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A SPECIAL SuPPLEmEnt to
MICHIGAN FARM NEWS
CORN HYBRIDSCompared
Research conducted by Michigan State University. Results of the 2015 Growing Season.
in the 2015 Growing Season
www.micorn.org
Supporting Research to GROW Your Bottom Line
Join CMPM and MSU Extension at the Pest and Crop Management Update for Field Crop Producers and Agronomists. You’ll learn about the latest research results and recommendations for field
crops, including weed, insect and disease control, and crop fertiliza-tion, to prepare you for the 2016 growing season.
Registration is $25 and includes a copy of the 2016 Weed Control Guide for Field Crops. Register online at
http://events.anr.msu.edu/IPMcropsmgmt2016/ or by phone at 517-353-3175.
Jan. 12 - Shifter’s Restaurant3130 W. MonroeAlma, MI 48801Contact: Paul Gross Isabella County MSUEPhone: [email protected] Jan. 14 - Bavarian Inn Lodge1 Covered Bridge LaneFrankenmuth, MI 48734Contact: Phil Kaatz Lapeer County MSUEPhone: [email protected] Jan.15 - Sanilac Career Center175 E. Aiken RoadPeck, MI 48466Contact: Martin Nagelkirk Sanilac County MSUEPhone: [email protected] Feb. 2 - Alpena Community CollegeNewport Center, Room 106655 Johnson StreetAlpena, MI 49707Contact: James Dedecker Presque Isle MSUEPhone: [email protected]*Agenda differs slightly for this location Feb. 3 - The Trestle Stop Restaurant3366 M-40Hamilton, MI 49419Contact: Bruce MacKellar Van Buren County MSUEPhone: [email protected] Feb. 4 - Dowagiac Conservation Club54551 M-51 NorthDowagiac, MI 49047Contact: Bruce MacKellar Van Buren County MSUEPhone: [email protected]
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“Seed Consultants corn hybrids have excellent field performance and are a tremendous value for my farm.”Max Wilson,Nashville, Michigan
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CALL YOUR LOCAL BYRON SEEDS DEALER ABOUT THE ADVANTAGES OF FEEDING
Rockville, Indianawww.byronseeds.net
Adam Linnemeier 260-710-7646Fort Wayne IN
Samuel Eicher 260-416-7951
Grabill IN
John A Schwartz Hamilton IN
Ed Bowman 765-336-4385
Kirklin IN
Melvin Helmuth Beech Road Seeds
574-773-7717Nappanee IN
Nutritional Blending Inc. 800-285-0796New Paris IN
Pitstick Farms 219-869-0532Goodland IN
Elmer Martin 574-223-6007Rochester IN
Townline Seed Supply
260-768-4561Shipshewana IN
Sunrise Seeds Plus 260-463-0380
Topeka IN
Leon Stanley 989-382-5469
Barryton MI
William Brenneman Blanchard MI
Scott Peters Dover Road Seeds
989-574-7476Burt MI
Cedar Springs Mill & Sup.
616-696-9740Cedar Springs MI
Jeremy Droscha 517-712-1639Charlotte MI
Carl Reimann 231-420-8170Cheboygan MI
James Miller Dover Road Seeds
989-386-7361Clare MI
Gary Martin 810-404-9115
Decker MI
Jim Birgy Birgy's Farm 231-357-7467
Fife Lake MI
Leon Hershberger Cushman Creek
Supply 231-924-7014
Holton MI
Cephas Borntrager Timberline Seed
& Sales 517-568-7363VM
Homer MI
Eric Egeler Cushman Creek
Supply 231-239-9961Ludington MI
Kurt Cobb Ulrich Farms 989-871-2314Millington MI
Country Feed Supply
989-826-2305Mio MI
Greg Palen Michigan Livestock
Serv. 989-834-2661
Ovid MI
Larry BonnellBonnell Farms517-523-2738
Pittsford MI
Travis MillerMiller Feeds Inc.
989-345-1753Prescott MI
Kevin ToddCountry Vet
Supply231-832-5510Reed City MI
Ken Langmesser810-329-3067Saint Clair MI
Earl BurkholderCedar Lake Farm
989-261-3023Sheridan MI
Norman MillerMiller Feed LLC
989-471-5523Spruce MI
Kevin Rush989-289-8817
Stanton MI
Jacob HershbergerStanwood MI
John KeinathKeinath Brothers
Dairy989-823-2339
Vassar MI
Darling Farms LLC734-587-3466
Willis MI
Tom Dykstra616-218-9987
Zeeland MI
Gerry Davis N.E. Territory Manager517-250-1144
“G A L” C H
18667916390 .LS.
MICHIGAN CORN
HYBRIDSCompared
Extension Bulletin E-431
Research conducted by Michigan State University. Results of the 2015 Growing Season.
2015
R
DECEMBER 2015
WEATHER...............................................page 4CORN GRAIN ....................................... page 7Bt TRAIT TABLE ............................. page 23FUNGICIDE EFFECTS .................page 26CORN SILAGE .................................page 30
- 2 -
COMPANY INDEXBRAND CONTACT
AGRIGOLD AgriGold Hybrids 5381 Akin Rd St. Francisville, IL 62460 www.agrigold.com
BECK Beck’s Hybrids 6767 E. 276th Street Atlanta, IN 46031 www.beckshybrids.com
BLUE RIVER Blue River Hybrids 2326 230th Street Ames, IA 50014 www.blueriverorgseed.com
CHANNEL Monsanto Company 800 N. Lindbergh Blvd. St. Louis, MO 63167 www.channel.com
CROPLAN Croplan Genetics P.O. Box 64281, MS 5735 St Paul, MN 55164 www.croplan.com DAIRYLAND Dairyland Seed P.O. Box 958 West Bend, WI 53095 www.dairylandseed.com
DEKALB Monsanto Company 800 N. Lindbergh Blvd. St. Louis, MO 63167 www.asgrowanddekalb.com
DYNA-GRO Dyna-Gro Seed 4648 S. Garfi eld Road Auburn, MI 48611 www.dyna-groseed.com
GOLDEN HARVEST Syngenta Seed 11055 Wayzata Blvd. Minnetonka, MN 55440 www.syngenta.com
GREAT LAKES Great Lakes Hybrids 9915 West M21 Ovid, MI 48866 www.greatlakeshybrids.com
KEY AGRA Solutions, LLC 23778 Delphos Jennings Road Delphos, OH 45833 www.agrasolutions.com
BRAND CONTACT
LEGACY SEEDS Legacy Seeds, Inc. P.O. Box 68 - 290 Depot St. Scandinavia, WI 54799 www.legacyseeds.com
LEGEND Legend Seeds P.O. Box 241 DeSmet, SD 57231 www.legendseeds.com
M & W M & W Seeds Inc. 8443 Wilcox Road Eaton Rapids, MI 48827 www.mwseeds.com
MASTERS CHOICE Masters Choice, Inc. 3010 State Route 146 E. Anna, IL 62906 www.seedcorn.com
MYCOGEN Mycogen Seeds 9330 Zionsville Road Indianapolis, IN 46268 www.mycogen.com
NK Brand Syngenta Seeds, Inc. 11055 Wayzata Blvd. Minnetonka, MN 55440 www.syngenta.com
NuTech NuTech Seed, LLC 2321 N. Loop Dr., Suite 230 Ames, IA 50010 www.nutechseed.com
NuTech/ NuTech Seed, LLCG2 GENETICS 2321 N. Loop Dr., Suite 230 Ames, IA 50010 www.nutechseed.com
PARTNERS Partners Brand Seed, LLC 4610 E SR120 Howe, IN 46746 www.partnersbrandseed.com
PIONEER DuPont Pioneer 59 Greif Pkwy, West Suite 200 Delaware, OH 43015 www.pioneer.com
RENK Renk Seed Company 6809 Wilburn Road Sun Prairie, WI 53590 www.renkseed.com
BRAND CONTACT
RUPP Rupp Seeds, Inc. 17919 Co. Rd. B Wauseon, OH 43567 www.ruppseeds.com
SEED CONSULTANTS Seed Consultants, Inc. 648 Miami Trace Rd. SW Washington C. H., OH 43160 www.seedconsultants.com
SPECIALTY Specialty Hybrids 306 N Main Street Monticello, IN 47960 www.specialtyhybrids.com
STEYER Steyer Seeds 6145 N. County Road 33 Tiffi n, OH 44883 www.steyerseeds.com
T.A. SEEDS T.A Seeds 39 Seeds Lane Jersey Shore, PA 17740 www.taseeds.com
WELLMAN Wellman Seeds, Inc. 23778 Delphos Jennings Rd. Delphos, OH 45833 www.wellmanseeds.com
WOLF RIVER Wolf River Vally Seeds N 2976 County M White Lake, WI 54491 www.wolfrivervallyseeds.com
- 3 -
2015MICHIGAN CORN PERFORMANCE TRIALS
K. Thelen, W. D. Widdicombe and L. A. WilliamsDepartment of Plant, Soil, and Microbial Sciences
Michigan State UniversityIntroduction
The Michigan State University Department of Plant, Soil and Microbial Sciences conduct hybrid corn trials each year in cooperation with Michigan State University AgBio Research stations, seed corn companies, and farmers to determine yield and quality performance.
EntriesSeed companies are invited to enter hybrids in the trials; a
fee is charged to cover expenses incurred while conducting the trials. Separate indexes for grain and silage provide a list of all hybrids entered in the 2015 trials (pg. 28 and 33, respectively). Thirteen grain and eleven silage locations were planted. A total of 315 hybrids from 25 seed companies (29 brand names) make up the 479 entries; that translates into 6,399 separate county plots planted. Company names used in association with hybrid numbers refer to the brand. The hybrid numbers are the companies’ designations.
Hybrids that have a seed-applied insecticide that may enhance yield are listed in the table column TRT (Treatment). The “TRAIT” column uses code numbers, listing the hybrid traits provided by the company. Treatment and Trait codes are listed in the tables on page 21.
How to Use This BulletinTables list hybrids alphabetically and contain yield results
for each location, plus zone averages. Complete one and two-year yield results are listed in tables for each zone where data is available. One-year single-site results are less reliable than multiple year and multiple location averages, and should be interpreted with more caution. Confi dence in corn performance data increases as the number of years and the number of testing locations increase. Results for corn grain and corn silage trials are also listed on our Web site:
http://www.css.msu.edu/varietytrials/
To obtain additional published copies of this bulletin please contact the Michigan State University Extension Bulletin Offi ce at the following:
SHOP.MSU.EDUAngell BuildingMichigan State University166 Service Rd.East Lansing, MI 48824(517) 432-1859(800) 709-9195 (Toll Free)
The results shown are the average of four replications grown in close proximity to one another. Two or more plots of the same hybrid in the same fi eld may produce somewhat different results because of uncontrolled variability in the soil and other environmental factors. Replication and randomization of the entries were two methods employed to reduce this variation.
Because these methods do not eliminate all variables, the magnitude of difference necessary for statistical signifi cance has been calculated for yield, moisture content, and test weight. The value calculated as the least signifi cant difference (LSD) is the amount an individual hybrid would have to differ from another hybrid in the same test to be considered signifi cantly different from that hybrid. The coeffi cient of variability, (CV) is indicative of a trials precision. Trials with low levels of error variation have lower CV values.
The highest yielding hybrid in each trial is indicated with a double asterisk (**) in each table, hybrids that are not signifi cantly different from the highest yielding hybrid are indicated with an asterisk (*). Other agronomic information relative to each trial is given in tables B and C (pg.xx). Fertilizer amounts are shown as total pounds per acre of nitrogen, P2O5, and K2O applied during the season.
Season in Summary: 2015Entry forms for participating companies were due March
15th, by the end of March we began receiving the seeds that made up our trials. After a lot of paper work, printing of labels and placing labels on packets, our students began counting the seeds and fi lling the packets. The counting process was made easier with an Agriculex ESC-1 seed counter. Packets were sorted by trial and location and placed in a computer generated random planting order. Some of our seed comes from winter production in South America, we are usually receiving seed up to the morning we leave the Agronomy Farm for the fi rst day of planting.
Planting began in Ingham County on May 3rd, 2015. Montcalm County was the last plot planted on June 26th. Planting is accomplished with an Almaco vacuum planter. A cable with “bobbins” that are set at twenty-fi ve foot intervals assure the uniform length of each plot. The planting depth is checked at each fi eld and adjusted according to the tillage practices of the fi eld. With very few rain and equipment delays the planting season went very well this year.
The task of applying weed control is a pretty even split between us and local elevators. We had a few glitches but we were able to correct them in a timely manner.
As usual, stand counts went off without a hitch, all plots were counted and thinned at knee high. All locations except Grand Traverse County, MI and Wood County, OH were thinned back to a population of 35,244. Grand Traverse County was thinned to 31,284 and Wood County, OH was thinned to 34,452.
- Season Continued On Page 6.
2015GROWING SEASON WEATHER SUMMARY
Jeff Andresen, Extension Agricultural MeteorologistDepartment of GeographyMichigan State University
- 4 -
Similar to 2013/2014, the winter of 2014/ 2015 which preceded the 2015 season was much colder than normal due to a persistent deep upper air troughing pattern across the Great Lakes region. For the state as a whole, the winter mean temperature was 17.7°F, the 18th coldest on record. February 2015 was particularly extreme, with subzero temperatures state- and region-wide and many new or near records. Mean temperatures for the month generally ranged from 11-15°F below normal across the state. Extreme cold temperatures were observed with regularity statewide during all but the fi rst week of the month, with minima falling to the -10° to -35°F or lower range, which damaged some overwintering perennial crops. Given the intense cold, ice cover across the Great Lakes was much above normal, with the peak coverage of 86% occurring during the last week of February. This value was more than twice the normal areal coverage for the date and the fi fth highest on record. With signifi cant snow cover in place during most of the winter, extreme low 2-inch soil temperatures bottomed out in the 30-32°F range across most of the state, although minima reached the low 20’s F in some east central and southeastern sections of the state where snow cover was more scattered. In terms of precipitation, and in contrast to 2013/2014, the winter was also drier than normal, with a mean precipitation total of 4.01 inches. At the beginning of March, soil moisture levels in the top 3 feet of the profi le had fallen to below normal levels across southern sections of the state but were near or even above normal levels across central and northern sections.
The upper air troughing pattern that brought the severe cold to the region ended by mid-March, with the development of a more zonal, west to east pattern across the Continental USA and a moderation in temperatures for Michigan by early April. Drier than normal conditions continued during most of March and April. Some areas of the state observed as many as 21 consecutive days without measureable precipitation during the month, which is unusual in a humid climate such as Michigan’s. By late April, the U.S. Drought Monitor categorized much of central and southern Lower Michigan and the western Upper Peninsula in the D0 ‘Abnormally Dry’ category. In general, the cool and dry weather was not conducive for spring fi eldwork and early planting lagged behind normal.
The development of an upper air trough across western sections of the Lower 48 states with southwesterly fl ow across the Midwest led to a signifi cant change in weather during the last week of April and the fi rst week of May with above normal temperatures which allowed rapid progress of most spring fi eldwork activities and accelerated early growth and development of overwintering crops. Much of the corn crop was planted during the fi rst two weeks of May and emergence began during the 2nd week of the month. There were several brief incursions of cool, Canadian-origin air into the region associated with a temporary troughing feature across eastern Canada during the middle of the month. Scattered frost and
freezing temperatures were observed mostly across northern and interior central sections of the state on the 12th-14th and again on the 19th and 20th, but besides a slowdown in the rates of germination and emergence, impacts of the cold readings were generally minor.
During the third week of May, southwesterly or southerly fl ow at low levels across southern and central states allowed the transport of moisture from subtropical sources in the eastern Pacifi c and Gulf of Mexico into the Great Lakes region. The result was a very active weather pattern with almost daily rainfall across large sections of the western and central USA. In Michigan, rainfall was especially persistent and occasionally heavy during the third week of May and the second week of June, resulting in major fi eldwork delays and localized fl ooding in some northeastern and southern portions of Lower Michigan. The wet weather dramatically changed soil moisture conditions for many areas of the state from too dry to abnormally wet. Corn planting was generally completed in early June, but cool temperatures continued to slow emergence and early vegetative development.
The active storm track that established itself during late May continued into the last week of June, resulting in much above normal precipitation totals across sections of Lower Michigan. The pattern also led to a major severe weather outbreak on the 22nd of June that included several tornadoes, high winds, heavy rain and fl ooding. June precipitation totals varied greatly by location across the state, ranging from less than 2.00” (less than 75% of normal) across a few northern sections to more than 10.00” (greater than 300% of normal) across south central and southeastern sections of Lower Michigan. June precipitation totals across the southern three tiers of counties approached long term records for the wettest June on record in some locations. In terms of temperature, mean monthly values fell back to cooler than normal values across most sections of the state, with departures generally running at 1-4°F below the long term normals. The cool, wet conditions stressed early vegetative growth of most spring-planted crops, with localized fl ooding, major diffi culties with forage harvest, lodging of winter grains, heavy weed and disease pressure, and to the loss of nitrogen from the crop rooting zone. By the end of June, the jet stream across North America shifted to a western ridge, eastern troughing pattern, leaving Michigan and the Great Lakes region under northwesterly fl ow and drier, more benign weather.
During the second week of July a large upper air ridge developed over central sections of the continental USA. This pattern generally persisted for much of the remainder of the growing season and brought warmer, more seasonable temperatures.
- Weather Continued On Page 6.
TABL
E A.
GROW
ING
SEAS
ON S
UMMA
RY -
TEMP
ERAT
URE,
PRE
CIPI
TATI
ON A
ND G
ROW
ING-
DEGR
EE-D
AY A
CCUM
ULAT
IONS
- 5 -
CO
UN
TY
MA
Y
JUN
E
JULY
A
UG
US
T S
EP
TEM
BE
R
SE
AS
ON
O
BS
N
OR
M
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
Zone 1 B
RA
NC
H &
CA
SS
TE
MP
61
.8
58.2
3.
667
.167
.3-0
.268
.671
.3-2
.768
.3
69.3
-1.0
66.1
61.6
4.5
66.4
65.5
0.8
(C
oldw
ater
) P
PT
4.89
3.
18
1.71
7.56
3.67
3.89
4.37
3.13
1.24
3.07
3.
69-0
.62
2.34
3.61
-1.2
722
.23
17.2
84.
95G
DD
42
1 34
4 77
532
527
558
464
8-6
457
4 59
7-2
351
139
611
526
2225
1211
0LE
NA
WE
E
TEM
P
62.0
58
.2
3.8
67.0
68.0
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69.3
72.3
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69.1
70
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.267
.162
.74.
466
.966
.30.
6 &
WA
SH
TEN
AW
P
PT
2.99
2.
97
0.02
8.73
3.51
5.22
2.27
3.00
-0.7
31.
44
3.38
-1.9
41.
923.
34-1
.42
17.3
516
.20
1.15
(H
udso
n)
GD
D
426
346
8052
254
1-1
959
267
5-8
358
8 62
4-3
651
541
510
026
4326
0142
WO
OD
(OH
) TE
MP
64
.9
60.0
4.
969
.370
.1-0
.871
.173
.2-2
.171
.1
71.0
0.1
69.0
64.3
4.7
69.1
67.7
1.4
(B
owlin
g G
reen
) P
PT
5.09
3.
85
1.24
7.03
3.41
3.62
4.84
3.76
1.08
5.42
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612.
212.
86-0
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24.5
917
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6.90
G
DD
48
0 37
1 10
959
059
5-5
655
691
-36
657
641
1656
645
411
229
4827
5219
6
Zone 2
ALL
EG
AN
TE
MP
58
.4
58.2
0.
266
.467
.3-0
.969
.671
.5-1
.968
.3
69.7
-1.4
66.7
62.2
4.5
65.9
65.8
0.1
(Fe
nnvi
lle)
PP
T4.
75
3.43
1.
323.
653.
74-0
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3.33
3.43
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01.
38
3.77
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92.
514.
01-1
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15.6
218
.38
-2.7
6
GD
D
341
340
150
952
6-1
760
065
5-5
558
5 61
0-2
552
440
611
825
5925
3722
ING
HA
M
TEM
P
61.2
58
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3.0
66.4
67.3
-0.9
70.2
71.3
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69.5
69
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266
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966
.865
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2 (
MS
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PP
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77
3.18
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393.
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6.82
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131.
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61-2
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23.3
917
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6.11
G
DD
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6 34
4 62
513
527
-14
628
648
-20
608
597
1151
639
612
026
7125
1215
9S
AG
INA
W
TEM
P
61.6
57
.0
4.6
67.3
66.1
1.2
71.8
70.6
1.2
70.2
68
.41.
867
.660
.76.
967
.764
.63.
1 (
Sag
inaw
) P
PT
3.34
2.
83
0.51
4.08
3.21
0.87
2.38
2.83
-0.4
55.
50
3.38
2.12
4.31
3.81
0.50
19.6
116
.06
3.55
G
DD
41
3 31
7 96
538
495
4367
162
744
630
573
5753
837
316
527
9023
8540
5
Zone 3
HU
RO
N
TEM
P
58.6
57
.0
1.6
62.5
66.1
-3.6
68.4
70.6
-2.2
71.6
68
.43.
263
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664
.964
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3 (
Pig
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P
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2.72
2.
83
-0.1
12.
803.
21-0
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2.15
2.83
-0.6
84.
16
3.38
0.78
3.67
3.81
-0.1
415
.50
16.0
6-0
.56
G
DD
35
1 31
7 34
420
495
-75
573
627
-54
517
573
-56
421
373
4822
8223
85-1
03M
AS
ON
TE
MP
57
.1
56.1
1.
061
.665
.0-3
.465
.269
.7-4
.565
.7
68.0
-2.3
59.3
60.2
-0.9
61.8
63.8
-2.0
(Lu
ding
ton)
P
PT
3.88
2.
98
0.90
2.36
3.26
-0.9
02.
072.
74-0
.67
2.14
4.
03-1
.89
3.14
3.59
-0.4
513
.59
16.6
0-3
.01
G
DD
31
2 30
2 10
390
471
-81
525
609
-84
535
564
-29
478
362
116
2240
2308
-68
MO
NTC
ALM
TE
MP
59.2
56
.7
2.5
64.7
65.6
-0.9
68.0
69.9
-1.9
67.4
67
.6-0
.265
.459
.65.
864
.963
.91.
1 (
Ent
rican
) P
PT
2.96
2.
95
0.01
4.79
3.30
1.49
1.72
2.74
-1.0
22.
42
3.85
-1.4
33.
903.
710.
1915
.79
16.5
5-0
.76
G
DD
35
5 32
3 32
458
488
-30
541
610
-69
518
555
-37
488
357
131
2360
2333
27
Zone 4
GR
AN
D T
RA
VE
RS
E
TEM
P
57.2
53
.9
3.3
62.7
62.9
-0.2
70.2
67.8
2.4
69.8
66
.13.
767
.058
.38.
765
.461
.83.
6 (
NW
MH
S)
PP
T3.
77
2.61
1.
162.
023.
09-1
.07
1.07
3.05
-1.9
82.
08
3.52
-1.4
44.
323.
780.
5413
.26
16.0
5-2
.79
G
DD
34
2 27
0 72
415
425
-10
627
556
7161
4 51
310
152
831
721
125
2620
8144
5IO
SC
O
TEM
P56
.3
57.0
-0
.760
.866
.1-5
.367
.270
.6-3
.466
.6
68.4
-1.8
63.4
60.7
2.7
62.9
64.6
-1.7
(S
tand
ish)
P
PT
3.67
2.
83
0.84
4.59
3.21
1.38
1.16
2.83
-1.6
75.
07
3.38
1.69
2.86
3.81
-0.9
517
.35
16.0
61.
29
GD
D
308
317
-937
349
5-1
2254
762
7-8
052
4 57
3-4
944
137
368
2193
2385
-192
ME
NO
MIN
EE
TE
MP
51
.8
52.1
-0
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.460
.7-3
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363
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63.8
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61.7
55.2
6.5
60.1
59.5
0.6
(S
teph
enso
n)
PP
T2.
98
1.08
1.
903.
643.
470.
172.
083.
54-1
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3.
57-0
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2.31
3.66
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513
.78
15.3
2-1
.54
G
DD
22
0 22
5 -5
286
386
-100
511
498
1344
1 45
9-1
839
726
513
218
5518
3322
Zn 5
DE
LTA
TE
MP
51
.9
52.1
-0
.259
.060
.7-1
.766
.865
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364
.7
63.8
0.9
62.4
55.2
7.2
61.0
59.5
1.5
(E
scan
aba)
P
PT
3.46
1.
08
2.38
2.70
3.47
-0.7
71.
103.
54-2
.44
3.03
3.
57-0
.54
3.66
3.66
0.00
13.9
515
.32
-1.3
7
GD
D
226
255
-29
333
386
-53
537
498
3945
9 45
90
425
265
160
1980
1863
117
TEM
P =
Mea
n te
mpe
ratu
re (°
F)
PP
T =
Pre
cipi
tatio
n (in
ches
) G
DD
= G
row
ing
Deg
ree
Day
cal
cula
ted
at b
ase
50°F
, with
an
86°F
cut
off
OB
S =
Tot
als
obse
rved
in 2
015
NO
RM
= N
orm
als
calc
ulat
ed o
ver 3
0 ye
ar p
erio
d (1
981-
2010
) D
EV
= D
evia
tion
of o
bser
ved
from
nor
mal
Ta
ble
cour
tesy
of M
SU
Agr
icul
tura
l Wea
ther
Offi
ce (5
17-3
55-0
231)
- 6 -
We began harvesting silage plots on September 8th in Wood County, Ohio and fi nished on October 2nd with the Osceola County silage plot. After a couple years of talking about it, we were fi nally able to purchase new silage harvesting equipment. We used a front-mounted two row Champion C1200 Kemper head along with a Rear-mounted Haldrup M-63 weigh system. We purchased a New Holland T6.175 tractor to power the units. Data was recorded on a Panasonic FZ-G1 Toughpad using Harvestmaster software. Continuous subsampling is taken to generate a composite sample of the whole plot. At the end of each plot the individual sample weight is taken along with the entire plot weight. Sub-samples were brought back to Michigan State University for further analysis. The samples were put in a WRH586-500 Grieve forced air dryer with the temperature set at 150°F. Typically we can fi t 1,155 samples in the dryer at a time, a new challenge we faced this year was with the improved speed of the new chopping system we had to time our fi eld harvest so as not to get ahead of available dryer space.
Zone 4 Menominee silage, (late), was dropped due to late spring rain events and Zone 1 Lenawee, (early), was dropped due to low emergence issues.
Grain harvest began on October 18th in Ingham County and ended in Montcalm County on November 16th. Montcalm Conventional Grain and Menominee Early Grain trials were dropped.
Table A (pg. 5) presents 2015 accumulations of temperature, rainfall, and heat units, plus their deviation from 30 year norms. Data is obtained from Michigan State University weather stations located closest to each plot location. Actual accumulation at each location may vary slightly. The weather summary is provided by Dr. Jeff Andresen from the Department of Geography using data from the Michigan State University Agricultural Weather Offi ce.
During late July and early August, the ridge brought a prolonged period of hot, dry weather to Michigan. Many southern observing sites recorded their fi rst 90°F or greater high temperatures of the season (the fi rst such temperatures at many sites since early September of 2013). The warmer weather accelerated crop growth and development rates statewide. For the month of July, mean temperatures ranged from near normal across northern sections of the state to as much as 3°F below normal in the extreme south. With the primary storm track remaining south of the state, July precipitation totals varied signifi cantly, ranging from less than 0.50” across northern sections of the Lower Peninsula (less than 25% of normal) to more than 5.00” (greater than 150% of normal) along the Indiana/Ohio border. Given warmer temperatures late in the month and increasing crop water use rates as most crops advanced towards full canopy, soil moisture levels fell rapidly in most areas, especially northern Lower Michigan. As of the end of July, the U.S. Drought Monitor had added sections of the northern and central Lower Peninsula to the ‘D0 Abnormally Dry’ category. Corn crops across the state generally passed through critical tassel and pollination states during the last two weeks of July and fi rst week of August, on average just a few days behind normal.
Deep low-level moisture and strong upper level winds ahead of a cold frontal passage led to a major severe weather outbreak across much of the state and region on August 2nd which included large hail, high winds, and widespread power outages and property damage. Most severe damage was reported across northern sections of the Lower Peninsula where wind speeds in some locations reached 100 mph. The upper air ridging feature also brought an extended period of unseasonably warm and humid weather to Michigan from late August and through early September. The warm temperatures were helpful for late season growth and development of crops delayed by cooler than normal temperatures earlier in the growing season. For the month of August, mean temperatures generally ranged from 1-3°F below normal across southern and western sections of the state to 1-3°F above normal across the north and east. Precipitation totals for the month were highly variable, ranging from less than 2.0” across northern sections of the Upper Peninsula to more than 5.00” (greater than 150% of normal) in central and eastern portions of Lower Michigan. At the end of August, moisture defi cits were a continuing concern across the northern Upper and northwestern Lower Peninsulas, with both areas remaining in the U.S. Drought Monitor’s ‘D0 Abnormally Dry’ category. Soil moisture generally remained at adequate levels elsewhere in the state.With the general continuation of the upper air ridging pattern over the Upper Midwest, September was much warmer and drier than normal. Mean temperatures for September generally ranged from 4°F across southern sections of the state to 7°F above normal in the north, which left the month in the record books among the warmest 10 percent of Septembers on record. Precipitation totals ranged from less than 3.0” across southern sections of the Lower Michigan and the central Upper Peninsula to more than 5.00” across the northwestern Lower Peninsulas (approximately 50-150% of normal). Given below normal humidities and cloudiness, the weather was nearly ideal for crop maturation and grain drydown.
- Season Continued From Page 3
- Weather Continued From Page 4 The passage of a trough through the region in early October brought at least a temporary end to the abnormal warmth and to the fi rst freezing temperatures of the season to interior sections of northern Lower Michigan.
The persistent upper air ridging pattern was replaced by a deep troughing feature across the region in Mid-October. The trough brought cooler, more seasonable weather to the region as well as the fi rst freezing temperatures of the season to most central and southern sections of Michigan on the 17th, 18th, and 19th. Over most of these areas, the fi rst freeze was climatologically at least one week later than normal. Portions of the central and eastern Upper and northern Lower Peninsulas also reported their fi rst measureable snowfall of the season with this system. Collectively, the milder and drier than normal conditions during most of September and early October favored nearly all forms of fall fi eldwork activities, resulting in a number of both prolonged and high quality opportunities. Growing degree day totals for the season surged to at least normal levels over all but central sections of the state, with most locations ending the May through September growing season 50-100 units above normal, which roughly translates into 5-10 calendar days ahead of normal.
2015GRAIN PERFORMANCE TRIALS
2015 Grain Trial Locations
- 7 -
IntroductionThe grain index (pg. 28) contains a list of all hybrids planted
in the 2015 grain trials.County results are reported in the following tables:Tables 1E/1L Zone 1 - Branch, Cass and Washtenaw Tables 2E/2L Zone 2 – Allegan, Ingham and SaginawTables 3E/3L Zone 3 - Huron, Mason and MontcalmTable 4 Zone 4 –Grand Traverse, Iosco and Menominee (Menominee zone 4 dropped 2015)
Table 5 Zone 5 – Delta and Menominee (E)Tables 6E/6L Conventional Trial – Huron (Zone 3), Montcalm (Zone 3 dropped 2015), and Saginaw (Zone 2)
The map of Michigan (below) shows each zone and the locations where the trials were located.
MethodsThree trial locations were planted in each of fi ve maturity
zones. These zones were based on available growing degree-day units established from long-term weather records. Hybrids entered in a zone were tested in each of the three designated locations. Entries for zone 1, zone 2, and zone 3 were divided into two maturity groups, (early and late), on the basis of relative maturity (RM) provided by the seed companies. In zone 4 and zone 5, all hybrids were tested in one group.
