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2018 MICHIGAN CORN HYBRIDS COMPARED
EXTENSION BULLETIN E-431
RESEARCH CONDUCTED BY MICHIGAN STATE UNIVERSITYResults of the 2018 Growing Season
WEATHER 4 | CORN GRAIN 7 | CORN SILAGE 28 | TAR SPOT 46 | UP CORN TRIALS 47
- 2 -
COMPANY INDEXBRAND CONTACT
AGRIGOLD AgriGold Hybrids 5381 Akin Road St. Francisville, IL 62460 www.agrigold.com
AgVenture AgVenture, Incorporated 7300 NW 62nd Avenue P.O. Box 7034 Johnston, IL 50131 www.agventure.com
AMP Mission Seed Solutions 1880 Fall River Drive Loveland, CO 80538 www.missionseed.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
BRODBECK Brodbeck Seeds 15 Ringel Avenue Wabash, IN 46992 www.brodbeckseed.com
CHANNEL Monsanto Company 800 N. Lindbergh Boulevard 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
DYNA-GRO Dyna-Gro Seed 4648 S. Garfi eld Road Auburn, MI 48611 www.dyna-groseed.com
FS InVision Growmark Incorporated 1701 Towands Ave. Bloomington, IL 61701 www.growmark.com
BRAND CONTACT
GOLDEN HARVEST Syngenta Seed 11055 Wayzata Boulevard Minnetonka, MN 55440 www.syngenta.com
KingFisher Byron Seeds 775 N 350 E Rockville, IN 47172 www.syngenta.com
LEGACY SEEDS Legacy Seeds, Incorporated 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
LG SEEDS LG Seeds 9915 W M21 Ovid, MI 48866 www.lgseeds.com
LOCAL SEED Local Seed Company 802 Rozelle Street Memphis, TN 38104 www.localseed.com
M & W SEEDS M & W Seeds Incorporated 8443 Wilcox Road Eaton Rapids, MI 48827 www.mwseeds.com
MASTERS CHOICE Masters Choice, Incorporated 3010 State Route 146 E. Anna, IL 62906 www.seedcorn.com
NK Brand Syngenta Seeds, Incorporated 11055 Wayzata Boulevard Minnetonka, MN 55440 www.syngenta.com
RENK Renk Seed Company 6809 Wilburn Road Sun Prairie, WI 53590 www.renkseed.com
RUPP Rupp Seeds, Incorporated 17919 Co. Road B Wauseon, OH 43567 www.ruppseeds.com
BRAND CONTACT
SEED CONSULTANTS Seed Consultants, Incorporated 648 Miami Trace Road SW Washington C. H., OH 43160 www.seedconsultants.com
SEEDWAY Seedway LLC 275 North Eighth Street Miffl inburg, PA 17844 www.seedway.com
SPECIALTY Specialty Hybrids 306 N Main Street Monticello, IN 47960 www.specialtyhybrids.com
SUN PRAIRIE Masters Choice, Incorporated 3010 State Route 146 E. Anna, IL 62906 www.seedcorn.com
VIKING Albert Lea Seeds 1414 West Main Street P.O. Box 127 Albert Lea, MN 56007 www.seedhouse@alseed.com
WELLMAN Wellman Seeds, Incorporated 23778 Delphos Jennings Road Delphos, OH 45833 www.wellmanseeds.com
WOLF RIVER Wolf River Valley SeedsVALLEY 914 3rd Avenue Antigo, WI 54409 www.wolfrivervalleyseeds.com
WYCKOFF Wyckoff Hybrids 594 E 400 N Valparaiso, IN 46383 www.wyckoffhybrids.com
- 3 -
2018MICHIGAN CORN PERFORMANCE TRIALS
M. P. Singh, W. D. Widdicombe and L. A. WilliamsDepartment of Plant, Soil, and Microbial Sciences
Michigan State University Introduction
The Michigan State University (MSU) Department of Plant, Soil, and Microbial Sciences conducts Michigan Corn Performance Trials (MCPT) each year in cooperation with Michigan State University AgBio Research, The Ohio State University, 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 2018 trials (pg. 26 and 31 respectively). Twelve grain and nine silage locations were planted. A total of 325 hybrids from 32 brand names make up the 514 entries; that translates into 6,168 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 companies’. Treatment and trait codes are listed in the tables on page 19.
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.varietytrials.msu.edu
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 table B (pg. 25) for the grain trials and table C (pg. 30) for the silage trials. Fertilizer amounts are shown as total pounds per acre of nitrogen, P2O5, and K2O applied during the season.
Season in Summary: 2018Entry forms for participating companies’ were due March 15th; by
the end of March we began receiving the hybrids 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. 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.
We upgraded our planting potential immensely this year with a new planting system. We purchased a 4 row Almaco Seed Pro 360 vacuum planter equipped with Precision metering units, Kinze planting units, and an Ag Leader 6500 Global Positioning System (GPS). We began the season using the Continuous Operating Reference Station (CORS) system but due to unreliable fi eld positioning we switched to the Real-Time Kinematic (RTK) system. The planter was powered with a leased John Deere 6110R tractor.
Planting commenced in Ingham County on May 8th and ended in Ottawa County on June 7th.
The changes we had with trial locations this year was that the Ottawa County silage trial changed cooperators and moved from Conklin to Marne. Also, the Wexford County trial did not change cooperators but did move from Wexford to Osceola county.
Weed control was applied at all trial locations as needed. Fertilizer applications were consistent with rates that were necessary based on soil type, soil samples, and cooperator recommendations for their fi eld.
Stand counts at all trials were conducted around the V5 or V6 stages. Due to the new precision planter, plots were counted but not thinned.
We began harvesting silage trials on September 5th in Wood County and fi nished on October 9th with the Ottawa County silage trial. The Lenawee County early trial was dropped due to wet fi eld conditions causing poor quality stands. The Presque Isle County trial was dropped due to drought conditions causing poor plant development.
Grain harvest began October 18th at the Ingham County trial and ended at the Saginaw County trial on November 14th. Washtenaw County was not planted in the spring due to 9.5 inches of rain in May and June. Ingham County late trial was dropped due to experiencing extended rain events affecting uniformity of stand. Presque Isle was
- Season Continued On Page 6.
2018GROWING SEASON WEATHER SUMMARY
Jeff Andresen, Extension Agricultural MeteorologistDepartment of GeographyMichigan State University
- 4 -
Despite a cool start, the 2018 growing season was much warmer than normal, with a May through September statewide average of 65.6°F (3.7°F above normal) which was the second highest mean temperature on record and the warmest since 1921. At some northern locations in the state, it was the warmest growing season on record. The season began with a major reversal in temperatures with the third coldest April on record followed by the 3rd warmest May.
Statewide mean precipitation totaled 17.80”, which was 1.05” above normal and just within the top 20% of all growing season precipitation totals since 1895. However, totals were highly variable statewide, ranging from below normal across some northern and eastern sections to much above normal across many western and southern sections.
The timing of the precipitation was also a major factor in many areas. Crops in some sections of the state were hurt by extended dryness and drought during the early and middle parts of the summer. In contrast, heavy late season rainfall improved crop yield prospects but also hindered subsequent fall harvest activities.
With a La Nina event in progress in the Equatorial Pacifi c region, the preceding winter season of 2017/2018 (December 2017 – February 2018) was slightly milder and wetter than normal. In terms of statewide averages, mean temperature for Michigan for the 3-month period was 0.6°F above normal while total precipitation was 1.22” above normal. As is often the case, the averages cancel out some notable monthly or sub-monthly trends.
Mean precipitation departures from normal during December and January were slightly below normal (-0.12” and -0.09” respectively), while February 2018 was +1.42”, which was the third wettest February on record. March and early April were generally cooler than normal, slowing early phenological development of most overwintering annual and perennial crops.
A strong late winter storm brought widespread heavy snow to northern sections of the state on the 3rd and 4th of April, disrupting travel and outdoor activities. In some areas, snowfall totals with the storm were the largest single event of the winter season. As of the beginning of April, long term soil moisture indices categorized all of the state as ‘Unusually’ to ‘Very’ Moist, refl ecting at least in part abnormally wet conditions during the 2017 growing season and fall season.
A persistent upper air troughing pattern brought cooler and wetter than normal weather to most of Michigan and the Great Lakes region during much of April, effectively preventing outdoor activities and spring fi eldwork. Mean temperatures for the month ranged from 5°F below normal across southeastern sections of the state to more than 10°F below normal across western Upper Michigan.
An intense, slow-moving storm passing through the region brought a range of adverse/extreme weather conditions to Michigan from the 14th-16th including heavy rain in far southern sections, heavy snow north (more than 2 feet in some areas), and a mix of sleet and freezing rain in between across central sections. Strong northeasterly winds with the system resulted in downed trees and many power outages across central and southern sections of the Lower Peninsula (more than 500,000 customers were without power on the 15th) and to lakeshore fl ooding along the shores of Lakes Huron and Erie.
Collectively, the system brought general 1.00-3.00” precipitation totals to the state. In southern sections of the state where the precipitation fell primarily in liquid form, soils were quickly resaturated, with standing water observed in many areas.
During early May, the development of a persistent upper air ridging pattern across the central USA led to a signifi cant warm-up, drying soils, and to a burst of early crop growth and spring fi eldwork across much of Michigan. That stretch of favorable weather ended during the second week of the month when a nearly stationary frontal boundary across the Ohio Valley resulted in almost daily rounds of showers and thunderstorms across much of Michigan.
Conditions were most challenging across southern Lower Michigan, where more than 6.00” of rain fell during the fi rst half of the month. The passage of Tropical Depression Alberto through the Lower Peninsula on the 30th-31st of the month brought additional heavy rain and localized fl ooding which resulted in a prolonged stoppage of spring fi eldwork activities.
The passage of the tropical system late in the month was preceded by a heatwave across much of the state with up to three days with maximum temperatures of 90ºF or higher, which is very unusual so early in the season. Following the 3rd coldest April on record statewide, mean temperatures for the month of May ranged from 4-7 ºF above normal, which was the 3rd warmest on record. The sudden and dramatic shift in temperatures during May led to a rapid burst of crop growth and development and an increase in insect and disease pressure.
