Title

Selected Management Factors for Economically Increasing Soybean Yield

(A1718, Revised December 2023)
Summary

Fluctuating weather, with varied rainfall amounts and stored soil moisture levels, requires soybean growers to make careful decisions on the variety selection, tillage system, fertility management, seedbed preparation, weed control strategies, crop rotations and soybean pest management practices.

Opportunities exist for farmers to increase soybean yield and profitability by improving plant establishment practices. Also, numerous special inputs that may add to soybean profits are being marketed.

A study was conducted by NDSU with selected intensive management practices and inputs to examine potential increases in yield and profit.

Lead Author
Lead Author:
Greg Endres, Extension Cropping Systems Specialist, Carrington Research Extension Center
Other Authors

Hans Kandel, Professor Emeritus, Fargo

Other researchers contributing to this study include: Carrington Research Extension Center – Blaine Schatz, Mike Ostlie and Steve Metzger; Fargo/Prosper – Chad Deplazes and Sam Markell

Availability
Availability:
Web only
Publication Sections

Materials and Methods

Nine research trials were conducted during a four year period at the NDSU Carrington Research Extension Center and research sites in

Figure 3
Photo Credit:
NDSU Photo

 Prosper and Fargo to examine inputs that potentially could increase soybean seed yield and profitability. The trials at Carrington were conducted on dryland conditions during year one and under irrigation during the entire study period. Trials were conducted at Prosper during year two and three, and in untiled and tiled environments at Fargo during the fourth year of the study.

The agronomic response of early and late-maturing varieties was examined using the production factors of planting rates, row spacings and special foliar inputs. Two Roundup Ready varieties, with maturity group ranges of 0.0 to 0.2 and 0.6 to 0.8, were planted each year (Table 1). Also, two planting dates were examined at Carrington in year one.

Planting rates were 150,000 and 200,000 pure live seeds (pls)/acre. Row spacings were 14 and 28 inches. Special foliar inputs included: 1) TJ Technologies micronutrient mix “Sunflower/Canola/Soybean” at 48 fluid ounces (fl oz)/acre plus Novozyme LCO Promoter (experimental product used in the first year and “Ratchet” at 4 fl oz/acre during the rest of the study) during second- to third-trifoliate (V2 to V3) growth stages and 2) BASF fungicide “Headline” at 6 fl oz/acre + NIS at 0.125% volume/volume during flowering to early pod development (R2 to R3) growth stages.

Best management practices were used for soybean production during the study. Seed was inoculated with Bradyrhizobium japonicum.

Results and Discussion

The study’s average early season (two to four weeks after planting) established soybean plant density was 130,500 plants/acre with the planting rate of 150,000 pls/acre and 163,800 plants/acre with 200,000 pls/acre (Table 2). The percentage of established plants compared with planting rate was 87% with the low planting rate and 82% with the high planting rate.

Table 3 indicates soybean seed yield with row spacings, planting rates and special foliar inputs for each trial. Averaged across the nine trials, the study indicates the following yield advantages:

  • 1.4 bushels (bu)/acre with 14-inch versus 28-inch rows
  • 1.4 bu/acre with planting 200,000 pls/acre versus 150,000 pls/acre
  • 2.2 bu/acre with special foliar inputs versus untreated check
Figure 1
Photo Credit:
NDSU Photo
Fourteen-inch rows and two varieties, Carrington, during year two of the study.

Assumptions used for determining net revenue after costs of research factors include $10/bu soybean market price; no difference in costs between row spacings; 30 cents/1,000 seeds with 10% additional seed used to reach desired pls/acre; total cost of $32/acre for special foliar inputs plus $5/acre for a field application cost. Averaged across the nine trials, the study indicates the following revenue advantages:

  • $14/acre with 14-inch vs. 28-inch rows
  • $3/acre with the low vs. high planting rate
  • $15/acre without special foliar inputs

The Fargo research site compared soybean performance with tiled and untiled conditions using controlled drainage structures (Table 4).