Four-row plots were used at all grain locations. The two center rows were harvested for yield. Plots were 22 feet long with 30-inch row spacing.
Experimental design, data acquisition, analysis of variance and data summarization were facilitated in part by AGROBASE Generation IITM SQL (Agronomix Software, Inc., Winnipeg, Canada). The experimental layout was a four-replication, randomized complete block design. Hybrid performance is reported as the adjusted mean averaged together from four replicated plots.
Variety trials were conducted on farmers’ fi elds and Michigan State University AgBio Research Stations. All hybrids in a location were managed uniformly with the same fertilizers, population, date of planting, and other management practices. In the fi eld, hybrids were identifi ed only by a plot number to assure unbiased comparisons. Trials in Branch, Cass, Mason, and Montcalm (Montcalm conventional dropped 2015), counties were irrigated.
Stand counts were recorded in June. Plots with stand counts higher than the desired population were thinned at that time. Average trial population plus the desired population rates are listed with other important agronomic information in Table B (pg. 27). Lodging measurements were made during harvest. All plants broken below the ear and/or leaning more than 45 degrees were counted. Plots were harvested mechanically. Moisture content and fi eld weight were measured by a Harvest MasterTM single plot high capacity Grain GageTM System mounted on a Massey Ferguson 8XP plot combine. Grain yield is reported at the standard 15.5 percent moisture. Grain test weight is reported at harvest moisture. Automated test weight equipment loses some accuracy as harvest moistures increase. Test weight
values should be used to determine relative rank and not as a precise weight.
ResultsThe tables report the following information about the hybrids
tested:
1. Moisture content at harvest (%H20).
2. Yield (in bushels per acre) of shelled corn corrected to 15.5 percent moisture (Bu/A)
3. Test weight at harvest moisture (Twt).
4. Percent of stalk lodging (plants broken below the ear and/or 45 degrees off vertical at harvest) (%SL).
5. Percent stand of target population (%Std).
- 8 -
TABL
E 1E
.ZO
NE 1
BRAN
CH, C
ASS
& W
ASHT
ENAW
COU
NTY
GRAI
N TR
IALS
- EA
RLY
(107
Day
and
Earli
er)
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdAG
RIGO
LD A
6416
STXR
IB10
7P5
001,2
,3,4,6
18.6
229.8
*56
.80.2
100
13.2
194.8
58.3
0.610
021
.424
4.9*
55.7
0.010
021
.224
9.6*
56.5
0.010
0BE
CK X
L 514
0HR™
*10
5ES
C1,2
,418
.723
6.9**
57.3
0.097
13.9
209.8
*59
.00.0
9621
.124
0.9*
55.7
0.010
021
.226
0.1*
57.2
0.095
BECK
XL 5
460A
M™*
104
ESC
1,2,4
17.7
229.0
*56
.30.2
9913
.220
1.6*
57.5
0.610
019
.824
0.5*
55.2
0.010
020
.224
5.056
.30.0
97CH
ANNE
L 205
-19S
TXRI
B10
5A5
001,2
,3,4,6
16.9
224.3
56.2
0.099
12.7
210.2
*56
.40.0
9818
.422
3.355
.50.0
100
19.5
239.5
56.6
0.010
0DA
IRYL
AND
SEED
DS-
9307
RA10
7C5
001,2
,3,4,6
18.9
214.5
56.6
2.499
13.5
207.5
*57
.97.3
9721
.420
6.955
.20.0
100
21.9
229.1
56.6
0.010
0DE
KALB
DKC
50-8
2 GEN
SSRI
B10
0P5
001,2
,3,4,6
15.9
212.3
56.7
0.310
012
.619
5.056
.30.9
100
17.5
212.2
55.8
0.010
017
.722
9.758
.00.0
100
DEKA
LB D
KC52
-84 G
ENSS
RIB
102
P500
1,2,3,
4,615
.321
5.055
.40.1
9812
.318
4.955
.80.3
9717
.522
5.254
.10.0
9916
.123
4.856
.30.0
99DE
KALB
DKC
53-6
8 GEN
SSRI
B10
3P5
001,2
,3,4,6
16.7
216.8
57.4
0.095
12.7
195.6
58.3
0.093
19.2
223.8
56.0
0.098
18.4
231.0
57.8
0.094
DEKA
LB D
KC54
-38 G
ENSS
RIB
104
P500
1,2,3,
4,617
.121
9.657
.60.0
9513
.019
5.958
.30.0
9318
.922
7.956
.40.0
100
19.5
234.9
58.1
0.094
DEKA
LB D
KC55
-20 G
ENSS
RIB
105
P500
1,2,3,
4,616
.922
3.756
.20.1
9812
.619
6.857
.00.3
9918
.421
7.454
.80.0
9919
.825
7.0*
56.9
0.095
DEKA
LB D
KC57
-75 G
ENSS
RIB
107
P500
1,2,3,
4,618
.522
4.556
.20.3
100
12.6
193.3
57.1
0.999
21.6
237.7
*55
.30.0
100
21.2
242.5
56.1
0.010
0DY
NAGR
O CX
1510
410
450
01,2
17.2
219.9
57.1
0.198
12.8
191.8
58.5
0.398
19.1
230.0
55.7
0.010
019
.623
7.957
.10.0
96DY
NAGR
O D4
3SS5
010
350
01,2
,3,4,6
18.1
219.1
58.2
0.394
13.3
206.9
*59
.00.9
9719
.722
0.657
.00.0
9921
.322
9.958
.60.0
86GO
LDEN
HAR
VEST
G07
B39-
3111
A10
7C5
001,2
,3,4,6
,A21
.820
3.755
.00.8
9713
.915
8.856
.32.3
9926
.322
1.353
.30.0
100
25.2
231.1
55.4
0.093
GREA
T LA
KES
5283
STXR
IB10
2P5
001,2
,3,6
17.0
232.0
*57
.80.2
9912
.921
4.3*
58.6
0.697
19.5
240.3
*56
.50.0
100
18.6
241.4
58.2
0.010
0GR
EAT
LAKE
S 54
70ST
XRIB
104
P500
1,2,3,
617
.522
6.157
.90.2
9713
.219
7.059
.40.6
9519
.923
2.956
.90.0
9719
.424
8.2*
57.4
0.010
0GR
EAT
LAKE
S 55
66ST
X10
5P5
001,2
,3,6
18.3
223.3
58.8
0.010
013
.620
0.159
.90.0
9920
.422
8.357
.50.0
100
21.0
241.6
59.0
0.010
0GR
EAT
LAKE
S 57
55ST
XRIB
107
P500
1,2,3,
618
.422
1.657
.40.2
9713
.219
6.957
.80.6
9621
.022
0.655
.70.0
100
20.9
247.5
*58
.70.0
94KE
Y 60
7Q10
7EN
C1,2
,319
.921
6.555
.40.0
9812
.919
4.756
.40.0
9624
.222
2.254
.40.0
9922
.623
2.755
.50.0
100
LEGA
CY S
EEDS
L-60
25 G
ENSS
107
P500
1,2,3,
4,618
.621
9.056
.70.0
9712
.818
3.858
.20.0
9720
.923
1.655
.80.0
9622
.324
1.656
.20.0
97M&
W S
EEDS
45A3
810
1P2
501,2
,3,4,6
15.5
222.4
57.3
0.090
12.8
206.6
*57
.50.0
8716
.821
4.255
.90.0
8917
.024
6.3*
58.4
0.093
M&W
SEE
DS 45
J99
104
P250
1,216
.420
9.357
.90.0
100
12.3
176.7
57.8
0.010
019
.121
4.256
.80.0
100
17.8
237.1
59.2
0.010
0M&
W S
EEDS
45M3
410
0P2
501,2
,3,4,6
16.4
216.5
56.9
0.310
012
.619
2.757
.00.9
9918
.522
7.256
.10.0
100
18.1
229.6
57.7
0.010
0M&
W S
EEDS
45M4
510
3P2
501,2
,3,4,6
17.2
221.2
56.8
0.094
12.7
196.6
57.7
0.091
18.6
231.8
55.6
0.093
20.3
235.3
57.2
0.098
M&W
SEE
DS 45
M80
103
P250
1,2,3,
4,617
.421
5.957
.10.0
9712
.918
1.857
.40.0
9419
.221
9.655
.90.0
9720
.224
6.3*
58.0
0.099
MYCO
GEN
2Y66
910
7C5
001,2
,3,4,6
19.1
203.3
57.1
2.198
13.5
181.7
58.6
6.210
021
.820
7.955
.90.0
100
21.9
220.4
56.8
0.093
MYCO
GEN
X136
1710
7C5
001,2
,3,4,6
19.3
216.3
55.4
0.410
012
.919
6.757
.01.1
100
24.4
220.4
53.8
0.010
020
.723
1.855
.50.0
99NK
Bra
nd N
59B-
3111
A10
7C5
001,2
,3,4,6
,A21
.421
4.055
.10.8
100
13.4
181.8
56.5
2.310
025
.522
1.554
.10.0
100
25.3
238.8
54.6
0.010
0Nu
Tech
/G2 G
ENET
ICS
5F-7
07™
107
P500
1,2,4,
618
.721
3.356
.10.8
9414
.119
3.858
.32.3
9420
.821
4.654
.60.0
9021
.223
1.555
.40.0
98Nu
Tech
/G2 G
ENET
ICS
5H-8
06™
106
P500
1,2,4,
619
.222
1.057
.10.0
9913
.420
1.1*
59.5
0.099
21.8
230.3
55.3
0.010
022
.523
1.856
.50.0
99Nu
Tech
/G2 G
ENET
ICS
5Z-5
04™
104
P500
1,2,4,
617
.723
1.9*
56.9
0.110
013
.120
4.8*
58.1
0.310
019
.525
3.4**
55.3
0.010
020
.423
7.657
.30.0
100
NuTe
ch/G
2 GEN
ETIC
S 5Z
-906
™10
6P5
001,2
,4,6
19.0
227.0
57.1
0.394
13.2
216.8
**57
.80.8
9422
.323
3.455
.50.0
100
21.5
230.8
58.0
0.090
PART
NERS
BRA
ND P
B767
2 300
0GT
106
C250
1,2,3,
417
.721
7.856
.20.2
9913
.018
9.457
.20.6
9920
.122
2.955
.70.0
100
19.9
241.0
55.7
0.097
RENK
RK6
99SS
TX10
5P5
001,2
,3,4,6
19.1
200.3
57.0
0.085
13.5
176.9
58.4
0.087
21.8
197.0
56.0
0.086
22.0
227.1
56.7
0.081
RENK
RK7
12SS
TX10
6P5
001,2
,3,4,6
17.8
211.8
57.7
0.194
13.2
186.4
58.4
0.398
20.6
218.0
56.7
0.099
19.6
231.0
58.1
0.086
RENK
RK7
76SS
TX10
7P5
001,2
,3,4,6
18.9
215.2
57.1
0.398
12.5
164.4
57.6
0.910
022
.523
1.655
.80.0
100
21.7
249.6
*58
.00.0
95RU
PP X
RD03
-71
103
250
1,215
.822
5.456
.90.0
9812
.919
6.658
.50.0
9516
.722
7.155
.70.0
9917
.825
2.7*
56.6
0.010
0RU
PP X
RD05
-04
105
P250
1,217
.022
7.8*
57.1
0.110
012
.519
1.156
.50.3
100
19.8
237.0
56.6
0.010
018
.825
5.5*
58.3
0.010
0RU
PP X
RD07
-19
107
250
1,218
.422
1.756
.00.4
100
12.9
202.6
*56
.81.1
9921
.222
3.955
.10.0
100
21.0
238.6
56.2
0.010
0RU
PP X
RD99
-30
99P2
501,2
14.2
202.1
56.8
0.010
012
.218
4.057
.50.0
100
15.4
212.8
56.2
0.010
014
.820
9.656
.70.0
100
RUPP
XRJ
03-3
110
3C2
501,2
,3,4,6
17.2
224.3
57.0
0.498
13.1
201.3
*58
.21.3
9418
.722
5.655
.90.0
100
19.9
246.0
*56
.90.0
100
RUPP
XRJ
07-2
010
7P2
501,2
,3,4,6
18.5
204.4
57.6
0.098
12.8
183.8
59.3
0.098
20.1
220.5
56.3
0.010
022
.520
9.057
.30.0
97SE
ED C
ONSU
LTAN
TS S
CS 10
34AM
™10
3P5
001,2
,418
.822
2.357
.40.1
9813
.520
2.1*
59.8
0.399
21.2
224.3
56.6
0.010
021
.824
0.655
.80.0
96SE
ED C
ONSU
LTAN
TS S
CS 10
66YH
R™10
6P5
001,2
,418
.921
3.756
.30.8
9913
.117
6.358
.02.3
9922
.922
5.955
.20.0
100
20.9
238.9
55.7
0.097
SEED
CON
SULT
ANTS
SCS
10HR
43™
104
P125
01,2
,419
.022
0.156
.90.7
9713
.717
3.259
.22.0
9921
.724
3.2*
55.3
0.010
021
.624
4.056
.30.0
92
Early
- TR
IAL
AVER
AGE
Bran
ch -
Early
Cass
- Ea
rlyW
asht
enaw
- Ea
rlyBU
/ABU
/ABU
/ABU
/A
- 9 -
SPEC
IALT
Y 29
A263
99P5
001,
2,3,
4,6
15.4
221.
056
.90.
299
12.3
197.
557
.40.
696
16.7
234.
855
.70.
010
017
.123
0.7
57.6
0.0
99SP
ECIA
LTY
32A3
2310
2P5
001,
2,3,
4,6
15.7
230.
7*
56.0
0.2
100
12.5
200.
6*
56.5
0.6
9917
.122
6.9
55.3
0.0
100
17.5
264.
5**
56.1
0.0
100
SPEC
IALT
Y 34
A413
104
P500
1,2,
3,4,
617
.822
3.4
57.2
0.3
9612
.819
2.5
57.9
0.9
9319
.923
4.7
56.2
0.0
100
20.6
242.
957
.50.
094
SPEC
IALT
Y 35
A655
105
P500
1,2,
3,4,
618
.321
9.0
56.8
0.3
9612
.919
8.9
57.4
0.8
9521
.022
2.4
55.7
0.0
9921
.123
5.8
57.4
0.0
95W
ELLM
AN W
2307
DP10
7EN
C1,
219
.423
6.4
*56
.30.
898
13.0
215.
8*
56.8
2.3
9922
.924
4.7
*55
.40.
010
022
.324
8.6
*56
.70.
095
WEL
LMAN
W24
01DP
100
ENC
1,2
15.4
225.
758
.50.
495
12.7
202.
3*
58.0
1.1
9917
.222
5.7
59.7
0.0
100
16.4
249.
1*
57.7
0.0
87W
ELLM
AN W
2603
DP10
3EN
C1,
217
.621
5.6
58.3
0.0
9713
.118
2.9
59.1
0.0
9119
.822
6.2
57.1
0.0
9919
.923
7.6
58.7
0.0
100
AVER
AGE
17.8
219.
656
.90.
397
13.0
193.
857
.80.
997
20.2
226.
255
.80.
099
20.2
238.
757
.10.
097
HIGH
EST
21.8
236.
958
.82.
410
014
.121
6.8
59.9
7.3
100
26.3
253.
459
.70.
010
025
.326
4.5
59.2
0.0
100
LOW
EST
14.2
200.
355
.00.
085
12.2
158.
855
.80.
087
15.4
197.
053
.30.
086
14.8
209.
054
.60.
081
CV (%
)4.
76.
61.
736
1.9
5.0
3.2
7.2
1.7
208.
95.
04.
55.
91.
60.
03.
05.
36.
61.
80.
07.
0LS
D (5
%)
0.6
9.7
0.6
0.7
3.0
0.5
16.4
1.1
2.1
6.0
1.1
15.7
1.0
0.0
3.0
1.3
18.5
1.2
0.0
8.0
2 Yea
r Ave
rage
s 201
5 - 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AGRI
GOLD
A64
16ST
XRIB
107
P500
1,2,
3,4,
622
.122
1.2
*54
.90.
110
016
.722
3.3
56.3
0.3
9923
.122
3.3
54.4
0.0
100
26.4
217.
154
.20.
010
0BE
CK X
L 51
40HR
™*
105
ESC
1,2,
421
.622
6.5
*55
.70.
097
16.6
220.
657
.30.
095
22.5
228.
6*
55.5
0.0
100
25.8
230.
4*
54.4
0.0
98DE
KALB
DKC
52-8
4 GE
NSSR
IB10
2P5
001,
2,3,
4,6
17.5
215.
654
.50.
099
14.6
208.
755
.20.
198
18.3
217.
153
.90.
010
019
.622
1.0
*54
.60.
099
DEKA
LB D
KC54
-38
GENS
SRIB
104
P500
1,2,
3,4,
619
.921
2.9
56.0
0.0
9815
.520
1.9
57.1
0.0
9619
.621
6.9
55.8
0.0
100
24.6
219.
755
.00.
097
DEKA
LB D
KC55
-20
GENS
SRIB
105
P500
1,2,
3,4,
619
.422
4.5
*55
.00.
098
15.4
228.
4*
56.2
0.1
9920
.021
5.3
54.1
0.0
9922
.822
9.7
*54
.80.
097
DEKA
LB D
KC57
-75
GENS
SRIB
107
P500
1,2,
3,4,
621
.621
5.6
54.5
0.1
9915
.721
1.7
55.9
0.4
9923
.021
8.6
54.0
0.0
100
26.1
216.
453
.50.
010
0GR
EAT
LAKE
S 52
83ST
XRIB
102
P500
1,2,
3,6
19.7
226.
4*
55.7
0.1
9815
.523
0.5
*56
.50.
397
20.1
227.
155
.60.
098
23.5
221.
8*
55.0
0.0
100
GREA
T LA
KES
5566
STX
105
P500
1,2,
3,6
20.7
215.
157
.20.
010
016
.721
0.8
58.4
0.0
9920
.821
0.4
56.9
0.0
100
24.6
224.
0*
56.4
0.0
100
GREA
T LA
KES
5755
STXR
IB10
7P5
001,
2,3,
621
.922
2.4
*55
.20.
198
16.9
230.
3*
56.1
0.3
9722
.821
9.6
54.6
0.0
100
26.2
217.
354
.90.
097
M&W
SEE
DS 4
5A38
101
P250
1,2,
3,4,
617
.722
4.8
*56
.30.
094
15.0
226.
7*
56.8
0.0
9317
.921
6.5
55.7
0.0
9420
.223
1.2
**56
.30.
095
M&W
SEE
DS 4
5J99
104
P250
1,2
19.3
209.
056
.70.
098
15.5
198.
157
.20.
097
20.0
211.
556
.50.
097
22.4
217.
556
.50.
099
M&W
SEE
DS 4
5M80
103
P250
1,2,
3,4,
619
.720
6.6
55.5
0.0
9615
.419
4.4
56.1
0.0
9220
.121
0.5
55.0
0.0
9623
.621
5.0
55.3
0.0
99Nu
Tech
/G2
GENE
TICS
5H-
806™
106
P500
1,2,
4,6
21.6
227.
7**
55.8
0.0
9716
.323
7.8
**57
.90.
097
22.1
227.
8*
55.5
0.0
9626
.321
7.4
54.1
0.0
98RE
NK R
K699
SSTX
105
P500
1,2,
3,4,
621
.620
3.7
55.3
0.0
9116
.919
7.2
56.5
0.0
9122
.120
2.0
54.9
0.0
9025
.821
1.8
54.5
0.0
90RE
NK R
K712
SSTX
106
P500
1,2,
3,4,
621
.420
4.5
56.0
0.1
9716
.420
9.1
56.6
0.2
9922
.520
4.3
55.8
0.0
9925
.320
0.1
55.5
0.0
93RE
NK R
K776
SSTX
107
P500
1,2,
3,4,
622
.421
5.8
55.5
0.1
9916
.920
9.3
56.4
0.4
9924
.021
6.0
55.1
0.0
9926
.322
2.1
*55
.20.
097
RUPP
XRD
05-0
410
5P2
501,
219
.722
2.0
*55
.70.
210
015
.121
6.6
56.0
0.6
100
20.3
223.
755
.50.
010
023
.822
5.5
*55
.70.
010
0RU
PP X
RJ03
-31
103
C250
1,2,
3,4,
619
.521
1.5
55.5
0.2
9815
.420
8.5
56.8
0.7
9720
.021
0.4
55.0
0.0
9823
.021
5.6
54.7
0.0
100
RUPP
XRJ
07-2
010
7P2
501,
2,3,
4,6
21.6
206.
655
.90.
399
16.3
209.
057
.50.
998
22.2
211.
355
.50.
099
26.3
199.
654
.90.
098
SEED
CON
SULT
ANTS
SCS
10H
R43™
104
P125
01,
2,4
21.7
226.
2*
55.5
0.3
9816
.721
7.3
57.2
1.0
9822
.123
8.5
**55
.10.
010
026
.522
2.8
*54
.10.
096
SPEC
IALT
Y 32
A323
102
P500
1,2,
3,4,
618
.022
1.0
*55
.10.
199
14.7
216.
055
.90.
398
18.5
217.
454
.70.
010
020
.922
9.6
*54
.60.
010
0SP
ECIA
LTY
34A4
1310
4P5
001,
2,3,
4,6
20.0
216.
856
.00.
198
15.3
210.
056
.80.
496
20.8
220.
355
.60.
010
023
.922
0.1
*55
.50.
097
WEL
LMAN
W23
07DP
107
ENC
1,2
22.6
227.
4*
54.7
0.7
9817
.123
0.0
*55
.72.
098
23.7
228.
2*
54.4
0.0
9926
.922
3.9
*54
.00.
097
WEL
LMAN
W24
01DP
100
ENC
1,2
17.6
218.
456
.50.
297
14.4
216.
256
.90.
697
17.6
214.
457
.80.
010
020
.822
4.4
*55
.00.
093
AVER
AGE
20.4
217.
655
.60.
198
15.9
215.
156
.60.
497
21.0
217.
955
.30.
099
24.2
219.
754
.90.
098
HIGH
EST
22.6
227.
757
.20.
710
017
.123
7.8
58.4
2.0
100
24.0
238.
557
.80.
010
026
.923
1.2
56.5
0.0
100
LOW
EST
17.5
203.
754
.50.
091
14.4
194.
455
.20.
091
17.6
202.
053
.90.
090
19.6
199.
653
.50.
090
CV (%
)6.
16.
51.
838
8.4
4.0
5.2
7.2
1.7
242.
85.
04.
86.
11.
80.
03.
07.
16.
11.
90.
05.
