Replant or leave it? Considerations for assessing the need to replant a soybean field.

ANDRE FROES de BORJA REIS

COLUMBIA, MISSOURI

Regardless of the reason for poor soybean stands, the replanting decision should be based more on the plant stand uniformity and the difference between the target and achieved stand. Not solely on the plant population.

Poor soybean stands may perform satisfactory yields without replanting. However, it will depend on the growing conditions during the late vegetative and reproductive stages. High-yield environments are less affected by the initial stand than low-yield environments.

Replanting is, above all, a risk management decision. Is it economically better to keep the failed stand or fully/partially replant it with a lower yield potential?

Soybean seeds have a remarkable capacity to germinate and emerge in a relatively wide range of environmental conditions. The reasons for that are the same that makes soybeans the third most planted agricultural commodity on the earth: The massive energy and nutrients packed in the seed cotyledons as oil and protein. As long as the storage tissues are kept alive and attached to the embryo axis, the seedling will require only water, oxygen, and temperature to develop a new plant.

To begin germination, soybean seeds must absorb approximately their volume in water. Once the process starts, the soil water tension must range between field capacity and no less than =250kPa. Water tensions above field capacity will likely damage seedlings due to lack of oxygen, and below -250kPa water will move from the seed tissue back to the soil, dehydrating the seed and halting the emergence process. The soil tension permanently wilting seeds is often observed to be less dry than the permanent wilting points of fully functional plants (-1500kPa). The seed tegument, hypocotyl, and radicle are inefficient structures to impose a physical barrier and mediate water transfer back to the environment as opposed to plant leaves. Seed vigor and viability will likely reduce when soil tension varies largely during germination and emergence, decreasing the initial plant population and stand uniformity across the field.

Regardless of the reason, when the initial plant population varies significantly from the targeted seed population, partially or entirely re-planting the field may be necessary. However, aspects such as the plant stand, growth characteristics of the variety, and yield potential should be evaluated.

Modern soybean varieties can produce higher yields with a population of as little as 50,000 plants per acre at harvest in southern regions or 75,000 in northern regions (Gaspar & Conley, 2015). Soybean has a staggering ability to compensate for low plant stands as long the environment does not impose additional stresses. The soybean crop plasticity is primarily attributed to the development of axillary branching during vegetative growth and to the excess production of reproductive nodes. When assessing whether replanting is necessary for a field with a low population, the sole fact of a substantially lower initial stand does not justify the replanting decision.

A critical aspect to consider is distribution uniformity. Plants are influenced mostly by their adjacent neighbors and not the total number of plants in a given acre. Uneven plant stand imposes detrimental competitiveness for light and nutrients when plants are excessively close while not compensating when they are too far apart. The yield may be further penalized due to non-uniform stands under low-yield environments and low populations.

Stand uniformity can be evaluated by measuring plant distances in several representative 6-foot segments within the field. If the standard deviation (SD) of the distance between plants (i.e., how far each plant distance lies from the mean) is 4 inches or greater, the predicted yield loss can reach up to 30 bushels per acre (Pereyra et al., 2022).

One could argue that low plant populations (<100K plants/acre) are more likely to have greater SD between plants than high populations (>120K plants/acre). This is precisely true. Under normal conditions, higher populations do not require a precise seed distribution. A method for normalizing the effect of different target populations is the ratio between the observed distance and the targeted distance between plants within the 6-foot segments. If this ratio SD is greater than 1, it is unlikely to reach yields above 40 bushels per acre in low-yield environments (Pereyra et al., 2022).

Understanding the yield environment is crucial to deciding to replant. As mentioned above, the mechanism of compensating stand gaps is based on branching and pod setting. Branching happens during vegetative development and requires adequate biological nitrogen fixation, intense solar radiation, and the absence of drought stress. A short vegetative period due to inadequate maturity by planting date interaction will unlikely result in satisfactory branching.

Branching is also associated with the variety characteristics, although modern varieties have great branching ability in low plant populations (Suhre et al., 2014). Pod setting promotes stand compensation by regulating pods per square foot. Higher pod settings are negatively associated with heat stress, drought stress, and excessively overcasting radiation.

Predicting what weather conditions will take place later in the season by the time of deciding to replant is an unearthly task. However, considering the previous results of a particular area may give a shred of better evidence. Modest historical yield and erratic performance indicate a better chance of the replanting paying off.

Replanting is restarting the race, but behind in the grid. If the replanting date is within April or early May due to adverse conditions of a super early planting date, the loss of the yield potential may be marginal. However, if the replanting date occurs after late May and June, the reduced yield potential may be lower than the field you are trying to fix. A recent analysis revisiting the Soybean Variety Testing legacy data suggested an average yield loss of 3.5 bushels per week of delayed planting date after May 15th across all Missouri production environments, and Justin Calhoun estimated 2.6 bushels per week in the southern region (MU extension seminar). On top of the potential yield loss, the grower should also account for extra seeds and replanting costs. Replanting a soybean field is a situation that nobody likes to encounter. An overall assessment of the likelihood of a stand recovery and the implications of a late planting date helps to make the best decision. ∆

Andre Froes de Borja ReisUniversity of Missouri

 

 

MidAmerica Farm Publications, Inc
Powered by Maximum Impact Development