Early vigor was slightly greater, plants were taller and iron chlorosis expression was slightly lower in the tiled treatment. Seed yield with tiled was 13% higher than untiled yield.

Soybean yield was 2.6 bu/acre (5%) greater with the later maturity group (50.5 bu/acre), compared with the early maturity group (47.9 bu/acre). The highest yield with the combination of maturity groups and row spacing was with the later-maturing varieties grown in 14-inch rows (Table 5).

Figure 2
Photo Credit:
NDSU Photo
14-inch rows (left) and 28-inch rows (right) at 150,000 pls/A in late July during year two of the study at Prosper.

Table 6 displays average date of canopy closure, lowest pod height, and yield with row spacing and planting rates.

Averaged across seven trials, canopy closure with 14-inch rows was 35 days earlier, compared with 28-inch rows. The early canopy closure with the narrow rows provided the opportunity for increased capture of sunlight, increased crop competitiveness with weeds, decreased soil moisture loss from evaporation and ultimately yield increase, compared with the wide rows.

Canopy closure occurred sooner with 14-inch rows but was similar between planting rates. Pod height generally increased slightly with the high planting rate. Yield was highest with 14-inch rows and the high planting rate.

Soybean yield and net revenue after costs of research factors with the combination of row spacing, planting rates and special foliar inputs are listed in Table 7. The highest yield was obtained with foliar inputs in 14-inch rows at both planting rates and in 28-inch rows at the high planting rate. However, the combination of 14-inch rows and 150,000 pls/acre planting rate without foliar inputs provided the highest net revenue.

Table 1. Varieties and planting dates in soybean intensive management study, North Dakota, during the four year study.

TrialSoybean Variety   
Maturity Planting Date
earlylate 1st2nd
Carrington year one – drylandDSR0401NKS08C3 May 16May 24
Carrington year one – irrigatedDSR0401NKS08C3 May 16May 24
Carrington year two – irrigatedRT0268RT0669 May 22x
Prosper year twoRT0268RT0669 May 28x
Carrington year three – irrigatedPFS1000PFS0806 May 14x
Prosper year threePFS1000PFS0806 May 20x
Carrington year four – irrigatedPFS1002DSR0747R2Y May 23x
Fargo year four – untiledPFS1002DSR0747R2Y May 19x
Fargo year four – tiledPFS1002DSR0747R2Y May 19x

Table 2. Planting rate and established stand in soybean intensive management study, North Dakota, during the four year study.

Maturity GroupPlanting Rate (pls/acre)
150,000200,000
 ————— plants/acre1 —————
1 Different letters in the same row indicate statistical differences (LSD=0.05).
Carrington year one – dryland143,500b163,100a
Carrington year one – irrigated141,700b182,300a
Carrington year two – irrigated151,800b194,200a
Prosper year two119,000b155,600a
Carrington year three – irrigated132,900b167,200a
Prosper year three137,200b177,900a
Carrington year four – irrigated147,700b182,600a
Fargo year four – untiled94,100b119,200a
Fargo year four – tiled103,400b135,200a
Study average130,500b163,800a

Table 3. Yield and net return with main factors in soybean intensive management study, North Dakota, during the four year study.

TrialYield (bu/acre)1
Row Spacing (inches) Planting Rate (pls/acre) Special Foliar Inputs
1428 150,000200,000 YesNo

1 ’a’ indicates mean within a factor is statistically significant (LSD=0.05) by trial and study average.

2 Assumptions: $10/bu soybean market price; seed costs:
$0.30/1,000 seeds; $5/acre field application cost; $32/acre special foliar input cost.