0LS
D (5
%)
0.6
6.8
0.5
2.2
2.0
0.6
12.4
0.8
1.3
4.0
0.8
11.1
0.8
0.0
2.0
1.3
11.4
0.9
0.0
4.0
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
Early
- TR
IAL
AVER
AGE
Bran
ch -
Early
Cass
- Ea
rlyW
asht
enaw
- Ea
rlyBU
/ABU
/ABU
/ABU
/A
- 10 -
TABL
E 1L
.ZO
NE 1
BRAN
CH, C
ASS
& W
ASHT
ENAW
COU
NTY
GRAI
N TR
IALS
- LA
TE (1
08 D
ay an
d La
ter)
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
dAG
RIGO
LD A
6441
STX
109
P500
1,2,3,
619
.422
3.3*
56.2
0.510
013
.419
5.158
.31.4
100
21.1
233.9
54.9
0.010
023
.824
0.9*
55.4
0.099
AGRI
GOLD
A64
62ST
XRIB
110
P500
1,2,3,
4,622
.322
7.7**
55.6
0.197
14.2
218.1
**57
.70.3
100
24.4
234.5
*54
.80.0
100
28.4
230.5
54.2
0.092
AGRI
GOLD
A64
72VT
3PRI
B11
0P5
001,2
,320
.520
7.356
.90.0
9813
.119
0.659
.60.0
9923
.821
7.656
.00.0
9924
.821
3.755
.20.0
96BE
CK X
L 582
8AM™
*11
0ES
C1,2
,420
.922
4.9*
55.4
0.610
014
.619
5.957
.81.7
100
22.2
235.5
*55
.00.0
100
26.1
243.5
*53
.40.0
100
BECK
XL 5
840A
M™*
108
ESC
1,2,4
20.7
203.1
55.6
0.599
13.7
175.2
58.2
1.410
023
.422
5.754
.70.0
9924
.920
8.454
.00.0
98BE
CK X
L 593
9AM™
*10
9ES
C1,2
,421
.520
5.355
.91.5
9914
.018
6.658
.14.5
100
23.9
221.0
54.9
0.099
26.7
208.3
54.6
0.099
DAIR
YLAN
D SE
ED D
S-94
09RA
109
C500
1,2,3,
4,619
.820
6.256
.11.4
100
13.5
181.9
58.0
4.210
021
.422
9.455
.90.0
100
24.4
207.4
54.3
0.010
1DA
IRYL
AND
SEED
DS-
9508
RA10
8C5
001,2
,3,4,6
20.2
219.8
*53
.80.0
9913
.319
1.255
.40.0
9923
.523
9.3*
52.6
0.010
023
.822
9.153
.50.0
99DE
KALB
DKC
58-0
6 GEN
SSRI
B10
8P5
001,2
,3,4,6
19.9
222.0
*57
.50.3
9713
.721
1.7*
59.7
0.998
22.4
226.5
56.2
0.096
23.6
227.7
56.5
0.096
DEKA
LB D
KC60
-67 G
ENSS
RIB
110
P500
1,2,3,
4,619
.122
0.2*
58.6
0.299
13.2
207.4
*60
.10.6
9921
.423
2.058
.30.0
100
22.7
221.3
57.4
0.098
DEKA
LB D
KC62
-08 G
ENSS
RIB
112
P500
1,2,3,
4,622
.020
7.955
.40.0
9913
.418
2.956
.50.0
9925
.322
9.854
.50.0
100
27.3
211.1
55.2
0.099
DYNA
GRO
D48S
S38
108
P500
1,2,3,
4, 619
.421
2.457
.40.0
100
13.1
190.3
58.9
0.010
022
.322
3.456
.30.0
100
22.9
223.5
57.0
0.099
DYNA
GRO
D51S
S54
111
500
1,2,3,
4,622
.322
6.5*
55.8
0.097
15.2
209.0
*57
.80.0
100
24.6
234.8
*54
.90.0
9927
.223
5.854
.70.0
91GO
LDEN
HAR
VEST
G09
E98-
3000
G T10
9C5
001,2
,3,4
20.2
216.1
57.8
0.010
013
.919
4.260
.20.0
100
22.3
233.7
57.0
0.010
024
.422
0.556
.20.0
99GR
EAT
LAKE
S 59
18ST
XRIB
109
P500
1,2,3,
620
.621
2.056
.40.5
9813
.319
5.759
.01.4
9923
.423
4.054
.80.0
100
25.2
206.3
55.3
0.096
GREA
T LA
KES
5944
STXR
IB10
9P5
001,2
,3,6
20.9
213.8
55.8
0.297
13.2
180.6
58.0
0.699
23.6
226.2
54.6
0.097
25.8
234.7
54.7
0.096
GREA
T LA
KES
6068
STXR
IB11
0P5
001,2
,3,6
21.3
202.0
55.9
0.198
13.8
178.7
58.3
0.310
024
.522
9.654
.20.0
100
25.6
197.6
55.2
0.093
KEY
610Q
R11
0EN
C1,2
,319
.421
7.354
.70.0
100
13.8
194.5
56.8
0.010
023
.622
8.652
.80.0
100
20.7
228.8
54.5
0.010
0LE
GACY
SEE
DS L-
6913
GEN
SS R
IB10
8P5
001,2
,3,4,6
20.0
206.2
56.8
0.598
12.8
190.5
58.3
1.499
23.5
232.7
55.7
0.099
23.8
195.4
56.3
0.097
M&W
SEE
DS 44
D81
108
P250
1,218
.822
0.0*
55.8
0.199
12.3
203.4
*56
.10.3
9920
.923
9.5*
55.8
0.010
023
.321
7.255
.60.0
99NK
Bra
nd N
63R-
3000
GT B
rand
109
C500
1,2,3,
419
.922
2.7*
57.9
0.597
13.2
199.3
59.8
1.410
021
.723
7.4*
57.4
0.093
24.8
231.4
56.6
0.099
NK B
rand
N66
V-30
00GT
110
C500
1,2,3,
419
.520
5.057
.61.0
9912
.616
9.159
.13.1
100
22.5
236.8
*57
.10.0
9923
.420
9.156
.60.0
97NK
Bra
nd N
70J-3
011 A
112
C500
1,2,3,
4,A20
.019
9.056
.90.2
9913
.517
8.058
.60.6
9825
.622
8.155
.20.0
9920
.819
0.956
.80.0
100
NuTe
ch/G
2 GEN
ETIC
S 5F
-510
™11
0P5
001,2
,4,6
20.1
215.6
57.9
0.298
14.1
188.1
59.6
0.610
022
.622
9.756
.80.0
100
23.6
228.9
57.2
0.095
NuTe
ch/G
2 GEN
ETIC
S 5F
-709
™10
9P5
001,2
,4,6
20.3
223.7
*55
.90.6
9814
.418
2.158
.41.7
9822
.723
4.5*
54.6
0.010
023
.925
4.4**
54.6
0.097
NuTe
ch/G
2 GEN
ETIC
S 5Z
-308
™10
8P5
001,2
,4,6
19.7
219.1
*56
.80.4
9913
.318
5.558
.11.1
100
22.0
250.6
**56
.30.0
9823
.922
1.255
.90.0
100
RENK
RK7
91SS
TX10
8P5
001,2
,3,4,6
19.1
216.0
56.9
0.192
12.7
193.6
57.9
0.395
21.3
247.8
*56
.10.0
9323
.220
6.856
.60.0
88RE
NK R
K810
SSTX
109
P500
1,2,3,
4,622
.321
7.755
.50.8
9613
.618
7.757
.52.5
100
24.6
239.0
*55
.10.0
9428
.622
6.354
.10.0
95RE
NK R
K871
VT2P
111
P250
1,220
.221
3.855
.40.2
100
13.1
183.2
57.1
0.610
023
.523
9.1*
55.1
0.010
024
.021
9.154
.00.0
100
RUPP
XRJ
10-9
111
0C2
501,2
,3,4,6
18.8
214.9
57.2
0.097
12.8
188.0
58.7
0.098
21.9
225.2
56.3
0.010
021
.723
1.556
.80.0
93SE
ED C
ONSU
LTAN
TS S
C 10
AQ96
™10
9A2
501,2
,3,4
19.8
217.9
56.2
0.194
13.3
197.8
57.4
0.397
23.2
237.3
*54
.90.0
9523
.121
8.756
.30.0
90SE
ED C
ONSU
LTAN
TS S
CS 10
85AM
™10
8P5
001,2
,420
.320
7.456
.10.5
9613
.518
4.057
.81.6
9323
.421
9.554
.90.0
9824
.221
8.655
.50.0
98SE
ED C
ONSU
LTAN
TS S
CS 10
94AM
™10
9C2
501,2
,421
.121
3.455
.00.6
9913
.718
0.158
.31.7
9923
.123
1.654
.40.0
100
26.4
228.6
52.4
0.098
SEED
CON
SULT
ANTS
SCS
1105
AM™
110
P500
1,2,4
20.0
207.7
55.3
0.299
13.1
172.5
57.1
0.610
022
.021
8.555
.20.0
9924
.823
2.153
.80.0
97SP
ECIA
LTY
38A5
7310
8P5
001,2
,3,4,6
19.0
221.0
*55
.90.1
9713
.220
0.057
.60.3
9821
.023
1.854
.90.0
9922
.723
1.355
.10.0
95W
ELLM
AN W
2409
S10
9EN
C1,2
,419
.421
9.6*
57.3
0.099
13.4
208.9
*59
.20.0
100
22.3
230.0
56.2
0.010
022
.521
9.956
.60.0
96W
ELLM
AN W
2610
DP11
0EN
C1,2
22.7
218.1
*54
.90.5
9813
.919
9.657
.21.4
9924
.023
3.255
.00.0
9730
.022
1.552
.50.0
97AV
ERAG
E20
.321
4.856
.30.3
9813
.519
1.158
.21.0
9922
.923
1.855
.40.0
9924
.522
1.455
.30.0
97HI
GHES
T22
.722
7.758
.61.5
100
15.2
218.1
60.2
4.510
025
.625
0.658
.30.0
100
30.0
254.4
57.4
0.010
1LO
WES
T18
.819
9.053
.80.0
9212
.316
9.155
.40.0
9320
.921
7.652
.60.0
9320
.719
0.952
.40.0
88CV
(%)
5.66.7
1.530
6.14.0
4.47.5
1.417
6.72.0
5.06.0
1.40.0
3.06.0
6.71.7
0.06.0
LSD
(5%
)0.8
9.70.6
0.73.0
0.716
.70.9
2.03.0
1.316
.30.9
0.04.0
1.717
.31.1
0.07.0
Late
- TRI
AL A
VERA
GEBr
anch
- Late
Cass
- Lat e
Was
hten
aw - L
ateBU
/ABU
/ABU
/ABU
/A
- 11 -
2 Yea
r Ave
rage
s 201
5 - 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AGRI
GOLD
A64
72VT
3PRI
B11
0P5
001,2
,323
.020
8.055
.60.0
9917
.620
4.257
.20.0
9923
.821
7.455
.90.0
100
27.8
202.4
53.8
0.098
BECK
XL 5
828A
M™*
110
ESC
1,2,4
24.5
212.3
53.7
0.410
018
.921
0.255
.21.1
100
24.1
214.8
54.2
0.010
030
.421
1.851
.60.0
100
DEKA
LB D
KC60
-67 G
ENSS
RIB
110
P500
1,2,3,
4,622
.521
7.2*
56.3
0.299
17.3
226.9
**57
.80.6
9922
.421
8.4*
56.8
0.010
027
.820
6.254
.40.0
99DE
KALB
DKC
62-0
8 GEN
SSRI
B11
2P5
001,2
,3,4,6
27.2
205.8
53.5
0.010
020
.320
5.454
.50.0
100
28.2
216.8
53.8
0.010
033
.219
5.152
.20.0
99DY
NAGR
O D4
8SS3
810
8P5
001,2
,3,4,6
23.5
209.1
55.4
0.099
18.6
216.5
*56
.90.0
9823
.321
1.455
.40.0
100
28.7
199.3
54.0
0.010
0GO
LDEN
HAR
VEST
G09
E98-
3000
GT10
9C5
001,2
,3,4
24.1
206.9
55.4
0.198
18.6
200.9
57.5
0.398
24.0
214.5
55.3
0.099
29.8
205.4
53.3
0.098
GREA
T LA
KES
5918
STXR
IB10
9P5
001,2
,3,6
23.9
210.3
54.9
0.298
18.2
209.8
56.8
0.799
23.9
224.6
*55
.10.0
9929
.619
6.553
.00.0
97GR
EAT
LAKE
S 60
68ST
XRIB
110
P500
1,2,3,
625
.320
1.953
.90.0
9719
.820
5.055
.70.1
9826
.221
2.253
.20.0
9930
.018
8.552
.80.0
95LE
GACY
SEE
DS L-
6913
GEN
SS R
IB10
8P5
001,2
,3,4,6
22.9
206.1
55.1
0.299
18.5
206.0
56.3
0.798
24.0
217.4
55.0
0.010
026
.319
4.854
.00.0
98NK
Bra
nd N
63R-
3000
GT B
rand
109
C500
1,2,3,
423
.722
1.2**
55.7
0.498
18.1
223.5
*57
.51.1
9924
.122
0.4*
55.7
0.096
29.0
219.6
*54
.00.0
99NK
Bra
nd N
70J-3
011A
112
C500
1,2,3,
4,A24
.619
9.754
.40.1
9818
.419
7.256
.20.3
9927
.121
9.8*
54.0
0.096
28.1
182.1
53.2
0.010
0Nu
Tech
/G2 G
ENET
ICS
5F-7
09™
109
P500
1,2,4,
623
.821
5.6*
54.0
0.397
19.3
212.4
55.8
0.893
24.2
210.4
53.8
0.098
28.0
224.0
**52
.50.0
98RE
NK R
K791
SSTX
108
P500
1,2,3,
4,622
.621
2.754
.70.0
9417
.120
5.755
.30.1
9622
.023
0.4**
54.8
0.094
28.7
201.9
53.9
0.092
RUPP
XRJ
10-9
111
0C2
501,2
,3,4,6
23.2
204.5
55.0
0.098
18.0
202.3
56.4
0.099
24.0
209.8
55.1
0.010
027
.620
1.353
.60.0
96SP
ECIA
LTY
38A5
7310
8P5
001,2
,3,4,6
22.9
216.7
*54
.10.0
9918
.022
1.7*
55.4
0.199
22.2
216.6
53.9
0.010
028
.521
1.953
.00.0
97W
ELLM
AN W
2409
S10
9EN
C1,2
,422
.921
4.355
.40.0
9817
.921
5.6*
56.8
0.098
23.0
224.0
*55
.30.0
9827
.720
3.354
.00.0
98AV
ERAG
E23
.821
0.154
.80.1
9818
.421
0.256
.30.4
9824
.221
7.454
.80.0
9928
.820
2.853
.30.0
98HI
GHES
T27
.222
1.256
.30.4
100
20.3
226.9
57.8
1.110
028
.223
0.456
.80.0
100
33.2
224.0
54.4
0.010
0LO
WES
T22
.519
9.753
.50.0
9417
.119
7.254
.50.0
9322
.020
9.853
.20.0
9426
.318
2.151
.60.0
92CV
(%)
6.26.7
1.735
8.14.0
5.77.2
1.419
1.54.0
5.76.8
1.80.0
4.06.5
6.11.9
0.04.0
LSD
(5%
)0.7
6.80.4
2.12.0
0.812
.00.7
1.24.0
1.112
.50.8
0.03.0
1.510
.60.8
0.04.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
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Late
- TR
IAL
AVER
AGE
Bran
ch -
Late
Cass
- La
teW
asht
enaw
- La
teBU
/ABU
/ABU
/ABU
/A
- 12 -
TABL
E 2E
.ZO
NE 2
ALLE
GAN,
INGH
AM &
SAG
INAW
COU
NTY
GRAI
N TR
IALS
- EA
RLY
(101
Day
and
Earli
er)
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdAG
RIGO
LD A
6283
VT2P
RO10
1P5
001,2
20.6
223.0
55.8
0.010
024
.021
6.554
.30.0
100
17.4
230.8
57.8
0.010
020
.622
1.755
.20.0
100
BECK
5162
A310
1ES
C1,2
,3,4
20.7
229.3
57.2
0.099
23.0
223.7
56.2
0.098
17.6
239.8
58.6
0.010
021
.522
4.456
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99BE
CK X
L 472
1AM™
*97
ESC
1,2,4
19.5
234.6
54.4
0.099
21.0
226.6
*53
.10.0
9817
.225
3.6*
56.0
0.099
20.3
223.7
54.3
0.099
CHAN
NEL 1
97-6
8STX
RIB
97P5
001,2
,3,4,6
21.1
240.2
*56
.10.0
9823
.123
8.7*
55.3
0.096
16.8
251.5
58.3
0.099
23.5
230.5
*54
.70.0
100
CROP
LAN
3611
SS/R
IB96
P500
1,2,3,
4, 619
.423
4.657
.40.0
9721
.721
2.855
.90.0
9515
.525
0.559
.60.0
9821
.024
0.4*
56.8
0.098
CROP
LAN
3899
VT2P
/RIB
96P2
501,2
,320
.924
7.6**
56.3
0.099
23.0
240.8
**55
.30.0
100
17.1
265.0
**58
.20.0
9722
.823
7.1*
55.5
0.099
DAIR
YLAN
D SE
ED D
S-91
9898
P500
1,2,3,
4,619
.721
7.554
.70.0
9922
.721
0.553
.30.0
9916
.224
4.057
.10.0
100
20.3
198.0
53.7
0.099
DAIR
YLAN
D SE
ED D
S-95
9999
C500
1,2,3,
421
.621
9.855
.30.0
9823
.321
2.555
.00.0
9718
.323
4.657
.30.0
9923
.321
2.353
.70.0
100
DAIR
YLAN
D SE
ED D
S-97
0110
1P5
001,2
,3,4, 6
21.9
221.3
55.1
0.095
24.9
214.9
53.6
0.093
17.7
237.1
56.7
0.096
23.3
211.8
54.9
0.097
DEKA
LB D
KC44
-13 G
ENSS
RIB
94P5
001,2
,3,4, 6
18.4
234.3
57.2
0.099
20.6
225.0
56.3
0.097
14.8
259.0
*58
.90.0
9819
.921
9.056
.50.0
100
DEKA
LB D
KC46
-36 G
ENSS
RIB
96P5
001,2
,3,4,6
19.8
231.5
56.4
0.010
022
.322
5.755
.10.0
100
15.2
245.4
58.5
0.099
22.1
223.6
55.6
0.099
DEKA
LB D
KC46
-79 G
ENSS
RIB
96P5
001,2
,3,4, 6
20.2
233.4
57.0
0.010
021
.822
7.5*
56.2
0.010
016
.525
2.8*
58.8
0.010
022
.321
9.956
.00.0
100
DEKA
LB D
KC48
-56 G
ENSS
RIB
98P5
001,2
,3,4,6
20.4
228.0
55.9
0.097
22.0
207.4
54.7
0.090
16.8
247.0
58.0
0.010
022
.422
9.7*
55.0
0.010
0DE
KALB
DKC
49-7
2 GEN
SSRI
B99
P500
1,2,3,
4, 620
.023
2.655
.10.0
9621
.922
7.7*
53.2
0.090
15.7
246.4
57.4
0.099
22.4
223.8
54.6
0.010
0DE
KALB
DKC
50-8
2 GEN
SSRI
B10
0P5
001,2
,3,4, 6
20.2
226.1
55.8
0.099
22.1
216.4
53.9
0.099
16.4
240.9
57.9
0.097
22.1
221.2
55.6
0.010
0DY
NAGR
O D3
7SS6
097
P500
1,2,3,
4,619
.523
3.357
.40.5
100
21.4
225.1
56.8
0.010
015
.424
9.159
.50.0
9921
.622
5.656
.01.4
100
DYNA
GRO
D39V
P14
99P5
001,2
,320
.323
2.756
.90.0
9921
.423
3.4*
56.3
0.099
16.5
250.5
58.8
0.098
23.0
214.2
55.7
0.099
DYNA
GRO
D39V
P69
99P5
001,2
,319
.422
0.956
.30.0
9822
.521
6.954
.80.0
100
15.2
230.2
58.3
0.094
20.5
215.5
56.0
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7.4
54.7
0.3
9822
.221
7.8
54.4
0.0
9818
.423
7.9
56.9
0.9
9824
.819
6.3
52.9
0.1
99HI
GHES
T24
.122
5.5
55.8
3.7
100
25.5
226.
155
.60.
010
020
.625
1.9
58.1
10.8
100
26.3
208.
554
.00.
710
0LO
WES
T20
.620
7.2
52.1
0.0
9620
.120
7.3
52.1
0.0
9116
.922
3.2
54.3
0.0
9423
.318
2.1
49.8
0.0
97CV
(%)
4.7
4.9
1.9
913.
13.
05.
25.
02.
40.
05.
05.
34.
61.
255
2.3
3.0
3.7
4.9
2.0
1285
.02.
0LS
D (5
%)
0.5
5.2
0.5
0.8
2.0
1.0
9.1
1.1
0.0
4.0
0.8
9.1
0.6
2.4
3.0
0.7
8.4
0.9
0.5
2.0
BU/A
BU/A
BU/A
BU/A
Early
- TR
IAL
AVER
AGE
Alle
gan
- Ear
lyIn
gham
- Ea
rlySa
gina
w - E
arly
- 14 -
TABL
E 2L
.ZO
NE 2
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdAG
RIGO
LD A
6267
STXR
IB10
2P5
001,
2,3,
4,6
22.8
243.
055
.00.
099
23.6
251.
9*
53.3
0.0
9819
.325
4.9
*56
.90.
099
25.6
222.
254
.80.
010
0AG
RIGO
LD A
6300
STXR
IB10
3P5
001,
2,3,
4,6
21.7
230.
956
.20.
010
023
.023
6.5
54.8
0.0
100
18.2
239.
657
.90.
099
24.0
216.
655
.90.
099
AGRI
GOLD
A63
55ST
X10
5P5
001,
2,3,
624
.922
2.7
54.2
2.3
9927
.024
2.9
53.0
0.0
9921
.124
1.6
56.5
0.0
9726
.718
3.7
53.1
7.0
100
BECK
XL
5140
HR™
*10
5ES
C1,
2,4
24.2
253.
3**
55.4
0.0
9925
.926
0.3
**54
.40.
010
019
.726
5.8
**58
.10.
010
027
.023
3.9
*53
.90.
097
BECK
XL
5234
AMX™
*10
2ES
C1,
2,3,
420
.823
3.7
56.4
0.0
9921
.924
6.3
*55
.20.
010
017
.424
7.4
58.2
0.0
9923
.220
7.4
55.8
0.0
99BE
CK X
L 54
60AM
™*
104
ESC
1,2,
423
.424
0.6
55.3
0.0
9925
.923
3.3
54.0
0.0
9818
.925
4.2
*56
.90.
099
25.3
234.
2*
55.0
0.0
99CH
ANNE
L 20
2-52
STXR
IB10
2A5
001,
2,3,
4,6
22.1
232.
654
.80.
099
23.3
239.
153
.80.
099
19.0
248.
756
.70.
098
24.0
209.
953
.80.
010
0CR
OPLA
N 53
69SS
/RIB
103
P500
1,2,
3,4,
623
.922
3.0
54.8
0.0
9726
.123
5.1
53.7
0.0
9820
.222
9.8
56.5
0.0
9425
.320
4.1
54.3
0.0
97DA
IRYL
AND
SEED
DS-
920 3
103
C500
1,2,
3,4,
624
.822
7.8
53.4
0.0
9925
.923
2.0
52.7
0.0
9920
.723
6.9
56.0
0.0
9727
.821
4.6
51.5
0.0
100
DAIR
YLAN
D SE
ED D
S-98
0 510
5C5
001,
2,3,
4,6
24.9
212.
952
.70.
899
27.5
219.
151
.70.
010
021
.423
6.6
54.9
0.6
9825
.918
3.1
51.6
1.7
100
DAIR
YLAN
D SE
ED D
S-99
0510
5C5
001,
2,3,
4,6
28.1
211.
052
.20.
096
31.5
222.
850
.90.
090
23.0
221.
455
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097
29.9
188.
750
.00.
010
0DE
KALB
DKC
52-8
4 GE
NSSR
IB10
2P5
001,
2,3,
4,6
19.6
242.
954
.80.
099
19.9
250.
1*
53.9
0.0
9815
.924
6.9
56.4
0.0
100
23.1
231.
6*
54.0
0.0
99DE
KALB
DKC
53-6
8 GE
NSSR
IB10
3P5
001,
2,3,
4,6
23.3
231.
255
.70.
396
25.7
228.
854
.80.
095
18.8
234.
858
.40.
994
25.5
229.
9*
54.0
0.0
97DE
KALB
DKC
54-3
8 GE
NSSR
IB10
4P5
001,
2,3,
4,6
23.5
239.
456
.50.
410
025
.223
5.7
54.9
0.0
100
20.1
250.
958
.20.
010
025
.223
1.7
*56
.31.
110
0DE
KALB
DKC
55-2
0 GE
NSSR
IB10
5P5
001,
2,3,
4,6
23.5
240.
954
.10.
099
25.5
248.
4*
53.4
0.0
9921
.025
4.5
*56
.40.
099
24.1
219.
952
.50.
098
DYNA
GRO
CX15
104
104
P500
1,2
24.1
238.
455
.20.
099
26.7
241.
454
.20.
010
020
.425
4.0
*57
.40.
096
25.2
219.
854
.10.
010
0DY
NAGR
O D4
3SS5
010
3P5
001,
2,3,
4,6
24.6
228.
956
.50.
094
26.9
239.
555
.00.
089
20.3
227.
458
.50.
099
26.8
219.
756
.00.
095
DYNA
GRO
D48S
S38
108
P500
1,2,
3,4,
627
.121
7.6
55.1
0.6
9229
.422
4.1
54.4
0.0
100
23.6
236.
456
.71.
097
28.4
192.
454
.20.
980
GOLD
EN H
ARVE
ST G
05T8
2-31
2210
5C5
001,
2,3,
4,6
23.9
213.
855
.09.
897
25.4
211.
954
.40.
095
20.5
227.
957
.30.
097
25.8
201.
653
.329
.510
0GO
LDEN
HAR
VEST
G06
N80-
3111
106
C500
1,2,
3,4,
626
.921
5.9
52.8
0.2
9930
.822
3.1
51.4
0.0
100
21.1
224.
055
.00.
096
28.9
200.
551
.90.
699
GOLD
EN H
ARVE
ST G
07F2
3-31
1110
7C5
001,
2,3,
4,6
26.6
223.
754
.10.
096
30.1
241.
052
.50.
096
24.4
217.
356
.10.
095
25.4
212.
753
.60.
098
GREA
T LA
KES
5283
STXR
IB10
2P5
001,
2,3,
623
.124
2.0
54.8
0.5
9824
.623
7.5
52.8
0.0
9919
.225
6.2
*57
.30.
098
25.4
232.
4*
54.1
1.6
98GR
EAT
LAKE
S 54
70ST
XRIB
104
P500
1,2,
3,6
23.9
239.
756
.10.
296
25.5
243.
955
.20.
099
21.0
255.
7*
57.5
0.0
100
25.3
219.
755
.60.
688
GREA
T LA
KES
5566
STX
105
P500
1,2,
3,6
25.4
227.
556
.70.
597
27.3
239.
455
.10.
010
021
.324
0.8
58.4
0.0
9027
.620
2.5
56.6
1.4
100
GREA
T LA
KES
5755
STXR
IB10
7P5
001,
2,3,
625
.723
1.6
54.0
0.8
9927
.023
9.3
52.0
0.0
100
22.1
238.
556
.40.
997
28.1
217.
153
.61.
710
0LE
GACY
SEE
DS L
-471
4 GE
NSS
103
P500
1,2,
3,4,
623
.222
9.1
55.1
0.0
9925
.922
6.4
53.8
0.0
9819
.624
0.8
57.1
0.0
9824
.222
0.0
54.5
0.0
100
LEGE
ND 9
503
SSRI
B10
3C2
501,
2,3,
622
.022
4.9
55.5
0.5
9623
.122
7.1
54.9
0.0
9018
.623
7.0
57.6
0.0
9924
.321
0.7
53.8
1.4
100
M&W
SEE
DS 4
5M45
103
P250
1,2,
3,4,
623
.222
7.0
55.5
0.0
9724
.522
7.2
55.3
0.0
9319
.823
6.6
57.0
0.0
100
25.5
217.
454
.20.
098
M&W
SEE
DS 4
5M80
103
P250
1,2,
3,4,
622
.922
3.7
55.5
0.0
9525
.021
8.6
54.9
0.0
9219
.324
2.6
56.9
0.0
100
24.4
210.
054
.80.
094
MYC
OGEN
X13
526V
H10
3C5
001,
2,3,
4,6
23.2
234.
354
.20.
010
026
.124
3.5
51.7
0.0
100
18.5
242.
857
.10.
097
24.9
216.
853
.80.
010
3NK
Bra
nd N
53W
-312
210
5C5
001,
2,3,
4,6
24.0
219.
855
.00.
998
25.7
228.
954
.10.
099
21.1
218.
257
.30.
098
25.3
212.
253
.52.
898
NK B
rand
N58
S-31
1110
6C5
001,
2,3,
4,6
25.8
221.
453
.00.
010
028
.923
4.5
51.7
0.0
9920
.722
6.2
55.3
0.0
9927
.820
3.4
52.1
0.0
100
NK B
rand
N60
F-31
1110
7C5
001,
2,3,
4,6
26.6
217.
453
.90.
899
28.5
225.
052
.40.
098
22.9
220.
955
.90.
999
28.3
206.
353
.41.
499
NuTe
ch 5
N-60
7™10
7P5
001,
2,3,
427
.921
8.3
52.9
0.5
100
32.2
221.
151
.70.
098
22.7
224.
354
.50.
099
28.8
209.
552
.41.
410
3Nu
Tech
/G2
GENE
TICS
5H-
502™
102
P500
1,2,
4,6
21.7
233.
256
.20.
099
21.6
226.
855
.30.
099
18.8
256.
2*
58.3
0.0
9924
.721
6.7
55.0
0.0
100
NuTe
ch/G
2 GE
NETI
CS 5
H-80
6™10
6P5
001,
2,4,
623
.924
7.4
*55
.50.
099
24.7
258.
6*
54.5
0.0
100
19.6
259.
1*
58.4
0.0
9627
.322
4.7
*53
.60.
010
0Nu
Tech
/G2
GENE
TICS
5K-
0208
™10
2P5
001,
2,3,
4,6
24.0
233.
553
.40.
899
25.3
240.
352
.30.
098
21.0
246.
455
.71.
798
25.8
213.
752
.30.
910
0Nu
Tech
/G2
GENE
TICS
5X-
905™
105
P500
1,2,
3,4,
623
.622
8.9
53.3
0.0
100
26.0
236.
951
.80.
010
018
.123
9.3
54.8
0.0
9926
.621
0.5
53.2
0.0
100
NuTe
ch/G
2 GE
NETI
CS 5
Z-03
05™
103
P500
1,2,
4,6
22.6
247.
5*
55.6
0.0
9824
.724
4.4
53.6
0.0
9720
.025
8.6
*57
.50.
010
023
.223
9.4
**55
.80.
097
NuTe
ch/G
2 GE
NETI
CS 5
Z-30
8™10
8P5
001,
2,4,
625
.823
5.9
55.5
0.2
100
28.9
251.
4*
54.4
0.0
100
20.9
253.
8*
57.7
0.0
100
27.6
202.
754
.50.
610
0Nu
Tech
/G2
GENE
TICS
5Z-
504™
104
P500
1,2,
4,6
23.5
237.
355
.11.
410
025
.324
3.0
53.7
0.0
100
20.5
246.
457
.30.
910
024
.822
2.6
54.4
3.4
99Nu
Tech
/G2
GENE
TICS
5Z-
906™
106
P500
1,2,
4,6
25.8
227.
954
.40.
499
27.8
231.
654
.20.
099
22.1
235.
555
.50.
098
27.7
216.
753
.61.
110
0RE
NK R
K666
SST X
102
P500
1,2,
3,4,
621
.422
0.9
55.4
0.3
9221
.222
8.8
54.5
0.0
8317
.722
3.9
57.2
0.0
9525
.421
0.2
54.5
0.9
97RE
NK R
K699
SSTX
105
P500
1,2,
3,4,
626
.019
8.3
54.6
10.6
8527
.718
4.9
53.8
0.0
6323
.020
3.4
55.7
2.0
100
27.5
206.
754
.429
.890
RENK
RK7
12SS
TX10
6P5
001,
2,3,
4,6
24.9
210.
755
.70.
997
25.5
218.
354
.50.
094
20.4
236.
857
.91.
299
28.9
177.
054
.81.
499
BU/A
BU/A
BU/A
BU/A
Late
- TR
IAL
AVER
AGE
Alleg
an -
Late
Ingh
am -
Late
Sagi
naw
- Lat
e
ALLE
GAN,
INGH
AM &
SAG
INAW
COU
NTY
GRAI
N TR
IALS
- LA
TE (
102 D
ay an
d La
ter)
- 15 -
RUPP
XRD
03-7
110
3A2
501,2
21.8
242.8
54.9
0.010
023
.824
7.9*
53.9
0.098
17.9
248.6
56.8
0.010
023
.823
2.0*
54.1
0.010
2SE
ED C
ONSU
LTAN
TS S
CS 10
34A M
103
P500
1,2,4
23.2
225.9
54.3
0.299
24.1
235.9
53.6
0.098
19.4
236.5
56.4
0.099
25.9
205.3
52.9
0.610
0SE
ED C
ONSU
LTAN
TS S
CS 10
HR4
104
P125
01,2
,424
.124
9.5*
55.2
0.098
24.6
251.9
*54
.40.0
9620
.526
3.7*
57.7
0.099
27.3
232.8
*53
.50.0
99SP
ECIA
LTY
32A3
2310
2P5
001,2
,3,4, 6
22.4
238.5
54.9
0.399
23.8
248.4
*53
.90.0
100
18.8
253.1
*57
.20.0
9724
.521
3.953
.70.9
100
SPEC
IALT
Y 34
A413
104
P500
1,2,3,
4,624
.023
7.155
.30.0
9826
.523
2.054
.50.0
9720
.924
5.357
.40.0
9724
.623
3.9*
54.1
0.010
0SP
ECIA
LTY
35A6
5510
5P5
001,2
,3,4, 6
26.2
228.3
56.0
0.198
30.4
225.5
56.2
0.099
20.5
249.4
57.2
0.098
27.7
210.0
54.6
0.397
AVER
AGE
24.0
229.9
54.9
0.798
25.9
234.9
53.7
0.097
20.2
240.9
56.9
0.298
26.0
213.8
53.9
1.898
HIGH
EST
28.1
253.3
56.7
10.6
100
32.2
260.3
56.2
0.010
024
.426
5.858
.52.0
100
29.9
239.4
56.6
29.8
103
LOW
EST
19.6
198.3
52.2
0.085
19.9
184.9
50.9
0.063
15.9
203.4
54.5
0.090
23.1
177.0
50.0
0.080
CV (%
)5.3
5.71.9
0.76.0
5.65.4
2.40.0
6.05.2
5.11.4
490.3
4.05.0
6.41.7
630.2
6.0LS
D (5
%)
0.98.8
0.710
.64.0
1.715
.01.5
0.07.0
1.214
.50.9
1.15.0
1.515
.91.0
13.4
7.0
2 Yea
r Ave
rage
s 201
5 - 20
1 4BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AGRI
GOLD
A62
67ST
XRIB
102
P500
1,2,3,
4,625
.123
0.1*
53.4
0.199
25.1
240.1
52.9
0.099
22.4
245.5
*54
.50.3
9827
.820
4.7*
52.7
0.010
0BE
CK X
L 514
0HR™
*10
5ES
C1,2
,425
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103
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1.454
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1.253
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4.055
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52-8
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226.4
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0.010
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0.452
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2.554
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1,2,3,
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2.553
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1.552
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105
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1.153
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231.6
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105
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4,625
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189.6
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106
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1,2,3,
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5.754
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2.655
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3.355
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HURO
N, M
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TRI
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and
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L 191
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6.055
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100
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55.0
0.088
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LAN
3499
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94A2
501,2
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227.6
55.5
0.196
17.4
221.0
56.7
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212.6
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100
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215.4
53.6
0.093
20.2
214.9
54.6
0.010
027
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5.852
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EAT
LAKE
S 42
50VT
2RIB
92P5
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18.8
235.2
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9516
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7.856
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100
21.0
242.5
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5.153
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S 45
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217.2
55.0
0.394
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56.5
0.610
025
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6.853
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GACY
SEE
DS L-
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91P2
501,2
20.3
231.2
55.1
0.094
17.4
245.1
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100
23.2
217.4
54.3
0.087
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L-34
23 G
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228.7
54.6
0.092
18.2
221.7
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54.5
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17.7
213.4
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53.4
0.088
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1,219
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626
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1.6
53.5
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9320
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5.6
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14.5
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42.4
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26.3
195.0
50.1
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23.2
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51.6
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28.9
190.4
48.7
0.092
CV (%
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5.04.1
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1.07.7
0.79.3
3.00.8
10.2
1.21.1
3.01.8
10.7
0.721
.14.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
Maso
n - L
ate
Mont
calm
- La
teBU
/ABU
/ABU
/ABU
/A
- 20 -
TABL
E 4.
