Evaluation Procedures
Seed Fungicide & Insecticide and Technology Traits

Hybrid perfomance in Southwestern/West Central/Central Ohio.

Hybrid perfomance in Northwestern Ohio.

Hybrid perfomance in North Central and Northeastern Ohio.

Combined Regional Summary of hybrid performance.

Performance of hybrids in Coshocton Ohio.

Seed source of hybrids.

Entry Forms

Handy Bt Trait Table

Selecting Corn Hybrids for 2018

Archive

Ohio Crop Performance Trials

2009 Ohio Corn Performance Test

R.J. Minyo Jr.1,  A.B. Geyer1, P.R. Thomison1, B.L. Bishop2, and D.G. Lohnes2

Ohio Corn Performance Test, 1Department of Horticulture and Crop Science and 2Computing & Statistical Services, The Ohio State University, Ohio Agricultural Research and Development Center.


TEST LOCATIONS

Ohio map

The purpose of the Ohio Corn Performance Test is to evaluate corn hybrids for yield, grain quality, and other important agronomic characteristics. Results of the test can assist farmers in selecting hybrids best suited to their farming operations and production environments. Corn hybrids differ considerably in yield potential, standability, maturity, and other agronomic characteristics that affect profitable crop production. Hybrid selection should be based on proven performance from multiple test locations and years. The presentation of data does not imply endorsement of any hybrid by The Ohio State University.

EVALUATION PROCEDURES

Seed companies marketing corn hybrids in Ohio were invited to enter hybrids in the test. An entry fee was charged to cover expenses. Companies were permitted to enter an unlimited number of hybrids. Ten sites were available for hybrid evaluation. Testing was available in three regions of Ohio (Southwestern and West Central; Northwestern; North Central and Northeastern). Companies were required to enter a hybrid in three sites within a testing region. Testing was also conducted at Coshocton (east central Ohio) in an area of high gray leaf spot incidence. Evaluation techniques for hybrids at this location were similar to those used in the regional testing program. Each hybrid entry in the regional trials is evaluated using three replications per site in a randomized complete block design. In the regional tests, hybrids were planted either in an early or full season maturity trial based on relative maturity information provided by the companies. In the Southwestern and West Central region, the relative maturity of hybrid entries in the early maturity trial was 110 days or earlier; the relative maturity of hybrid entries in the full season trial was 111 days or later. In the Northwestern and North Central and Northeastern regions, the relative maturity of hybrid entries in the early maturity trial was 108 days or earlier; the relative maturity of hybrid entries in the full season trial was 109 days or later. At Coshocton, four replications were used and hybrids were not evaluated separately by maturity.

Hybrids were planted with a commercial type planter adapted for plot planting. Each plot consisted of four 30-inch rows approximately 25 feet long. Force 3G soil insecticide was applied in a T-band to all plots. Seed corn producers selected a final stand and percent overplant for each hybrid entered. Fertilizer, herbicides and insecticides were applied according to recommended cultural practices for obtaining optimum grain yields. Details concerning the establishment and management of each 2009 test are listed in footnotes below the tables.

SITE INFORMATION

SITE BUCYRUS WOOSTER BELOIT
SOIL TYPE BLOUNT SILT LOAM CANFIELD SILT LOAM FITCHVILLE SILT LOAM
SOIL TEST (pH,P,K) 6.1,72,399 5.8,121,363 6.4,47,511
PREVIOUS CROP SOYBEANS SOYBEANS SOYBEANS
PLANTING /HARVEST DATES MAY 13 / NOV 18 MAY 18 / NOV 10 MAY 15 / NOV 12
TILLAGE STALE SEED BED MINIMUM TILL NO TILL
FERTILIZER  (N,P,K) 180,40,40 200,40,40 195,75,40
COOPERATOR CRAWFORD CNTY EXTENSION LYNN AULT, OARDC B & B FARMS
COUNTY CRAWFORD WAYNE MAHONING
     
