Soybean growth stages begin with the emergence of cotyledons from the soil surface (VE). When the unifoliate leaves unfold, the plant has reached the VC stage. When the first trifoliate leaves are fully expanded, numbers are used to signify each vegetative (V) and reproductive (R) stage of growth. When the plant begins to set flowers, the growth stages become reproductive, and the plant progresses through pod development, seed development, and plant maturity. Vegetative growth stages begin to overlap reproductive stages at about R1. A new growth stage is established when 50% or more of the plants meet the requirements of the growth stage.
Determining Growth Stages in Soybeans
Figure 1. Soybean growth stages.
Soybeans are largely either indeterminate or determinate in growth habit. For indeterminate products, vegetative growth continues after flowering, and the rate of development is directly related to temperature. Determinate products generally complete vertical growth by the time flowering is completed.
Figure 2. Reproductive growth stages of soybeans.
Emergence (VE) Through First Trifoliate (V1)
After absorbing adequate moisture and depending on temperature, product, and planting depth, the primary root or radical emerges from a soybean seed and pulls the cotyledons with it to the soil surface (VE). Cotyledons supply the plant’s nutrient needs for 7 to 10 days after emergence. Loss of one cotyledon during this time has a limited effect on plant growth; however, loss of both cotyledons at or soon after VE may reduce yield potential 5 to 10%.1,2 Soon after the cotyledons are fully exposed, unifoliate leaves emerge at the second node and begin creating energy through photosynthesis (the VC stage). Development and full extension of the first trifoliate leaflets (node 3) establishes the V1 stage of growth, and with each fully developed trifoliate on the main stem, another V stage is established.
Figure 3. Emerging soybean (VE).
Second Trifoliate (V2)
During the V2 stage, the second trifoliate leaf is established, and root nodules begin to develop. Nitrogen (N) fixation by the plant begins to occur when plants reach 6 to 8 inches (15 to 20 cm) in height. As plants switch from soil-available N to fixed N, the plants may become yellowish. Lateral roots are developing rapidly in the top 6 inches (15 cm) of soil.
Third to Fifth Trifoliate (V3 to V5)
Axillary buds develop into flower clusters (racemes) in the top of the stem. Determinate varieties stop producing nodes on the main stem soon after the onset of flowering.3 For indeterminate varieties, the total number of nodes the plant can produce on the main stem is established at V5. Axillary buds that develop on an indeterminate soybean plant can help the plant recover from damage. This is typically the time that iron chlorosis deficiency symptoms become visible in impacted fields.
Sixth Trifoliate (V6)
Plants reach new growth stages about every 3 days, depending on environmental conditions. At the V6 stage, lateral roots should overlap across 30-inch rows or less. A 50% loss of leaves at this stage may reduce yield potential by about 3%.2
Beginning Bloom (R1)
The R1 stage is reached when there is one open flower at any node. Flowering begins on the third to sixth node, continues up and down the main stem, and eventually moves to the branches. Nodes on the main stem usually have at least one flower. Vertical roots as well as secondary roots and root hairs continue to grow rapidly until R4 or R5.
Full Bloom (R2)
An open flower develops at one of the top two nodes of the main stem. The plant has accumulated about 25% of its total dry weight and nutrients and about 50% of its mature height.2 Nitrogen fixation by root nodules is increasing rapidly. Loss of up to 50% of plant leaves from hail, insects, or disease at this stage may reduce yield potential by 6%.2
Beginning Pod (R3)
A pod on at least one of the upper four nodes is 3/16-inch (5 mm) long or longer. Heat or moisture stress at this stage can reduce pod numbers, seed number per pod, or seed size, which may reduce yield potential. The ability for soybean plants to recover from temporary stress decreases from R1 to R5.5. Favorable growing conditions during this period may result in greater pod number and increased yield potential.
Figure 4. A soybean plant flowering and forming pods.
Full Pod (R4)
Pods are growing rapidly, and seeds are developing. At least one ¾-inch (19 mm) long pod has developed on at least one of the four upper-most nodes. Stress during this period (and through R6) can cause more reduction in yield potential than at any other growth stage. Timely rainfall or irrigation may help reduce the potential for yield loss.
Beginning Seed (R5)
At least one 1/8-inch (3 mm) long seed is present in a pod at one of the four upper-most nodes. About half of the nutrients required for seed filling come from the plant’s vegetative parts and about half from N fixation and nutrient uptake by the roots. Nitrogen fixation peaks. Stress at this stage can reduce pod numbers, the number of seeds per pod, seed size, and yield potential. Plants attain maximum height, node number, and leaf area at this stage.
Figure 5. Beginning seed (R5).
Full Seed (R6)
This “green bean” stage marks the beginning of the full seed stage. At least one of the four upper nodes should have a pod with a green seed filling the pod cavity. Total pod weight peaks and leaves begin to yellow.
Figure 6. Green beans fill soybean pod.
Beginning Maturity (R7)
At least one normal pod on the main stem reaches its brown or tan mature colour. Seed dry matter begins to peak. Seeds and pods begin to lose green colour. Plants are safe from a killing frost. Yield potential may be reduced if pods are knocked from plants or pods shatter and drop seeds.
Figure 7. Soybeans at R7 growth stage.
Figure 8.Soybean pod and seeds changing to mature colour (R7).
Full Maturity (R8)
When at least 95% of the pods on a plant have reached their mature colour, the plant is fully mature. After the R8 stage has been reached typically 5 to 10 days of good drying weather are needed to obtain a harvest seed moisture content of less than 15%.
Figure 9.Fully mature soybean plant drying down.
Figure 10.Soybean pod and beans drying down.
1Rees, J., Specht, J., Elmore, R., Nygren, A., and Mueller, N. 2019. Considerations after crusted soybean. University of Nebraska-Lincoln.
22015. Soybean growth and development. University of Wisconsin-Madison. http://corn.agronomy.wisc.edu/Crops/Soybean/L004.aspx.
3Purcell, L.C., Montserrat, S., and Ashlock, L. 2014. Soybean growth and development. Arkansas Soybean Production Handbook, Chapter 2.
Kandel, H. and Endres, G. 2019. Soybean production field guide for North Dakota. North Dakota State University. A1172.
Web sources verified February 2, 2022.
Performance may vary from location to location and from year to year, as local growing, soil and weather conditions may vary. Growers should evaluate data from multiple locations and years whenever possible and should consider the impacts of these conditions on the grower’s fields.
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