ZONE
4GR
AND
TRAV
ERSE
, IOSC
O &
MENO
MINE
E (L
ATE)
COU
NTY
GRAI
N TR
IALS
(96 D
ay an
d Ea
rlier
)
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
dDA
IRYL
AND
SEED
DS-
9693
93C5
001,2
,3,4,6
32.8
147.3
48.9
2.397
37.2
158.1
50.3
0.094
28.3
136.6
47.5
4.599
DAIR
YLAN
D SE
ED D
S-97
91RA
91C5
001,2
,3,4,6
33.0
163.4
51.1
2.410
037
.815
8.851
.20.0
100
28.2
168.0
50.9
4.810
0DE
KALB
DKC
36-30
GEN
VT2P
RIB
86P5
001,2
25.9
172.5
51.6
0.498
28.1
169.2
52.7
0.098
23.8
175.7
50.5
0.998
DEKA
LB D
KC38
-03 G
ENVT
2PRI
B88
P500
1,227
.217
3.951
.62.3
9928
.618
7.8*
52.2
0.098
25.8
159.9
51.1
4.510
0DE
KALB
DKC
39-27
GEN
SSRI
B89
P500
1,2,3,
4,628
.917
9.6*
50.3
0.498
31.0
182.5
*50
.90.0
9726
.817
6.749
.80.9
100
DEKA
LB D
KC41
-32 G
ENSS
RIB
91P5
001,2
,3,4,6
28.9
180.1
*51
.71.7
9632
.917
3.852
.10.0
9325
.018
6.451
.33.4
98DE
KALB
DKC
43-10
GEN
VT2P
RIB
93P5
001,2
29.2
182.7
*50
.40.7
9930
.219
6.8**
51.0
0.099
28.2
168.5
49.7
1.410
0DY
NAGR
O CX
1518
787
A500
1,227
.017
8.5*
52.9
0.297
28.8
168.1
53.3
0.097
25.1
188.9
*52
.50.3
97DY
NAGR
O D2
5VC4
585
P500
1,227
.516
4.751
.30.0
100
30.4
153.8
51.3
0.010
024
.717
5.651
.20.0
99DY
NAGR
O D3
1SS3
191
A500
1,2,3,
4,628
.518
1.2*
49.4
0.699
31.1
179.3
50.2
0.098
26.0
183.2
48.7
1.110
0DY
NAGR
O D3
7VC6
095
A500
1,231
.118
8.4**
51.5
0.610
034
.916
8.851
.30.0
9927
.320
8.0**
51.8
1.110
0GO
LDEN
HAR
VEST
G84
J92-3
011A
86C5
001,2
,3,4,A
25.5
158.4
52.5
1.010
027
.616
6.452
.40.0
100
23.4
150.3
52.6
2.010
0GO
LDEN
HAR
VEST
G88
M78-3
011A
88C5
001,2
,3,4,6
,A27
.214
9.049
.82.1
9927
.616
6.749
.40.0
9726
.913
1.350
.24.2
100
GOLD
EN H
ARVE
ST G
90Y0
4-311
0A90
C500
1,2,4,
A28
.716
5.850
.613
.699
31.2
173.9
51.8
0.099
26.2
157.6
49.4
27.2
99GR
EAT L
AKES
3847
VT2R
IB88
P500
1,228
.018
1.0*
51.5
0.799
31.4
169.1
51.9
0.098
24.7
192.9
*51
.01.4
100
GREA
T LAK
ES 42
50VT
2RIB
92P5
001,2
29.3
172.2
50.4
0.399
32.1
179.4
50.5
0.010
026
.516
5.050
.30.6
98GR
EAT L
AKES
4452
STX
94P5
001,2
,3,6
31.6
164.5
51.6
0.798
34.4
165.1
54.6
0.096
28.8
163.9
48.7
1.410
0GR
EAT L
AKES
4548
STXR
IB95
P500
1,2,3,
632
.018
7.6*
50.0
0.099
35.3
187.5
*51
.00.0
9928
.618
7.8*
49.1
0.098
LEGA
CY S
EEDS
L-28
13 V
T2PR
O R
87P2
501,2
25.3
161.9
52.0
1.298
28.5
160.2
52.7
0.097
22.2
163.7
51.4
2.398
LEGA
CY S
EEDS
L-29
24 V
T2PR
O89
P250
1,229
.415
9.050
.11.8
9831
.015
6.550
.90.0
9927
.916
1.549
.33.7
97LE
GACY
SEE
DS L-
3022
GEN
SS R
IB92
P500
1,2,3,
4,629
.516
9.251
.81.5
100
33.4
151.2
51.8
0.099
25.6
187.3
*51
.73.1
100
LEGE
ND 95
87 V
T2PR
IB87
C250
1,227
.015
1.551
.90.3
8731
.816
2.652
.30.0
8322
.114
0.551
.50.6
91LE
GEND
9688
VT2
PRIB
88C2
501,2
26.1
160.4
51.7
0.099
28.2
172.4
52.0
0.010
024
.014
8.451
.40.0
98MY
COGE
N 2V
357
93C2
501,2
,3,4,6
31.2
172.5
50.5
0.199
34.6
181.8
*51
.60.0
9927
.816
3.349
.50.3
98Nu
Tech
5G-93
02™
93C2
501,2
,4,6
26.4
170.4
52.6
2.489
28.8
179.3
55.0
0.085
24.1
161.5
50.3
4.993
NuTe
ch 5N
-195™
95P5
001,2
,3,4
30.8
152.7
49.4
0.710
034
.115
6.950
.10.0
100
27.5
148.5
48.7
1.499
NuTe
ch/G
2 GEN
ETIC
S 5F
-196™
96P5
001,2
,4,6
30.5
176.4
*48
.60.8
9334
.518
2.5*
49.7
0.093
26.4
170.4
47.5
1.692
NuTe
ch/G
2 GEN
ETIC
S 5X
-894™
94P5
001,2
,3,4,6
25.2
179.8
*50
.81.0
9729
.119
2.6*
51.2
0.096
21.2
167.0
50.4
2.099
RUPP
XRD
8202
82A2
501,2
24.8
155.6
54.6
0.499
25.8
165.7
54.7
0.098
23.8
145.6
54.5
0.910
0RU
PP X
RD90
-6490
C250
1,229
.518
0.6*
49.5
14.8
9831
.119
4.5*
50.6
0.099
27.9
166.6
48.5
29.5
97RU
PP X
RD92
-7492
A250
1,228
.117
5.349
.81.3
9831
.617
0.650
.20.0
9724
.518
0.049
.32.5
100
AVER
AGE
28.6
169.5
51.0
1.898
31.4
172.0
51.6
0.097
25.8
167.1
50.3
3.698
HIGH
EST
33.0
188.4
54.6
14.8
100
37.8
196.8
55.0
0.010
028
.820
8.054
.529
.510
0LO
WES
T24
.814
7.348
.60.0
8725
.815
1.249
.40.0
8321
.213
1.347
.50.0
91CV
(%)
6.19.1
4.051
6.23.0
6.08.2
3.90.0
3.06.2
9.14.1
365.0
3.0LS
D (5%
)1.4
12.5
1.77.7
2.02.2
16.5
2.30.0
3.01.9
20.8
2.415
.53.0
BU/A
BU/A
BU/A
BU/A
TRIA
L AVE
RAGE
Gran
d Tra
vers
e - E
arly
Iosco
- Ear
lyMe
nomi
nee -
Late
- 21 -
TRT Seed Treatment Chemical RateNo Seed Insecticide Applied
C125 Cruiser® 125 0.125 mg Thiamethoxan per kernalC250 Cruiser® 250 0.250 mg Thiamethoxan per kernal
C1250 Cruiser® 1250 1.25 mg Thiamethoxan per kernalP250 Poncho® 250 0.25 mg Clothianidian per kernal
P1250 Poncho® 1250 1.25 mg Clothianidian per kernalCruiser® is a registered trademark of Syngenta Group CompanyPoncho® is a registered trademark of Gustafson LLC
TREATMENT CODES FOR SEED APPLIED INSECTICIDES
CODES NUMBERS FOR HYBRID TRAITS2 Y
ear A
vera
ges 2
015 -
2014
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
dDA
IRYL
AND
SEED
DS-
9791
RA91
C500
1,2,3,
4,626
.318
4.250
.72.4
100
DEKA
LB D
KC38
-03 G
ENVT
2PRI
B88
P500
1,224
.819
0.351
.82.3
100
DEKA
LB D
KC41
-32 G
ENSS
RIB
91P5
001,2
,3,4,6
24.7
196.2
51.7
1.798
DEKA
LB D
KC43
-10 G
ENVT
2PRI
B93
P500
1,226
.319
1.750
.40.7
100
DYNA
GRO
D25V
C45
85P5
001,2
24.0
198.4
*51
.80.0
99GR
EAT
LAKE
S 38
47VT
2RIB
88P5
001,2
23.7
203.6
*51
.90.7
100
LEGA
CY S
EEDS
L-30
22 G
ENSS
RIB
92P5
001,2
,3,4,6
24.7
209.0
**52
.31.5
100
MYCO
GEN
2V35
793
C250
1,2,3,
4,626
.119
1.550
.50.1
99Nu
Tech
/G2 G
ENET
ICS
5X-8
94™
94P5
001,2
,3,4,6
23.1
184.6
50.9
1.099
AVER
AGE
24.9
194.4
51.3
1.299
HIGH
EST
26.3
209.0
52.3
2.410
0LO
WES
T23
.118
4.250
.40.0
98CV
(%)
4.97.4
3.133
3.12.2
LSD
(5%
)1.0
11.8
1.37.7
1.8
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
BU/A
BU/A
BU/A
BU/A
TRIA
L AVE
RAGE
Gran
d Tra
vers
e - E
arly
Iosco
- Ear
lyMe
nomi
nee -
Late
Code Num. Traits & Resistant Events1 Glyphosate2 European Corn Borer3 Corn Rootworm4 Liberty Link5 Clearfield, IMI, IT, IR6 Western Bean Cutworm7 Brown Mid Rib8 Leafy9 High Oil10 Waxy11 HTF High Total Fermentable12 HAE High Available Energy13 HES High Extractable Starch14 Other
- 22 -
TABL
E 5.
ZONE
5DE
LTA,
GRA
ND T
RAVE
RSE
(EAR
LY) &
MEN
OMIN
EE (E
ARLY
) COU
NTY
GRAI
N TR
IALS
(93 D
ay an
d Ea
rlier
)
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdDY
NAGR
O D2
5VC4
585
P500
1,233
.216
7.9*
50.8
0.099
37.7
163.5
*49
.70.0
9828
.617
2.251
.90.0
100
DYNA
GRO
CX15
187
87A5
001,2
34.9
169.4
*52
.10.0
9741
.016
3.3*
50.9
0.098
28.7
175.4
*53
.30.0
95GR
EAT
LAKE
S 35
10VT
2RIB
85P5
001,2
30.9
154.8
54.0
0.099
35.0
162.4
*52
.00.0
9926
.714
7.255
.90.0
99GR
EAT
LAKE
S 38
47VT
2RIB
88P5
001,2
35.5
165.6
50.6
0.010
039
.416
5.3**
49.9
0.010
031
.516
5.851
.20.0
100
GREA
T LA
KES
4250
VT2R
IB92
P500
1,235
.417
3.0**
50.1
0.098
41.3
163.2
*49
.50.0
9829
.518
2.8**
50.6
0.099
LEGA
CY S
EEDS
L-22
13 V
T2PR
O82
P250
1,228
.515
5.053
.60.0
100
31.7
164.3
*51
.80.0
100
25.2
145.6
55.3
0.099
LEGA
CY S
EEDS
L-23
14 V
T2PR
O RI
B84
P250
1,231
.216
9.9*
52.0
0.698
35.6
161.8
*50
.41.1
9826
.717
7.9*
53.6
0.099
LEGA
CY S
EEDS
L-28
13 V
T2PR
O RI
B87
P250
1,231
.216
1.151
.60.0
9733
.416
4.4*
50.0
0.098
28.9
157.7
53.2
0.096
MYCO
GEN
2P19
885
C500
1,2,3,
4,631
.115
9.752
.00.3
9935
.415
5.1*
50.1
0.010
026
.716
4.253
.90.6
98MY
COGE
N 2J
238
88C2
501,2
,3,4, 6
36.5
161.8
49.7
0.097
41.5
159.1
*49
.10.0
9731
.416
4.550
.30.0
97AV
ERAG
E32
.816
3.851
.60.1
9837
.216
2.250
.40.1
9828
.416
5.352
.90.1
98HI
GHES
T36
.517
3.054
.00.6
100
41.5
165.3
52.0
1.110
031
.518
2.855
.90.6
100
LOW
EST
28.5
154.8
49.7
0.097
31.7
155.1
49.1
0.097
25.2
145.6
50.3
0.095
CV (%
)4.2
5.31.4
657.8
3.04.3
5.61.4
632.5
3.04.1
4.91.3
632.5
2.0LS
D (5
%)
1.27.3
0.60.5
2.01.9
11.0
0.80.9
3.01.4
9.70.9
0.53.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
BU/A
BU/A
BU/A
BU/A
TRIA
L AV
ERAG
EDe
ltaGr
and
Trav
erse
- Ea
rlyMe
nom
inee
- Ea
rly
- 23 -
2015 HANDY Bt TRAIT TABLE
- 24 -
TABL
E 6E
.ZO
NE 2
- 3IN
GHAM
, MON
TCAL
M &
SAGI
NAW
COU
NTY
CONV
ENTI
ONAL
GRA
IN T
RIAL
S - E
ARLY
(101
Day
and
Earli
er)
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdBL
UE R
IVER
27B
1688
MXL
Conv
.---
------
------
------
------
---17
.921
8.4
*58
.40.
010
0BL
UE R
IVER
30B
9790
MXL
Conv
.16
.722
0.2
55.5
0.6
9915
.922
3.3
55.3
1.1
9717
.421
7.1
*55
.70.
010
0BL
UE R
IVER
40R
7397
MXL
Conv
.19
.618
2.5
55.2
0.6
100
18.2
171.
055
.51.
110
021
.119
4.0
54.8
0.0
100
BLUE
RIV
ER 4
3T35
98M
XLCo
nv.
19.9
230.
0*
53.8
0.1
100
19.6
245.
6*
53.8
0.3
100
20.2
214.
5*
53.9
0.0
100
BLUE
RIV
ER 4
5R37
99M
XLCo
nv.
21.7
213.
155
.40.
397
21.5
222.
655
.50.
610
021
.920
3.6
55.3
0.0
94GR
EAT
LAKE
S 46
9996
P500
Conv
.17
.821
8.8
56.7
0.3
9916
.722
3.4
56.9
0.3
100
18.9
214.
2*
56.4
0.3
99GR
EAT
LAKE
S 48
7998
P500
Conv
.19
.523
6.9
**55
.22.
810
018
.924
9.5
*55
.05.
610
020
.122
4.4
**55
.50.
010
0KE
Y 40
110
0EN
CCo
nv.
------
------
------
------
------
20.6
215.
9*
56.0
0.3
97M
&W S
EEDS
45A
3710
0P2
50Co
nv.
19.0
233.
8*
56.5
0.4
9918
.425
4.0
**56
.70.
398
19.7
213.
656
.20.
610
0M
&W S
EEDS
45K
3310
1P2
50Co
nv.
19.5
217.
154
.20.
610
017
.722
4.6
55.0
0.9
100
21.3
209.
553
.50.
310
0M
&W S
EEDS
46G
5498
P250
Conv
.20
.621
3.1
54.2
0.3
9219
.621
4.3
54.5
0.7
9421
.721
1.9
53.8
0.0
91M
&W S
EEDS
47J
6494
P250
Conv
.16
.721
0.2
56.9
0.0
100
15.0
209.
257
.30.
010
018
.421
1.2
56.5
0.0
100
PART
NERS
BRA
ND P
B714
710
1C2
50Co
nv.
------
------
------
------
------
21.2
205.
856
.70.
010
0RU
PP X
RA00
-14
100
C250
Conv
.18
.722
6.1
*56
.20.
799
17.5
242.
0*
56.2
1.5
9920
.021
0.1
56.3
0.0
100
RUPP
XRA
94-1
694
C250
Conv
.17
.322
5.5
56.9
0.6
100
15.4
234.
5*
57.1
1.1
100
19.1
216.
4*
56.7
0.0
100
RUPP
XRA
98-5
898
C250
Conv
.20
.220
6.5
53.9
0.0
9919
.820
9.8
54.5
0.0
100
20.6
203.
353
.40.
099
STEY
ER 1
0102
101
C250
Conv
.20
.221
9.6
56.0
0.6
9819
.922
4.5
55.9
1.1
9720
.421
4.8
*56
.00.
099
STEY
ER 9
801
98C2
50Co
nv.
19.7
221.
756
.70.
796
18.0
226.
257
.01.
410
021
.321
7.3
*56
.40.
092
STEY
ER 9
802
98C2
50Co
nv.
20.1
214.
154
.00.
396
19.2
227.
554
.30.
695
21.0
200.
653
.70.
098
AVER
AGE
19.2
218.
155
.50.
698
18.2
225.
155
.71.
099
20.1
211.
455
.50.
198
HIGH
EST
21.7
236.
956
.92.
810
021
.525
4.0
57.3
5.6
100
21.9
224.
458
.40.
610
0LO
WES
T16
.718
2.5
53.8
0.0
9215
.017
1.0
53.8
0.0
9417
.419
4.0
53.4
0.0
91CV
(%)
4.7
6.1
1.0
212.
03.
05.
67.
71.
015
6.6
3.0
4.0
4.1
1.0
460.
83.
0LS
D (5
%)
0.8
11.1
0.5
1.0
3.0
1.2
20.6
0.7
1.9
3.0
1.0
10.2
0.7
0.4
4.0
2 Yea
r Ave
rage
s 201
5 - 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
GREA
T LA
KES
4699
96P5
00Co
nv.
20.2
207.
354
.20.
198
17.9
213.
455
.50.
197
22.4
201.
1*
52.9
0.0
99GR
EAT
LAKE
S 48
7998
P500
Conv
.21
.421
6.5
*53
.33.
299
19.2
231.
8*
54.8
3.2
9923
.620
1.1
*51
.80.
010
0M
&W S
EEDS
45A
3710
0P2
50Co
nv.
21.3
218.
3**
54.6
0.1
9520
.023
2.9
**55
.60.
191
22.6
203.
7*
53.6
0.0
99M
&W S
EEDS
46G
5498
P250
Conv
.22
.919
6.5
52.8
1.0
9421
.320
3.2
54.1
1.0
9224
.418
9.9
51.5
0.0
96RU
PP X
RA00
-14
100
C250
Conv
.21
.021
4.4
*53
.90.
998
19.6
231.
7*
54.9
0.9
9622
.419
7.1
53.0
0.0
100
RUPP
XRA
94-1
694
C250
Conv
.19
.421
0.5
54.4
0.6
9816
.421
9.6
55.8
0.6
9722
.520
1.5
*53
.00.
010
0RU
PP X
RA98
-58
98C2
50Co
nv.
22.3
195.
352
.50.
098
21.0
199.
153
.80.
097
23.7
191.
451
.20.
099
STEY
ER 9
801
98C2
50Co
nv.
21.6
208.
054
.00.
796
20.1
208.
354
.60.
796
23.0
207.
8**
53.4
0.0
96ST
EYER
980
298
C250
Conv
.22
.520
1.6
52.2
0.3
9520
.920
9.2
53.0
0.3
9224
.019
4.1
51.5
0.0
99AV
ERAG
E21
.420
7.6
53.6
0.8
9719
.621
6.6
54.7
0.8
9523
.219
8.6
52.4
0.0
99HI
GHES
T22
.921
8.3
54.6
3.2
9921
.323
2.9
55.8
3.2
9924
.420
7.8
53.6
0.0
100
LOW
EST
19.4
195.
352
.20.
094
16.4
199.
153
.00.
091
22.4
189.
951
.20.
096
CV (%
)4.
85.
62.
324
0.0
3.0
5.9
6.8
4.0
176.
94.
03.
94.
11.
10.
02.
0LS
D (5
%)
0.6
6.9
0.7
0.6
2.0
1.0
12.3
1.8
1.1
3.0
0.7
6.9
0.5
0.0
2.0
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
Early
- TR
IAL
AVER
AGE
Ingh
am -
Early
Mont
calm
- Ea
rlySa
gina
w - E
arly
Early
- TR
IAL
AVER
AGE
Ingh
am -
Early
Mont
calm
- Ea
rlySa
gina
w - E
arly
- 25 -
TABL
E 6L
.ZO
NE 2
- 3IN
GHAM
, MON
TCAL
M &
SAGI
NAW
COU
NTY
CONV
ENTI
ONAL
GRA
IN T
RIAL
S - L
ATE
(102
Day
and
Late
r)20
15BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
BLUE
RIV
ER 53
H36
104
MXL
Conv
.25
.622
4.753
.10.0
100
25.7
227.3
53.3
0.010
025
.422
2.152
.80.0
100
GREA
T LA
KES
5283
102
P500
Conv
.22
.424
5.1**
55.0
0.010
020
.725
3.4**
55.7
0.010
024
.123
6.9*
54.3
0.010
0GR
EAT
LAKE
S 57
5510
7P5
00Co
nv.
25.0
243.9
*54
.40.0
100
23.3
244.1
*54
.40.0
9926
.624
3.7**
54.3
0.010
0KE
Y 30
510
5EN
CCo
nv.
22.6
225.8
50.9
0.099
23.0
249.0
*50
.90.0
100
22.3
202.7
50.9
0.098
KEY
509
109
ENC
Conv
.28
.123
2.053
.90.0
100
29.2
232.8
54.0
0.010
027
.023
1.253
.80.0
100
M&W
SEE
DS 44
G44
106
P250
Conv
.25
.822
9.755
.10.0
9825
.123
0.155
.40.0
9626
.522
9.454
.80.0
99M&
W S
EEDS
44M8
710
8P2
50Co
nv.
27.8
240.4
*53
.90.6
9828
.024
8.8*
54.1
0.096
27.5
232.0
53.6
1.110
0M&
W S
EEDS
45M7
910
3P2
50Co
nv.
22.2
240.0
*54
.40.0
9922
.225
2.3*
54.8
0.010
022
.322
7.654
.10.0
97RU
PP X
RA03
-91
103
250
Conv
.21
.923
1.254
.20.3
9920
.224
7.8*
54.6
0.010
023
.621
4.653
.80.6
98ST
EYER
1060
510
6C2
50Co
nv.
24.9
234.7
*54
.80.2
9523
.124
1.6*
54.9
0.098
26.8
227.9
54.7
0.393
WEL
LMAN
W24
0810
8EN
CCo
nv.
25.1
232.8
54.0
0.798
23.1
228.1
53.9
0.099
27.1
237.6
*54
.21.5
96AV
ERAG
E24
.723
4.654
.00.2
9923
.924
1.454
.20.0
9925
.422
7.853
.80.3
98HI
GHES
T28
.124
5.155
.10.7
100
29.2
253.4
55.7
0.010
027
.524
3.754
.81.5
100
LOW
EST
21.9
224.7
50.9
0.095
20.2
227.3
50.9
0.096
22.3
202.7
50.9
0.093
CV (%
)5.2
5.31.6
396.0
3.05.2
6.51.4
0.02.0
5.23.7
1.828
0.03.0
LSD
(5%
)1.1
10.4
0.70.5
2.01.5
18.7
0.90.0
3.01.6
10.1
1.11.1
4.0
2 Yea
r Ave
rage
s 201
5 - 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
GREA
T LA
KES
5283
102
P500
Conv
.23
.122
8.3**
53.0
0.098
21.3
240.3
**53
.70.0
9524
.921
6.252
.30.0
100
KEY
305
105
ENC
Conv
.24
.719
9.149
.90.0
9225
.120
9.650
.60.0
8524
.318
8.549
.20.0
99M&
W S
EEDS
44G4
410
6P2
50Co
nv.
25.7
210.7
53.5
0.096
25.4
217.5
54.2
0.093
26.1
203.9
52.8
0.099
M&W
SEE
DS 45
M79
103
P250
Conv
.22
.321
3.952
.70.0
9720
.522
0.653
.90.0
9624
.220
7.251
.50.0
99W
ELLM
AN W
2408
108
P250
Conv
.25
.222
7.8*
53.5
0.097
24.3
230.3
*54
.00.0
9626
.122
5.4**
52.9
0.098
AVER
AGE
24.2
215.9
52.5
0.096
23.3
223.7
53.3
0.093
25.1
208.2
51.7
0.099
HIGH
EST
25.7
228.3
53.5
0.098
25.4
240.3
54.2
0.096
26.1
225.4
52.9
0.010
0LO
WES
T22
.319
9.149
.90.0
9220
.520
9.650
.60.0
8524
.218
8.549
.20.0
98CV
(%)
5.25.5
2.375
8.57.0
6.06.3
2.90.0
10.0
4.44.3
1.60.0
3.0LS
D (5
%)
0.87.2
0.717
.64.0
1.212
.21.3
0.08.0
0.97.8
0.70.0
2.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
Late
- TR
IAL
AVER
AGE
Ingh
am -
Late
Mont
calm
- La
teSa
gina
w - L
ate
Late
- TR
IAL
AVER
AGE
Ingh
am -
Late
Mont
calm
- La
teSa
gina
w - L
ate
- 26 -- 26 -
2015FUNGICIDE EFFECTS ON MICHIGAN CORN PERFORMANCE
A.M. Byrne and M.I. ChilversDepartment of Plant, Soil, and Microbial Sciences
Michigan State University
Plots were established at the Michigan State University Agronomy Farm, East Lansing, MI. Corn variety ‘P9807AM’ was planted on 24 May with 30 in. row spacing and the experimental design was a randomized complete block. Plots were four rows wide and 22 ft long, with 3 ft alleys between plots. Fertilizer was added on two occasions: 12 Gal/A of 16% N at planting and 45 Gal/A of 45% N was side dressed on 26 Jun. Northern leaf blight (NLB) inoculum was applied to all plots on 26 Jun, by evenly spreading 77.4 lbs of infested sorghum grain over the fi eld. Additionally, shredded leaves with NLB lesions, collected in 2014, were also spread throughout the fi eld. There were a total of 24 treatments and fi ve replicates; fungicides were applied on 25 Jun (V5), 1 Jul (V6), 13 Jul (V8), and 6 Aug (VT/R1). No irrigation was provided. Fungicides were applied with a hand-held spray boom pressurized with CO2 at 40 psi. The boom consisted of six nozzles (Teejet 11001VS) spaced 20 in. apart and was calibrated to apply 15 gal/A. Gray leaf spot (GLS) and NLB severities were assessed by estimating the percent leaf area with lesions on the ear leaf and ear leaf +3 from 10 plants of the center rows for each plot on 31 Aug-4 Sep. A disease index (DIX) that accounted for both severity (DS) and incidence
DIXz values Plant ear leaf ear leaf +3 Yield Treatment, rate/A Stage NLB GLS NLB GLS (bu/A) Untreated 7.26 ay 0.96 a 1.92 a 0.44 a 162.91 abcdef Stratego YLD 4.18 SC, 2 fl ozx V5 1.54 c 0.78 abc 0.44 cdefgh 0.16 bcdef 134.61 fg Stratego YLD 4.18 SC, 4 fl ozx VT/R1 2.62 bc 0.76 abcd 0.16 kl 0.22 bcde 161.11 abcdef Stratego YLD 4.18 SC, 5 fl ozx V5 & VT/R1 1.78 c 0.74 abcd 0.26 efghijk 0.20 bcdef 158.35 abcdef Fortix 3.22 SC, 5 fl ozw V6 1.90 c 0.76 abcd 0.44 cdefghi 0.10 cdef 147.63 cdef Fortix 3.22 SC, 5 fl oz + Glyfos X-tra 4 SC, 32 fl ozw V6 3.18 bc 0.84 abc 0.56 cdef 0.18 bcdef 146.85 def Fortix 3.22 SC, 5 fl ozw V8 1.74 c 0.78 abcd 0.32 defghijk 0.10 cdef 135.08 fg Fortix 3.22 SC, 4 fl ozw VT/R1 1.66 c 0.62 bcd 0.50 defghij 0.24 bcd 181.79 a Fortix 3.22 SC, 5 fl ozw VT/R1 1.48 c 0.50 d 0.04 l 0.04 ef 140.90 efg Headline AMP 1.68 SC, 10 fl ozw V8 1.48 c 0.72 abcd 0.82 bcd 0.26 abcd 161.06 abcdef Headline AMP 1.68 SC, 10 fl oz + Glyfos X-tra 4 SC, 32 fl ozw V6 3.42 bc 0.72 abcd 0.62 cdefg 0.02 f 152.31 abcdef Headline AMP 1.68 SC, 10 fl ozw VT/R1 3.20 bc 0.52 d 0.16 ijkl 0.12 bcdef 166.03 abcde Glyfos X-tra 4 SC, 32 fl ozw V6 3.46 bc 0.70 bcd 0.90 bcd 0.30 ab 169.21 abcd Affiance 1.5 SC, 10 fl ozw V5 2.94 bc 0.80 bcd 0.76 bcde 0.18 bcdef 116.50 g Affiance 1.5 SC, 10 fl oz VT/R1 1.86 c 0.58 bcd 0.12 hijkl 0.04 ef 157.04 abcdef Domark 230 ME, 4 fl ozw V5 4.84 ab 0.88 ab 1.28 ab 0.22 bcde 156.01 abcdef Domark 230 ME, 4 fl oz VT/R1 1.46 c 0.74 abcd 0.48 cdefg 0.20 bcdef 177.26 abc Topguard EQ 4.29 SC, 5 fl ozw V6 2.10 c 0.96 a 0.98 bc 0.16 bcdef 140.74 fg Topguard EQ 4.29 SC, 5 fl ozw V8 1.72 c 0.72 abcd 0.90 bcd 0.28 abc 183.52 a Topguard EQ 4.29 SC, 5 fl ozw VT/R1 1.52 c 0.60 cd 0.12 jkl 0.18 bcdef 180.46 ab Equation SC 2.08 SC, 6 fl ozw V6 3.02 bc 0.86 ab 0.62 bcdef 0.08 def 146.86 def Equation SC 2.08 SC, 6 fl ozw VT/R1 2.32 c 0.50 cd 0.16 ghijkl 0.12 bcdef 168.45 abcd Aproach 2.08 SC, 6 fl oz VT/R1 1.78 c 0.74 abcd 0.20 fghijkl 0.14 bcdef 150.05 bcdef Quilt Xcel 2.2 SE, 10.5 fl oz VT/R1 2.94 bc 0.46 d 0.12 kl 0.12 bcdef 145.41 def P-value 0.0110 0.0266 <0.0001 0.0237 0.0003
z Disease indexy Column numbers followed by the different letters are significantly different at P=0.05, as determined by least square means comparison.x Treatments applied with Induce at 0.125% v/v. w Treatments applied with Induce at 0.25% v/v.
(DI) was calculated for each disease: DIX = DI*(DS/100). The center two rows of each plot were harvested on 26 Oct, except for one pass where only one outer row was harvested, due to a combine error. Yields were adjusted to 15.5% moisture. Data were analyzed using SAS 9.3 PROC MIXED method (SAS Institute, Cary, NC).
NLB incidence was relatively high, while GLS incidence was low. All treatments, except Domark 230 ME at V5, resulted in signifi cantly lower DIX scores for NLB on both the ear leaf and ear leaf +3, compared to the untreated. For GLS, Domark 203 ME at V5 failed to signifi cantly lower the DIX on the ear leaf, while Topguard EQ 4.29 SC failed to lower the DIX on the ear leaf +3, compared to the untreated. Among those products applied at different plant stages, the later applications (VT/R1) tended to result in lower DIX values. No products had signifi cantly higher yield, compared to the untreated. Yield differences, however, are unlikely to be truly representative. The fi eld received almost 6.5 in. of precipitation in the fi rst four weeks following planting, leading to irregular nutrient leaching and stand heights.