Broad upper air ridging across central North America brought warm weather to the Great Lakes region during June, with highly varying rainfall totals across Michigan. In the western Upper Peninsula, a series of severe thunderstorms on the 17th brought 4.00” to more than 7.00” of rainfall in a 12 hour period, resulting in widespread fl ooding and catastrophic damage to roads, homes, businesses, and other infrastructure.
- 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 JU
NE
JU
LY
AU
GU
ST
SE
PTE
MB
ER
S
EA
SO
N
OB
S
NO
RM
D
EV
O
BS
N
OR
MD
EV
O
BS
N
OR
MD
EV
O
BS
N
OR
MD
EV
O
BS
N
OR
MD
EV
O
BS
N
OR
MD
EV
Zone 1
BR
AN
CH
& C
AS
S
TEM
P
65.0
58
.2
6.8
69.1
67
.3
1.8
72.1
71
.3
0.8
72.0
69
.3
2.7
65.4
61
.6
3.8
68.7
65
.5
3.2
(C
oldw
ater
) P
PT
8.66
3.
18
5.48
2.
65
3.67
-1
.02
2.61
3.
13
-0.5
2 5.
39
3.69
1.
70
3.54
3.
61
-0.0
7 22
.85
17.2
8 5.
57
GD
D
478
344
134
570
527
43
675
648
27
686
597
89
489
396
93
2898
25
12
386
LEN
AW
EE
TE
MP
63
.8
58.2
5.
6 69
.4
68.0
1.
4 73
.5
72.3
1.
2 71
.5
70.3
1.
2 65
.5
62.7
2.
8 68
.7
66.3
2.
4 &
WA
SH
TEN
AW
P
PT
6.49
2.
97
3.52
3.
01
3.51
-0
.50
1.71
3.
00
-1.2
9 6.
44
3.38
3.
06
3.31
3.
34
-0.0
3 20
.96
16.2
0 4.
76
(H
udso
n)
GD
D
464
346
118
578
541
37
691
675
16
624
624
0 74
3 41
5 32
8 31
00
2601
49
9 W
OO
D (O
H)
TEM
P
66.0
60
.0
6.0
71.4
70
.1
1.3
74.4
73
.2
1.2
74.3
71
.0
3.3
68.8
64
.3
4.5
71.0
67
.7
3.3
(B
owlin
g G
reen
) P
PT
4.65
3.
85
0.80
6.
96
3.41
3.
55
2.24
3.
76
-1.5
2 4.
38
3.81
0.
57
2.46
2.
86
-0.4
0 20
.69
17.6
9 3.
00
G
DD
47
0 37
1 99
64
0 59
5 45
73
9 69
1 48
74
9 64
1 10
8 56
5 45
4 11
1 31
63
2752
41
1
Zone 2
ALL
EG
AN
TE
MP
64
.0
58.2
5.
8 70
.0
67.3
2.
7 72
.6
71.5
1.
1 72
.3
69.7
2.
6 66
.1
62.2
3.
9 69
.0
65.8
3.
2 (
Fenn
ville
) P
PT
5.97
3.
43
2.54
3.
74
3.74
0.
00
2.07
3.
43
-1.3
6 3.
75
3.77
-0
.02
2.59
4.
01
-1.4
2 18
.12
18.3
8 -0
.26
G
DD
43
0 34
0 90
59
5 52
6 69
69
5 65
5 40
68
9 61
0 79
50
1 40
6 95
29
10
2537
37
3 IN
GH
AM
TE
MP
64
.7
58.2
6.
5 68
.7
67.3
1.
4 73
.2
71.3
1.
9 73
.0
69.3
3.
7 65
.3
61.6
3.
7 69
.0
65.5
3.
4 (
MS
U)
PP
T4.
97
3.18
1.
79
1.86
3.
67
-1.8
1 1.
03
3.13
-2
.10
5.33
3.
69
1.64
3.
91
3.61
0.
30
17.1
0 17
.28
-0.1
8
GD
D
476
344
132
556
527
29
701
648
53
710
597
113
487
396
91
2930
25
12
418
SA
GIN
AW
TE
MP
63
.7
57.0
6.
7 68
.4
66.1
2.
3 73
.3
70.6
2.
7 72
.6
68.4
4.
2 65
.0
60.7
4.
3 68
.6
64.6
4.
0 (
Sag
inaw
) P
PT
3.85
2.
83
1.02
1.
92
3.21
-1
.29
1.30
2.
83
-1.5
3 8.
02
3.38
4.
64
1.81
3.
81
-2.0
0 16
.90
16.0
6 0.
84
G
DD
45
6 31
7 13
9 54
9 49
5 54
71
2 62
7 85
69
9 57
3 12
6 47
9 37
3 10
6 28
95
2385
51
0
Zone 3
HU
RO
N
TEM
P
60.6
57
.0
3.6
65.9
66
.1
-0.2
72
.4
70.6
1.
8 71
.4
68.4
3.
0 63
.8
60.7
3.
1 66
.8
64.6
2.
3 (
Pig
eon)
P
PT
2.47
2.
83
-0.3
6 1.
53
3.21
-1
.68
0.62
2.
83
-2.2
1 8.
96
3.38
5.
58
1.30
3.
81
-2.5
1 14
.88
16.0
6 -1
.18
G
DD
40
6 31
7 89
47
3 49
5 -2
2 67
6 62
7 49
66
8 57
3 95
42
8 37
3 55
26
51
2385
26
6 M
AS
ON
TE
MP
61
.2
56.1
5.
1 66
.9
65.0
1.
9 71
.4
69.7
1.
7 71
.8
68.0
3.
8 63
.1
60.2
2.
9 66
.9
63.8
3.
1 (
Har
t) P
PT
4.92
2.
98
1.94
1.
89
3.26
-1
.37
1.53
2.
74
-1.2
1 7.
69
4.03
3.
66
4.45
3.
59
0.86
20
.48
16.6
0 3.
88
G
DD
40
7 30
2 10
5 52
0 47
1 49
65
8 60
9 49
55
5 56
4 -9
43
4 36
2 72
25
74
2308
26
6 M
ON
TCA
LM
TEM
P62
.5
56.7
5.
8 68
.2
65.6
2.
6 72
.4
69.9
2.
5 73
.8
67.6
6.
2 66
.7
59.6
7.
1 68
.7
63.9
4.
8 (
Ent
rican
) P
PT
3.54
2.
95
0.59
4.
55
3.30
1.
25
2.06
2.
74
-0.6
8 2.
26
3.85
-1
.59
3.67
3.
71
-0.0
4 16
.08
16.5
5 -0
.47
G
DD
44
0 32
3 11
7 54
9 48
8 61
68
9 61
0 79
73
3 55
5 17
8 51
6 35
7 15
9 29
27
2333
59
4
Zone 4
IOS
CO
TE
MP
60
.1
57.0
3.
1 64
.8
66.1
-1
.3
71.2
70
.6
0.6
69.7
68
.4
1.3
63.1
60
.7
2.4
65.8
64
.6
1.2
(S
tand
ish)
P
PT
4.06
2.
83
1.23
1.
52
3.21
-1
.69
2.51
2.
83
-0.3
2 3.
69
3.38
0.
31
2.52
3.
81
-1.2
9 14
.30
16.0
6 -1
.76
G
DD
37
9 31
7 62
45
4 49
5 -4
1 65
1 62
7 24
61
8 57
3 45
42
2 37
3 49
25
24
2385
13
9 O
SC
EO
LATE
MP
60.7
53
.4
7.3
64.1
63
.3
0.8
69.6
67
.5
2.1
69.3
65
.4
3.9
61.9
57
.5
4.4
65.1
61
.4
3.7
(C
adill
ac)
PP
T4.
51
3.28
1.
23
1.59
3.
54
-1.9
5 3.
23
3.21
0.
02
3.27
3.
71
-0.4
4 2.
39
3.82
-1
.43
14.9
9 17
.56
-2.5
7
GD
D
411
260.
7 15
0.3
442
429.
2 12
.8
608
537.
4 70
.6
605
496.
2 10
8.8
401
311.
8 89
.2
2467
20
35.3
431.
7P
RE
SQ
UE
ISLE
TE
MP
58.0
52
.7
5.3
62.6
62
.4
0.2
71.3
67
.6
3.7
70.4
65
.6
4.8
61.9
57
.9
4.0
64.8
61
.2
3.6
(A
lpen
a)
PP
T2.
95
2.66
0.
29
0.87
2.
62
-1.8
2.
18
3.03
-0
.9
3.09
3.
23
-0.1
3.
88
2.92
1.
0 12
.97
14.4
6 -1
.49
G
DD
36
8 15
3 21
5 42
1 38
0 41
.0
644
553
91.0
63
8 49
2 14
6.0
405
261
144.
0 24
76
1839
63
7 TE
MP
= M
ean
tem
pera
ture
(°F)
P
PT
= P
reci
pita
tion
(inch
es)
GD
D =
Gro
win
g D
egre
e D
ay c
alcu
late
d at
bas
e 50
°F, w
ith a
n 86
°F c
utof
f
OB
S =
Tot
als
obse
rved
in 2
018
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 -
dropped due to drought conditions throughout the summer causing poor plant development.
As the weather chart indicates, there was a high of 22.85 inches of rainfall at some of our southern locations and a low of 12.97 inches of rainfall at our northern location for the season. That’s equates to a 9.88 inch difference between our southern counties and our northern location.
Table A (pg. 5) presents 2018 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 trial 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.
In contrast, prolonged drier than normal weather prevailed across most eastern sections of the state, leading to increasing levels of moisture stress, especially on well- drained soils. Impacts of the dryness were intensifi ed by much above normal temperatures and potential evapotranspiration rates during the last two weeks of June and the fi rst week of July.
Precipitation totals during June ranged from more than 10.00” across western sections of Upper Michigan to 6.00” across portions of southwestern Lower Michigan to less than 1.00” across sections of the northern Lower Peninsula and Thumb regions.