SITE VAN WERT HOYTVILLE UPPER SANDUSKY
SOIL TYPE HOYTVILLE CLAY HOYTVILLE CLAY BLOUNT SILT LOAM
SOIL TEST (pH,P,K) 5.6,162,580 5.4,102,475 5.5,128,513
PREVIOUS CROP SOYBEANS SOYBEANS SOYBEANS
PLANTING /HARVEST DATES MAY 19 / NOV 2 MAY 11 / NOV 3 MAY 19 / NOV 9
TILLAGE STALE SEEDBED STALE SEEDBED MINIMUM TILL
FERTILIZER  (N,P,K) 210,40,40 210,40,40 200,40,40
COOPERATOR VAN WERT EXTENSION MATT DAVIS,  OARDC LARRY ROSS FARM
COUNTY VAN WERT WOOD WYANDOT
     
SITE SOUTH CHARLESTON WASHINGTON C.H. COSHOCTON
SOIL TYPE KOKOMO SILT LOAM PEWAMO SILT LOAM NEWARK/LANDES SANDY LOAM
SOIL TEST (pH,P,K) 6.2,83,393 6.5,97,425 6.7,80,204
PREVIOUS CROP SOYBEANS SOYBEANS SOYBEANS
PLANTING /HARVEST DATES MAY 5 / NOV 5 MAY 6 / NOV 4 MAY 13 / NOV 13
TILLAGE STALE SEEDBED CONVENTIONAL CONVENTIONAL
FERTILIZER  (N,P,K) 220,40,40 220,80,120 200,40,40
COOPERATOR CLARENCE RENK, OARDC SOLLARS FARM RIVERVIEW FFA
COUNTY CLARK FAYETTE COSHOCTON
     
SITE GREENVILLE    
SOIL TYPE KOKOMO SILT LOAM    
SOIL TEST (pH,P,K) 6.1,113,454  
PREVIOUS CROP WHEAT    
PLANTING /HARVEST DATES MAY 22 / NOV 6    
TILLAGE NO TILL    
FERTILIZER  (N,P,K) 195,92,100    
COOPERATOR STUMP FARMS    
COUNTY DARKE    

MEASUREMENTS AND RECORDS

YIELD. The center two rows of each plot were harvested with a self propelled two row picker sheller combine. Yields were reported as bushels of grain per acre (BU/A) at 15.5 percent moisture.

MOISTURE (HARV MST). A grain moisture determination was made from each plot with an electrical conductance moisture meter. Grain moisture was reported as percent grain moisture.

LODGING (STK LDG). The number of broken stalks in each plot was determined just prior to harvest. Only those plants with a stalk broken below the ear were considered stalk lodged. Stalk lodging was reported as a percentage of final plant stand.

FINAL STAND (FINAL STD). Seed corn producers selected a desired planting rate for each hybrid entered. Differences between the planting rate and the final stand may be attributed to seed quality and/or environmental conditions present. Populations were reported in hundreds (100/A) per acre.

EMERGENCE (EMG). An emergence count was made on each plot after plant emergence. The emergence percentage was computed based on the number of plants and the number of kernels planted, and was reported as a percentage of the kernels planted.

MID SILK (SILK). The mid silk date is the Julian day of the year in which 50% of the plants show silks at one site in a region.

TEST WEIGHT (TW). Test weights were recorded in pounds per bushel on grain samples at field moisture. The results are an average of all three sites in the regional tests.

PROTEIN OIL STARCH (PROT OIL STARCH). An analysis for crude protein, oil, and starch was performed on dried samples using a near infrared transmittance whole grain analyzer. Results are reported as percent protein, oil, and starch content at 15.0 percent grain moisture. At the time this publication went to press, grain protein, oil, and starch analyses were not completed. When the results are available, they will be posted online at http://www.oardc.ohio-state.edu/corntrials/ and http://agcrops.osu.edu/~perf/.

