Harvesting, handling and storing frost-damaged soybeans
The late planting season has increased the potential for frost damage to occur this fall. Learn how to reduce the adverse impacts of soybean fields damaged by frost.
September 15, 2011 - Author: Mike Staton, Michigan State University Extension
Frost-damaged soybeans are generally considered salvageable as long as the plants reached the R6 growth stage at the time the killing frost occurred. The R6 growth stage occurs when the beans completely fill one pod at one of the upper four nodes on the main stem on 50 percent of the plants in the field. In dense, green soybeans, frost or freeze damage kills the upper leaves, but rarely penetrates deeply into the canopy when temperatures remain above 30°F. However, once the upper leaves have been damaged, subsequent freeze events will penetrate deeper into the canopy. Once the plants reach the R7 growth stage, yield reductions due to frost or freeze injury will be minor. The R7 growth stage occurs when one pod on the main stem has attained its mature color on 50 percent of the plants in the field.
Frost-damaged beans will probably be wetter than normal and more difficult to thresh. Your first step in adjusting for this condition is to reduce the concave clearance. If acceptable threshing still does not occur, increase the speed of the cylinder. Make incremental adjustments and check your progress after each adjustment.
Harvest at higher moisture contents
Soybeans that experienced severe frost or freeze damage extending well into the crop canopy will dry down slowly. In this case, producers should avoid significant harvest delays by harvesting frost-damaged fields at moisture levels between 16 and 18 percent. Data from the University of Wisconsin showed that shatter losses of 0.2 bushels per acre per day occur after the beans reach 16 to 18 percent moisture.
The beans will need to be dried to a safe moisture level for storage (12 percent for six months). Electronic moisture meters tend to underestimate the moisture levels in green and immature soybeans, so remember to add 1.5 percentage points to the moisture meter readings when testing mixtures of green, immature and mature beans and adjust drying times accordingly. In fields where only the upper leaves were damaged by frost, producers should wait and allow the beans to mature and dry to 14 to 15 percent in the field if possible.
Drying frost-damaged soybeans with ambient air
If only two to three points of moisture need to be removed, the air temperature is above 60°F and below 75 percent relative humidity, no supplemental heat is required in drying bins equipped with full perforated floors and fans capable of producing one to two cfm/bu. However, drying will occur slowly. Drying times depend on initial moisture content, air flow, grain depth and weather conditions. Aeration fans should be ran continuously as long as the beans are above 15 percent moisture and the average humidity of the air is below 70 to 75 percent.
Drying frost-damaged soybeans with supplemental heat
If you plan to add supplemental heat, be careful as soybeans are more fragile than corn and can be damaged by drying temperatures above 130°F. These temperatures will cause excessive seed coat cracking and split beans. The relative humidity of the drying air should always be maintained above 40 percent to protect the integrity of the seed coats and prevent splits. Growers can control the heat and humidity of the drying air by using short burner cycles or by changing the burner jets.
Store frost-damaged beans
Green and immature soybeans are included in the total damage factor in the United States soybean grading standard. Elevators will discount loads containing green and immature soybeans and, in some cases, may reject entire loads if the damage levels are high. Discounts can be reduced by screening out the small beans, drying the rest to 12 percent moisture and storing them in aerated bins for at least six weeks. The green color may fade and marketing concerns should be reduced after this amount of time.
This article was produced by the SMaRT project (Soybean Management and Research Technology). The SMaRT project was developed to help Michigan producers increase soybean yields and farm profitability. Funding for the SMaRT project is provided by MSU Extension and the Michigan Soybean Checkoff program.