- 27 -
TABLE B. AGRONOMIC TABLE FOR GRAIN TRIAL LOCATIONS
COUNTY PLANTING DATES
HARVEST DATES
PREVIOUSCROP
100 % STAND
AVERAGE STAND
FERTILIZER N - P - K
Zone
1
WASHTENAW May 14 Nov 4 Soybeans 35,244 34,063 184-9-3
BRANCH May 13 Nov 10 Soybeans 35,244 34,521 221-9-3
CASS May 18 Oct 27 Corn 35,244 34,539 241-9-3 +chicken manure
Zone
2
ALLEGAN May 8 Oct 22 Corn 35,244 34,785 191-9-3 + chicken manure
INGHAM May 4 Oct 23 Soy beans 35,244 33,922 201-9-3
INGHAM CONV. May 4 Oct 18 Soybeans 35,244 33,689 191-9-3
SAGINAW & CONV. May 19 Nov 2 Soybeans 35,244 34,662 34,627 Conv 154-9-3
Zone
3
HURON & Conv. May 7 Nov 5 Corn 35,244 34,891 110-9-3 +manure
MONTCALM & CONV. May 26 Nov 16 Potatoes 35,244 34,345 169-9-3
MASON May 6 Nov 3 Soybeans 35,244 31,790 110-9-3 + pig manure
IOSCO May 20 Nov 9 Alfalfa 35,244 34,644 154-9-3 +manure
Zone
4 GRAND TRAVERSE May 6 Nov 3 Wheat 31,284 30,501 154-9-3
MENOMINEE May 21 Dropped due to water damage
Z5 DELTA May 21 Nov 8 Corn 35,244 34,680 139-9-3 +manure
COUNTY SOIL TYPE SOIL TEST FARM COOPERATOR LOCATION
Zone
1
WASHTENAW Pella silt loam 0-4% slopes
pH6.9, P23, K149.5
Mathew Talladay Milan
BRANCH Oshetemo sandy loam 0-6% slopes
pH6.2, P110, K107.5
Kyle Huff Coldwater
CASS Kalamazoo loam 0-2% slopes
pH6.4, P36, K115.5
George Brossman Vandalia
Zone
2
ALLEGAN Ockley loam 1-6% slopes
pH6.1,P83, K222
Jim & John Schipper Martin
INGHAM Capac loam 0-4% slopes
pH5.9,P65, K222
Jorgensen Farms Jerry Jorgensen & Mike Turner
Williamston
INGHAM CONV. Capac loam 0-4% slopes
pH5.9, P65K222
Crop, Soil & Microbial Sciences Research Facility, MSU
Lansing
SAGINAW & Conv. Brookston & Londo loam 0-3% slopes
pH6.8, P39, K91
Fred Gross Farms Peggy Gross & Dick Birchmeier
New Lothrop
Zone
3
HURON & Conv. Kilmanagh loam pH6.5,P89.5K194
Wil-Le Farms Ron & Ed McCrea
Bad Axe
MONTCALM Tekenink-Spinks loamy sands 6-12% slopes
pH5.5, P174 K216
Sackett Farms Larry Sackett
Stanton
MASON Ithaca-Arkona Complex 0-3% slopes
pH6.4,P74, K184.5
Robert Oshe Jacob Zwagerman
Scottville
Zone
4
IOSCO Kawkawlin sany loam 0-4% slopes
pH6.4,P26.5, K73.5
Jeremy Beebe Whittemore
GRAND TRAVERSE Coventry-Newaygo loams 0-6% slopes
pH6, P50.5K110
Ed Breitmeyer Buckley
MENOMINEE Onaway-Ossineke fine sandy loams, drumlin 1-6%
pH7.7, P17 K51
Johnson Dairy Farm Dave Johnson
Daggett
Z5 DELTA Trenary fine sandy loam 2-6% slopes
pH6.8, P17.5, K81.5
VanDrese Farms Cornell
- 28 -
HYBRID INDEX FOR GRAIN TRIALSZONE 1
Tables 1E/1LBranchCass
WastenawTrial Average
ZONE 2Tables 2E/2L
Allegan InghamSaginaw
Trial Average
CONVENTIONAL TRIALTables 6E/6L
Ingham - Zone 2Montcalm - Zone 3Saginaw - Zone 2
Trial Average
ZONE 3Tables 3E/3L
HuronMason
MontcalmTrial Average
ZONE 4Table 4Iosco
Grand Traverse - LateMenominee - Late
Trial Average
ZONE 5Table 5Delta
Grand Traverse - EarlyMenominee - Early
Trial AverageBRAND / HYBRID RM TABLE AGRIGOLD A6283VT2PRO 101 2E A6267STXRIB 102 2L A6300STXRIB 103 2L A6355STX 105 2L~ A6416STXRIB 107 1E A6441STX 109 1L A6462STXRIB 110 1L A6472VT3PRIB 110 1L BECK 5162A3 101 2E BECK XL 4721AM™* 97 2E 5234AMX™* 102 2L 5460AM™* 104 1E,2L 5140HR™* 105 1E,2L 5840AM™* 108 1L 5939AM™* 109 1L 5828AM™* 110 1L BLUE RIVER 27B16 88 6E 30B97 90 6E 40R73 97 6E 43T35 98 6E 45R37 99 6E 53H36 104 6L CHANNEL 191-87STXRIB 91 3E 197-68STXRIB 97 2E 202-52STXRIB 102 2L 205-19STXRIB 105 1E CROPLAN 3499VT3PRIB 91 3E 3611SS/RIB 96 2E,3E 3899VT2P/RIB 96 2E,3E 5369SS/RIB 103 2L DAIRYLAND SEED DS-9791RA 91 3E,4~ DS-9693 93 3E,4 DS-9198 98 2E,3L DS-9599 99 2E,3L DS-9701 101 2E,3L DS-9203 103 2L,3L DS-9905 105 2L,3L DS-9805 105 2L,3L DS-9307RA 107 1E DS-9508RA 108 1L DS-9409RA 109 1L
BRAND / HYBRID RM TABLE DEKALB DKC36-30 GENVT2PRIB 86 4 DKC38-03 GENVT2PRIB 88 4 DKC39-27 GENSSRIB 89 4 DKC41-32 GENSSRIB 91 4 DKC43-10 GENVT2PRIB 93 3E,4 DKC44-13 GENSSRIB 94 2E,3E DKC46-36 GENSSRIB 96 2E,3E DKC46-79 GENSSRIB 96 2E,3E DKC48-56 GENSSRIB 98 2E,3L DKC49-72 GENSSRIB 99 2E,3L DKC50-82 GENSSRIB 100 1E,2E,3L DKC52-84 GENSSRIB 102 1E,2L,3L DKC53-68 GENSSRIB 103 1E,2L DKC54-38 GENSSRIB 104 1E,2L DKC55-20 GENSSRIB 105 1E,2L DKC57-75 GENSSRIB 107 1E DKC58-06 GENSSRIB 108 1L DKC60-67 GENSSRIB 110 1L DKC62-08 GENSSRIB 112 1L DYNAGRO D25VC45 85 4,5 CX15187 87 4,5 D31SS31 91 3E,4 D37VC60 95 3E,4~ D37SS60 97 2E,3E D39VP14 99 2E,3L D39VP69 99 2E,3L~ D40SS48 100 2E,3L D41SS71 101 2E,3L D43SS50 103 1E,2L,3L CX15104 104 1E,2L~ D48SS38 108 1L,2L D51SS54 111 1L GOLDEN HARVEST G84J92-3011A 86 4 G88M78-3011A 88 4 G90Y04-3110A 90 4 G94B95-3110 94 3E~ G95D32-3110 95 3E G97X48-3111 97 3E~ G01P52-3011A 101 2E~ G05T82-3122 105 2L G06N80-3111 106 2L~ G07B39-3111A 107 1E G07F23-3111 107 2L~ G09E98-3000GT 109 1L
BRAND / HYBRID RM TABLEGREAT LAKES 3510VT2RIB 85 5 3847VT2RIB 88 4,5~ 4250VT2RIB 92 2E,3E,4,5 4452STX 94 2E,3E,4~ 4548STXRIB 95 2E,3E,4 4699 96 6E 4879 98 6E~ 4879STXRIB 98 2E,3L 5283 102 6L~ 5283STXRIB 102 1E,2L,3L 5470STXRIB 104 1E,2L 5566STX 105 1E,2L 5755 107 6L~ 5755STXRIB 107 1E,2L 5918STXRIB 109 1L 5944STXRIB 109 1L~ 6068STXRIB 110 1L KEY 401 100 6E 305 105 6L 607Q 107 1E 509 109 6L 610QR 110 1L LEGACY SEEDS L-2213 VT2PRO 82 5 L-2314 VT2PRO RIB 84 5 L-2813 VT2PRO RIB 87 4,5 L-2924 VT2PRO 89 4 L-3115 VT2PRO 91 3E L-3022 GENSS RIB 92 4 L-3423 GENSS RIB 94 3E L-4014 GENSS 98 2E,3L L-3845 GENSS 97 2E,3E~ L-4424 GENSS 100 2E,3L L-4714 GENSS 103 2L L-6025 GENSS 107 1E L-6913 GENSS RIB 108 1L LEGEND 9587 VT2PRIB 87 4 9688 VT2PRIB 88 4 9492 VT2 Pro RIB 92 3E JSC 40J592VT2PRIB 92 3E 9495 VT3 Pro RIB 95 3E JSC 40J595RR 95 3E 9497 GENSS RIB 97 2E 94A01 GTA 100 2E 40J501 RR 101 2E 9503 SSRIB 103 2L
- 29 -
BRAND / HYBRID RM TABLE M & W SEEDS 47J64 94 6E~ 47J66 94 2E,3E 46J11 96 2E,3E 46G54 98 6E 46G55 98 2E3,L~ 46K79 98 2E,3L 45A37 100 6E 45M34 100 1E,2E~ 45A38 101 1E,2E 45K33 101 6E 45M45 103 1E,2L 45M79 103 6L 45M80 103 1E,2L~ 45J99 104 1E 44G44 106 6L 44D81 108 1L 44M87 108 6L MYCOGEN 2P198 85 5 2J238 88 5 2V357 93 4 2V489 98 3L 2A499 100 2E X13526VH 103 2L X13617 107 1E 2Y669 107 1E NK Brand N27P-3110A 90 3E N33W-3110 94 3E~ N35T-3110 95 3E N37R-3111 97 3E~ N45P-3011A 101 2E~ N53W-3122 105 2L N58S-3111 106 2L~ N59B-3111A 107 1E N60F-3111 107 2L~ N63R-3000GT Brand 109 1L~ N66V-3000GT 110 1L N70J-3011A 112 1L NuTech 5G-9302™ 93 4~ 5N-195™ 95 4 5N-0108™ 101 3L 5N-607™ 107 2L
BRAND / HYBRID RM TABLE NuTech/G2 GENETICS ~ 5X-894™ 94 3E,4~ 5F-196™ 96 2E,3E,4~ 5F-198™ 98 2E,3L 5F-200™ 100 3L 5F-701™ 101 2E,3L 5Z-0107™ 101 2E,3L~ 5H-502™ 102 2L,3L 5K-0208™ 102 2L,3L 5Z-0305™ 103 2L,3L 5Z-504™ 104 1E,2L,3L 5X-905™ 105 2L~ 5H-806™ 106 1E,2L 5Z-906™ 106 1E,2L 5F-707™ 107 1E~ 5Z-308™ 108 1L,2L~ 5F-709™ 109 1L~ 5F-510™ 110 1L PARTNERS BRAND PB6255 VT2P 92 2E PB7147 101 6E PB7672 3000GT 106 1E RENK RK299VT2P 89 3E~ RK415VT2P 92 3E RK522SSTX 94 3E~ RK544SSTX 95 3E RK568VT3P 95 3E RK596SSTX 98 2E,3L RK612SSTX 100 2E~ RK629VT3P 101 2E RK680SSTX 101 2E RK666SSTX 102 2L RK699SSTX 105 1E,2L~ RK712SSTX 106 1E,2L~ RK776SSTX 107 1E RK791SSTX 108 1L~ RK810SSTX 109 1L RK871VT2P 111 1L RUPP XRD8202 82 4 XRD90-64 90 4 XRD92-74 92 3E,4 XRA94-16 94 6E XRD94-26 94 2E,3E XRT94-06 94 2E,3E XRD97-56 97 2E,3E XRA98-58 98 6E XRD99-30 99 1E,2E XRA00-14 100 6E XRA03-91 103 6L XRD03-71 103 1E,2L XRJ03-31 103 1E XRD05-04 105 1E XRD07-19 107 1E XRJ07-20 107 1E XRJ10-91 110 1L
BRAND / HYBRID RM TABLE SEED CONSULTANTS SCS 924AMX™ 92 2E SCS 965AM™ 96 2E SCS 1034AM™ 103 1E,2L SCS 10HR43™ 104 1E,2L SCS 1066YHR™ 106 1E SCS 1085AM™ 108 1L SC 10AQ96™ 109 1L SCS 1094AM™ 109 1L SCS 1105AM™ 110 1L SPECIALTY 24A104 94 2E 28A325 98 2E 29A263 99 1E,2E 32A323 102 1E,2L 34A413 104 1E,2L 35A655 105 1E,2L 38A573 108 1L STEYER 9801 98 6E 9802 98 6E 10102 101 6E 10605 106 6L WELLMAN W2401DP 100 1E W2603DP 103 1E W2307DP 107 1E W2408 108 6L W2409S 109 1L W2610DP 110 1L
~ Denotes hybrids that were entered into the Grain and Silage Trials.
- 30 -
2015SILAGE PERFORMANCE TRIALS
IntroductionThe silage index (pg. 33) contains a list of all hybrids planted
in the 2015 silage trials.County results are reported in the following tables:Tables 7E/7L Zone 1 - Branch, Lenawee (Dropped 2015) and Wood, OH
Tables 8E/8L Zone 2/3 – Ottawa, Huron (Zone 3) and Ingham
Table 9 Zone 4 – Iosco, Menominee (Late dropped 2015), and Osceola
Table 10 Zone 5 – Alger, Delta and Menominee (Early)
The map of Michigan (right) shows each zone and the locations where the trials were located.
MethodsTesting procedures (randomization, replication, planting
rates, etc.) for silage evaluation are the same as those utilized for the grain trials. For silage Agronomic information refer to Table C (pg. 32)
Zones 1 and zone 2/3 were divided into two maturity groups (designated early and late) on the basis of the relative maturity (RM) submitted by the companies with results listed in separate tables. In cooperation with The Ohio State University, the Wood County, OH location is planted and managed by OSU while MSU handles harvest, quality and data analysis.
Silage plots were harvested with a two-row Kemper forage harvester. Electronic scales mounted on the Haldrup weigh system measured plot and subsample weights. Total plot weight was used to calculate green tons per acre (GT/A). Sub samples of fodder including grain were collected, weighed, oven dried until weight loss was zero, then weighed again to determine the percent dry matter (%DM). Dry tons per acre (DT/A) is calculated mathematically by multiplying GT/A by %DM. The samples were ground using a 1.0 mm screen before conducting quality analysis using Near Infrared Refl ectance (NIR) to predict quality components.
Silage Analysis Tables 7E, 7L, 8E, 8L, 9 and 10 provide silage quality data as
determined by NIR analysis on freshly dried & ground samples. Data is provided for individual locations and also averaged over multiple locations. Near infrared spectral analysis involves irradiating the sample with light in the near infrared spectrum (1,100 to 2,500 nm). The illuminated sample absorbs light proportional to specifi c chemical and physical properties. The refl ected energy is measured and was correlated statistically with the 2014 Near-infrared Spectroscopy (NIRS) equation established for silage quality levels. Results of the six quality traits analyzed are presented in the quality tables. The six quality traits are:
1. IVD= (in vitro) digestible dry matter-48hr. IVD is a measure of forage digestibility. Higher IVD is desirable.
2. ADF=acid detergent fi ber. ADF represents the less digestible portion of the corn forage, containing cellulose, lignin, and heat damaged protein. ADF is closely related to the digestibility of forages. Lower ADF implies the forage is more digestible. More mature plant material will contain higher ADF concentrations. A low concentration of ADF is desirable.
3. NDF=neutral detergent fi ber. NDF is a measure of the
fi ber content of the corn forage. It is less digestible than non-fi ber constituents of the forage. Forages with high NDF levels have lower energy. NDF is also a measure of potential forage intake. High NDF levels decrease the potential forage intake. Low NDF content is desirable.
4. NDFD=neutral detergent fi ber digestibility-48hr. NDFD is the portion of neutral detergent fi ber digested by animals at a specifi ed level of feed intake. High NDFD is desirable.
5. CP=crude protein. Forages are generally supplemented with high protein concentrates such as soybean meal to increase the protein content of ruminant diets. Corn hybrids with high protein levels require less supplementation and therefore result in lower feed costs. High protein content is desirable.
6. STRCH=starch. Starch from the grain, along with the digestible component of the fi ber, accounts for the majority of the energy in corn silage. High Starch content is desirable.
- 31 -
2015 Silage Trial LocationsSilage quality traits are reported on a dry matter basis (100 percent DM). Quality traits in these tables are intended for use in hybrid selection only. Analysis for the balancing of feed rations should be analyzed from hybrids grown on each individual farm.
MILK2006An updated calculation using the MILK2006 equation (UW-
Madison Dairy Science Department) was used to estimates MK/T (milk per ton) and MK/A (milk per acre). MILK2006 estimates the dry matter intake using the NDF and CWD (cell wall digestibility) parameters of the sample. The updated equation utilizes CP, fat, and sugar as well as the organic acid fractions along with their total-tract digestibility coeffi cients to estimate energy. Whole plant dry matter was calculated to 34% for all hybrids and digestibility coeffi cients used for the fat and sugars as well as the organic acid fractions were held constant. MILK2006 also assumes the weight of the cow is 1,350 lbs. and that it consumes a 30 percent NDF diet. Using National Research Council (NRC, 2001) energy requirements, the estimated intake of energy from corn silage is converted to milk per ton. Milk per acre is then calculated using the estimated values for milk per ton and dry matter yield per acre. For more information on the utility of MILK2006 please see:
www.uwex.edu/ces/crops/uwforage/Milk2006silage.html
Wood Co. OH
Notes
- 32 -
TABLE C. AGRONOMIC TABLE FOR SILAGE TRIAL LOCATIONS
COUNTY PLANTING DATES
HARVEST DATES
PREVIOUSCROP
100 % STAND
AVERAGE STAND
FERTILIZER N - P - K
Zone
1
BRANCH May 13 Sep 15 Soybeans 35,244 33,922 200-9-3
LENAWEE May 14 Sept 14 Soybeans 35,244 34,962 154-9-3 +manure
WOOD(OHIO) May 8 Sept 8 Soybeans 34,452 31,834 205-24-0
Zone
2
OTTAWA May 8 Sep 22 Corn 35,244 32,671 191-9-3 + manure
INGHAM May 3 Sep 11 Soybeans 35,244 34,821 154-9-3
HURON May 7 Sep 23 Corn 35,244 34,274 110-9-3 +manure
Zone
4
IOSCO May 20 Sep 28 Alfalfa 35,244 34,503 154-9-3
OSCEOLA May 13 Oct 2 Corn 35,244 31,825 154-9-3 + manure
MENOMINEEZone 5 only May 21 Sep 30 Sod 35,244 34,609 139-9-3
+manure
Z5ALGER May 22 Sep 29 Soybeans 35,244 25,657 139-9-3
DELTA May 21 Sep 30 Corn 35,244 34,539 139-9-3 +manure
COUNTY SOIL TYPE SOIL TEST FARM COOPERATOR LOCATION
Zone
1
BRANCHOshetemo sandy loam 0-6% Slopes
pH6.2,P109.5, K107.5 Kyle Huff Coldwater
LENAWEE Blount loam 2-6% Slopes
pH7.25, P135 K257
Bakerland Farms Blaine Baker Clayton
WOOD(OHIO)
Hoytville silt clay loam 0-1%
pH5.8 , P114, K435
OARDC Matt Davis Hoytville, Ohio
Zone
2
OTTAWA Ubly sandy loam 2-6% Slopes
pH 6.8, P95.5, K200
Eadie Farms Arden Eadie
Conklin
INGHAM Capac loam 0-3%
pH6.5, P55.2, K161.25
Crop & Soil Sciences Research Facility, MSU East Lansing
HURON Kilmanagh loam pH6.65,P89.5, K 194
Wil-Le Farms Ron & Ed McCrea
Bad Axe
Zone
4
IOSCO Kawkawlin sandy loam 0-4% Slopes
pH6.4, P26.5, K73.5 Jeremy Beebe Whittemore
OSCEOLA Montcalm loamy sand & Menominee loamy sand 0-6% Slopes pH6, P67, K120 Robert E. Lee Marion
MENOMINEEOnaway-Ossineke fine sandy loam 0-3% slopes pH7.7, P17, K51 Johnson Dairy Farm
Dave Johnson Daggett
Zone
5 ALGER Eben very cobbly snady loam 1-6%
pH7.4, P59, K64.5
AgBio Research StationChris Kapp Chatham
DELTA Trenary fine sandy loam 2-6% Slopes
pH6.8, P17.5, K 81.5 VanDrese Farms Cornell
- 33 -
SILAGE HYBRID INDEXZONE 1 - Tables 7E/7L
BranchLenawee
Wood (Ohio)Trial Average
ZONE 2 - Tables 8E/8LHuron - Zone 3
InghamOttawa
Trial Average
ZONE 4 - Table 9Iosco
Menominee - LateOsceola
Trial Average
ZONE 5 - Table 10AlgerDelta
Menominee - EarlyTrial Average
BRAND / HYBRID RM TABLE AGRIGOLD A6408VT3PRIB 107 8L~ A6416STXRIB 107 8L A6442STXRIB 109 8L A6458VT3PRIB 110 7E A6533VT3PRIB 113 7L A6559STXRIB 113 7L CROPLAN 4099SS/RIB 99 8E 5415SS/RIB 104 8E 6065SS/RIB 110 8L DAIRYLAND SEED Hi DF-3188-6 88 9 Hi DF-3290-9 90 9~ DS-9693 93 8E,9 Hi DF-3197-7 97 8E,9 Hi DF-3099-9 99 8E,9 Hi DF-3700SSX 100 8E,9 Hi DF-3702-9 102 8E,9 Hi DF-3605-9 105 7E,8L Hi DF-3108RA 108 7E,8L Hi DF-3808SSX 108 7E,8L Hi DF-3510SSX 110 7E,8L DYNAGRO ~ D37SS60 97 9~ D40SS48 100 8E~ D48SS38 108 8L D50SS43 110 7E,8L GOLDEN HARVEST G92T43-3111 92 9~ G95D32-3110 95 9~ G01P52-3011A 101 9~ G05T82-3122 105 8L~ G07B39-3111A 107 8L G07V88-3000GT 107 8L~ G09E98-3000GT 109 7E G10T63-3000GT 110 7E GREAT LAKES ~ 4250VT2RIB 92 10~ 4548STXRIB 95 9,10~ 4879STXRIB 98 9,10~ 5283STXRIB 102 8E,9~ 5755STXRIB 107 7E,8L~ 6068STXRIB 110 7E,8L 6185STXRIB 111 7L 6261STX 112 7L
BRAND / HYBRID RM TABLE LEGACY SEEDS ~ L-4424 GENSS 100 8E L-5350 3122 E-Z REFUGE 104 8E L-7253 3000GT 112 8L M & W SEEDS ~ 47J66 94 7E,8E~ 46K79 98 7E,8E~ 45A38 101 7E,8E~ 45J99 104 7E,8E MASTERS CHOICE MCT-4881 98 9 MCT-5371 103 8E MCT-527GT 105 9 MCT-5661 106 7E MCT-6153 111 7L NK Brand N29T-3111 Brand 92 9~ N35T-3110 95 9~ N45P-3011A 101 9~ N53W-3122 105 8L~ N59B-3111A 107 8L N61P-3000GT Brand 107 8L~ N63R-3000GT Brand 109 7E~ N66V-3000GT 110 7E NuTech 5N-290™ 90 10~ 5N-195™ 95 9,10 5N-803™ 101 9 5N-406™ 105 9 NuTech/G2 GENETICS ~ 5X-894™ 94 10~ 5F-196™ 96 10~ 5F-198™ 98 9,10~ 5H-502™ 102 8E,9,10~ 5H-806™ 106 8L~ 5Z-308™ 108 8L~ 5F-709™ 109 8L~ 5F-510™ 110 7E 5F-811™ 110 7E 5F-713™ 113 7L 5F-814™ 114 7L 5Z-015™ 115 7L
BRAND / HYBRID RM TABLE PIONEER P9789AMXT 95 9,10 P0238XR 102 9,10 P0242AMXT 104 8E,9 P0496AMX 106 8L,9 P0677XR 106 8L P0506AM 107 8L P0921AMXT 109 7E,8L P1180XR 111 7L,8L P0825AMXT 113 7L P1197AMXT 114 7L P1449XR 114 7L RENK ~ RK415VT2P 92 8E~ RK544SSTX 95 8E RK565GTCBLLRWBL 99 8E~ RK629VT3P 101 8E~ RK712SSTX 106 8L~ RK776SSTX 107 8L~ RK810SSTX 109 8L SEED CONSULTANTS SCS 1125AM™ 113 7L SCS 11HR21™ 113 7L STEYER 9203 VT2PRORIBC 92 8E 9801 GT 98 8E 10102 VT2PRORIBC 101 8E 10404 VIP3122 105 8L 11103 VT2PRORIBC 111 8L T. A. SEEDS TA583-22DPRIB 108 7E TA616-13VPND 110 7E WELLMAN W2513DP 113 7L W2613DP 113 7L WOLF RIVER VALLEY 3685FL 85 9 3396FLRR 95 9
~ Denotes hybrids that were entered into the Grain and Silage Trials.
- 34 -
TABL
E 7E
.BR
ANCH
, LEN
AWEE
& W
OOD
(OHI
O) C
OUNT
Y SI
LAGE
TRI
ALS
- EAR
LY (1
10 D
ay an
d Ea
rlier
)ZO
NE 1
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
A%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
AAG
RIGO
LD A
6458
VT3P
RIB
110
P500
1,2,
337
.821
.17.
992
81.3
21.1
38.6
51.6
5.6
39.5
3240
2354
735
.124
.18.
492
80.6
21.7
38.8
50.1
5.6
37.7
3164
2452
6DA
IRYL
AND
SEED
Hi D
F-31
08RA
108
C250
1,2,
3,4,
639
.121
.78.
5*
9881
.120
.740
.453
.35.
438
.332
4026
399
38.6
23.3
9.0
*10
080
.321
.841
.051
.95.
635
.631
7728
541
DAIR
YLAN
D SE
ED H
i DF-
3510
SSX
110
C250
1,2,
3,4,
634
.524
.08.
3*
9879
.923
.143
.353
.85.
334
.131
4426
027
33.6
24.3
8.2
100
79.5
24.3
44.5
54.1
5.4
32.1
3096
2521
8DA
IRYL
AND
SEED
Hi D
F-36
05-9
105
C500
1,2,
3,4,
642
.120
.08.
3*
9379
.221
.339
.947
.95.
839
.631
3225
992
40.2
21.2
8.5
9777
.423
.342
.546
.85.
736
.729
9826
610
DAIR
YLAN
D SE
ED H
i DF-
3808
SSX
108
C125
01,
2,3,
4,6
39.1
21.5
8.4
*94
82.0
20.3
39.8
54.7
5.3
38.7
3294
2909
637
.123
.08.
6*
9580
.222
.543
.153
.95.
535
.031
4828
779
DYNA
GRO
D50S
S43
110
P500
1,2,
3,4,
640
.920
.68.
4*
9681
.720
.339
.053
.05.
740
.232
8526
877
41.2
23.4
9.6
**10
082
.518
.736
.952
.55.
942
.233
4332
136
GOLD
EN H
ARVE
ST G
09E9
8-30
00G
109
C500
1,2,
3,4
42.7
21.2
9.0
**99
83.1
18.1
36.0
53.1
5.9
43.2
3396
2977
240
.123
.59.
4*
100
82.8
17.9
36.7
53.0
6.2
42.0
3362
3008
5GO
LDEN
HAR
VEST
G10
T63-
3000
G11
0C2
501,
2,3,
443
.219
.98.
5*
9381
.619
.337
.350
.65.
542
.232
9928
102
41.0
21.7
8.9
*95
80.7
20.8
39.7
51.2
5.4
39.1
3213
2845
0GR
EAT
LAKE
S 57
55ST
XRIB
107
P500
1,2,
3,6
41.9
20.1
8.4
*94
82.4
20.1
37.6
53.3
5.8
43.1
3342
2905
739
.722
.18.
8*
9781
.022
.840
.553
.15.
840
.732
2330
465
GREA
T LA
KES
6068
STXR
IB11
0P5
001,
2,3,
641
.719
.68.
198
81.5
19.5
39.9
53.5
5.5
39.5
3265
2714
239
.021
.38.
310
080
.720
.842
.053
.95.
738
.131
8526
400
M&W
SEE
DS 4
5A38
101
P250
1,2,
3,4,
650
.516
.78.
4*
9183
.517
.134
.451
.95.
845
.634
3129
614
49.1
18.2
9.0
*93
83.2
16.5
33.6
49.8
5.8
46.3
3413
3195
5M
&W S
EEDS
45J
9910
4P2
501,
244
.116
.67.
391
80.3
20.5
40.3
51.1
6.1
38.9
3193
2254
940
.117
.87.
291
79.7
20.2
39.8
49.2
6.3
39.3
3156
2095
1M
&W S
EEDS
46K
7998
P250
1,2,
4,6
51.6
14.5
7.4
9084
.018
.536
.456
.16.
244
.234
4125
556
51.0
16.0
8.2
9583
.120
.339
.557
.05.
942
.033
4827
355
M&W
SEE
DS 4
7J66
94P2
501,
253
.315
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26.
77.
