Moisture stress and high temperature effects on soybean yields

How soybeans respond to moisture stress and how yield is reduced by stress occurring at various growth stages.

Soybean yield losses are most likely to occur when moisture stress occurs during germination and reproduction. Inadequate soil moisture during germination causes uneven and spotty emergence. This is the reason why soybean agronomists recommend placing soybean seed into at least 0.5 inches of moist soil at planting. In 2012, fields that were planted in late April to early May produced more uniform stands and even crop canopies than fields planted in late May to early June as the soils were drier at this time.

Soybeans can tolerate moisture stress relatively well during the vegetative stages. Stress at this time reduces shoot growth, but not root growth. These conditions diminish water use by the plants and increase their ability to extract water from the soil.

Very high soil temperatures (90 degrees Fahrenheit) can cause decreased nodulation and nitrogen fixation to occur in soybeans. High soil temperatures are most likely to have occurred in later planted beans due to the reduced canopy cover and on coarse-textured soils. Producers can evaluate nodulation by digging up some plants and inspecting the nodules. Well-nodulated soybeans should have seven to 14 nodules on the tap root at flowering. Nodules that are actively fixing nitrogen will be pink to red when cut open. Research conducted at the University of Arkansas has shown that supplemental nitrogen applications to drought-stressed soybeans are not profitable.

At this time, most soybean fields are in the R2 (full bloom) growth stage. Soybean plants respond to drought in this growth stage by aborting flower blossoms and in severe cases, lower leaves are dropped. Flower production can occur for 30 to 40 days under good conditions. Moisture stress and high temperatures shorten the flowering period. A reduction in moisture stress any time during this period will enable the plants to produce and retain new blossoms to compensate for those aborted during R2.

During the R3 growth stage (one pod 3/16 inches long on the upper four nodes on the main stem having an unrolled leaf), drought-stressed soybean plants will abort both flowers and pods. Temperatures above 95 degrees Fahrenheit have been shown to significantly decrease pod set. Leaf loss can also occur in severely stressed plants. If the moisture stress ends, soybeans will produce new flowers and pods up to the R5 stage (beginning seed).

Soybean yield losses will be the greatest when moisture stress occurs between the middle of the R4 growth stage (beginning seed swell in any pod on the plant) and the middle of the R5 growth stage (full seed in any pod on the plant). Stress at this time reduces the number of pods per plant as the plants are no longer able to produce new blossoms and pods. This is the major source of the lost yield. However, the number of seeds per pod and the size of the seed can also be reduced at this time. Leaf loss will continue in severely stressed plants.

Moisture stress occurring at the R6 growth stage (one pod having green seed that completely fills the pod on one of the upper four nodes on the main stem having an unrolled leaf) is largely due to a reduction in seed size. A reduction in pod number per plant can occur, but is much less likely after R6. Stress occurring after the R7 growth stage (one normal pod on the main stem has reached its mature color) does not affect yield.

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. SMaRT is a partnership between MSU Extension and the Michigan Soybean Checkoff program.

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