Scattered rains helped ease dryness across portions of Michigan during late July and early August, but totals and areal coverage were limited. The effects of prolonged dryness led to moisture stress for most crops, including much of the state’s corn crop which moved through the vulnerable silking/pollination stage.
At its peak in mid-August, D1 or moderate or worse drought conditions as classifi ed by the National Drought Mitigation Center covered three large sections of the Lower Peninsula: the northern Tip of the Mitt area, the south central Lower Peninsula through east central sections and much of the Thumb, and west central sections of Lower Michigan. D2 or severe drought conditions in the northern Lower Peninsula were the most severe reported in Michigan since the drought of 2012.
One characteristic of rainfall during the drought was unusually high spatial variability, with heavy rainfall totals observed in some spots while many other nearby surrounding areas remained dry.
The development of a very active storm track across the US/Canada border led to signifi cant rainfall (in some areas more than 6.00”) across most areas of the state during the second half of August and fi rst week of September, which greatly reduced or ended abnormally drought conditions in many areas. The active weather pattern also resulted in at least 9 confi rmed tornado touchdowns and a variety of high wind damage across the state between the 28th of August and 3rd of September.
Rainfall totals for the month of August varied widely across the state, ranging from more than 10.00” (and 200-300% of normal totals) at a few spots in the central Lower Peninsula to less than 2.00” across far southeastern sections of the state. Mean temperatures for August were generally warmer than normal statewide, ranging from close to normal across the western Upper Peninsula to more than 4ºF above normal across sections of Lower and eastern Upper Michigan.
A strengthening upper air ridge across the Midwest brought warm, dry weather to most of Michigan during the middle of September, allowing maturing crops and soils to dry/drain following the wetter than normal weather during late August and early September. While many crops benefi ted from the late season rainfall, the combination of persistent rain and high humidity resulted in late season disease pressure for some crops.
- Season Continued From Page 3
- Weather Continued From Page 4During late September, a highly amplifi ed western
troughing/eastern ridging upper air pattern developed across North America resulting in more heavy rainfall and to extended fall fi eldwork delays that extended through early October. Jet stream fl ow across North America changed dramatically during mid-October, with the transition of the highly amplifi ed western troughing/eastern ridging pattern to a western ridging/eastern troughing pattern and to much colder temperatures across Michigan.
The rapid onset of colder weather resulted in some of the fi rst accumulating snowfall of the season across northern sections of the state. The weather change also led to the fi rst freezing temperatures of the season in many areas of the state on the 16th and 18th which effectively ended the growing season. Overall, the cold, wet weather conditions during late September and October were unfavorable for most outdoor harvest and fi eldwork activities and slowed grain drydown rates of unharvested crops.
2018GRAIN PERFORMANCE TRIALS
2018 Grain Trial Locations
Marinette Co. WI
- 7 -
IntroductionThe grain index (pg. 26) contains a list of all hybrids planted
in the 2018 grain trials.County results are reported in the following tables:Tables 1E/1L Zone 1 - Branch, Cass, and Washtenaw
(Washtenaw County dropped) Tables 2E/2L Zone 2 – Allegan, Ingham, and Saginaw
(Ingham County late trial dropped)Tables 3E/3L Zone 3 - Huron, Mason, and MontcalmTables 4E/4L Zone 4 – Iosco, Osceola, and Presque Isle
(Presque Isle County dropped)Tables 5E/5L Conventional Trial – Ingham, Saginaw,
(Zone 2) and Montcalm (Zone 3) (Ingham County Conventional dropped)
The map of Michigan (lower right) shows each zone and the locations where the trials were located.
MethodsThree trial locations were planted in each of four maturity
zones. These zones were based on available growing degree-day units (GDU) 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 all hybrids were tested in one group.
Planting was accomplished with an Almaco Seed Pro 360 vacuum planter equipped with Precision metering units, Kinze planting units and, an Ag Leader 6500 Global Positioning System. The plots were planted at the uniform length of 22 foot long with a 3 foot alleyway ,and were planted at 30-inch row spacing. Four-row plots were used at all grain locations. The two center rows were harvested for yield. Experimental design, data acquisition, analysis of variance, and data summarization were facilitated in part by AGROBASE Generation IITM. 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, The Ohio State University’ Ohio Agricultural Research and Development Center, and Michigan State University AgBio Research Stations. All hybrids in a location were managed uniformly with the same fertilizers, 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, and Mason counties were irrigated.
Stand counts (%Std) were recorded in June. Average trial population plus the desired population rates are listed with other important agronomic information in Table B (pg. 25). Stalk lodging (%SL) measurements were recorded during harvest. All plants broken below the ear and/or leaning more than 45 degrees were counted. Moisture content (%H2O) and fi eld weights were measured by a Harvest MasterTM single plot high capacity Grain GageTM
HM800 System that is mounted on the Kincaid 8-XP plot combine. Grain moisture (Bu/A) is reported at the standard 15.5 percent. Data
was recorded on a Panasonic FZ-G1 Toughpad using Harvest MasterTM Software. Grain test weight (Twt) 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)
2018
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
635-
54VT
2RIB
105
P500
1,2
18.3
220.
154
.50.
096
19.3
201.
452
.90.
093
17.3
238.
8*
56.0
0.0
99AG
RIGO
LD A
637-
55VT
2PRO
107
P500
1,2
19.8
214.
453
.90.
392
20.7
217.
252
.60.
693
18.8
211.
655
.10.
091
CHAN
NEL
196-
40 S
TXRI
B96
A500
1,2,
3,4
16.8
188.
554
.20.
696
17.2
193.
352
.50.
698
16.3
183.
655
.90.
693
CHAN
NEL
197-
68 S
TXRI
B97
A500
1,2,
3,4
17.9
211.
554
.40.
997
19.0
215.
252
.40.
096
16.7
207.
856
.31.
797
CHAN
NEL
203-
01 S
TXRI
B10
3A5
001,
2,3,
419
.322
0.7
53.1
1.0
9420
.722
0.0
51.7
1.9
9317
.822
1.3
54.5
0.0
95CH
ANNE
L 20
7-27
STX
RIB
107
A500
1,2,
3,4
21.5
225.
353
.80.
383
23.8
220.
152
.20.
670
19.2
230.
5*
55.3
0.0
96DA
IRYL
AND
SEED
EXP
-104
1110
41,
2,4
19.5
224.
754
.20.
397
21.2
233.
8*
52.9
0.6
9617
.721
5.6
55.5
0.0
97DA
IRYL
AND
SEED
RPM
-431
8AM
104
1,2,
418
.723
0.4
*54
.50.
995
19.8
237.
3*
53.1
1.8
9717
.522
3.4
55.9
0.0
93DA
IRYL
AND
SEED
RPM
-432
9AM
104
1,2,
420
.222
5.8
52.6
0.8
9522
.022
3.1
51.6
1.5
9618
.322
8.4
*53
.50.
094
DAIR
YLAN
D SE
ED R
PM-5
62XR
R10
61,
2,4
21.0
216.
354
.00.
394
23.1
226.
952
.70.
695
18.8
205.
755
.30.
093
DYNA
GRO
D47V
C29
107
P500
1,2
18.9
222.
254
.50.
095
21.0
219.
852
.70.
095
16.8
224.
656
.20.
095
GOLD
EN H
ARVE
ST G
04S1
9-30
1010
4C2
501,
2,4
18.6
211.
652
.41.
897
20.3
229.
3*
50.9
2.9
9716
.919
3.9
53.8
0.6
96GO
LDEN
HAR
VEST
G06
Q68-
3220
106
C250
1,2,
3,4,
621
.320
8.3
52.7
0.2
9823
.222
7.5
*50
.90.
399
19.3
189.
054
.50.
096
GOLD
EN H
ARVE
ST G
07F2
3-31
1110
7C2
501,
2,3,
4,6
20.7
236.
1*
53.2
0.8
9522
.722
5.9
51.8
1.5
9618
.724
6.3
*54
.60.
094
LEGA
CY S
EEDS
L-5
418
SSX
105
A500
1,2,
3,4
19.7
213.
155
.10.
994
22.2
229.
2*
53.7
0.6
9317
.119
6.9
56.5
1.2
94LE
GACY
SEE
DS L
-551
6 SS
X10
5A5
001,
2,3,
418
.622
3.6
55.6
0.2
9520
.321
6.6
53.4
0.3
9616
.823
0.5
*57
.70.
093
LG S
EEDS
LG5
505V
T2RI
B10
0P5
001,
2,3
17.1
213.
656
.10.
398
18.5
209.
454
.40.
699
15.7
217.
857
.70.
097
LG S
EEDS
LG5
499V
T2RI
B10
2P5
001,
2,3
17.9
209.
454
.60.
594
18.9
222.
553
.20.
995
16.8
196.
356
.00.
093
LG S
EEDS
LG5
525V
T2RI
B10
5P5
001,
2,3
18.9
216.
454
.81.
397
20.0
209.
553
.00.
997
17.8
223.
256
.61.
696
LG S
EEDS
LG5
7C28
VT2P
R O10
7P5
001,
2,3
19.9
225.
155
.10.
395
22.2
234.
2*
52.6
0.6
9417
.521
6.0
57.6
0.0
96LG
SEE
DS L
G58C
77VT
2PRO
107
P500
1,2,
319
.822
5.7
53.6
0.3
9321
.221
7.9
52.8
0.3
9418
.323
3.4
*54
.40.
392
M&W
SEE
DS 4
5R69
103
P250
1,2
18.7
198.
155
.12.
191
19.9
206.
353
.50.
694
17.4
189.
956
.63.
687
M&W
SEE
DS 4
4R35
105
P250
1,2
18.6
228.
7*
54.9
0.3
9720
.222
5.5
53.0
0.6
9617
.023
1.8
*56
.80.
097
NK B
rand
NK0
624-
3220
106
C250
1,2,
3,4,
620
.321
1.8
52.5
0.2
9821
.821
8.2
51.3
0.3
9918
.720
5.4
53.6
0.0
96RU
PP X
RD06
-70
106
P250
1,2
16.9
229.