43
7LS
D (5
%)
1.8
0.9
0.5
3.8
1.3
1.4
2.4
2.3
0.3
2.6
9415
67
** H
ighe
st Y
ield
ing
Hybr
id
* Not
Sig
nific
antly
Diff
eren
t fro
m H
ighe
st Y
ield
ing
Hybr
id
YIEL
D%
QUA
LITY
Lena
wee
- Ea
rlyW
ood
- Ear
lyYI
ELD
% Q
UALI
TYM
ILK
2006
YIEL
D%
QUA
LITY
MIL
K 20
06DT
/ADT
/A
Lena
wee
- Ea
rlyW
ood
- Ear
lyM
ILK
2006
DT/A
DT/A
YIEL
D%
QUA
LITY
MIL
K 20
06
- 36 -
TABL
E 7L
.BR
ANCH
, LEN
AWEE
& W
OOD
(OHI
O) C
OUNT
Y SI
LAGE
TRI
ALS
- LAT
E (11
1 Day
and
Late
r)ZO
NE 1
2015
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A65
33VT
3PRIB
113
P500
1,2,3
43.4
17.0
7.492
82.3
18.0
36.3
51.3
6.341
.433
4724
592
41.9
19.1
8.088
79.1
20.6
39.2
46.6
5.739
.731
3526
523
AGRIG
OLD A
6559
STXR
IB11
3P5
001,2
,3,4,6
43.1
19.0
8.4*
9582
.218
.937
.952
.96.3
40.2
3341
2767
038
.922
.69.4
9780
.620
.639
.951
.25.8
38.1
3214
3026
7GR
EAT L
AKES
6185
STXR
IB11
1P5
001,2
,3,6
43.2
18.7
8.1*
9283
.816
.934
.853
.55.6
43.5
3467
2933
640
.420
.68.1
8982
.517
.435
.350
.45.5
42.2
3369
2895
0GR
EAT L
AKES
6261
STX
112
P500
1,2,3,
643
.719
.68.7
**95
82.3
18.5
36.9
51.9
5.941
.133
5829
156
44.0
21.1
9.6*
9682
.117
.335
.048
.95.6
42.9
3349
3339
4MA
STER
S CHO
ICE M
CT-61
5311
1C2
501
44.6
18.0
8.092
82.0
19.9
38.9
53.8
6.040
.933
2426
778
42.8
21.1
9.193
79.8
22.5
41.9
51.7
5.637
.631
5029
872
NuTe
ch/G
2 GEN
ETICS
5F-71
3™11
3P5
001,2
,4,6
40.5
18.8
7.691
83.2
18.3
36.9
54.6
6.340
.834
1026
414
39.0
22.1
8.693
81.9
19.8
38.2
52.7
5.839
.433
0930
350
NuTe
ch/G
2 GEN
ETICS
5F-81
4™11
4P5
001,2
,4,6
42.4
18.7
8.095
84.0
18.0
36.5
56.2
6.041
.634
6127
601
42.9
20.2
8.899
82.7
19.7
38.2
54.6
5.640
.233
5130
846
NuTe
ch/G
2 GEN
ETICS
5Z-01
5™11
5P5
001,2
,4,6
40.1
18.4
7.494
83.7
18.1
36.5
55.1
6.440
.634
3625
167
38.4
21.5
8.297
81.8
20.6
39.5
54.0
5.737
.832
9027
123
PIONE
ER P0
825A
MXT
113
C250
1,2,3,
4,6,7
39.2
15.6
6.091
84.6
18.4
36.1
57.4
6.140
.634
9820
997
39.8
20.0
8.090
82.9
20.6
39.2
56.4
5.438
.033
5526
682
PIONE
ER P1
180X
R11
1C2
501,2
,3,4,6
42.6
17.8
7.497
86.5
16.1
34.5
60.9
6.943
.236
2227
541
40.2
19.0
7.299
85.4
16.4
34.3
57.5
6.643
.835
4625
582
PIONE
ER P1
197A
MXT
114
C250
1,2,3,
4,641
.619
.18.0
9684
.117
.636
.055
.96.1
42.3
3470
2837
440
.622
.69.4
9981
.820
.040
.755
.45.5
37.7
3277
3324
5PIO
NEER
P144
9XR
114
C250
1,2,3,
4,6,7
40.5
19.2
7.998
85.6
18.5
38.4
62.4
6.437
.335
2726
379
38.4
20.8
8.010
083
.819
.840
.460
.06.2
35.0
3388
2702
7SE
ED CO
NSUL
TANT
S SCS
1125
AM11
3P5
001,2
,439
.120
.98.2
*96
83.1
17.3
34.5
51.0
6.243
.334
2128
412
37.7
25.7
9.396
82.0
18.1
35.1
48.6
5.843
.133
3831
006
SEED
CONS
ULTA
NTS S
CS 11
HR2
113
P125
01,2
,441
.320
.08.3
*94
81.5
21.4
40.2
54.0
6.037
.732
8127
182
39.9
22.2
9.097
79.5
23.0
42.7
51.9
5.634
.731
2526
735
WELL
MAN W
2513
DP11
3EN
C1,2
41.2
17.2
7.394
81.0
19.8
39.5
51.8
6.135
.632
4723
977
41.1
24.0
10.5
**99
78.5
21.4
40.8
47.3
5.533
.131
2932
330
WELL
MAN W
2613
DP11
3EN
C1,2
45.0
19.1
8.6*
9481
.619
.137
.851
.36.0
40.9
3311
2864
843
.021
.49.0
9880
.620
.639
.550
.85.5
39.2
3219
2894
0AV
ERAG
E42
.018
.67.8
94.1
83.2
18.4
37.0
54.6
6.140
.734
0826
764
40.6
21.5
8.895
.781
.619
.938
.752
.45.7
38.9
3284
2930
5HIG
HEST
45.0
20.9
8.797
.886
.521
.440
.262
.46.9
43.5
3622
2933
644
.025
.710
.510
0.085
.423
.042
.760
.06.6
43.8
3546
3339
4LO
WEST
39.1
15.6
6.091
.381
.016
.134
.551
.05.6
35.6
3247
2099
737
.719
.07.2
88.2
78.5
16.4
34.3
46.6
5.433
.131
2525
582
CV (%
)6.5
8.111
.15.6
2.08.8
6.66.1
5.67.5
37
7.46.9
9.87.4
2.57.7
5.78.3
6.47.6
48
LSD (
5%)
1.91.0
0.63.6
1.11.1
1.72.3
0.22.1
7612
663.6
1.81.0
8.42.4
1.82.6
5.20.4
3.515
026
68
2 Yea
r Ave
rages
2015
- 201
4BR
AND /
HYBR
IDRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
AGRIG
OLD A
6533
VT3P
RIB11
3P5
001,2
,343
.219
.38.3
9582
.019
.337
.852
.46.3
40.1
3330
2758
243
.020
.89.0
9480
.220
.138
.849
.15.8
40.5
3207
2955
9AG
RIGOL
D A65
59ST
XRIB
113
P500
1,2,3,
4,641
.621
.89.1
9681
.519
.739
.653
.36.2
38.1
3282
2965
240
.424
.410
.2*
9979
.820
.641
.551
.15.5
37.9
3159
3209
9GR
EAT L
AKES
6261
STX
112
P500
1,2,3,
642
.522
.49.5
*96
81.9
19.8
38.9
53.2
5.939
.233
1931
334
43.5
24.2
10.7
**98
82.0
18.5
36.9
51.0
5.441
.333
2736
103
MAST
ERS C
HOICE
MCT
-6153
111
C250
142
.820
.68.7
9082
.419
.838
.754
.66.1
40.2
3350
2902
543
.822
.910
.1*
9480
.920
.839
.752
.05.6
40.7
3242
3335
2PIO
NEER
P118
0XR
111
C250
1,2,3,
4,642
.619
.68.2
9587
.017
.135
.763
.57.3
42.0
3639
3005
945
.519
.58.7
9886
.716
.635
.161
.97.5
45.8
3606
3139
6PIO
NEER
P144
9XR
114
C250
1,2,3,
4,6,7
40.3
21.5
8.597
85.9
18.9
38.6
63.4
6.536
.535
1830
398
41.6
21.0
8.798
84.9
19.0
39.0
61.4
6.338
.034
6932
277
SEED
CONS
ULTA
NTS S
CS 11
HR2
113
P125
01,2
,441
.923
.19.6
**95
81.3
21.5
40.8
54.1
6.136
.732
6731
474
43.9
24.2
10.7
**98
79.9
22.2
41.7
51.7
5.637
.031
6233
331
AVER
AGE
42.1
21.2
8.894
.883
.219
.438
.656
.46.3
39.0
3386
2993
243
.122
.49.7
97.0
82.1
19.7
38.9
54.0
6.040
.233
1032
588
HIGHE
ST43
.223
.19.6
97.2
87.0
21.5
40.8
63.5
7.342
.036
3931
474
45.5
24.4
10.7
98.6
86.7
22.2
41.7
61.9
7.545
.836
0636
103
LOWE
ST40
.319
.38.2
89.6
81.3
17.1
35.7
52.4
5.936
.532
6727
582
40.4
19.5
8.794
.179
.816
.635
.149
.15.4
37.0
3159
2955
9CV
(%)
6.08.5
10.5
5.11.9
9.26.8
5.67.0
7.63
76.5
8.410
.45.6
2.19.0
6.46.3
9.17.6
38
LSD (
5%)
1.20.8
0.42.3
0.80.8
1.21.5
0.21.4
5396
12.3
1.50.8
4.51.4
1.52.1
2.80.4
2.592
2022
DT/A
DT/A
MILK
2006
YIELD
% QU
ALITY
MILK
2006
Late
- TRIA
L AVE
RAGE
Bran
ch - L
ateYIE
LD%
QUAL
ITY
DT/A
DT/A
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
Late
- TRIA
L AVE
RAGE
Bran
ch - L
ate
- 37 -
2015
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A65
33VT
3PRIB
113
P500
1,2,3
45.5
16.1
7.510
084
.716
.934
.956
.17.5
41.7
3514
2638
042
.715
.96.8
*88
83.1
16.7
34.7
51.3
5.742
.833
9220
872
AGRIG
OLD A
6559
STXR
IB11
3P5
001,2
,3,4,6
48.3
19.3
9.3*
100
83.3
16.8
35.0
52.2
7.742
.934
3031
976
42.3
15.2
6.587
82.7
19.5
38.7
55.2
5.339
.533
7920
766
GREA
T LAK
ES 61
85ST
XRIB
111
P500
1,2,3,
647
.318
.88.8
*99
85.1
15.7
33.2
54.9
6.845
.035
5333
458
41.8
16.7
7.2*
8983
.917
.735
.855
.14.6
43.2
3479
2559
9GR
EAT L
AKES
6261
STX
112
P500
1,2,3,
643
.022
.19.6
*10
082
.319
.138
.153
.66.8
39.6
3351
3218
744
.115
.57.0
*90
82.4
19.0
37.6
53.2
5.340
.733
7521
887
MAST
ERS C
HOICE
MCT
-6153
111
C250
147
.317
.48.2
100
83.3
19.0
37.9
55.8
7.240
.934
0827
970
43.6
15.6
6.8*
8283
.018
.236
.954
.05.3
44.1
3414
2249
1Nu
Tech
/G2 G
ENET
ICS 5F
-713™
113
P500
1,2,4,
642
.416
.86.9
9782
.219
.139
.454
.97.7
37.2
3332
2305
340
.317
.67.2
*85
85.5
16.2
33.2
56.2
5.545
.835
8825
840
NuTe
ch/G
2 GEN
ETICS
5F-81
4™11
4P5
001,2
,4,6
43.9
19.6
8.610
085
.516
.133
.656
.77.1
43.7
3571
2853
740
.316
.26.5
8584
.018
.237
.557
.25.5
40.9
3462
2341
9Nu
Tech
/G2 G
ENET
ICS 5Z
-015™
115
P500
1,2,4,
644
.619
.08.5
9984
.515
.032
.652
.37.9
44.5
3517
2971
737
.314
.95.4
8684
.718
.737
.559
.05.5
39.5
3502
1866
0PIO
NEER
P082
5AMX
T11
3C2
501,2
,3,4,6
,740
.212
.24.8
100
85.9
16.8
34.0
58.5
7.341
.335
9217
356
37.6
14.5
5.384
85.1
17.9
35.2
57.5
5.642
.535
4618
952
PIONE
ER P1
180X
R11
1C2
501,2
,3,4,6
45.7
17.7
7.899
87.1
16.4
34.6
62.7
8.142
.436
5528
678
41.9
16.9
7.3**
9287
.115
.734
.562
.46.1
43.5
3665
2836
4PIO
NEER
P119
7AMX
T11
4C2
501,2
,3,4,6
46.2
18.5
8.510
085
.715
.231
.654
.77.4
46.7
3600
3055
137
.916
.26.0
8884
.917
.835
.657
.65.2
42.6
3534
2132
5PIO
NEER
P144
9XR
114
C250
1,2,3,
4,6,7
43.6
19.9
8.7*
100
86.2
18.0
37.7
63.4
7.337
.435
7628
562
39.6
17.0
6.9*
9386
.617
.637
.063
.85.6
39.6
3617
2354
9SE
ED CO
NSUL
TANT
S SCS
1125
AM11
3P5
001,2
,446
.120
.29.7
*97
83.8
15.9
32.7
50.6
7.544
.534
7935
029
33.4
16.8
5.694
83.5
17.9
35.8
53.7
5.242
.234
4719
203
SEED
CONS
ULTA
NTS S
CS 11
HR2
113
P125
01,2
,444
.121
.99.8
**10
082
.520
.437
.753
.47.2
39.8
3363
3282
839
.915
.86.2
8482
.520
.740
.456
.75.1
38.5
3355
2198
3WE
LLMA
N W25
13DP
113
ENC
1,241
.512
.15.1
9782
.218
.938
.253
.57.4
34.9
3275
1748
641
.115
.46.4
8782
.119
.039
.654
.65.3
39.0
3337
2211
5WE
LLMA
N W26
13DP
113
ENC
1,247
.820
.59.8
**10
082
.118
.637
.752
.47.1
40.7
3339
3281
544
.215
.66.9
*83
82.3
18.1
36.2
50.9
5.342
.733
7724
188
AVER
AGE
44.8
18.3
8.299
.284
.117
.435
.555
.47.4
41.4
3472
2853
640
.516
.06.5
87.3
84.0
18.0
36.6
56.1
5.441
.734
6722
451
HIGHE
ST48
.322
.19.8
100.0
87.1
20.4
39.4
63.4
8.146
.736
5535
029
44.2
17.6
7.393
.787
.120
.740
.463
.86.1
45.8
3665
2836
4LO
WEST
40.2
12.1
4.896
.982
.115
.031
.650
.66.8
34.9
3275
1735
633
.414
.55.3
82.2
82.1
15.7
33.2
50.9
4.638
.533
3718
660
CV (%
)6.4
8.211
.42.2
1.89.4
7.25.2
4.27.0
37
5.57.5
9.46.3
1.78.5
7.04.4
6.37.5
38
LSD (
5%)
3.41.8
1.12.5
1.81.9
3.03.4
0.43.5
120
2461
2.61.4
0.76.5
1.71.8
3.13.0
0.43.7
131
2145
2 Yea
r Ave
rages
2015
- 201
4BR
AND /
HYBR
IDRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
AGRIG
OLD A
6533
VT3P
RIB11
3P5
001,2
,339
.819
.67.7
100
82.8
19.7
39.0
55.8
7.436
.533
8026
015
46.7
17.6
8.3**
9183
.118
.035
.552
.55.7
43.2
3402
2717
1AG
RIGOL
D A65
59ST
XRIB
113
P500
1,2,3,
4,640
.723
.39.1
9982
.719
.239
.155
.47.4
35.5
3343
3108
543
.817
.87.9
*89
82.1
19.2
38.3
53.4
5.540
.933
4325
772
GREA
T LAK
ES 62
61ST
X11
2P5
001,2
,3,6
39.2
24.8
9.6*
9981
.821
.141
.155
.66.7
36.6
3309
3136
844
.718
.38.3
**90
81.8
19.8
38.6
52.9
5.539
.733
2126
531
MAST
ERS C
HOICE
MCT
-6153
111
C250
139
.521
.28.1
9583
.519
.438
.557
.07.2
37.9
3424
2717
145
.317
.58.0
*80
82.8
19.3
38.0
54.7
5.542
.233
8426
552
PIONE
ER P1
180X
R11
1C2
501,2
,3,4,6
39.3
22.0
8.299
87.4
17.5
36.4
65.2
7.938
.736
6330
082
43.0
17.5
7.688
87.1
17.3
35.5
63.5
6.641
.436
4828
699
PIONE
ER P1
449X
R11
4C2
501,2
,3,4,6
,737
.324
.98.9
100
86.5
18.6
38.6
64.9
7.234
.135
2631
219
42.0
18.7
8.0*
9486
.319
.238
.264
.16.0
37.4
3559
2769
8SE
ED CO
NSUL
TANT
S SCS
11HR
211
3P1
250
1,2,4
38.5
26.5
10.0
**10
082
.021
.640
.655
.27.2
34.3
3317
3369
743
.118
.68.1
*87
82.1
20.8
40.3
55.5
5.438
.733
2227
393
AVER
AGE
39.2
23.2
8.898
.883
.819
.639
.058
.47.3
36.2
3423
3009
144
.118
.08.0
88.5
83.6
19.1
37.8
56.6
5.840
.534
2527
117
HIGHE
ST40
.726
.510
.010
0.087
.421
.641
.165
.27.9
38.7
3663
3369
746
.718
.78.3
94.0
87.1
20.8
40.3
64.1
6.643
.236
4828
699
LOWE
ST37
.319
.67.7
94.7
81.8
17.5
36.4
55.2
6.734
.133
0926
015
42.0
17.5
7.679
.981
.817
.335
.552
.55.4
37.4
3321
2577
2CV
(%)
5.89.3
11.2
4.01.8
8.87.1
4.75.3
7.43
75.3
6.38.0
5.71.9
9.47.0
5.67.1
7.53
7LS
D (5%
)2.0
1.60.8
3.31.3
1.42.2
2.20.3
2.489
1722
1.90.9
0.54.2
1.41.5
2.12.6
0.32.6
9515
45
** Hi
ghes
t Yield
ing Hy
brid
* No
t Sign
ifican
tly Dif
feren
t from
High
est Y
ielding
Hybri
d
DT/A
DT/A
DT/A
DT/A
Lena
wee -
Late
Wood
- Late
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
Lena
wee -
Late
Wood
- Late
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
- 38 -
TABL
E 8E
.HU
RON,
INGH
AM &
OTT
AWA
COUN
TY S
ILAG
E TR
IALS
- EA
RLY
(104
Day
and
Earli
er)
ZONE
2 - 3
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/ACR
OPLA
N 40
99SS
/RIB
99A5
001,
2,3,
4,6
40.3
26.3
10.4
*10
082
.419
.138
.253
.87.
039
.233
0434
936
43.3
24.5
10.6
*10
081
.521
.341
.154
.96.
638
.232
2634
121
CROP
LAN
5415
SS/R
IB10
4A5
001,
2,3,
4,6
38.7
27.7
10.5
*10
081
.819
.837
.951
.76.
739
.932
7733
917
42.7
26.7
11.0
**10
082
.018
.935
.849
.76.
441
.932
8536
071
DAIR
YLAN
D SE
ED D
S-96
9393
C500
1,2,
3,4,
642
.321
.89.
095
82.3
17.3
35.7
50.4
7.7
41.4
3334
3006
044
.921
.19.
595
81.7
18.1
37.8
51.5
7.2
41.6
3276
3182
3DA
IRYL
AND
SEED
Hi D
F-30
99-9
99C5
001,
2,3,
4,6
37.1
28.3
10.4
*98
81.2
18.1
35.6
46.9
7.1
41.8
3264
3468
438
.526
.210
.1*
100
81.3
15.9
31.9
41.5
6.6
46.7
3299
3574
6DA
IRYL
AND
SEED
Hi D
F-31
97-7
97C5
001,
2,4,
640
.722
.49.
196
81.9
20.0
38.3
52.6
7.1
41.0
3289
2943
543
.920
.99.
296
81.7
19.9
39.8
53.9
6.6
41.2
3253
2975
5DA
IRYL
AND
SEED
Hi D
F-37
00SS
X10
0C5
001,
2,3,
4,6
37.9
26.1
10.0
*98
81.2
21.1
38.2
50.9
6.5
39.0
3256
3306
839
.925
.210
.0*
9981
.419
.438
.151
.36.
140
.332
5932
648
DAIR
YLAN
D SE
ED H
i DF-
3702
-910
2C5
001,
2,3,
434
.628
.19.
695
82.4
20.1
38.0
53.7
6.8
39.5
3322
3241
037
.027
.910
.3*
9981
.920
.438
.953
.36.
439
.932
7633
720
DYNA
GRO
D40S
S48
100
P500
1,2,
3,4,
641
.724
.410
.1*
9981
.420
.539
.052
.57.
039
.132
5731
988
41.6
23.0
9.6
100
81.3
18.7
37.8
50.5
6.8
40.6
3251
3108
8GR
EAT
LAKE
S 52
83ST
XRIB
102
P500
1,2,
3,6
39.6
26.8
10.7
**97
82.2
17.4
34.9
49.0
6.9
42.2
3344
3489
239
.424
.39.
599
82.3
17.2
34.5
48.5
6.6
43.2
3343
3189
2LE
GACY
SEE
DS L
-442
4 GE
NSS
100
P500
1,2,
3,4,
638
.626
.410
.1*
9681
.418
.638
.251
.47.
040
.032
6433
368
40.2
26.3
10.6
*10
081
.619
.237
.350
.66.
841
.332
7534
598
LEGA
CY S
EEDS
L-5
350
3122
E-Z
R10
4C2
501,
2,3,
4,6
36.7
27.1
9.9
9681
.520
.639
.152
.86.
937
.232
6232
107
39.8
26.8
10.7
*10
081
.121
.640
.953
.66.
536
.932
0734
199
M&W
SEE
DS 4
5A38
101
P250
1,2,
3,4,
642
.421
.79.
187
81.9
20.0
39.2
53.8
6.9
39.0
3278
2986
845
.221
.29.
590
82.4
18.3
36.3
51.3
6.9
42.4
3329
3176
1M
&W S
EEDS
45J
9910
4P2
501,
236
.826
.49.
698
79.5
22.1
41.2
50.2
7.0
37.1
3123
2983
438
.624
.29.
310
079
.922
.140
.049
.76.
639
.431
5129
442
M&W
SEE
DS 4
7J66
94P2
501,
243
.221
.99.
599
81.6
18.2
35.5
48.4
7.0
42.7
3301
3285
545
.022
.510
.1*
100
78.7
20.6
38.1
44.3
6.6
39.0
3101
3265
9M
ASTE
RS C
HOIC
E M
CT-5
371
103
C250
137
.326
.09.
791
81.6
18.7
36.4
49.3
6.8
40.7
3291
3285
042
.025
.310
.7*
9982
.216
.633
.046
.16.
244
.433
5038
640
NuTe
ch/G
2 GE
NETI
CS 5
H-50
2™10
2P5
001,
2,4,
638
.826
.910
.3*
9881
.220
.337
.950
.47.
040
.832
5333
881
38.1
25.5
9.7
9980
.420
.037
.147
.26.
440
.332
1032
916
PION
EER
P024
2AM
XT10
4C2
501,
2,3,
4,6
38.6
26.6
10.1
*95
83.1
19.1
36.4
53.3
6.9
41.5
3377
3315
942
.125
.410
.7*
100
83.2
18.1
34.8
51.6
6.5
44.7
3392
3629
3RE
NK R
K415
VT2P
92P2
501,
244
.021
.89.
499
82.2
17.6
34.4
48.4
7.2
44.2
3346
3146
044
.422
.610
.0*
100
81.9
16.7
33.1
45.4
6.8
44.2
3332
3340
3RE
NK R
K544
SSTX
95P5
001,
2,3,
4,6
42.4
21.6
9.1
9682
.519
.136
.852
.47.
141
.233
4030
205
46.4
21.2
9.8
100
82.7
17.8
35.8
51.7
7.0
43.8
3355
3280
4RE
NK R
K565
GTCB
LLRW
BL99
C250
1,2,
3,4,
641
.824
.210
.1*
9982
.717
.935
.551
.17.
044
.033
6433
200
43.3
22.2
9.5
100
82.1
20.2
38.6
53.8
6.7
42.8
3292
3128
5RE
NK R
K629
VT3P
101
P250
1,2,
338
.126
.59.
890
83.0
17.0
35.1
51.5
7.3
41.9
3373
3227
639
.926
.610
.6*
9683
.417
.234
.852
.36.
943
.134
0436
070
STEY
ER 1
0102
VT2
PROR
IBC
101
C250
1,2,
1443
.521
.99.
398
82.6
17.7
35.0
50.3
7.0
44.0
3364
3074
341
.821
.58.
997
81.1
17.9
36.0
47.4
6.6
43.9
3255
2713
3ST
EYER
920
3 VT
2PRO
RIBC
92C2
501,
2,14
43.7
21.2
9.2
9782
.517
.836
.151
.66.
943
.033
4530
069
47.4
19.8
9.4
100
82.7
18.0
36.0
51.7
6.6
43.9
3350
2964
8ST
EYER
980
1 GT
98C2
50Co
nv.
43.6
23.0
9.9
9980
.920
.439
.151
.16.
938
.932
2531
674
46.5
23.3
10.9
*10
080
.920
.039
.151
.06.
540
.232
1735
211
AVER
AGE
40.1
24.8
9.8
96.5
81.9
19.1
37.2
51.1
7.0
40.8
3298
3220
642
.223
.910
.098
.781
.618
.936
.950
.16.
641
.832
7933
039
HIGH
EST
44.0
28.3
10.7
100.
083
.122
.141
.253
.87.
744
.233
7734
936
47.4
27.9
11.0
100.
083
.422
.141
.154
.97.
246
.734
0438
640
LOW
EST
34.6
21.2
9.0
87.0
79.5
17.0
34.4
46.9
6.5
37.1
3123
2943
537
.019
.88.
990
.278
.715
.931
.941
.56.
136
.931
0127
133
CV (%
)6.
99.
110
.25.
12.
59.
86.
78.
06.
17.
54
76.
76.
88.
93.
32.
59.
25.
69.
75.
87.
44
8LS
D (5
%)
1.9
1.5
0.7
3.3
1.4
1.3
1.7
2.8
0.3
2.1
9116
093.
31.
91.
13.
92.
42.
12.
55.
70.
53.
715
629
42
2 Yea
r Ave
rage
s 201
5 - 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
CROP
LAN
4099
SS/R
IB99
A500
1,2,
3,4,
639
.526
.610
.410
082
.718
.738
.154
.46.
839
.933
4434
552
42.1
24.7
10.4
*10
081
.820
.240
.955
.56.
838
.532
6533
464
CROP
LAN
5415
SS/R
IB10
4A5
001,
2,3,
4,6
36.8
29.8
10.9
**10
081
.620
.739
.753
.46.
538
.032
6935
177
40.4
28.1
11.0
**10
081
.620
.138
.852
.46.
539
.532
6535
987
DAIR
YLAN
D SE
ED H
i DF-
3197
-797
C500
1,2,
4,6
41.0
23.4
9.6
9882
.220
.239
.054
.37.
140
.933
1531
672
43.7
22.3
9.7
9882
.418
.938
.554
.27.
142
.333
2432
314
DAIR
YLAN
D SE
ED H
i DF-
3702
-910
2C5
001,
2,3,
434
.129
.49.
997
82.2
20.5
40.4
55.8
6.8
38.0
3288
3308
935
.229
.310
.399
81.7
20.7
40.9
55.1
6.7
38.5
3262
3433
8DY
NAGR
O D4
0SS4
810
0P5
001,
2,3,
4,6
39.5
26.2
10.3
9981
.919
.438
.152
.56.
840
.033
0333
514
40.7
24.7
10.0
100
81.6
18.2
37.3
50.6
6.8
41.6
3290
3289
4GR
EAT
LAKE
S 52
83ST
XRIB
102
P500
1,2,
3,6
38.8
27.6
10.8
*98
82.4
17.9
36.7
51.8
6.8
41.0
3347
3521
039
.925
.110
.098
82.3
17.2
37.0
51.8
6.8
42.0
3333
3348
0LE
GACY
SEE
DS L
-535
0 31
22 E
-Z R
104
C250
1,2,
3,4,
636
.328
.210
.198
81.5
20.3
39.2
52.9
6.8
37.4
3275
3345
038
.327
.610
.6*
100
81.1
20.8
40.8
53.6
6.6
37.1
3229
3411
1RE
NK R
K565
GTCB
LLRW
BL99
C250
1,2,
3,4,
641
.724
.710
.299
82.1
19.6
37.8
52.6
7.0
40.6
3313
3337
844
.521
.49.
610
081
.721
.240
.554
.87.
039
.732
6731
457
RENK
RK6
29VT
3P10
1P2
501,
2,3
37.5
28.5
10.5
*95
82.2
20.2
38.0
52.9
7.0
38.5
3295
3448
739
.926
.810
.7*
9782
.320
.336
.952
.06.
938
.632
6034
799
STEY
ER 1
0102
VT2
PROR
IBC
101
C250
1,2,
1441
.323
.59.
698
82.5
19.0
37.3
52.8
6.7
41.8
3348
3198
842
.122
.09.
298
81.3
19.9
38.6
51.1
6.7
41.2
3260
2907
4AV
ERAG
E38
.726
.810
.298
.082
.119
.638
.453
.36.
839
.633
1033
652
40.7
25.2
10.2
99.0
81.8
19.8
39.0
53.1
6.8
39.9
3275
3319
2HI
GHES
T41
.729
.810
.999
.882
.720
.740
.455
.87.
141
.833
4835
210
44.5
29.3
11.0
100.
082
.421
.240
.955
.57.
142
.333
3335
987
LOW
EST
34.1
23.4
9.6
94.8
81.5
17.9
36.7
51.8
6.5
37.4
3269
3167
235
.221
.49.
297
.381
.117
.236
.950
.66.
537
.132
2929
074
CV (%
)6.
58.
28.
74.
62.
59.
47.
07.
55.
97.
54
76.
26.
67.
53.
22.
58.
26.
88.
36.
07.
34
7LS
D (5
%)
1.2
1.0
0.4
2.1
1.0
0.9
1.3
1.9
0.2
1.4
6210
802.
21.
30.
62.
61.
71.
32.
13.
60.
32.
511
120
58
Early
- TR
IAL
AVER
AGE
Huro
n - E
arly
YIEL
D%
QUA
LITY
MILK
2006
YIEL
D%
QUA
LITY
MILK
2006
Early
- TR
IAL
AVER
AGE
Huro
n - E
arly
YIEL
D%
QUA
LITY
DT/A
DT/A
MILK
2006
YIEL
D%
QUA
LITY
MILK
2006
DT/A
DT/A
- 39 -
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
A%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
ACR
OPLA
N 40
99SS
/RIB
99A5
001,
2,3,
4,6
36.1
27.2
9.5
100
82.7
20.5
39.2
55.9
6.9
39.3
3342
3142
841
.527
.111
.2**
9983
.015
.634
.450
.67.
540
.233
4639
257
CROP
LAN
5415
SS/R
IB10
4A5
001,
2,3,
4,6
35.4
27.4
9.6
100
81.8
21.5
41.3
56.0
6.0
36.6
3272
2950
038
.129
.011
.1*
100
81.5
19.0
36.7
49.4
7.7
41.1
3275
3618
1DA
IRYL
AND
SEED
DS-
9693
93C5
001,
2,3,
4,6
41.6
22.9
8.9
9884
.215
.333
.552
.87.
544
.134
7930
808
40.4
21.3
8.6
9380
.918
.535
.946
.98.
438
.732
4527
550
DAIR
YLAN
D SE
ED H
i DF-
3099
-999
C500
1,2,
3,4,
636
.629
.610
.693
83.1
16.4
34.2
50.5
7.0
42.3
3390
3595
936
.229
.210
.5*
100
79.2
22.0
40.6
48.7
7.8
36.6
3102
3234
6DA
IRYL
AND
SEED
Hi D
F-31
97-7
97C5
001,
2,4,
640
.920
.68.
399
81.9
21.4
39.3
53.9
7.0
39.7
3293
2591
337
.425
.89.
892
82.1
18.8
35.7
49.9
7.6
42.1
3321
3263
6DA
IRYL
AND
SEED
Hi D
F-37
00SS
X10
0C5
001,
2,3,
4,6
35.6
27.1
9.7
100
81.0
20.7
39.6
52.0
6.3
37.6
3241
3295
938
.425
.810
.2*
9681
.323
.236
.949
.47.
139
.132
6733
596
DAIR
YLAN
D SE
ED H
i DF-
3702
-910
2C5
001,
2,3,
433
.327
.38.
899
82.4
20.2
38.6
54.5
6.5
39.0
3334
3080
033
.429
.29.
787
82.9
19.9
36.6
53.3
7.6
39.6
3356
3271
0DY
NAGR
O D4
0SS4
810
0P5
001,
2,3,
4,6
40.6
27.3
10.8
9982
.319
.937
.753
.36.
740
.433
3735
729
42.8
23.0
9.9
9880
.822
.941
.453
.67.
436
.431
8429
146
GREA
T LA
KES
5283
STXR
IB10
2P5
001,
2,3,
642
.527
.912
.4**
9782
.316
.934
.749
.06.
443
.133
6438
871
37.1
28.1
10.3
*94
82.1
18.1
35.5
49.6
7.7
40.3
3324
3391
3LE
GACY
SEE
DS L
-442
4 GE
NSS
100
P500
1,2,
3,4,
638
.127
.09.
810
081
.519
.039
.353
.06.
638
.532
7232
101
37.6
26.0
9.8
8881
.217
.538
.150
.87.
740
.232
4533
406
LEGA
CY S
EEDS
L-5
350
3122
E-Z
R10
4C2
501,
2,3,
4,6
34.1
27.3
9.1
100
82.2
20.4
38.4
53.8
6.8
38.4
3323
2999
636
.327
.39.
989
81.4
19.8
38.0
50.9
7.6
36.4
3257
3212
5M
&W S
EEDS
45A
3810
1P2
501,
2,3,
4,6
43.1
24.5
10.2
9184
.516
.034
.855
.66.
943
.834
8835
482
39.0
19.4
7.5
8078
.825
.846
.654
.57.
030
.830
1822
362
M&W
SEE
DS 4
5J99
104
P250
1,2
37.9
25.3
9.5
9980
.419
.139
.750
.76.
340
.732
0930
333
33.8
29.6
10.0
9478
.225
.044
.050
.38.
031
.030
0929
728
M&W
SEE
DS 4
7J66
94P2
501,
243
.120
.18.
710
084
.614
.231
.551
.17.
048
.035
2332
480
41.6
23.1
9.6
9781
.619
.836
.749
.77.
541
.132
7933
426
MAS
TERS
CHO
ICE
MCT
-537
110
3C2
501
35.3
27.9
9.9
9880
.919
.239
.651
.96.
837
.632
3831
906
34.7
24.8
8.6
7881
.620
.436
.649
.87.
540
.032
8428
003
NuTe
ch/G
2 GE
NETI
CS 5
H-50
2™10
2P5
001,
2,4,
637
.928
.110
.399
82.1
20.0
38.3
53.1
6.9
39.5
3315
3391
840
.327
.210
.8*
9681
.121
.038
.551
.17.
942
.732
3534
810
PION
EER
P024
2AM
XT10
4C2
501,
2,3,
4,6
37.8
26.3
9.8
9983
.320
.238
.656
.77.
039
.033
8230
091
35.8
28.0
9.9
8682
.719
.235
.851
.67.
241
.033
5733
091
RENK
RK4
15VT
2P92
P250
1,2
41.1
21.5
8.8
9984
.117
.333
.552
.57.
045
.434
7930
483
46.6
21.5
9.4
9780
.718
.736
.847
.47.
843
.132
2830
493
RENK
RK5
44SS
TX95
P500
1,2,
3,4,
640
.821
.08.
510
082
.220
.539
.655
.36.
737
.933
1328
178
40.1
22.6
8.9
8982
.518
.935
.250
.37.
