and 183 pounds per acre of potash (K2O). With a value of $700/ton for phosphate (0-46-0) and $500/ton for potash (0-0-60), the total fertilizer replacement cost is equivalent to $92 per acre.
Research by USDA-ARS at Auburn University also has shown that controlled traffic systems, where machinery wheels always run between the rows, can reduce soil compaction in a range from 90 to 30 percent.
Yield response and bed height
A non-irrigated study was initiated in the fall of 2005 to evaluate no-till production on old beds in a controlled traffic system and to determine the life expectancy of different bed heights with no-till production. This study was conducted on a Leeper silty clay loam soil with 0.15 percent slope.
The tillage systems were fall coulter-bed-roller (5 to 6-, 8 to 9-, and 10 to 11-inch bed heights) applied only in the fall of 2005 and every fall; and Paratill (10 to 12-inch depth under the row tillage) followed by a coulter-bed-roller (8 to 9-inch bed height) applied only in the fall of 2005, every fall and every two years.
All of the treatments, except the Paratill followed by coulter-bed-roller (8 to 9-inch bed height) treatments were a one-pass tillage system. After harvest, no corn stalks were mowed on all treatments. A coulter was mounted in front of each 12-inch buster sweep to cut through the crop residue. No-till production was used on all 2005 bed treatments.
For more uniform planting depth and soil warm-up, the planter was equipped with trash wheels to move the residue from the row. The soybeans were in an every-other-year-rotation with corn that had the same tillage production systems.
Soybeans showed less yield response differences to the raised beds than corn. However, the five-year (2006-2010) analysis indicated that the yields for the continuous no-till production on the five to six-inch beds (formed the fall of 2005) were 45 and 47 bushels per acre, respectively.
These yields were lower than the 8 to 9- and 10 to 11-inch beds formed in 2005, the annual fall coulter-bed-roller (5 to 6-, 8 to 9-, and 10 to 11-inch bed height) treatments, and the annual fall Paratill followed by coulter-bed-roller treatment.
The annual fall and every two-year fall Paratill followed by coulter-bed-roller treatment yields were not different from the annual fall coulter-bed-roller, 8- to 9-inch bed height treatment. Also noted were that plant height at maturity for the 5- to 6-inch beds (formed fall of 2005) and continuous no-till were one to two inches shorter than all of the other treatments.
Good for five years
These results suggest a minimum bed height of about four inches is necessary to maximize yield. Results also indicated that the no-till soybean production systems in a controlled traffic system, on the 8- to 9-inch bed height (formed in 2005), no-till soybean production systems can be used for at least five years without a yield loss.
When P and K fertilizers are needed, fall application with moist or dry soil conditions is essential to avoid soil compaction. A coulter placed in front of the buster also is essential when bedding to keep the crop residue from plugging the bedder. The roller on the bedder implement flattens, firms and smooths the bed.
During the planting operation, trash wheels are essential to remove old crop residue from the row. To facilitate better water movement through the field with furrow irrigation, the row middles may need to be swept to remove the old crop residue.
Dr. Normie Buehring is a Mississippi State University agronomist at the North Mississippi Research and Extension Center in Verona.