8*
55.0
0.0
9418
.121
4.1
53.4
0.0
9515
.724
5.5
*56
.60.
092
RUPP
XRD
07-7
210
7P2
501,
219
.221
7.5
54.6
0.2
8721
.223
0.6
*53
.00.
387
17.1
204.
456
.20.
087
SEED
CON
SULT
ANTS
SCS
989
YHR™
98C2
501,
2,4
17.6
203.
256
.71.
896
18.1
191.
355
.13.
697
17.1
215.
058
.30.
095
SEED
CON
SULT
ANTS
SCS
101
8YHR
™10
1C2
501,
2,4
18.1
207.
954
.62.
296
19.1
199.
453
.34.
497
17.1
216.
355
.80.
094
SEED
CON
SULT
ANTS
SCS
103
7YHR
™10
3C2
501,
2,4
18.8
207.
954
.80.
292
19.7
220.
253
.40.
091
17.8
195.
556
.20.
393
SEED
CON
SULT
ANTS
SCS
10H
R43™
104
C250
1,2,
419
.923
8.2
**54
.60.
298
21.7
228.
0*
52.9
0.3
9718
.024
8.3
**56
.20.
099
SEED
CON
SULT
ANTS
SC
10AG
T59™
105
C250
1,2,
419
.321
7.3
53.7
0.3
9520
.321
7.1
52.4
0.6
9618
.321
7.4
55.0
0.0
93SP
ECIA
LTY
32A3
2310
2P5
001,
2,3,
418
.321
6.1
53.5
1.2
9720
.022
4.3
51.7
2.3
9716
.620
7.8
55.3
0.0
96SP
ECIA
LTY
32A8
8610
2P5
001,
2,3,
418
.821
5.9
53.7
0.2
9520
.621
9.2
51.9
0.3
9716
.921
2.6
55.5
0.0
93SP
ECIA
LTY
34A0
0710
4P5
001,
2,3,
418
.723
1.6
*55
.20.
093
20.7
233.
5*
53.7
0.0
9416
.722
9.7
*56
.70.
092
SPEC
IALT
Y 37
A808
107
P500
1,2,
3,4
20.8
208.
054
.40.
594
22.9
205.
752
.90.
997
18.6
210.
255
.90.
090
WEL
LMAN
W28
01DP
101
1,2
17.1
201.
955
.40.
295
17.9
190.
153
.40.
398
16.2
213.
657
.40.
091
WEL
LMAN
W29
03DP
103
1,2
18.2
199.
154
.70.
091
19.0
199.
153
.30.
094
17.4
199.
156
.00.
087
WEL
LMAN
W27
05DP
105
1,2
18.7
217.
756
.00.
090
20.5
221.
853
.60.
092
16.9
213.
558
.30.
087
WEL
LMAN
W23
07DP
107
1,2
20.0
216.
554
.01.
195
22.6
234.
7*
52.1
0.6
9417
.319
8.2
55.9
1.5
95W
YCKO
FF 2
187
VT2P
971,
217
.321
2.4
54.7
0.6
9517
.919
8.9
53.2
1.2
9416
.722
5.9
56.1
0.0
95W
YCKO
FF 2
212
VT2P
100
1,2
18.1
223.
355
.81.
196
19.6
216.
654
.12.
196
16.5
229.
9*
57.5
0.0
96W
YCKO
FF 2
263
SS10
11,
2,3,
418
.120
3.6
54.8
0.0
9520
.021
7.5
53.6
0.0
9616
.118
9.7
56.0
0.0
93W
YCKO
FF 2
313
VT2P
103
1,2,
3,4
18.2
202.
354
.71.
090
19.2
204.
353
.22.
094
17.1
200.
356
.10.
086
WYC
KOFF
239
0 VT
2P10
31,
217
.421
9.8
54.6
0.0
9518
.121
1.1
52.6
0.0
9716
.622
8.5
*56
.50.
092
WYC
KOFF
239
9 SS
104
1,2,
3,4
18.3
218.
055
.62.
488
19.4
223.
654
.14.
880
17.2
212.
357
.00.
096
Was
hten
aw -
Early
Cass
- Ea
rlyBr
anch
- Ea
rlyEa
rly -
TRIA
L AV
ERAG
EBU
/ABU
/ABU
/ABU
/A
- 9 -
WYC
KOFF
2400
SS
105
1,2,3,
416
.622
7.5*
55.0
0.096
17.6
212.0
53.2
0.097
15.6
243.0
*56
.70.0
95W
YCKO
FF 24
33 V
T2P
105
1,2,3,
418
.821
7.755
.20.5
9619
.822
0.854
.00.9
9717
.721
4.656
.30.0
95W
YCKO
FF 25
00 S
S10
61,2
,3,4
19.1
234.2
*55
.40.6
9520
.824
0.0*
53.6
0.092
17.3
228.3
*57
.11.1
98W
YCKO
FF 25
85 S
S10
71,2
22.3
224.8
53.1
0.097
24.6
241.6
**52
.20.0
9520
.020
8.053
.90.0
98AV
ERAG
E18
.921
7.054
.50.6
9420
.421
8.352
.90.9
9517
.421
5.756
.00.1
94HI
GHES
T22
.323
8.256
.72.4
9824
.624
1.655
.14.8
9920
.024
8.358
.33.6
99LO
WES
T16
.618
8.552
.40.0
8317
.219
0.150
.90.0
7015
.618
3.653
.50.0
86CV
(%)
3.56.9
1.143
6.34.0
3.85.6
0.823
1.410
.03.2
8.01.3
3774
.04.0
LSD
(5%
)0.6
12.3
0.51.7
3.00.9
14.4
0.52.4
11.0
0.620
.30.9
2.45.0
2 Yea
r Ave
rage
s 201
8 - 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
CHAN
NEL 1
97-6
8 STX
RIB
97A5
001,2
,3,4
18.1
229.9
54.0
0.598
19.5
222.2
*52
.70.0
9816
.623
7.555
.21.0
98CH
ANNE
L 203
-01 S
TXRI
B10
3A5
001,2
,3,4
19.7
228.3
52.2
0.596
21.7
209.4
51.2
0.994
17.6
247.2
*53
.10.0
97CH
ANNE
L 207
-27 S
TXRI
B10
7A5
001,2
,3,4
22.1
234.4
52.8
0.292
24.3
211.6
51.8
0.385
19.8
257.1
*53
.70.0
98DA
IRYL
AND
SEED
RPM
-431
8AM
104
1,2,4
19.7
241.2
*53
.90.5
9821
.423
1.0*
52.7
0.999
17.9
251.4
*55
.00.0
97DA
IRYL
AND
SEED
RPM
-562
XRR
106
1,2,4
21.0
231.3
53.4
0.296
23.0
225.6
*52
.10.3
9619
.023
7.054
.70.0
95DY
NAGR
O D4
7VC2
910
7P5
001,2
19.1
240.2
*54
.20.0
9520
.922
9.0*
52.9
0.092
17.2
251.3
*55
.50.0
97GO
LDEN
HAR
VEST
G07
F23-
3111
107
C250
1,2,3,
4,621
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094
CV (%
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62.
531
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6.4
2.7
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31.
649
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87.
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82.
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02.
8
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t Yiel
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Hybr
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Sign
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TABL
E 2E
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NE 2
ALLE
GAN,
INGH
AM &
SAG
INAW
COU
NTY
GRAI
N TR
IALS
- EA
RLY
(101
Day
and
Earli
er)
2018
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
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t%
SL%
SdAG
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LD A
628-
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001,
219
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8.4
52
.30.
494
18.0
237.
7
54.8
0.3
9423
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4.4
51
.30.
395
18.7
233.
2*
50.9
0.6
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RIGO
LD A
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2,3,
419
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7.5
54
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095
17.8
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9
56.4
0.0
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0.8
52
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099
19.4
233.
7*
54.5
0.0
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Vent
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5
53.3
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9
51.5
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53
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ntur
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420
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50
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195
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51.9
0.0
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4.8
48
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399
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2
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0.0
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8
52.2
0.0
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089
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6
50.6
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2.9
55
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091
18.7
204.
1
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0.0
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1.4
52
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397
CHAN
NEL
195-
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5
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57
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55
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297
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52
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218
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53
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293
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4
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318
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53
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4
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52
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5
54.0
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56
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693
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4
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194
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0
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51
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3*
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418
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55
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690
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6
57.1
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53
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092
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52
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495
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395
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52
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2,4
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191
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52
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399
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DS L
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52
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0.093
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RK6
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100
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1,219
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54
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56
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53.6
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52
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53.5
0.096
SEED
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SW
3768
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501,2
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222.7
53
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55.6
0.091
19.4
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SW
4010
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1,2,3,
418
.822
4.8
53.0
0.094
17.3
227.6
55
.30.0
9020
.521
9.8
51.2
0.096
18.6
226.9
52
.60.0
97SP
ECIA
LTY
27D7
2897
P250
1,219
.222
5.2
53.5
0.098
18.4
253.1
*55
.20.0
9920
.519
1.8
52.3
0.098
18.7
230.8
*53
.00.0
97SP
ECIA
LTY
30A3
0710
0P5
001,2
,3,4
21.5
224.8
52
.70.0
9720
.722
9.5
54.6
0.094
22.5
213.6
51
.50.0
9721
.323
1.2*
52.1
0.099
SUN
PRAI
RIE
SP19
7094
C250
18.8
199.1
54
.00.3
9118
.621
5.0
56.1
0.482
19.6
168.0
52
.50.0
9618
.221
4.2
53.4
0.695
SUN
PRAI
RIE
SP19
2795
C250
19.5
201.2
51
.70.1
9217
.820
7.1
53.2
0.384
21.0
191.9
51
.30.0
9719
.620
4.7
50.5
0.094
SUN
PRAI
RIE
SP22
7210
1C2
5019
.321
7.0
54.2
0.193
18.3
232.5
56
.10.3
8820
.620
5.0
52.5
0.097
18.9
213.5
54
.00.0
94W
ELLM
AN W
2801
DP10
11,2
19.8
215.0
53
.40.3
9718
.322
7.3
56.0
0.095
21.6
208.9
52
.30.0
9519
.620
8.9
51.8
0.910
0AV
ERAG
E19
.421
9.453
.10.2
9418
.022
9.355
.20.2
9021
.220
5.951
.70.1
9619
.022
2.852
.30.2
96HI
GHES
T21
.524
7.055
.10.7
9820
.725
8.157
.11.2
9925
.525
1.253
.61.2
100
21.3
244.2
54.7
1.810
1LO
WES
T17
.819
9.150
.70.0
8816
.020
6.351
.90.0
7918
.716
8.048
.90.0
8717
.720
4.749
.70.0
89CV
(%)
3.96.0
1.637
8.54.0
3.65.7
1.432
9.15.0
4.37.2
1.444
8.04.0
3.45.3
1.936
8.83.0
LSD
(5%
)0.5
8.90.6
0.42.0
0.815
.20.9
0.75.0
1.117
.30.8
0.64.0
0.813
.81.1
0.94.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 2
4.