741
.933
5129
632
RENK
RK5
65GT
CBLL
RWBL
99C2
501,
2,3,
4,6
38.6
27.4
10.7
100
82.6
16.9
34.4
49.5
7.1
44.0
3381
3411
543
.623
.010
.096
83.4
16.7
33.4
50.2
7.3
45.2
3419
3420
0RE
NK R
K629
VT3P
101
P250
1,2,
338
.328
.310
.094
83.8
16.0
33.9
52.1
7.2
42.3
3427
3195
236
.324
.68.
882
81.7
18.0
36.7
50.0
7.8
40.3
3286
2880
7ST
EYER
101
02 V
T2PR
ORIB
C10
1C2
501,
2,14
39.2
24.0
9.1
100
83.0
17.6
35.5
52.1
6.7
43.6
3394
3082
349
.320
.310
.096
83.8
17.5
33.5
51.5
7.6
44.7
3441
3427
2ST
EYER
920
3 VT
2PRO
RIBC
92C2
501,
2,14
44.4
21.6
9.5
9984
.515
.533
.153
.26.
746
.635
0533
122
39.3
22.2
8.7
9080
.320
.139
.349
.87.
538
.631
8027
437
STEY
ER 9
801
GT98
C250
Conv
.38
.725
.49.
410
080
.821
.039
.851
.76.
937
.932
2730
082
45.6
20.2
9.3
9781
.020
.038
.650
.87.
338
.532
3029
728
AVER
AGE
38.8
25.5
9.7
98.5
82.6
18.6
37.0
52.9
6.8
41.0
3355
3196
039
.424
.99.
792
.281
.419
.837
.650
.47.
639
.632
6031
619
HIGH
EST
44.4
29.6
12.4
100.
084
.621
.541
.356
.77.
548
.035
2338
871
49.3
29.6
11.2
100.
083
.825
.846
.654
.58.
445
.234
4139
257
LOW
EST
33.3
20.1
8.3
91.0
80.4
14.2
31.5
49.0
6.0
36.6
3209
2591
333
.419
.47.
577
.578
.215
.633
.446
.97.
030
.830
0922
362
CV (%
)6.
711
.511
.73.
72.
59.
57.
07.
16.
97.
94
76.
96.
58.
57.
52.
510
.27.
47.
25.
67.
14
7LS
D (5
%)
3.1
3.5
1.3
4.3
2.4
2.1
3.1
4.4
0.6
3.8
163
2722
3.2
1.9
1.0
8.2
2.4
2.4
3.3
4.3
0.5
3.3
156
2770
2 Ye
ar A
vera
ges
2015
- 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
CROP
LAN
4099
SS/R
IB99
A500
1,2,
3,4,
636
.229
.210
.410
082
.919
.738
.355
.46.
839
.333
7234
906
40.3
25.8
10.4
*99
83.4
16.2
35.1
52.5
7.0
42.0
3395
3528
7CR
OPLA
N 54
15SS
/RIB
104
A500
1,2,
3,4,
635
.030
.010
.499
82.1
21.0
40.7
56.0
6.1
36.4
3303
3349
635
.131
.211
.1**
100
81.0
20.8
39.6
51.8
7.0
38.2
3238
3604
8DA
IRYL
AND
SEED
Hi D
F-31
97-7
97C5
001,
2,4,
639
.722
.99.
210
082
.221
.640
.756
.37.
038
.833
0629
716
39.4
25.1
9.9
9582
.020
.037
.852
.37.
241
.833
1432
985
DAIR
YLAN
D SE
ED H
i DF-
3702
-910
2C5
001,
2,3,
432
.829
.39.
499
82.3
20.9
40.1
55.8
6.5
35.5
3285
3175
134
.429
.710
.193
82.5
19.9
40.3
56.5
7.2
39.9
3316
3317
8DY
NAGR
O D4
0SS4
810
0P5
001,
2,3,
4,6
39.1
28.5
11.0
*98
82.9
18.2
36.8
53.6
6.7
40.8
3384
3702
538
.825
.69.
898
81.1
21.9
40.4
53.3
6.8
37.7
3235
3062
1GR
EAT
LAKE
S 52
83ST
XRIB
102
P500
1,2,
3,6
39.0
29.4
11.7
**98
82.3
18.0
36.4
51.4
6.5
40.5
3356
3776
637
.628
.310
.6*
9782
.518
.436
.752
.37.
040
.433
5234
385
LEGA
CY S
EEDS
L-5
350
3122
E-Z
R10
4C2
501,
2,3,
4,6
34.7
30.0
10.3
100
82.0
20.3
38.9
53.7
6.7
37.4
3314
3403
535
.926
.89.
694
81.5
19.6
38.0
51.4
7.0
37.7
3283
3220
3RE
NK R
K565
GTCB
LLRW
BL99
C250
1,2,
3,4,
638
.728
.010
.9*
100
82.7
18.4
35.8
51.5
7.0
40.6
3351
3466
541
.824
.610
.398
82.0
19.2
37.2
51.5
7.0
41.4
3321
3401
0RE
NK R
K629
VT3P
101
P250
1,2,
336
.930
.810
.9*
9783
.618
.235
.153
.27.
041
.434
2537
362
35.8
27.8
9.9
9080
.722
.041
.853
.57.
035
.632
0031
298
STEY
ER 1
0102
VT2
PROR
IBC
101
C250
1,2,
1438
.625
.19.
598
83.0
17.8
36.3
53.0
6.5
42.5
3393
3318
643
.223
.49.
997
83.2
19.5
37.1
54.4
6.9
41.6
3391
3370
4AV
ERAG
E37
.128
.310
.498
.982
.619
.437
.954
.06.
739
.333
4934
391
38.2
26.8
10.2
96.1
82.0
19.8
38.4
52.9
7.0
39.6
3305
3337
2HI
GHES
T39
.730
.811
.710
0.0
83.6
21.6
40.7
56.3
7.0
42.5
3425
3776
643
.231
.211
.110
0.0
83.4
22.0
41.8
56.5
7.2
42.0
3395
3604
8LO
WES
T32
.822
.99.
296
.682
.017
.835
.151
.46.
135
.532
8529
716
34.4
23.4
9.6
90.4
80.7
16.2
35.1
51.4
6.8
35.6
3200
3062
1CV
(%)
6.3
9.2
9.3
3.4
2.3
9.2
6.9
6.3
6.2
7.4
47
6.6
7.2
8.8
6.5
2.6
10.5
7.4
7.7
5.6
7.7
47
LSD
(5%
)2.
02.
10.
82.
81.
61.
42.
12.
80.
32.
510
318
462.
11.
50.
75.
11.
81.
82.
33.
30.
32.
511
117
57
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
YIEL
D%
QUA
LITY
Ingh
am -
Early
Otta
wa -
Early
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
DT/A
DT/A
Ingh
am -
Early
Otta
wa -
Early
MIL
K 20
06DT
/ADT
/AYI
ELD
% Q
UALI
TYM
ILK
2006
- 40 -
TABL
E 8L
.HU
RON,
INGH
AM &
OTT
AWA
COUN
TY S
ILAG
E TR
IALS
- LA
TE (1
05 D
ay an
d La
ter)
ZONE
2 - 3
2015
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A64
08VT
3PRIB
107
P500
1,2,3
41.4
23.9
9.997
81.6
19.3
36.9
50.2
6.840
.832
7931
774
40.6
24.2
9.792
79.6
20.8
38.8
47.4
6.637
.531
1928
450
AGRIG
OLD A
6416
STXR
IB10
7P5
001,2
,3,4,6
36.1
27.0
9.898
81.8
19.3
36.7
50.2
6.841
.133
0132
223
36.1
27.7
10.0
100
80.5
18.7
36.3
46.3
6.642
.532
2532
195
AGRIG
OLD A
6442
STXR
IB10
9P5
001,2
,3,4,6
35.0
28.6
9.998
79.3
22.6
41.3
49.8
6.835
.531
1431
372
36.6
25.5
9.310
079
.122
.341
.850
.06.8
35.7
3093
2888
1CR
OPLA
N 606
5SS/R
IB11
0A5
001,2
,3,4,6
36.3
30.0
10.8
*98
80.1
20.9
39.5
49.7
7.037
.031
7733
949
37.0
27.6
10.2
100
80.1
19.6
38.1
47.7
7.039
.331
8332
517
DAIRY
LAND
SEED
Hi DF
-3108
RA10
8C2
501,2
,3,4,6
33.1
29.7
9.894
78.9
21.9
41.3
49.0
6.634
.931
2829
688
37.0
29.2
10.8
*97
80.3
20.1
40.7
51.5
6.338
.731
7032
271
DAIRY
LAND
SEED
Hi DF
-3510
SSX
110
C250
1,2,3,
4,633
.233
.010
.9**
9781
.321
.038
.151
.06.6
38.4
3260
3557
635
.132
.511
.4**
9980
.719
.637
.648
.56.7
39.6
3222
3480
6DA
IRYLA
ND SE
ED Hi
DF-36
05-9
105
C500
1,2,3,
4,636
.829
.110
.6*
9480
.020
.138
.247
.76.9
38.2
3168
3351
136
.229
.210
.595
78.3
20.8
39.6
45.3
6.738
.930
6930
792
DAIRY
LAND
SEED
Hi DF
-3808
SSX
108
C125
01,2
,3,4,6
34.8
29.8
10.3
9680
.522
.340
.952
.36.4
32.3
3091
3240
933
.328
.09.3
9179
.522
.341
.050
.26.1
32.0
2978
2931
0DY
NAGR
O D48
SS38
108
P500
1,2,3,
4,635
.327
.29.6
9880
.521
.039
.750
.96.7
35.0
3123
2990
238
.924
.69.6
9480
.719
.139
.651
.26.7
36.2
3205
2856
1DY
NAGR
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110
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.5*
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.551
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LDEN
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EST G
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GOLD
EN HA
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T G07
V88-3
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107
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1,2,3,
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.926
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T LAK
ES 60
68ST
XRIB
110
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NETIC
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106
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3Nu
Tech/
G2 GE
NETIC
S 5Z-3
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108
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PIONE
ER P0
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MX10
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203
PIONE
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M10
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106
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18.7
37.8
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PIONE
ER P0
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109
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RK81
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404 V
IP312
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2231
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STEY
ER 11
103 V
T2PR
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111
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1,238
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50.7
6.637
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3219
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2789
3CV
(%)
7.06.2
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8.65
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8.38.5
5.48.0
57
LSD (
5%)
1.71.2
0.54.3
1.51.5
2.02.8
0.32.2
103
1631
2.61.8
0.810
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2.43.7
5.00.4
3.619
727
14
DT/A
DT/A
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
Late
- TRIA
L AVE
RAGE
Huron
- Late
- 41 -
2015
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
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RIGOL
D A64
08VT
3PRIB
107
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1,2,3
40.9
24.1
10.0
100
81.9
19.6
37.1
51.2
6.341
.133
1033
129
42.6
23.3
9.998
83.3
17.6
34.7
51.8
7.443
.834
0933
745
AGRIG
OLD A
6416
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108
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110
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407
GOLD
EN HA
RVES
T G05
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122
105
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4,639
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100
79.8
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5.936
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6029
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34.4
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81.7
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8131
446
GOLD
EN HA
RVES
T G07
B39-3
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107
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GOLD
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107
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GREA
T LAK
ES 57
55ST
XRIB
107
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1,2,3,
640
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83.5
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112
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W-31
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and N
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109
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637
NuTe
ch/G
2 GEN
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5H-80
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39.6
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7732
632
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ch/G
2 GEN
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5Z-30
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31.3
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3261
3535
1PIO
NEER
P049
6AMX
106
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38.6
24.3
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107
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106
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3715
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85.8
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634
PIONE
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109
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4,634
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82.2
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5PIO
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111
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37.8
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32.2
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35.2
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389
RENK
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38.0
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NK RK
810S
STX
109
P500
1,2,3,
4,636
.425
.49.2
100
82.6
17.9
35.5
50.9
5.841
.933
6831
084
37.0
30.4
11.0
*10
082
.016
.834
.848
.17.2
42.6
3331
3674
3ST
EYER
1040
4 VIP3
122
105
C250
1,2,4,
635
.926
.69.6
9881
.019
.437
.549
.36.3
39.5
3256
3138
533
.428
.89.9
8781
.020
.637
.248
.97.3
37.9
3253
3398
9ST
EYER
1110
3 VT2
PROR
IBC11
1C2
501,2
41.1
26.0
10.2
*99
83.6
16.9
34.0
51.8
6.043
.934
4135
171
37.3
28.6
10.7
9880
.221
.240
.551
.07.4
35.9
3172
3380
0AV
ERAG
E37
.427
.110
.099
.181
.819
.537
.651
.66.2
39.4
3295
3300
733
.930
.210
.193
.481
.520
.938
.351
.77.5
37.1
3256
3327
7HIG
HEST
44.6
32.7
11.2
100.0
86.2
23.5
41.8
62.8
7.044
.735
8137
416
42.6
35.7
11.8
100.0
86.0
26.6
43.4
60.3
8.143
.835
5937
713
LOWE
ST30
.522
.58.2
92.7
78.2
15.7
32.7
45.5
5.434
.331
1428
357
28.7
23.3
9.280
.478
.316
.434
.347
.56.9
29.7
2916
2803
2CV
(%)
7.16.6
8.71.7
2.69.9
7.48.2
7.98.0
48
6.96.1
7.46.2
2.710
.87.2
8.04.5
8.55
8LS
D (5%
)3.1
2.11.0
2.02.5
2.33.3
7.10.6
3.716
629
732.7
2.20.9
6.82.5
2.73.3
4.90.4
3.717
630
07
** Hi
ghes
t Yield
ing Hy
brid
* No
t Sign
ifican
tly Dif
feren
t from
High
est Y
ielding
Hybri
d
DT/A
DT/A
Ingha
m - L
ateOt
tawa -
Late
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
- Tab
le 8
L Co
ntin
ued
On
Page
42.
- 42 -
2 Ye
ar A
vera
ges
2015
- 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
AGRI
GOLD
A64
08VT
3PRI
B10
7P5
001,
2,3
38.9
25.4
9.9
9881
.619
.837
.951
.46.
840
.132
8732
088
38.1
26.5
10.0
9679
.921
.740
.250
.06.
937
.631
5930
614
AGRI
GOLD
A64
16ST
XRIB
107
P500
1,2,
3,4,
635
.128
.810
.099
81.9
19.8
38.4
52.8
6.8
39.4
3309
3307
235
.327
.99.
910
080
.420
.539
.550
.06.
738
.732
0931
686
AGRI
GOLD
A64
42ST
XRIB
109
P500
1,2,
3,4,
634
.829
.910
.397
80.5
21.5
40.5
51.8
6.8
36.1
3204
3261
235
.927
.49.
810
079
.922
.342
.152
.46.
834
.931
5831
071
DAIR
YLAN
D SE
ED H
i DF-
3108
RA10
8C2
501,
2,3,
4,6
32.7
30.8
10.2
9780
.621
.340
.652
.26.
735
.432
2933
466
33.3
30.5
10.4
9881
.020
.941
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.76.
436
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2734
025
DAIR
YLAN
D SE
ED H
i DF-
3510
SSX
110
C250
1,2,
3,4,
631
.934
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.0**
9881
.321
.339
.652
.76.
736
.932
6335
998
33.6
33.2
11.1
**10
081
.320
.639
.652
.76.
737
.332
6035
361
DYNA
GRO
D50S
S43
110
P500
1,2,
3,4,
636
.329
.910
.8*
9980
.920
.939
.852
.26.
937
.432
4035
017
36.4
27.6
10.0
9880
.421
.641
.252
.37.
035
.831
9532
511
GOLD
EN H
ARVE
ST G
05T8
2-31
2210
5C5
001,
2,3,
4,6
36.8
27.6
10.0
9681
.719
.838
.752
.86.
638
.232
9733
724
37.8
27.7
10.1
9381
.319
.638
.351
.16.
639
.132
7333
217
GOLD
EN H
ARVE
ST G
07V8
8-30
00G
107
C500
1,2,
3,4
37.4
28.5
10.6
*94
81.5
21.5
39.6
53.2
6.5
38.5
3274
3456
438
.625
.39.
889
81.2
21.9
40.7
53.5
6.4
38.0
3243
3243
0GR
EAT
LAKE
S 57
55ST
XRIB
107
P500
1,2,
3,6
35.0
29.8
10.4
9781
.720
.838
.652
.77.
138
.832
9533
311
34.5
26.9
9.2
9280
.122
.141
.952
.46.
936
.831
7129
288
GREA
T LA
KES
6068
STXR
IB11
0P5
001,
2,3,
635
.030
.610
.6*
9781
.021
.439
.752
.16.
936
.632
2634
915
35.5
27.9
9.9
9579
.322
.941
.850
.56.
934
.330
7231
505
NK B
rand
N53
W-3
122
105
C500
1,2,
3,4,
637
.528
.710
.7*
9782
.118
.637
.251
.86.
940
.233
3036
294
38.7
26.7
10.3
9881
.419
.339
.052
.16.
539
.332
7234
162
NK B
rand
N61
P-30
00GT
Bra
nd10
7C5
001,
2,3,
438
.227
.010
.395
82.4
20.2
37.7
53.1
6.5
40.4
3336
3446
737
.926
.09.
999
81.1
22.1
41.1
53.7
6.3
37.9
3238
3192
4Nu
Tech
/G2
GENE
TICS
5F-
709™
109
P500
1,2,
4,6
34.9
29.2
10.1
9982
.518
.936
.752
.56.
940
.333
5834
412
36.9
28.1
10.4
9983
.118
.136
.353
.37.
340
.833
9235
240
NuTe
ch/G
2 GE
NETI
CS 5
H-80
6™10
6P5
001,
2,4,
636
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.210
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9982
.819
.637
.754
.36.
939
.833
6735
585
38.1
28.8
10.9
*10
083
.618
.236
.554
.96.
941
.734
2437
480
PION
EER
P050
6AM
107
P125
01,
2,3,
4,6
36.2
29.2
10.5
9582
.519
.938
.054
.07.
139
.333
4034
947
35.3
28.7
10.1
9281
.221
.540
.353
.27.
138
.432
4432
844
PION
EER
P118
0XR
111
C250
1,2,
3,4,
632
.028
.59.
198
86.5
17.7
36.6
63.1
7.5
38.6
3574
3279
432
.627
.48.
999
86.1
17.6
36.8
62.0
7.6
39.8
3555
3176
0RE
NK R
K712
SSTX
106
P500
1,2,
3,4,
638
.226
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.196
82.5
18.9
37.4
53.1
7.0
39.9
3351
3376
638
.426
.19.
996
81.8
19.8
38.8
52.9
6.9
39.6
3299
3262
3AV
ERAG
E35
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.110
.397
.182
.020
.138
.553
.36.
938
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1134
178
36.3
27.8
10.0
96.6
81.4
20.6
39.7
53.0
6.8
38.0
3258
3280
8HI
GHES
T38
.934
.711
.099
.186
.521
.540
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.17.
540
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7436
294
38.7
33.2
11.1
100.
086
.122
.942
.162
.07.
641
.735
5537
480
LOW
EST
31.9
25.4
9.1
93.6
80.5
17.7
36.6
51.4
6.5
35.4
3204
3208
832
.625
.38.
988
.679
.317
.636
.350
.06.
334
.330
7229
288
CV (%
)6.
26.
57.
95.
02.
39.
86.
96.
85.
57.
94
75.
45.
36.
76.
82.
68.
77.
27.
25.
37.
65
7LS
D (5
%)
1.1
0.9
0.4
2.3
0.9
0.9
1.3
1.7
0.2
1.5
6211
181.
61.
20.
65.
51.
71.
52.
43.
10.
32.
412
118
85
2 Ye
ar A
vera
ges
2015
- 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
AGRI
GOLD
A64
08VT
3PRI
B10
7P5
001,
2,3
40.7
25.5
10.4
9882
.019
.437
.451
.96.
641
.033
2234
681
38.0
24.1
9.2
9982
.818
.336
.252
.46.
941
.733
8030
969
AGRI
GOLD
A64
16ST
XRIB
107
P500
1,2,
3,4,
637
.326
.49.
910
083
.718
.437
.656
.56.
441
.534
1833
991
32.6
32.2
10.4
9781
.720
.538
.051
.87.
438
.233
0033
539
AGRI
GOLD
A64
42ST
XRIB
109
P500
1,2,
3,4,
637
.728
.410
.797
80.5
21.0
40.1
51.2
6.4
36.8
3212
3395
130
.933
.910
.595
81.0
21.2
39.3
51.7
7.2
36.7
3243
3281
4DA
IRYL
AND
SEED
Hi D
F-31
08RA
108
C250
1,2,
3,4,
634
.830
.510
.699
80.5
20.5
39.2
50.5
6.4
36.7
3276
3442
130
.231
.59.
593
80.3
22.4
41.5
52.6
7.1
32.6
3184
3195
4DA
IRYL
AND
SEED
Hi D
F-35
10SS
X11
0C2
501,
2,3,
4,6
32.4
34.0
11.1
*10
081
.421
.539
.753
.36.
537
.232
7036
905
29.9
36.8
10.9
*96
81.2
21.8
39.5
52.3
7.0
36.1
3257
3572
8DY
NAGR
O D5
0SS4
311
0P5
001,
2,3,
4,6
40.2
29.1
11.7
**99
81.7
19.6
38.6
52.6
6.3
39.5
3296
3848
332
.332
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80.8
21.6
39.7
51.8
7.3
37.1
3230
3405
6GO
LDEN
HAR
VEST
G05
T82-
3122
105
C500
1,2,
3,4,
639
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081
.919
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.36.
438
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1036
141
33.0
28.4
9.4
9682
.020
.339
.153
.97.
036
.533
0631
815
GOLD
EN H
ARVE
ST G
07V8
8-30
00G
107
C500
1,2,
3,4
38.7
27.2
10.4
9781
.721
.239
.153
.16.
138
.732
9333
347
34.9
33.1
11.5
**96
81.7
21.3
39.0
53.0
7.1
38.7
3287
3791
4GR
EAT
LAKE
S 57
55ST
XRIB
107
P500
1,2,
3,6
39.1
28.5
11.1
*10
083
.417
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.96.
842
.634
2337
239
31.4
33.8
10.8
*99
81.7
22.6
38.6
52.7
7.7
36.9
3291
3340
7GR
EAT
LAKE
S 60
68ST
XRIB
110
P500
1,2,
3,6
38.7
30.4
11.6
*97
82.4
19.9
37.3
52.6
6.4
39.6
3347
3983
330
.933
.510
.399
81.3
21.6
40.0
53.4
7.3
35.9
3259
3340
6NK
Bra
nd N
53W
-312
210
5C5
001,
2,3,
4,6
38.5
28.6
11.1
*99
81.5
19.3
37.9
51.2
6.8
39.6
3291
3788
535
.230
.710
.795
83.4
17.3
34.8
52.3
7.3
41.6
3426
3683
6NK
Bra
nd N
61P-
3000
GT B
rand
107
C500
1,2,
3,4
40.6
26.0
10.6
9583
.618
.535
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.66.
543
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3335
739
36.0
29.1
10.3
9182
.519
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.652
.16.
740
.333
3735
739
NuTe
ch/G
2 GE
NETI
CS 5
F-70
9™10
9P5
001,
2,4,
636
.428
.710
.498
81.5
18.9
36.6
49.6
6.5
40.3
3301
3450
131
.630
.79.
699
83.0
19.7
37.2
54.5
7.0
39.8
3381
3349
7Nu
Tech
/G2
GENE
TICS
5H-
806™
106
P500
1,2,
4,6
37.8
27.3
10.3
9882
.919
.136
.853
.66.
840
.633
8334
985
33.9
31.5
10.7
100
81.9
21.5
39.7
54.4
7.0
37.0
3293
3429
0PI
ONEE
R P0
506A
M10
7P1
250
1,2,
3,4,
640
.926
.710
.899
83.3
19.0
37.0
54.9
6.8
41.2
3400
3691
932
.532
.310
.493
83.2
19.4
36.6
54.1
7.3
38.5
3376
3507
9PI
ONEE
R P1
180X
R11
1C2
501,
2,3,
4,6
33.3
28.4
9.5
100
87.0
17.7
36.2
64.2
7.3
38.8
3591
3532
130
.029
.68.
897
86.4
17.8
36.9
63.1
7.7
37.3
3577
3130
1RE
NK R
K712
SSTX
106
P500
1,2,
3,4,
641
.525
.810
.599
84.1
17.4
35.5
55.1
6.6
42.1
3462
3542
334
.828
.89.
895
81.6
19.5
38.0
51.4
7.4
37.9
3292
3325
3AV
ERAG
E38
.128
.110
.798
.482
.519
.337
.653
.56.
639
.933
5535
869
32.8
31.3
10.2
96.3
82.1
20.4
38.3
53.4
7.2
37.8
3319
3385
9HI
GHES
T41
.534
.011
.710
0.0
87.0
21.5
40.1
64.2
7.3
43.1
3591
3983
338
.036
.811
.599
.786
.422
.641
.563
.17.
741
.735
7737
914
LOW
EST
32.4
25.5
9.5
95.0
80.5
17.4
35.3
49.6
6.1
36.7
3212
3334
729
.924
.18.
890
.880
.317
.334
.851
.46.
732
.631
8430
969
CV (%
)6.
46.
37.
72.
82.
19.
66.
76.
46.
37.
74
76.
17.
48.
54.
62.
39.
86.
76.
74.
97.
64
7LS
D (5
%)
2.0
1.5
0.7
2.3
1.5
1.5
2.1
4.0
0.3
2.6
9819
921.
71.
90.
73.
71.
51.
72.
12.
90.
32.
410
520
53
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
DT/A
DT/A
Ingh
am -
Late
Otta
wa -
Late
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
DT/A
DT/A
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
YIEL
D%
QUA
LITY
HURO
N, IN
GHAM
& O
TTAW
A CO
UNTY
SIL
AGE
TRIA
LS -
LATE
(105
Day
and
Late
r)ZO
NE 2
- 3TA
BLE
8L -
Cont
inue
d fro
m p
age 4
1.
- 43 -
2 Yea
r Ave
rage
s 201
5 - 20
14BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIR
YLAN
D SE
ED H
i DF-
3197
-797
C500
1,2,4,
637
.922
.58.6
9783
.620
.540
.359
.48.2
36.7
3428
2912
536
.723
.38.8
*99
83.3
20.9
40.1
58.3
8.837
.234
0028
874
DAIR
YLAN
D SE
ED H
i DF-
3290
-990
C500
1,2,3,
440
.721
.68.8
9884
.317
.235
.155
.38.0
41.7
3506
3112
839
.622
.69.1
*10
083
.917
.334
.553
.48.0
42.7
3478
3121
3DA
IRYL
AND
SEED
Hi D
F-37
02-9
102
C500
1,2,3,
430
.426
.28.0
9384
.819
.940
.262
.18.5
34.4
3463
2740
830
.028
.18.6
9885
.520
.039
.162
.69.1
38.3
3513
2873
9GO
LDEN
HAR
VEST
G01
P52-
3011
A10
1C5
001,2
,3,4,A
35.5
22.9
8.196
84.3
18.4
37.3
57.8
8.238
.134
8828
324
35.2
24.6
8.797
84.4
18.5
37.0
57.6
8.638
.434
8829
196
GOLD
EN H
ARVE
ST G
92T4
3-31
1192
C500
1,2,3,
4,642
.719
.88.4
9984
.118
.036
.556
.68.0
40.8
3486
2949
139
.221
.98.6
100
84.8
17.5
35.6
57.4
8.341
.435
2630
109
GREA
T LA
KES
4879
STXR
IB98
P500
1,2,3,
635
.424
.58.7
9784
.318
.838
.459
.07.8
36.9
3481
2950
634
.325
.68.8
*98
83.9
18.8
37.6
57.3
8.037
.834
5929
407
GREA
T LA
KES
5283
STXR
IB10
2P5
001,2
,3,6
34.5
26.9
9.2*
9884
.418
.137
.758
.67.9
37.7
3494
3205
233
.028
.59.4
**98
84.2
18.2
38.0
58.6
8.337
.634
7532
440
NK B
rand
N29
T-31
11 B
ran d
92C5
001,2
,3,4,6
42.1
20.5
8.897
82.9
19.8
38.5
55.5
8.037
.333
9129
401
39.3
21.6
8.610
083
.020
.237
.755
.38.4
37.9
3408
2859
2NK
Bra
nd N
35T-
311 0
95C5
001,2
,4,6
39.7
22.5
8.910
083
.118
.938
.556
.07.7
37.5
3414
3022
538
.921
.98.6
100
83.1
18.8
37.6
55.3
8.239
.434
1529
075
NK B
rand
N45
P-30
11A
101
C500
1,2,3,
4,A35
.422
.07.8
9583
.919
.539
.158
.68.2
35.9
3435
2668
034
.523
.28.1
9783
.020
.339
.957
.38.7
35.6
3384
2704
0Nu
Tech
5N-8
03™
101
C500
1,2,3,
435
.426
.29.4
**92
83.8
20.1
40.4
59.9
8.234
.134
3031
744
34.3
26.3
9.2*
9883
.320
.440
.158
.38.9
34.0
3393
3051
8Nu
Tech
/G2 G
ENET
ICS
5H-5
02™
102
P500
1,2,4,
635
.123
.88.4
9882
.920
.540
.157
.18.4
35.0
3362
2857
933
.625
.88.8
*99
82.8
20.3
39.1
55.9
9.134
.033
2929
059
PION
EER
P023
8XR
102
C250
1,2,3,
4,6,7
32.8
22.9
7.598
87.1
18.6
39.3
67.0
9.434
.536
2427
300
30.9
24.3
7.799
86.5
19.8
40.0
66.2
10.1
33.0
3574
2732
7PI
ONEE
R P9
789A
MXT
95C2
501,2
,3,4,6
38.1
21.2
8.191
83.9
19.5
38.5
58.0
8.338
.234
4827
568
35.8
22.0
8.090
82.9
21.9
39.8
56.9
8.735
.733
6326
118
WOL
F RI
VER
VALL
EY 33
96FL
R R95
C250
1,835
.723
.98.7
9481
.422
.443
.457
.18.7
30.6
3273
2878
133
.824
.38.4
9681
.322
.643
.056
.69.8
30.0
3255
2706
6AV
ERAG
E36
.823
.28.5
96.1
83.9
19.3
38.9
58.5
8.236
.634
4829
154
35.3
24.3
8.698
.183
.719
.738
.657
.88.7
36.9
3431
2898
5HI
GHES
T42
.726
.99.4
99.7
87.1
22.4
43.4
67.0
9.441
.736
2432
052
39.6
28.5
9.410
0.086
.522
.643
.066
.210
.142
.735
7432
440
LOW
EST
30.4
19.8
7.591
.081
.417
.235
.155
.37.7
30.6
3273
2668
030
.021
.67.7
90.4
81.3
17.3
34.5
53.4
8.030
.032
5526
118
CV (%
)5.5
7.69.4
9.12.2
9.87.5
5.55.1
8.54
75.8
6.38.5
4.22.3
10.6
7.95.8
5.68.6
47
LSD
(5%
)1.1
1.00.4
5.01.1
1.11.7
1.90.3
1.874
1109
1.61.2
0.63.4
1.61.6
2.43.9
0.42.6
109
1498
2 Yea
r Ave
rage
s 201
5 - 20
1 4BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIR
YLAN
D SE
ED H
i DF-
3197
-797
C500
1,2,4,
639
.221
.68.5
9584
.020
.140
.560
.57.7
36.2
3456
2937
6DA
IRYL
AND
SEED
Hi D
F-32
90-9
90C5
001,2
,3,4
41.8
20.6
8.597
84.7
17.1
35.8
57.2
7.940
.635
3431
043
DAIR
YLAN
D SE
ED H
i DF-
3702
-910
2C5
001,2
,3,4
30.9
24.4
7.589
84.1
19.8
41.3
61.5
7.930
.534
1326
078
GOLD
EN H
ARVE
ST G
01P5
2-30
11A
101
C500
1,2,3,
4,A35
.821
.27.6
9484
.218
.337
.758
.07.7
37.8
3489
2745
3GO
LDEN
HAR
VEST
G92
T43-
3111
92C5
001,2
,3,4,6
46.3
17.8
8.197
83.4
18.4
37.5
55.7
7.840
.134
4728
873
GREA
T LA
KES
4879
STXR
IB98
P500
1,2,3,
636
.523
.38.5
9584
.718
.739
.360
.87.5
36.1
3503
2960
6GR
EAT
LAKE
S 52
83ST
XRIB
102
P500
1,2,3,
636
.025
.29.0
*98
84.6
18.0
37.4
58.6
7.637
.835
1431
664
NK B
rand
N29
T-31
11 B
ran d
92C5
001,2
,3,4,6
44.9
19.4
9.0*
9482
.719
.439
.255
.87.7
36.8
3374
3021
1NK
Bra
nd N
35T-
311 0
95C5
001,2
,4,6
40.5
23.1
9.2*
9983
.018
.939
.556
.77.1
35.7
3413
3137
5NK
Bra
nd N
45P-
3011
A10
1C5
001,2
,3,4,A
36.3
20.9
7.692
84.7
18.8
38.2
59.9
7.736
.334
8526
319
NuTe
ch 5N
-803
™10
1C5
001,2
,3,4
36.5
26.2
9.5**
8784
.419
.840
.761
.47.5
34.1
3466
3296
9Nu
Tech
/G2 G
ENET
ICS
5H-5
02™
102
P500
1,2,4,
636
.621
.98.0
9783
.020
.741
.158
.37.7
36.0
3395
2809
8PI
ONEE
R P0
238X
R10
2C2
501,2
,3,4,6
,734
.721
.57.4
9787
.817
.438
.567
.98.6
36.1
3674
2727
4PI
ONEE
R P9
789A
MXT
95C2
501,2
,3,4,6
40.4
20.4
8.292
84.9
17.2
37.2
59.2
7.940
.735
3329
019
WOL
F RI
VER
VALL
EY 33
96FL
R R95
C250
1,837
.623
.69.1
*91
81.5
22.2
43.7
57.7
7.631
.132
9230
496
AVER
AGE
38.3
22.1
8.494
.284
.119
.039
.259
.37.7
36.4
3466
2932
3HI
GHES
T46
.326
.29.5
99.3
87.8
22.2
43.7
67.9
8.640
.736
7432
969
LOW
EST
30.9
17.8
7.486
.581
.517
.135
.855
.77.1
30.5
3292
2607
8CV
(%)
5.18.6
9.712
.42.1
8.87.2
5.24.4
8.34
7LS
D (5
%)
1.61.6
0.79.5
1.51.4
2.33.5
0.32.5
100
1741
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
ri d
DT/A
DT/A
Meno
min
ee -
Late
Osce
ola
YIEL
D%
QUA
LITY
MILK
2006
YIEL
D%
QUA
LITY
MILK
2006
MILK
2006
TRIA
L AV
ERAG
EIo
sco
YIEL
D%
QUA
LITY
DT/A
DT/A
MILK
2006
YIEL
D%
QUA
LITY
TABL
E 9 -
Con
tinue
d fro
m p
age 4
5.IO
SCO,
MEN
OMIN
EE (L
ATE)
& O
SCEO
LA C
OUNT
Y SI
LAGE
TRI
ALS
(105
Day
and
Earli
er)
ZONE
4
- 44 -
TABL
E 9.