Carrington year one – dryland36.9a35.5 36.236.2 37.1a35.4
Carrington year one – irrigated42.742.0 41.942.7 43.6a41.0
Carrington year two – irrigated48.348.2 46.550.0 48.847.7
Prosper year two53.853.7 55.551.9 54.752.8
Carrington year three – irrigated63.962.5 62.563.9 64.7a61.7
Prosper year three55.254.5 53.656.0 55.754.0
Carrington year four – irrigated52.4a48.1 49.650.9 51.5a49.0
Fargo year four – untiled44.542.5 41.345.7a 44.742.4
Fargo year four – tiled51.549.9 48.652.8a 52.049.4
Study average49.9a48.5 48.549.9a 50.3a48.1
Net revenue/acre2$499$485 $435$432 $466$481

Table 4. Response to tile versus nontile environments in soybean intensive management study, North Dakota, Fargo, during year four.

Drainage1Plant
Vigor2HeightIDC3Yield
 (1-9)(inch)(1-5)(bu/acre)4

1 Two environements: tiled and untiled in Fargo.

2 Early season vigor; 1 = least vigorous and
9 = most vigorous.

3 IDC = Iron Chlorosis Deficiency symptoms;
1 = tissue green and 5 = tissue yellow/brown.
Scoring conducted on June 30.

4 Different letters in the same column indicate statistical differences (LSD=0.05).

Tiled5.5a27.5a2.6b50.7a
Untiled4.9b23.6b2.9a43.9b

Table 5. Yield with maturity groups and row spacing in soybean intensive management study, North Dakota, averaged over the four year study period.

Maturity GroupRow SpacingYield
 (inches)(bu/acre)1
1 Letters indicate statistical differences (LSD = 0.05).
0.6-0.81451.7a
0.6-0.82849.4b
0.0-0.21448.1c
0.0-0.22847.7c

Table 6. Response to row spacing and planting rate in soybean intensive management study, North Dakota, averaged over the four year study period.

Row SpacingPlanting RateCanopy ClosureLowest Pod Height2Yield
(inches)(pls/acre)(day of the year)1(cm)(bu/acre)3

1 Seven environments (no data recorded for Fargo).

2 Six environments (no data recorded for Prosper in year two and Fargo).

3 Different letters in the same column indicate statistical differences (LSD=0.05).

14150,000205a5.8ab49.3b
14200,000205a6.2a50.5a
28150,000241b5.4b47.8c
28200,000239b6.1a49.3b

Table 7. Yield and net revenue with three factor interactions in soybean intensive management study, North Dakota, averaged over the four year study period.

Row SpacingPlanting RateSpecial Foliar InputsYieldNet Revenue After Costs of Research Factors/Acre2
(inches)(pls/acre) (bu/acre)1($)

1 Different letters in the yield column indicate statistical differences (LSD = 0.05).

2 Assumptions: $10/bu soybean market price; seed costs:
$0.30/1,000 seeds; $5/acre field application cost; $32/acre special foliar input cost.

14150,000yes50.2ab465
14150,000no48.4c484
14200,000yes51.7a463
14200,000no49.3bc476
28150,000yes48.9bc452
28150,000no46.7d467
28200,000yes50.4ab450
28200,000no48.2cd465

Summary

  • Soybean yield increased with 14-inch versus 28-inch rows, 200,000 versus 150,000 pls/acre planting rate and special foliar inputs. The narrow rows also had higher net revenue than 28-inch rows. However, the low planting rate and no foliar inputs provided higher net revenue after costs of research factors versus the alternative choice for each factor.
  • While several combinations of the three main factors in the study provided high yields, the combination of 14-inch rows and the 150,000 pls/acre planting rate without foliar inputs provided the highest net revenue after costs of research factors.
  • While using pure live seed as a basis for reaching a targeted plant population is recommended, also consider that an additional 10% to 20% seedling loss can occur between planting and emergence.
  • Management strategies that reduce the time required from planting to canopy closure will increase yield potential. This study indicated that canopy closure with narrow rows occurred more than a month earlier than with wide rows.

Researched with support from the ND Soybean Council

ND Soybean Council

 

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