- 14 -
TABL
E 2L
.ZO
NE 2
2018
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
633-
94ST
X10
3P5
001,
2,3,
420
.322
5.0
53.7
0.2
9219
.922
6.5
54.2
0.0
8920
.622
3.4
53.2
0.3
94AG
RIGO
LD A
635-
54VT
2RIB
105
P500
1,2
22.5
238.
352
.30.
097
21.6
244.
253
.00.
097
23.3
232.
451
.50.
097
AgVe
ntur
e AV
6302
AM10
2C2
501,
2,4
20.4
255.
4*
52.3
0.0
9520
.126
3.9
**53
.20.
091
20.6
246.
8*
51.3
0.0
99BR
ODBE
CK 5
9RA0
210
2C5
001,
2,3,
421
.722
8.4
51.5
0.3
9321
.523
2.5
51.6
0.3
9121
.922
4.2
51.3
0.3
95BR
ODBE
CK 4
8PW
03E
103
C500
1,2,
421
.922
7.2
51.7
1.2
8921
.622
5.6
52.4
0.0
8622
.122
8.8
51.0
2.3
92BR
ODBE
CK 4
8PW
09E
109
C500
1,2,
423
.924
5.2
51.2
1.3
8923
.525
7.1
*51
.50.
783
24.3
233.
350
.81.
994
BROD
BECK
46R
A05
112
C500
1,2,
421
.824
5.0
52.1
0.6
9321
.524
9.1
*52
.30.
089
22.0
240.
851
.91.
196
CHAN
NEL
203-
01 V
T2PR
I B10
3A2
501,
223
.323
9.8
50.6
0.8
9622
.324
8.7
*51
.61.
592
24.3
230.
949
.50.
099
CHAN
NEL
207-
27 V
T2PR
IB10
7A2
501,
226
.224
0.1
51.3
0.9
9326
.425
5.8
*52
.80.
989
25.9
224.
449
.70.
997
DAIR
YLAN
D SE
ED D
S-76
03PE
103
C500
1,2,
4,6
22.1
233.
050
.90.
092
21.2
229.
351
.40.
086
23.0
236.
750
.40.
097
DAIR
YLAN
D SE
ED E
XP-1
0306
103
1,2,
3,4
17.9
218.
454
.80.
297
17.1
223.
254
.70.
095
18.6
213.
654
.80.
398
DAIR
YLAN
D SE
ED R
PM-4
317A
M10
31,
2,4
20.9
237.
552
.50.
395
21.3
245.
652
.70.
091
20.5
229.
352
.20.
699
DAIR
YLAN
D SE
ED D
S-98
04R A
104
C500
1,2,
3,4,
622
.623
4.9
51.3
0.0
9322
.425
3.8
*52
.30.
091
22.8
215.
950
.30.
094
DAIR
YLAN
D SE
ED E
XP-1
0411
104
1,2,
421
.125
2.7
*52
.10.
094
20.9
249.
3*
52.2
0.0
9121
.225
6.1
**52
.00.
097
DAIR
YLAN
D SE
ED R
PM-4
318A
M10
41,
2,4
20.1
250.
0*
53.1
0.2
9219
.925
1.6
*53
.30.
087
20.2
248.
3*
52.8
0.3
97DA
IRYL
AND
SEED
RPM
-432
9AM
104
1,2,
423
.324
3.4
50.2
1.6
9423
.524
7.0
50.9
0.0
9023
.123
9.7
49.5
3.2
98DA
IRYL
AND
SEED
RPM
-562
XRR
106
1,2,
421
.725
7.2
**52
.10.
091
20.8
261.
6*
53.2
0.0
8622
.625
2.8
*50
.90.
096
DYNA
GRO
D43V
C81
103
P500
1,2
20.9
227.
151
.70.
690
21.4
229.
552
.10.
082
20.4
224.
651
.21.
297
DYNA
GRO
D44V
C40
104
P500
1,2
20.2
224.
751
.60.
094
19.5
222.
853
.00.
092
20.8
226.
650
.10.
096
GOLD
EN H
ARVE
ST G
03C8
4-31
2 010
3C2
501,
2,4
21.5
232.
451
.42.
294
21.5
245.
552
.33.
891
21.5
219.
250
.50.
697
GOLD
EN H
ARVE
ST G
04S1
9-30
1010
4C2
501,
2,4
20.9
232.
850
.21.
297
20.7
242.
350
.90.
995
21.0
223.
249
.51.
498
GOLD
EN H
ARVE
ST G
06Q6
8-32
2010
6C2
501,
2,3,
4,6
21.6
237.
451
.20.
695
21.3
235.
951
.50.
393
21.9
238.
850
.90.
997
LEGA
CY S
EEDS
L-5
217
SSX
102
A500
1,2,
3,4
20.2
228.
953
.40.
090
20.2
232.
854
.00.
085
20.2
224.
952
.70.
095
LEGE
ND 9
701
GENS
SRIB
101
C250
1,2,
320
.322
4.8
51.9
0.0
9319
.622
2.7
53.5
0.0
8921
.022
6.9
50.2
0.0
97LE
GEND
980
4 GE
NSSR
IB10
4C2
501,
2,3,
420
.422
9.4
53.0
0.0
9620
.622
7.1
53.2
0.0
9120
.223
1.6
52.8
0.0
100
LEGE
ND 9
907
GENS
SRIB
107
C250
1,2,
3,4
23.2
231.
350
.70.
090
22.3
231.
551
.00.
086
24.1
231.
050
.40.
094
LG S
EEDS
LG5
499V
T2RI
B10
2P5
001,
2,3
20.7
236.
851
.70.
095
20.7
238.
652
.90.
092
20.6
235.
050
.40.
098
LG S
EEDS
LG5
525V
T2RI
B10
5P5
001,
2,3
21.8
231.
152
.40.
395
21.3
228.
253
.00.
090
22.2
233.
951
.80.
699
LG S
EEDS
LG5
7C28
VT2P
R O10
7P5
001,
2,3
22.2
218.
451
.50.
594
21.4
226.
252
.40.
091
23.0
210.
650
.60.
996
M&W
SEE
DS 4
5R69
103
P250
1,2
20.5
230.
553
.30.
289
20.5
230.
254
.00.
386
20.5
230.
852
.60.
092
M&W
SEE
DS 4
4R35
105
P250
1,2
21.5
247.
3*
51.9
0.2
9721
.925
2.8
*52
.20.
097
21.0
241.
851
.60.
397
MIS
SION
SEE
D AM
P A0
357S
S10
3P2
501,
2,3,
421
.423
4.6
52.6
0.0
9521
.822
9.2
53.1
0.0
9320
.923
9.9
52.1
0.0
97NK
Bra
nd N
K033
0-31
2010
3C2
501,
2,4
21.6
221.
651
.23.
397
22.2
226.
751
.45.
394
20.9
216.
451
.01.
299
RENK
RK6
04SS
TX10
2C5
001,
2,3,
419
.423
4.9
52.7
1.1
9319
.123
9.4
53.5
1.9
8819
.723
0.3
51.9
0.3
97RE
NK R
K642
SSTX
103
C500
1,2,
3,4
20.2
220.
153
.10.
391
20.6
209.
252
.80.
085
19.8
230.
953
.30.
696
RENK
RK7
17SS
T X10
5C5
001,
2,3,
420
.123
3.8
53.1
0.3
9620
.324
0.8
54.1
0.0
9419
.822
6.8
52.1
0.6
98RE
NK R
K710
DGVT
2P10
6C2
501,
222
.124
5.9
51.4
0.0
9423
.124
2.5
52.0
0.0
9021
.124
9.2
*50
.80.
097
RENK
RK7
37SS
TX10
6C5
001,
2,3,
422
.023
7.5
52.6
0.3
9522
.624
3.5
53.3
0.0
9521
.423
1.4
51.9
0.6
95RU
PP X
RD03
-07
103
P250
1,2
19.8
235.
653
.60.
292
20.2
238.
054
.00.
388
19.4
233.
253
.10.
095
SEED
CON
SULT
ANTS
SCS
103
7YHR
™10
3C2
501,
2,4
20.2
239.
353
.20.
091
20.3
248.
6*
53.6
0.0
8620
.122
9.9
52.7
0.0
95SE
ED C
ONSU
LTAN
TS S
CS 1
0HR4
3™10
4C2
501,
2,4
21.8
236.
551
.70.
095
20.9
244.
252
.30.
093
22.7
228.
851
.00.
097
SEED
CON
SULT
ANTS
SC
10AG
T59™
105
C250
1,2,
422
.322
7.0
51.5
0.2
9222
.022
5.6
52.2
0.0
8722
.622
8.4
50.8
0.3
97SE
EDW
AY S
W54
40GE
NSSR
IB10
61,
2,3,
420
.824
4.9
52.5
0.0
9520
.925
3.4
*53
.70.
090
20.6
236.
451
.20.
099
SPEC
IALT
Y 32
A323
102
P500
1,2,
3,4
20.5
229.
951
.40.
297
20.0
230.
851
.70.