IOSC
O, M
ENOM
INEE
(LAT
E) &
OSC
EOLA
COU
NTY
SILA
GE T
RIAL
S (1
05 D
ay an
d Ea
rlier
)ZO
NE 4
2015
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/ADA
IRYLA
ND SE
ED DS
-9693
93C5
001,2
,3,4,6
35.8
19.4
7.185
83.8
18.3
36.4
55.6
9.235.
8338
2246
7332.
618.
66.1
9785.
116.
033.
255.
110.
935.
9340
5222
56DA
IRYLA
ND SE
ED Hi
DF-30
99-9
99C5
001,2
,3,4,6
30.4
26.3
8.1*
9182.
618.
538.
154.
49.3
34.7
3352
27038
27.8
24.9
7.097
82.7
19.0
37.6
53.9
11.0
34.7
3376
23649
DAIRY
LAND
SEED
Hi DF
-3188-
688
C500
142.
016.
36.8
9885.
816.
133.
657.
88.4
42.1
3597
23997
37.2
16.0
5.998
86.4
16.1
33.0
58.8
9.341.
4363
4221
78DA
IRYLA
ND SE
ED Hi
DF-31
97-7
97C5
001,2
,4,635.
521.
57.7
9484.
818.
336.
658.
68.7
39.3
3512
26295
32.3
21.0
6.899
85.8
17.6
34.5
58.9
10.3
40.6
3587
23070
DAIRY
LAND
SEED
Hi DF
-3290-
990
C500
1,2,3,4
38.8
21.3
8.3*
9785.
415.
332.
054.
68.0
44.3
3583
29506
33.3
21.4
7.299
86.4
14.6
30.4
55.1
8.744.
7364
7262
36DA
IRYLA
ND SE
ED Hi
DF-37
00SS X
100C5
001,2
,3,4,6
32.3
24.2
7.997
84.5
17.2
35.8
56.8
8.637.
0347
6277
0228.
823.
76.8
9985.
017.
035.
858.
010.
735.
4352
5230
80DA
IRYLA
ND SE
ED Hi
DF-37
02-9
102C5
001,2
,3,427.
525.
47.0
8984.
019.
338.
658.
69.2
34.4
3444
25081
25.9
23.4
6.196
84.9
18.9
36.8
58.9
10.9
36.2
3510
22189
DYNA
GRO D
37SS6
097
P500
1,2,3,4
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220.
57.0
7985.
216.
634.
857.
58.8
40.3
3549
28212
30.1
20.8
6.3100
86.1
16.2
34.0
59.0
9.939.
9360
7243
66GO
LDEN
HARV
EST G
01P52-
3011 A
101C5
001,2
,3,4,A
34.3
22.5
7.696
84.0
17.6
35.6
54.9
8.638.
5347
0274
0832.
921.
56.9
9884.
617.
434.
955.
99.9
38.4
3513
24321
GOLD
EN HA
RVES
T G92T
43-311
192
C500
1,2,3,4
,640.
818.
97.5
10084.
716.
834.
856.
38.4
41.1
3523
26693
32.0
20.3
6.4100
86.8
15.3
32.8
59.6
9.640.
8365
8233
96GO
LDEN
HARV
EST G
95D32-
3110
95C5
001,2
,4,633.
124.
07.6
10083.
217.
234.
751.
88.1
37.1
3329
25966
31.6
21.2
6.0100
85.5
15.2
31.5
53.7
9.238.
1342
8205
12GR
EAT L
AKES
4548S
TXRIB
95P5
001,2
,3,634.
323.
07.8
9784.
916.
935.
056.
98.1
36.4
3434
26460
32.4
21.6
7.099
85.8
16.1
33.6
57.9
9.136.
4347
5237
27GR
EAT L
AKES
4879S
TXRIB
98P5
001,2
,3,633.
524.
38.2
*95
84.8
17.6
35.8
57.6
8.238.
2351
9286
0931.
223.
37.3
9986.
216.
733.
558.
89.2
38.9
3621
26342
GREA
T LAK
ES 52
83STX
RIB102
P500
1,2,3,6
32.8
26.1
8.4*
9885.
416.
534.
557.
68.3
39.1
3563
29841
30.2
26.0
7.7*
9986.
116.
334.
159.
29.4
38.1
3611
27629
MAST
ERS C
HOICE
MCT-4
88198
C250
132.
524.
47.8
9883.
717.
836.
655.
48.4
37.4
3442
26875
28.3
23.7
6.597
84.7
17.1
34.2
55.0
10.2
39.1
3519
22889
MAST
ERS C
HOICE
MCT-5
27GT
105C2
501
28.9
25.0
7.394
83.3
19.7
38.8
57.0
9.132.
5335
3238
5727.
622.
96.4
9884.
318.
536.
056.
611.
132.
8338
3203
41NK
Brand
N29T
-3111
Bran d
92C5
001,2
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39.9
19.9
8.1*
9483.
718.
236.
655.
48.3
37.3
3431
28542
32.4
20.7
6.7100
84.9
17.7
35.2
57.1
9.338.
7353
1252
74NK
Brand
N35T
-311 0
95C5
001,2
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921.
38.0
10084.
516.
734.
154.
78.1
40.5
3518
27851
34.4
18.7
6.4100
85.8
16.1
32.6
56.2
9.541.
4360
0230
85NK
Brand
N45P
-3011 A
101C5
001,2
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33.7
20.7
7.092
84.5
16.8
35.7
56.7
8.939.
6350
3244
1031.
718.
45.7
9784.
516.
935.
255.
810.
639.
0350
0200
91Nu
Tech
5N-19
5™95
P500
1,2,3,4
36.6
20.4
7.596
85.4
16.9
35.7
59.1
8.738.
9355
5274
3230.
820.
96.4
9486.
216.
533.
658.
810.
139.
4361
6232
14Nu
Tech
5N-40
6™105
P500
1,2,3,4
29.8
28.5
8.4*
8784.
118.
936.
957.
28.2
33.2
3352
28818
29.9
27.3
8.2**
9886.
816.
833.
961.
19.9
34.3
3550
29154
NuTe
ch 5N
-803™
101C5
001,2
,3,434.
026.
08.8
**89
84.8
18.1
36.7
58.5
9.136.
8349
7302
6730.
023.
06.9
9985.
018.
135.
657.
911.
137.
0352
6237
18Nu
Tech/
G2 GE
NETIC
S 5F-1
98™98
P500
1,2,4,6
35.4
19.5
7.195
84.3
17.5
36.1
56.6
8.740.
0348
6252
4830.
917.
75.5
9885.
117.
034.
957.
210.
540.
6353
820
243Nu
Tech/
G2 GE
NETIC
S 5H-5
02™102
P500
1,2,4,6
32.7
22.2
7.497
84.0
17.7
35.5
54.9
9.136.
6342
0261
7629.
620.
46.1
9984.
417.
334.
554.
610.
833.
8339
620
724PIO
NEER
P0238
X R102
C250
1,2,3,4
,6,730.
621.
76.7
9687.
017.
336.
264.
010.
036.
9363
5244
4627.
220.
95.8
9986.
918.
036.
964.
412.
034.
5361
9210
35PIO
NEER
P0242
AMXT
104C2
501,2
,3,4,6
32.1
25.1
8.1*
9984.
717.
835.
556.
97.9
38.5
3516
28260
30.4
24.1
7.397
85.4
16.4
33.5
56.3
9.039.
4357
1259
40PIO
NEER
P0496
AMX
106C2
501,2
,3,4,6,7
31.5
23.7
7.599
84.6
17.9
36.6
57.9
9.137.
7349
4269
9929.
422.
16.5
10085.
716.
334.
858.
910.
838.
8357
5249
71PIO
NEER
P9789
AMXT
95C2
501,2
,3,4,6
35.4
22.5
8.1*
9985.
018.
134.
856.
88.6
40.5
3518
27937
30.9
20.3
6.398
84.6
20.2
34.8
55.9
10.0
37.1
3481
20787
WOLF
RIVE
R VAL
LEY 3
396FL
R R95
C250
1,833.
422.
47.5
9083.
818.
837.
957.
39.9
34.6
3437
26767
28.5
20.2
5.794
84.4
18.5
36.9
57.5
12.4
33.1
3473
20700
WOLF
RIVE
R VAL
LEY 3
685F L
85C2
508
37.9
17.1
6.786
83.4
19.1
37.6
55.8
9.536.
4341
9233
9833.
215.
15.3
8884.
519.
535.
656.
610.
838.
5349
9194
22AV
ERAG
E34.
222.
57.6
94.1
84.5
17.6
35.9
56.8
8.737.
9347
7268
2630.
821.
36.5
98.0
85.3
17.1
34.4
57.4
10.2
37.9
3532
23151
HIGHE
ST42.
028.
58.8
100.0
87.0
19.7
38.8
64.0
10.0
44.3
3635
30267
37.2
27.3
8.2100
.086.
920.
237.
664.
412.
444.
7365
8291
54LO
WEST
27.5
16.3
6.779.
182.
615.
332.
051.
87.9
32.5
3329
23398
25.9
15.1
5.387.
782.
714.
630.
453.
78.7
32.8
3376
19422
CV (%
)6.1
9.010.
812.
32.0
9.37.2
5.55.6
8.13
76.1
7.59.8
5.11.9
9.57.6
5.66.3
8.03
6LS
D (5%
)1.7
1.70.7
9.51.4
1.42.1
2.60.4
2.599
1586
2.21.9
0.85.8
1.91.9
3.15.4
0.83.6
136164
3
TRIAL
AVER
AGE
Iosco
DT/A
DT/A
YIELD
% QU
ALITY
MILK 2
006YIE
LD%
QUAL
ITYMIL
K 2006
- 45 -
2015
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/ADA
IRYLA
ND SE
ED DS
-9693
93C5
001,2
,3,4,6
39.0
20.3
8.174
82.6
20.7
39.6
56.1
7.635
.833
5827
091
DAIRY
LAND
SEED
Hi DF
-3099
-999
C500
1,2,3,
4,633
.027
.79.1
8482
.618
.038
.654
.87.7
34.7
3328
3042
7DA
IRYLA
ND SE
ED Hi
DF-31
88-6
88C5
001
46.7
16.5
7.799
85.3
16.2
34.1
56.9
7.542
.735
6025
817
DAIRY
LAND
SEED
Hi DF
-3197
-797
C500
1,2,4,
638
.722
.08.6
8983
.919
.138
.858
.47.2
38.1
3438
2952
0DA
IRYLA
ND SE
ED Hi
DF-32
90-9
90C5
001,2
,3,4
44.3
21.2
9.394
84.5
15.9
33.7
54.1
7.443
.935
1832
776
DAIRY
LAND
SEED
Hi DF
-3700
SSX
100
C500
1,2,3,
4,635
.924
.88.9
9484
.117
.435
.855
.66.5
38.5
3427
3232
4DA
IRYLA
ND SE
ED Hi
DF-37
02-9
102
C500
1,2,3,
429
.127
.48.0
8283
.119
.740
.458
.27.4
32.6
3379
2797
3DY
NAGR
O D3
7SS6
097
P500
1,2,3,
4,638
.420
.17.8
5884
.317
.135
.656
.07.7
40.6
3491
3205
7GO
LDEN
HARV
EST G
01P5
2-301
1 A10
1C5
001,2
,3,4,A
35.7
23.5
8.493
83.3
17.8
36.2
54.0
7.238
.634
2830
496
GOLD
EN HA
RVES
T G92
T43-3
111
92C5
001,2
,3,4,6
49.7
17.5
8.799
82.7
18.3
36.8
53.0
7.241
.433
8829
991
GOLD
EN HA
RVES
T G95
D32-3
110
95C5
001,2
,4,6
34.6
26.9
9.399
81.0
19.3
37.9
49.9
7.036
.232
3031
420
GREA
T LAK
ES 45
48ST
XRIB
95P5
001,2
,3,6
36.2
24.5
8.696
83.9
17.8
36.5
56.0
7.036
.433
9229
193
GREA
T LAK
ES 48
79ST
XRIB
98P5
001,2
,3,6
35.7
25.3
9.090
83.4
18.6
38.1
56.4
7.237
.434
1730
875
GREA
T LAK
ES 52
83ST
XRIB
102
P500
1,2,3,
635
.426
.19.1
9784
.616
.835
.056
.07.2
40.2
3515
3205
3MA
STER
S CHO
ICE M
CT-48
8198
C250
136
.825
.19.2
9882
.718
.539
.155
.86.6
35.7
3365
3086
1MA
STER
S CHO
ICE M
CT-52
7GT
105
C250
130
.227
.08.2
8982
.320
.941
.657
.37.0
32.1
3323
2737
2NK
Bran
d N29
T-311
1 Bran
d92
C500
1,2,3,
4,647
.519
.19.6
*89
82.5
18.6
38.0
53.8
7.336
.033
3131
811
NK Br
and N
35T-3
110
95C5
001,2
,4,6
41.4
23.9
9.5*
100
83.3
17.2
35.6
53.1
6.739
.734
3732
617
NK Br
and N
45P-3
011 A
101
C500
1,2,3,
4,A35
.623
.18.2
8684
.616
.736
.257
.67.3
40.2
3506
2873
0Nu
Tech
5N-19
5™95
P500
1,2,3,
442
.419
.98.6
9784
.717
.337
.859
.57.4
38.4
3495
3165
0Nu
Tech
5N-40
6™10
5P5
001,2
,3,4
29.8
29.7
8.676
81.3
20.9
39.9
53.3
6.532
.131
5328
482
NuTe
ch 5N
-803™
101
C500
1,2,3,
438
.129
.110
.6**
7884
.518
.137
.859
.17.1
36.7
3468
3681
6Nu
Tech
/G2 G
ENET
ICS 5F
-198™
98P5
001,2
,4,6
39.9
21.4
8.891
83.5
18.1
37.3
55.9
7.039
.434
3430
254
NuTe
ch/G
2 GEN
ETICS
5H-50
2™10
2P5
001,2
,4,6
35.8
23.9
8.794
83.6
18.1
36.5
55.1
7.439
.334
4331
629
PIONE
ER P0
238X
R10
2C2
501,2
,3,4,6
,733
.922
.57.6
9487
.116
.635
.563
.78.0
39.3
3651
2785
6PIO
NEER
P024
2AMX
T10
4C2
501,2
,3,4,6
33.8
26.2
8.810
084
.019
.137
.657
.56.7
37.6
3461
3058
0PIO
NEER
P049
6AM X
106
C250
1,2,3,
4,6,7
33.5
25.4
8.598
83.4
19.5
38.5
56.9
7.436
.634
1429
027
PIONE
ER P9
789A
MXT
95C2
501,2
,3,4,6
39.9
24.7
9.9*
100
85.3
16.0
34.9
57.8
7.243
.935
5535
086
WOLF
RIVE
R VAL
LEY 3
396F
LRR
95C2
501,8
38.2
24.5
9.386
83.3
19.2
39.0
57.1
7.436
.234
0232
833
WOLF
RIVE
R VAL
LEY 3
685F
L85
C250
842
.519
.18.2
8582
.318
.639
.555
.18.2
34.3
3338
2737
5AV
ERAG
E37
.723
.68.8
90.3
83.6
18.2
37.4
56.1
7.237
.834
2130
500
HIGHE
ST49
.729
.710
.610
0.087
.120
.941
.663
.78.2
43.9
3651
3681
6LO
WEST
29.1
16.5
7.658
.281
.015
.933
.749
.96.5
32.1
3153
2581
7CV
(%)
6.010
.010
.917
.22.0
9.16.9
5.43.9
8.24
8LS
D (5%
)2.7
2.81.1
18.2
2.02.0
3.05.1
0.33.7
145
2935
** Hi
ghes
t Yield
ing Hy
brid
* No
t Sign
ifican
tly Dif
feren
t from
High
est Y
ielding
Hybri
d
Meno
mine
e - La
teOs
ceola
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
DT/A
DT/A
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
3.
- 46 -
TABL
E 10
.AL
GER,
DEL
TA &
MEN
OMIN
EE (E
ARLY
) COU
NTY
SILA
GE T
RIAL
S (1
02 D
ay an
d Ea
rlier
)ZO
NE 5
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%
DMGT
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STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AGR
EAT
LAKE
S 42
50VT
2RIB
92P5
001,2
31.9
23.3
7.4*
9983
.818
.638
.057
.47.6
37.2
3454
2552
231
.318
.95.9
*97
85.8
17.9
37.8
62.4
7.435
.835
9721
275
GREA
T LA
KES
4548
STXR
IB95
P500
1,2,3,
631
.224
.27.6
**96
83.4
18.1
37.6
55.7
7.536
.533
3525
846
30.8
20.3
6.1*
9085
.117
.837
.159
.97.4
31.7
3279
1987
8GR
EAT
LAKE
S 48
79ST
XRIB
98P5
001,2
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29.4
25.6
7.6**
9583
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.439
.858
.37.2
34.4
3396
2589
427
.522
.36.1
*86
84.0
20.5
41.4
61.3
7.129
.934
0521
622
NuTe
ch 5N
-195
™95
P500
1,2,3,
431
.422
.27.0
9683
.218
.639
.757
.87.4
35.3
3373
2391
930
.419
.25.9
*89
84.2
18.6
40.7
61.2
6.735
.034
8620
453
NuTe
ch 5N
-290
™90
P500
1,2,3,
432
.822
.17.2
*95
82.5
19.7
39.0
55.0
7.135
.533
0123
175
30.0
19.0
5.6*
8582
.720
.440
.957
.96.4
29.5
3196
1635
0Nu
Tech
/G2 G
ENET
ICS
5F-1
96™
96P5
001,2
,4,6
32.7
21.1
6.974
83.4
18.7
38.6
57.1
7.338
.034
2624
672
32.2
13.5
4.341
84.9
17.3
37.1
59.4
7.436
.835
5017
057
NuTe
ch/G
2 GEN
ETIC
S 5F
-198
™98
P500
1,2,4,
632
.622
.47.3
*90
83.5
18.8
38.4
57.0
7.537
.034
1124
637
30.8
18.0
5.6*
7484
.818
.039
.561
.67.6
32.4
3465
1928
5Nu
Tech
/G2 G
ENET
ICS
5H-5
02™
102
P500
1,2,4,
628
.724
.97.3
*95
81.9
21.8
41.3
56.5
7.631
.732
6823
204
28.6
20.3
5.8*
8884
.120
.040
.060
.27.2
31.2
3407
1972
0Nu
Tech
/G2 G
ENET
ICS
5X-8
94™
94P5
001,2
,3,4,6
33.1
19.9
6.787
83.6
17.7
37.3
56.0
7.737
.633
9922
477
32.9
14.8
4.965
85.4
16.6
36.6
59.8
7.538
.335
8017
683
PION
EER
P023
8XR
102
C250
1,2,3,
4,6,7
26.7
24.4
6.597
86.3
19.6
40.3
65.9
8.431
.135
1022
992
24.9
20.4
5.195
87.2
19.5
40.7
68.7
7.728
.835
2517
905
PION
EER
P978
9AMX
T95
C250
1,2,3,
4,631
.624
.27.6
**96
82.8
20.0
40.3
57.2
7.535
.433
7626
864
30.6
20.4
6.2**
8983
.721
.042
.461
.56.9
31.9
3445
2147
2AV
ERAG
E31
.123
.17.2
92.7
83.4
19.2
39.1
57.6
7.535
.433
8624
473
30.0
18.8
5.681
.884
.718
.939
.561
.27.2
32.8
3449
1933
7HI
GHES
T33
.125
.67.6
99.1
86.3
21.8
41.3
65.9
8.438
.035
1026
864
32.9
22.3
6.297
.287
.221
.042
.468
.77.7
38.3
3597
2162
2LO
WES
T26
.719
.96.5
74.2
81.9
17.7
37.3
55.0
7.131
.132
6822
477
24.9
13.5
4.340
.882
.716
.636
.657
.96.4
28.8
3196
1635
0CV
(%)
6.36.9
9.214
.12.2
8.66.9
6.24.8
7.24
84.9
9.811
.719
.31.8
8.07.4
3.65.7
7.34
9LS
D (5
%)
1.31.1
0.48.6
1.31.1
1.82.4
0.31.7
9213
771.8
2.20.8
19.0
1.91.8
3.53.9
0.52.9
159
2132
2 Yea
r Ave
rage
s 201
5 - 20
1 4BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
GREA
T LA
KES
4879
STXR
IB98
P500
1,2,3,
6Nu
Tech
/G2 G
ENET
ICS
5F-1
98™
98P5
001,2
,4,6
NuTe
ch/G
2 GEN
ETIC
S 5X
-894
™94
P500
1,2,3,
4,6PI
ONEE
R P0
238X
R10
2C2
501,2
,3,4,6
,7PI
ONEE
R P9
789A
MXT
95C2
501,2
,3,4,6
AVER
AGE
HIGH
EST
LOW
EST
CV (%
)LS
D (5
%)
TRIA
L AV
ERAG
EAl
ger
DT/A
DT/A
YIEL
D%
QUA
LITY
MILK
2006
YIEL
D%
QUA
LITY
MILK
2006
MILK
2006
TRIA
L AV
ERAG
EAl
ger
YIEL
D%
QUA
LITY
DT/A
DT/A
MILK
2006
YIEL
D%
QUA
LITY
- 47 -
2015
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AGR
EAT
LAKE
S 42
50VT
2RIB
92P5
001,2
30.3
25.9
7.8*
100
83.1
18.6
38.0
55.4
7.835
.734
0926
729
34.2
25.2
8.5*
100
82.7
19.2
38.2
54.6
7.740
.133
5728
561
GREA
T LA
KES
4548
STXR
IB95
P500
1,2,3,
630
.125
.67.7
*98
83.4
17.9
38.3
56.7
7.637
.634
2626
424
32.8
26.6
8.9*
9981
.518
.637
.350
.57.7
40.3
3299
3123
4GR
EAT
LAKE
S 48
79ST
XRIB
98P5
001,2
,3,6
28.5
27.1
7.7*
100
84.0
18.2
38.9
58.7
7.336
.034
5326
633
32.3
27.4
8.8*
100
82.3
19.6
39.2
54.8
7.137
.433
3129
428
NuTe
ch 5N
-195
™95
P500
1,2,3,
431
.323
.17.2
9984
.217
.537
.457
.87.5
34.0
3374
2444
032
.524
.37.9
100
81.4
19.8
40.9
54.4
8.137
.132
5826
865
NuTe
ch 5N
-290
™90
P500
1,2,3,
430
.326
.88.1
*10
083
.319
.939
.257
.47.3
35.6
3414
2770
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4879
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8.721
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4620
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PION
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.631
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24.8
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(%)
5.65.0
8.03.3
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6.65.4
6.08.2
48
LSD
(5%
)1.4
1.00.5
2.71.8
1.62.4
3.70.4
1.910
815
15
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
Delta
Meno
min
ee -
Early
YIEL
D%
QUA
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MILK
2006
YIEL
D%
QUA
LITY
MILK
2006
DT/A
DT/A
DT/A
DT/A
Delta
Meno
min
ee -
Early
YIEL
D%
QUA
LITY
MILK
2006
YIEL
D%
QUA
LITY
MILK
2006
Introduction
THANK YOU TO OUR FARM COOPERATORS:ZONE 1
Baker-Ladd Farms, Blaine Baker, ClaytonGeorge Brossman, Vandalia
Kyle Huff, ColdwaterOSU NW Experiment Station, Richard Minyo
Hoytville, OhioMathew Talladay, Milan
ZONE 2Fred Gross Farms -
Peggy Gross & Dick Birchmeier, New LothrupJorgensens Farm Elevator
Jerry Jorgensen & Mike Turner, WilliamstonEadie Farms
Arden Eadie, ConklinMSU Agronomy Farm, Brian Graff, East Lansing
Jim & John Schipper, MartinZONE 3
AgBio Research Station, Bruce Sackett, EntricanRobert Oshe & Jacob Zwagerman, Custer
Sacket Farms, Larry Sackett, StantonWil-le Farms, Ron & Ed McCrea, Bad Axe
ZONE 4/5VanDrese Farms, Cornell
Johnson Dairy Farm, Dave Johnson, DaggettRobert E. Lee, Marion
Jeremy Beebe, WhittmoreAgBio Research Station, Chris Kapp, Chatham
THANK YOU TO THOSE WHO HELPED:Katherine Boyse
Sichao WangBianka de Oliveria
Taina Sabino CoelhoJeremiah HartsellAndrew Barhman
Carson LetotBrittney Moore
MSU is an affi rmative-action, equal-opportunity employer, committed to achieving excellence through a diverse workforce and inclusive culture that encourages all people to reach their full potential. Michigan State University Extension programs and materials are open to all without regard to race, color, national origin, gender, gender identity, religion, age, height, weight, disability, political beliefs, sexual orientation, marital status, family status or veteran status. Issued in furtherance of MSU Extension work, acts of May 8 and June 30, 1914, in cooperation with the U.S. Department of Agriculture. Margaret A. Bethel, Interim Director, MSU Extension, East Lansing, MI 48824. This information is for educational purposes only. Reference to commercial products or trade names does not imply endorsement by MSU Extension or bias against those not mentioned. This bulletin becomes public property upon publication and may be reprinted verbatim as a separate or within another publication with credit to MSU. Reprinting cannot be used to advertise a commercial product or company.
Weather
Zone 1 Grain Early - 107 Day and Earlier
Zone 1 Grain Late - 108 Day and Later
Zone 2 Grain Early - 101 Day and Earlier
Zone 2 Grain Late - 102 Day and Later
Zone 3 Grain Early - 97 Day and Earlier
Zone 3 Grain Late - 98 Day and Later
Zone 4 Grain - 80-96 Day
Zone 5 Grain - 93 Day and Earlier
Conventional - 101 Day and Earlier
Conventional - 102 Day and Later
Corn Grain Agronomics
Corn Grain Hybrid Index
Corn Silage Performance Trials
Corn Silage Agronomics
Zone 1 Silage Early - 110 Day and Earlier
Zone 1 Silage Late - 111 Day and Later
Zone 2 - 3 Silage Early - 104 Day and Earlier
Zone 2- 3 Silage Late - 105 Day and Later
Zone 4 Silage - 88-105 Day
Zone 5 Silage - 90-102 Day
Company Index
Corn Silage Hybrid Index
Corn Grain Performance Trials
877-591-SEED (7333) · ruppseeds.com ©2014 Rupp Seeds Inc.
GREATER PERFORMANCE DOES A WORLD OF
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RUP-002_GF2_MichFarmNews-7_625x10.indd 1 11/13/14 2:52 PM
MACKINAW
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DF 5242 R2YDF 5282 N R2YDF 9232 N LLDF 9261 LLDF 155 F
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DF 5173 N R2YDF 5193 N R2YDF 9171 N LLDF 161 N STS
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DF 5173 N R2YDF 5193 N R2YDF 5263 N R2Y STSDF 9232 N LL
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2015 MSU CORN RESULTSRANK TESTED AS BRAND YIELD LOCATION
#1 G2® Genetics 5F-196™* 247.5 ENTIRE Zone 3
#1 2 YR AVG G2® Genetics 5H-502™* 210.1 ENTIRE Zone 3
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*G2® brand seed is distributed by NuTech Seed, LLC. ® G2 is a registered trademark of Pioneer. © 11/2015 NuTech Seed, LLC.
genetics
Contact your local Dairyland Seed District Sales Manager for more info:
EASTERN MITim Asmondy
989.963.9025
WEST/CENTRAL MIBill Martin
989.225.6626
SOUTHEAST MIGrant Reiff
574.870.8226
SOUTHWEST MIKevin Chase
269.655.5448
www.dairylandseed.com // 800.236.0163 ©2015 Dairyland Seed Co., Inc. All rights reserved. ®Dairyland Seed and the Dairyland Seed logo are trademarks of The Dow Chemical Company (“Dow”) or an affiliated company of Dow. Dairyland Seed is a seed affiliate of Dow AgroSciences.
THE BEST GENETICS for your ENVIRONMENTS.Your corn doesn’t have to be right for everyone. It just has to be right for you. That’s why we do our research to understand the environments where our genetics thrive. Together we can identify the best hybrids for your farm to maximize your productivity.
That’s the way we do business—with a listening ear, a firm handshake and putting our customers first. Call us today.