LSD 0.05. Least Significant Differences at probability level 0.05 (LSD 0.05) are reported for yield and other agronomic characteristics. Differences between hybrids are significant only if they are equal to or greater than the LSD value. If a given hybrid out yields another hybrid by as much or more than the LSD value, then we are 95% confident (i.e. the odds are 19:1) that the yield difference is real, with only a 5% probability that the difference is due to chance variation (such as soil variation, etc.). For example, if Hybrid X is 19 Bu/A higher in yield than Hybrid Y, then this difference is statistically significant if the LSD is 19 Bu/A or less. If the LSD is 20 Bu/A or greater, then we are less confident that Hybrid X really is higher yielding than Hybrid Y under conditions of the test. If ‘NS’ is indicated for a characteristic, then the differences among hybrid entries are not significant at the 5% probability level.

GROSS INCOME IN $/ACRE. Calculated using corn price of $3.75 per bushel and $0.03 drying charge for each percentage of moisture above 15.5%.

2009 GROWING CONDITIONS

Growing conditions were highly favorable for corn at most test locations. The 2009 growing season was generally characterized by lower than normal temperatures, especially during flowering and early-mid grain fill. Rainfall during the critical pollination and early grain fill periods was generally above normal or near normal except at Hoytville, which experienced dry weather from the late vegetative stages through maturity. Because of cooler temperatures, crop development was slower than normal at most test sites which delayed harvest and contributed to higher than normal harvest grain moisture and lower test weights. Stalk lodging was negligible – averaging no more than 5% at any location. Diseases and insect pests were generally not a significant factor at test sites. Extensive foliar disease (primarily gray leaf spot) was evident late in the season at Washington CH and S. Charleston but impact on crop performance appeared to be limited.

RESULTS

Results of the 2009 testing program are presented in Tables 1 to 11. The seed source and table location for hybrids tested in 2009 are shown in Table 12. The transgenic herbicide and insect resistant events and insecticide and fungicide seed treatments associated with each hybrid entry (information provided by seed companies) are indicated in Table 12. Hybrids that do not contain transgenic events are specified as “NON-GMO”. In the tables for the regional trials, yields and other agronomic performance characteristics have been averaged across the individual tests and shown under the SUMMARY heading. Hybrids are listed in increasing order of summary grain moisture content at harvest in the regional trials.

Record high yields were achieved at most test locations due to ample and timely rainfall and moderate temperatures which created near stress-free growing conditions for most of the growing season. Grain yields in the Southwest and West Central region (S. Charleston, Washington C.H., and Greenville), averaged across hybrid entries in the early and late trials, were nearly 240 bu/A. Yields in the Northwest region (Van Wert, Hoytville, and Upper Sandusky) averaged across hybrid entries in the early and late trials, exceeded 220 bu/A. Yields in the North Central and Northeast region (Bucyrus, Wooster, and Beloit) averaged across hybrid entries in the early and late trials, exceeded 230 bu/A. In addition, hybrid yields at Coshocton averaged 238 bu/A.

Confidence in test results increases with the number of years and the number of locations in which the hybrid was tested. Data from a single test site should be avoided, especially if the site was characterized by abnormal growing conditions. Look for consistency in a hybrid's performance across a range of environmental conditions. Grain moisture percentage at harvest can provide a basis for comparing hybrid maturity, especially when grain moisture levels average above 20% at a test site. The wider than normal range in grain moistures and test weights this year provides growers with a good opportunity to assess grain dry down among hybrids. Yield, standability, test weight, and other comparisons should be made between hybrids of similar maturity to determine those best adapted to your farm.

Acknowlegements

We thank our farmer cooperators for their contributions to the 2009 corn hybrid testing program. We are grateful for the assistance provided by Clarence Renk and Joe Davlin, OARDC Western Branch, Lynn Ault, OARDC Wooster, Matt Davis, OARDC Northwest Branch, Jim Rich, FFA/Riverview High School, Gary Prill and Andy Kleinschmidt, OSU-Van Wert Co. Extension, and Steve Prochaska, OSU- Crawford Co. Extension. We thank Tim Bowman in Communications and Technology for his assistance in preparing the test results for publication.

 


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12/2009
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