096
20.9
229.
051
.00.
398
SPEC
IALT
Y 32
A886
102
P500
1,2,
3,4
20.9
244.
250
.80.
694
21.0
248.
051
.70.
695
20.8
240.
449
.90.
693
Loca
tion
Drop
ped
BU/A
BU/A
BU/A
BU/A
Sagi
naw
- Lat
eIn
gham
- La
teAl
lega
n - L
ate
Late
- TR
IAL
AVER
AGE
ALLE
GAN,
INGH
AM &
SAG
INAW
COU
NTY
GRAI
N TR
IALS
- LA
TE (
102 D
ay an
d La
ter)
- 15 -
SPEC
IALT
Y 34
A007
104
P500
1,2,3,
421
.523
1.052
.60.0
9220
.822
7.853
.40.0
8622
.123
4.251
.70.0
98W
ELLM
AN W
2903
DP10
31,2
20.5
223.8
53.4
0.090
20.4
224.0
53.8
0.084
20.6
223.5
53.0
0.095
WEL
LMAN
W27
05DP
105
1,220
.222
1.851
.70.5
9220
.522
9.353
.20.0
9019
.821
4.250
.11.0
93W
ELLM
AN W
2307
DP10
71,2
24.3
236.3
50.5
1.593
25.0
243.7
51.3
0.090
23.5
228.9
49.7
2.995
WEL
LMAN
W28
07DP
107
ENC
1, 2
21.7
219.3
51.7
0.088
22.1
217.5
51.8
0.084
21.2
221.0
51.6
0.091
WEL
LMAN
W26
09DP
109
1,224
.720
1.749
.80.9
9024
.322
0.951
.10.4
8825
.018
2.548
.41.3
92W
ELLM
AN W
2911
DP11
01,2
24.9
231.1
51.4
2.191
24.9
249.3
*52
.00.0
8824
.821
2.850
.84.1
94W
ELLM
AN W
2812
DP11
11,2
27.0
206.4
50.3
3.995
26.7
219.1
50.8
0.693
27.3
193.6
49.7
7.197
AVER
AGE
21.6
233.2
51.9
0.593
21.5
237.4
52.6
0.390
21.7
229.0
51.2
0.796
HIGH
EST
27.0
257.2
54.8
3.997
26.7
263.9
54.7
5.397
27.3
256.1
54.8
7.110
0LO
WES
T17
.920
1.749
.80.0
8817
.120
9.250
.80.0
8218
.618
2.548
.40.0
91CV
(%)
4.65.4
2.030
5.45.0
5.35.7
1.936
9.06.0
3.95.0
2.026
6.03.0
LSD
(5%
)0.8
10.3
0.81.3
3.01.3
15.8
1.21.4
6.01.0
13.3
1.22.2
4.0
2 Yea
r Ave
rage
s 201
8 - 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
DAIR
YLAN
D SE
ED R
PM-4
317A
M10
31,2
,419
.724
8.154
.20.5
93DA
IRYL
AND
SEED
RPM
-431
8AM
104
1,2,4
19.4
268.3
**53
.90.0
92DA
IRYL
AND
SEED
RPM
-562
XRR
106
1,2,4
20.3
256.4
53.6
0.084
DYNA
GRO
D44V
C40
104
P500
1,218
.924
6.654
.40.0
94GO
LDEN
HAR
VEST
G03
C84-
312 0
103
C250
1,2,4
20.3
244.3
53.4
3.795
LEGE
ND 98
04 G
ENSS
RIB
104
C250
1,2,3,
419
.323
7.454
.50.0
91RE
NK R
K642
SST X
103
C500
1,2,3,
419
.423
2.654
.50.5
91RE
NK R
K717
SST X
105
C500
1,2,3,
419
.025
2.755
.20.7
94SP
ECIA
LTY
32A3
2310
2P5
001,2
,3,4
19.5
240.1
52.6
0.095
SPEC
IALT
Y 32
A886
102
P500
1,2,3,
419
.925
7.053
.50.3
95SP
ECIA
LTY
34A0
0710
4P5
001,2
,3,4
19.3
244.6
54.9
0.090
AVER
AGE
19.5
248.0
54.1
0.592
HIGH
EST
20.3
268.3
55.2
3.795
LOW
EST
18.9
232.6
52.6
0.084
CV (%
)4.5
5.61.7
401.1
6.0LS
D (5
%)
0.811
.20.8
1.35.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
ri d
Late
- TR
IAL
AVER
AGE
BU/A
Sagi
naw
- Lat
eBU
/AAl
legan
- La
teIn
gham
- La
teBU
/ABU
/A
- 16 -
TABL
E 3E
.ZO
NE 3
HURO
N, M
ASON
& M
ONTC
ALM
COUN
TY G
RAIN
TRI
ALS
- EAR
LY (9
7 Day
and
Earli
er)
2018
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
Vent
ure
AV49
94AM
94C2
501,
2,4
20.2
203.
8
52.9
0.8
9321
.419
3.3
52
.70.
693
19.7
192.
8
52.1
1.4
9019
.622
5.4
*53
.80.
396
AgVe
ntur
e AV
5096
AM96
C250
1,2,
422
.020
8.0
49
.71.
896
23.2
164.
4
50.3
0.9
9721
.422
3.7
48
.92.
395
21.4
235.
8**
50.0
2.1
97CR
OPLA
N 33
99VT
2P/R
IB93
ACC
1,2,
3,4
18.4
200.
2
54.0
0.3
9719
.319
4.7
54
.30.
099
17.7
208.
2
53.8
0.9
9418
.119
7.7
53
.90.
097
CROP
LAN
X180
93VT
2P93
ACC
1,2
17.2
200.
8
53.1
0.1
9619
.317
4.9
53
.50.
097
14.7
217.
0
52.6
0.0
9317
.521
0.5
53
.20.
399
CROP
LAN
3499
VT3P
/RIB
94AC
C1,
2,3
18.7
186.
8
53.6
0.0
9819
.716
0.1
54
.50.
010
217
.320
4.2
53
.20.
096
19.0
196.
0
53.2
0.0
96CR
OPLA
N 35
75VT
2P/R
IB95
ACC
1,2
18.3
212.
1*
53.8
0.4
9619
.319
0.6
54
.60.
398
17.0
241.
4**
53.5
0.6
9318
.520
4.4
53
.30.
397
CROP
LAN
3899
VT2P
/RIB
96AC
C1,
220
.120
5.9
52
.20.
694
20.1
198.
0*
52.9
0.0
9619
.321
8.9
51
.40.
790
20.8
200.
9
52.2
1.2
95CR
OPLA
N 35
75SS
/RIB
95AC
C1,
2,3,
418
.720
8.7
54
.90.
591
19.4
207.
9*
55.0
0.0
9518
.621
0.3
54
.11.
088
18.2
208.
0
55.6
0.4
90CR
OPLA
N 37
95VT
2P/R
IB97
ACC
1,2
19.0
207.
2
49.4
0.4
9819
.019
2.6
41
.40.
010
017
.521
1.6
53
.50.
996
20.4
217.
5
53.2
0.3
98DA
IRYL
AND
SEED
DS-
7294
A94
C500
1,2,
4,6
20.0
194.
4
52.7
3.5
9619
.914
8.3
53
.90.
097
19.3
216.
5
50.9
8.7
9320
.821
8.4
53
.31.
797
DAIR
YLAN
D SE
ED R
PM-3
519A
M96
1,2,
419
.320
4.7
54
.53.
497
20.2
193.
9
54.1
0.0
9918
.022
0.1
54
.510
.296
19.7
200.
0
55.0
0.0
97DA
IRYL
AND
SEED
RPM
-371
5AM
961,
2,4
20.0
203.
5
50.9
0.1
9521
.517
0.6
50
.90.
098
18.2
238.
2*
50.6
0.0
9320
.220
1.6
51
.20.
395
DAIR
YLAN
D SE
ED R
PM-4
99AM
971,
2,4
19.1
206.
7
51.9
2.5
9620
.218
1.2
51
.40.
095
17.9
221.
8
51.3
7.3
9619
.121
7.1
53
.00.
396
DYNA
GRO
D34V
C54
94P5
001,
217
.220
5.4
52
.61.
298
18.2
190.
5
53.9
0.6
9915
.021
3.2
51
.82.
196
18.5
212.
4
52.1
0.9
98DY
NAGR
O D3
7VC6
497
P500
1,2
18.7
201.
7
52.8
0.7
9819
.818
2.9
53
.70.
099
17.0
192.
0
52.1
1.4
9619
.223
0.3
*52
.70.
698
GOLD
EN H
ARVE
ST G
90Y0
4-32
20A
92C2
501,
2,3,
419
.319
7.7
53
.12.
195
18.7
167.
5
54.4
0.0
9719
.020
1.8
50
.65.
593
20.1
223.
8*
54.2
0.9
94GO
LDEN
HAR
VEST
G95
D32-
3220
95C2
501,
2,3,
4,6
19.4
209.
2*
53.7
2.7
9820
.017
8.2
54
.30.
310
018
.422
5.2
53
.17.
495
19.8
224.
3*
53.7
0.3
98LE
GACY
SEE
DS L
-311
5 SS
X93
A500
1,2,
3,4
19.1
201.
6
53.1
2.3
9319
.519
3.6
54
.10.
091
18.0
210.
5
52.6
6.5
9419
.820
0.6
52
.70.
393
LEGA
CY S
EEDS
L-3
517
VT2P
95A2
501,
218
.620
0.2
53
.60.
696
19.2
176.
2
54.4
0.0
9817
.421
7.7
52
.90.
995
19.1
206.
6
53.5
0.9
96LE
GACY
SEE
DS L
-361
7 VT
2P97
A500
1,2
18.7
214.
0*
52.5
0.2
9518
.519
1.2
53
.20.
698
17.7
227.
8*
52.0
0.0
9119
.922
2.9
*52
.20.
097
LEGE
ND 9
895
VT2P
RIB
95C2
501,
219
.220
6.6
53
.40.
693
19.4
195.
8*
54.4
0.0
9919
.221
0.9
52
.01.
686
19.1
213.
1
53.9
0.3
94LE
GEND
989
7 VT
2PRI
B97
C250
1,2
19.5
201.
9
52.4
0.6
9419
.318
5.4
54
.20.
396
19.3
208.
2
50.9
0.9
9119
.921
2.0
52
.10.
694
LG S
EEDS
LG5
410V
T2RI
B91
P500
1,2,
317
.918
3.2
53
.50.
398
19.1
146.
4
54.8
0.6
9916
.421
1.7
52
.20.
396
18.3
191.
6
53.6
0.0
98LG
SEE
DS L
G541
5VT2
RIB
93P5
001,
2,3
16.8
192.
2
53.2
8.1
9619
.017
2.1
53
.80.
095
13.8
190.
8
52.1
23.5
9617
.721
3.6
53
.70.
997
LG S
EEDS
LG4
4C27
VT2P
RO94
P500
1,2,
318
.620
7.7
52
.91.
096
20.0
212.
4*
53.4
0.0
9716
.518
7.8
52
.01.
695
19.2
222.
8*
53.2
1.5
97LG
SEE
DS L
G44C
34-3
110
94P5
001,
2,4,
619
.020
0.1
52
.80.
293
19.3
154.
1
54.3
0.0
9618
.522
3.7
52
.10.
690
19.1
222.
5*
52.1
0.0
94LG
SEE
DS L
G546
5VT2
RIB
97P5
001,
2,3
19.0
216.
0*
53.3
0.2
9720
.220
5.8
*53
.30.
399
18.1
223.
3
52.8
0.3
9518
.821
9.0
53
.80.
098
M&W
SEE
DS 4
8R11
87P2
501,
216
.319
1.7
54
.73.
098
17.6
192.
7
55.8
1.2
9913
.920
3.9
53
.47.
697
17.4
178.
4
54.9
0.3
97M
&W S
EEDS
47P
6190
P250
1,2
18.3
194.
6
53.5
0.3
9518
.818
3.5
55
.00.
096
17.5
200.
6
51.7
0.9
9118
.619
9.6
53
.90.
097
M&W
SEE
DS 4
6R52
95P2
501,
2,4,
618
.720
9.0
53
.32.
197
19.6
186.
5
53.2
0.3
9917
.421
7.2
52
.75.
595
19.1
223.
3*
54.0
0.6
98M
&W S
EEDS
46P
7697
P250
1,2
18.2
219.
0**
53.2
0.0
9219
.721
4.4
**54
.00.
097
16.3
217.
1
52.9
0.0
9118
.622
5.4
*52
.80.
089
MIS
SION
SEE
D AM
P A9
567V
T2P
95P2
501,
219
.319
6.5
52
.41.
395
19.3
162.
2
53.2
2.4
9619
.121
4.7
51
.71.
294
19.5
212.
7
52.2
0.3
94NK
Bra
nd N
K892
0-31
2089
C250
1,2,
418
.219
3.0
53
.21.
499
19.0
157.
5
54.0
0.0
100
16.8
218.
3
51.7
4.2
9918
.820
3.3
54
.00.
097
NK B
rand
NK9
227-
3220
A92
C250
1,2,
3,4,
619
.319
2.2
53
.43.
196
19.2
174.
3
54.8
0.0
9818
.519
6.2
51
.47.
893
20.2
206.
1
53.9
1.6
97NK
Bra
nd N
K950
5-31
1095
C250
1,2,
4,6
19.4
200.
2
54.2
0.3
9319
.818
2.3
54
.80.
095
18.2
201.
3
53.4
0.0
8820
.221
7.1
54
.30.
995
RENK
RK4
08VT
2P™
90C2
501,
218
.320
1.9
53
.20.
194
18.2
182.
4
54.4
0.0
9717
.821
4.5
51
.90.
392
18.8
208.
7
53.4
0.0
94RE
NK R
K433
RR92
C250
118
.119
5.7
53
.20.
997
17.7
166.
1
54.4
0.3
9717
.520
7.8
52
.01.
296
19.2
213.
3
53.2
1.2
97RE
NK 8
-536
VT2P
94C2
501,
218
.920
9.7
*52
.11.
397
19.8
194.
3
53.3
0.6
100
18.2
222.
8
50.8
3.2
9518
.821
2.1
52
.30.
096
RENK
RK5
68VT
2P95
C250
1,2
18.8
194.
1
53.5
0.7
9420
.518
0.3
54
.00.
095
17.4
201.
7
53.1
1.5
9218
.420
0.2
53
.50.
694
RENK
RK5
87VT
2P97
C250
1,2
19.3
203.
8
52.2
0.5
9320
.119
5.3
*52
.70.
097
16.5
198.
0
52.5
0.9
8921
.321
8.2
51
.50.
692
RUPP
XRT
94-0
694
P250
1,2
18.4
194.
7
53.5
0.0
9719
.817
8.5
54
.10.
097
16.8
198.
5
52.9
0.0
9618
.520
7.0
53
.60.
099
RUPP
XRD
97-9
597
P250
1,2
19.0
194.
5
53.6
0.8
9319
.415
2.6
54
.50.
395
18.6
214.
6
52.4
1.7
8818
.921
6.3
53
.90.
397
SEED
WAY
SW
3600
GENS
SRIB
92P2
501,
2,3,
418
.119
5.9
53
.82.
097
19.2
188.
3
54.4
0.0
9816
.920
6.5
53
.15.
095
18.1
193.
0
53.8
0.9
97SE
EDW
AY S
W37
68GE
NSSR
IB95
C250
1,2,
3,4
18.9
214.
2*
53.0
1.1
9620
.620
2.6
*53
.70.
396
16.8
216.
6
52.1
2.9
9719
.222
3.5
*53
.30.
096
SUN
PRAI
RIE
SP19
7094
C250
18.3
192.
5
54.2
1.5
9517
.915
2.4
55
.70.
097
17.3
214.
2
52.7
3.3
9519
.721
0.9
54
.31.
294
Mon
tcal
m -
Early
Mas
on -
Early
Huro
n - E
arly
Early
- TR
IAL
AVER
AGE
BU/A
BU/A
BU/A
BU/A
- 17 -
SUN
PRAI
RIE
SP19
2795
C250
19.9
194.4
51
.83.3
9620
.417
3.6
53.0
0.097
19.5
203.8
49
.69.6
9419
.820
5.8
52.7
0.397
AVER
AGE
18.8
201.5
53.0
1.396
19.5
181.4
53.6
0.297
17.6
211.7
52.2
3.194
19.2
211.4
53.2
0.596
HIGH
EST
22.0
219.0
54.9
8.199
23.2
214.4
55.8
2.410
221
.424
1.454
.523
.599
21.4
235.8
55.6
2.199
LOW
EST
16.3
183.2
49.4
0.091
17.6
146.4
41.4
0.091
13.8
187.8
48.9
0.086
17.4
178.4
50.0
0.089
CV (%
)4.9
7.31.7
297.3
3.05.2
9.27.7
277.2
3.05.0
5.71.4
207.0
4.04.6
6.01.7
229.2
3.0LS
D (5
%)
0.69.9
0.62.5
2.01.2
19.6
4.80.7
3.01.0
14.0
0.97.4
5.01.0
14.8
1.01.3
3.0
2 Yea
r Ave
rage
s 201
8 - 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
AgVe
nture
AV5
096A
M96
C250
1,2,4
22.4
214.6
*49
.91.2
9523
.118
7.8
50.1
0.796
22.0
245.5
49
.41.2
9322
.121
0.4**
50.2
1.895
CROP
LAN
3399
VT2P
/RIB
93AC
C1,2
,3,4
19.8
206.3
53
.10.9
9719
.619
5.5*
53.5
2.399
19.4
233.5
53
.20.5
9520
.518
9.8
52.7
0.096
CROP
LAN
3499
VT3P
/RIB
94AC
C1,2
,319
.419
8.6
53.4
0.798
19.8
182.5
53
.71.8
100
18.7
225.0
53
.30.0
9619
.818
8.2
53.2
0.397
CROP
LAN
3575
VT2P
/RIB
95AC
C1,2
19.3
218.2
**53
.60.9
9519
.620
3.5**
53.8
2.098
18.6
256.5
*53
.50.3
9219
.619
4.5
53.4
0.396
CROP
LAN
3795
VT2P
/RIB
97AC
C1,2
20.3
210.2
51
.10.3
9820
.019
4.9*
47.1
0.399
19.4
235.5
53
.40.5
9621
.420
0.1*
52.9
0.298
DAIR
YLAN
D SE
ED R
PM-3
715A
M96
1,2,4
21.0
211.3
50
.61.3
9521
.418
2.2
50.7
2.998
20.1
258.5
**50
.90.7
9221
.519
3.1
50.2
0.296
DYNA
GRO
D34V
C54
94P5
001,2
18.6
210.8
52
.24.0
9819
.119
6.4*
52.8
10.4
9917
.124
1.0
52.0
1.097
19.5
194.9
51
.90.5
99LG
SEE
DS LG
5410
VT2R
IB91
P500
1,2,3
18.9
196.4
52
.80.6
9719
.116
0.8
53.7
1.599
18.3
236.3
52
.30.4
9519
.419
2.0
52.4
0.098
LG S
EEDS
LG54
15VT
2RIB
93P5
001,2
,317
.619
9.6
53.0
5.196
18.8
183.5
53
.42.7
9715
.822
2.5
52.3
12.0
9518
.119
2.8
53.4
0.696
RENK
RK4
33RR
92C2
501
19.0
204.2
53
.01.5
9718
.318
7.9
53.5
3.398
18.8
229.6
52
.40.7
9619
.819
5.2
53.0
0.698
RUPP
XRT
94-0
694
P250
1,219
.420
3.3
53.2
0.696
19.8
196.3
*53
.61.5
9918
.822
1.4
52.9
0.291
19.7
192.3
53
.20.0
99RU
PP X
RD97
-95
97P2
501,2
20.1
205.2
53
.21.3
9520
.318
0.2
53.5
2.897
19.7
238.0
52
.80.8
9120
.219
7.3
53.3
0.297
AVER
AGE
19.7
206.6
52.4
1.596
19.9
187.6
52.4
2.798
18.9
236.9
52.4
1.594
20.1
195.0
52.5
0.497
HIGH
EST
22.4
218.2
53.6
5.198
23.1
203.5
53.8
10.4
100
22.0
258.5
53.5
12.0
9722
.121
0.453
.41.8
99LO
WES
T17
.619
6.449
.90.3
9518
.316
0.847
.10.3
9615
.822
1.449
.40.0
9118
.118
8.250
.20.0
95CV
(%)
4.76.9
1.746
2.44.0
4.78.0
5.677
3.53.0
4.85.8
1.319
1.95.0
4.46.3
1.870
3.23.0
LSD
(5%
)0.4
6.70.4
3.02.0
0.812
.32.5
7.82.0
0.710
.60.6
3.94.0
0.710
.70.8
2.63.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
Maso
n - E
arly
BU/A
Mont
calm
- Ear
lyBU
/AEa
rly - T
RIAL
AVE
RAGE
BU/A
BU/A
Huro
n - E
arly
- 18 -
TABL
E 3L
.ZO
NE 3
HURO
N, M
ASON
& M
ONTC
ALM
COUN
TY G
RAIN
TRI
ALS
- LAT
E (9
8 Day
and
Late
r)20
18BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AgVe
ntur
e AV
5799
AM99
C250
1,2,
422
.421
5.2
51
.33.
494
22.0
194.
7
52.8
0.9
9422
.522
5.4
49
.88.
396
22.7
225.
5
51.3
0.9
93Ag
Vent
ure
AV63
02AM
102
C250
1,2,
423
.422
3.1
*51
.07.
696
24.0
192.
1
51.8
0.3
9722
.723
9.6
*49
.822
.295
23.5
237.
7*
51.4
0.3
97BR
ODBE
CK 5
9RA0
210
2C5
001,
2,3,
423
.419
6.3
50
.41.
794
23.2
150.
8
52.0
0.0
9523
.021
7.5
48
.72.
795
24.0
220.
7
50.5
2.4
93BR
ODBE
CK 4
8PW
03E
103
C500
1,2,
424
.421
1.8
49
.80.
693
24.4
179.
5
51.0
1.2
9423
.922
3.2
48
.20.
396
25.0
232.
8*
50.1
0.3
90CR
OPLA
N 40
79VT
2P/R
IB99
ACC
1,2
20.0
196.
0
52.2
3.9
9719
.718
6.6
53
.81.
297
19.2
182.
5
51.1
8.9
9621
.221
9.0
51
.81.
598
CROP
LAN
4079
SS/R
IB10
0AC
C1,
2,3,
419
.820
8.5
52
.11.
097
20.0
179.
0
53.6
1.1
9818
.620
8.0
50
.91.
295
20.9
238.
4*
51.9
0.6
97DA
IRYL
AND
SEED
DS-
9599
99C5
001,
2,3,
421
.219
5.2
50
.26.
197
21.8
155.
0
49.1
0.9
9919
.821
6.4
50
.217
.193
21.9
214.
3
51.4
0.3
99DA
IRYL
AND
SEED
RPM
-401
9AM
991,
2,4
21.9
225.
8*
49.4
0.4
9621
.819
2.5
49
.80.
997
21.5
247.
6**
48.7
0.0
9522
.423
7.4
*49
.80.
395
DAIR
YLAN
D SE
ED D
S-71
0110
1C5
001,
2,4,
622
.820
2.9
50
.72.
896
21.5
161.
7
50.7
0.0
9623
.422
0.1
50
.17.
196
23.4
226.
9
51.3
1.2
97DA
IRYL
AND
SEED
RPM
-401
8AM
101
1,2,
422
.222
2.6
*51
.47.
196
22.0
211.
5**
52.5
0.3
9521
.222
9.3
50
.720
.598
23.3
227.
1
51.1
0.6
95DA
IRYL
AND
SEED
RPM
-411
5AM
101
1,2,
421
.020
3.1
51
.71.
595
21.7
164.
9
52.2
1.8
9520
.121
6.0
51
.11.
297
21.3
228.
4*
51.9
1.5
93DA
IRYL
AND
SEED
DS-
7603
PE10
3C5
001,
2,4,
624
.820
8.5
49
.70.
496
24.8
166.
7
50.5
0.0
9424
.722
7.3
48
.50.
696
24.8
231.
6*
50.2
0.6
97DA
IRYL
AND
SEED
EXP
-103
0610
31,
2,3,
418
.318
8.2
52
.80.
397
19.6
162.
0
54.4
0.0
9915
.520
6.6
51
.90.
097
19.7
196.
0
52.1
0.9
96DA
IRYL
AND
SEED
DS-
9804
RA10
4C5
001,
2,3,
4,6
23.5
207.
8
50.0
2.2
9423
.417
8.9
51
.41.
092
23.1
220.
8
48.2
3.5
9724
.122
3.7
50
.42.
293
DAIR
YLAN
D SE
ED R
PM-4
318A
M10
41,
2,4
21.5
230.
1**
51.5
0.8
9821
.520
9.3
*52
.00.
098
19.7
241.
4*
51.5
2.0
9923
.323
9.7
*50
.90.
396
DAIR
YLAN
D SE
ED R
PM-4
329A
M10
41,
2,4
26.3
213.
6
49.8
2.2
9625
.219
6.2
*51
.30.
697
26.0
228.
3
48.4
0.6
9627
.821
6.2
49
.65.
496
DYNA
GRO
D39D
C43
99P5
001,
220
.421
1.8
50
.80.
096
21.1
201.
7*
51.7
0.0
9518
.621
7.8
50
.40.
097
21.6
216.
0
50.4
0.0
96LE
GACY
SEE
DS L
-371
8 VT
2P98
A500
1,2
20.4
206.
3
51.9
0.1
9522
.417
9.5
53
.10.
397
17.7
217.
6
51.4
0.0
9221
.222
1.8
51
.30.
097
LEGA
CY S
EEDS
L-3
816
VT2P
100
A250
1,2
19.5
198.
2
50.5
0.7
9420
.218
1.2
51
.40.
693
16.8
199.
1
49.9
1.5
9621
.521
4.4
50
.30.
093
LG S
EEDS
LG5
494V
T2RI
B99
P500
1,2,
319
.121
5.9
52
.10.
396
19.6
193.
1
53.1
0.3
9617
.022
0.7
51
.90.
095
20.8
233.
8*
51.2
0.6
97LG
SEE
DS L
G550
5VT2
RIB
100
P500
1,2,
319
.221
3.4
53
.71.
197
18.4
208.
2*
55.2
0.9
9718
.921
2.6
52
.51.
296
20.2
219.
5
53.3
1.2
98M
ISSI
ON S
EED
AMP
A982
6VT2
P98
P250
1,2
18.2
211.
5
52.9
0.6
9718
.219
9.1
*54
.70.
399
16.6
209.
3
51.2
0.8
9819
.722
6.0
52
.80.
694
MIS
SION
SEE
D AM
P A9
938V
T2P
99P2
501,
219
.720
9.8
52
.50.
796
20.4
183.
0
53.0
0.0
9718
.323
3.0
*52
.42.
196
20.4
213.
4
52.2
0.0
96M
ISSI
ON S
EED
AMP
A610
1VT2
P10
1P2
501,
219
.920
2.9
53
.20.
294
20.1
180.
6
54.9
0.0
9719
.420
8.3
51
.80.
089
20.2
219.
9
52.9
0.6
95M
ISSI
ON S
EED
AMP
A035
7SS
103
P250
1,2,
3,4
22.1
219.
5
52.3
0.7
9721
.717
9.1
53
.40.
099
22.5
236.
1*
51.2
1.2
9622
.124
3.3
**52
.30.
997
RENK
RK5
79DG
VT2P
98C2
501,
220
.620
9.4
51
.90.
696
22.5
179.
9
53.5
0.0
9918
.721
2.9
51
.01.
991
20.6
235.
5*
51.3
0.0
97RE
NK R
K593
SSTX
99C5
001,
2,3,
419
.920
4.0
52
.60.
396
19.3
177.
7
54.1
0.0
9719
.621
9.6
51
.71.
095
20.7
214.
8
52.1
0.0
95RU
PP X
RD00
-51
100
P250
1,2
20.6
200.
9
52.7
0.0
9720
.818
6.5
53
.90.
010
020
.019
7.3
51
.70.
094
21.0
219.
0
52.6
0.0
98RU
PP X
RD03
-07
103
P250
1,2
21.7
219.
8
52.1
0.7
9221
.220
9.4
*52
.80.
090
21.7
211.
3
51.4
2.2
9422
.223
8.8
*52
.10.
092
SEED
WAY
SW
4010
GENS
SRIB
100
C250
1,2,
3,4
20.4
198.
8
52.2
0.5
9319
.617
8.1
53
.30.
391
19.8
199.
1
51.7
1.2
9621
.821
9.1
51
.50.
093
SUN
PRAI
RIE
SP22
7210
1C2
5020
.820
8.0
53.1
0.9
9620
.618
6.3
54.7
1.5
9620
.621
5.1
51.9
0.0
9621
.322
2.6
52.7
1.2
96AV
ERAG
E21
.320
9.0
51.6
1.6
9621
.418
4.0
52.6
0.5
9620
.421
8.1
50.6
3.5
9522
.122
4.9
51.4
0.8
95HI
GHES
T26
.323
0.1
53.7
7.6
9825
.221
1.5
55.2
1.8
100
26.0
247.
652
.522
.299
27.8
243.
353
.35.
499
LOW
EST
18.2
188.
249
.40.
092
18.2
150.
849
.10.
090
15.5
182.
548
.20.
089
19.7
196.
049
.60.
090
CV (%
)4.
56.
51.
740
0.2
3.0
5.1
7.4
1.8
260.
53.
05.
35.
71.
830
6.8
4.0
3.1
6.1
1.4
229.
23.
0LS
D (5
%)
0.7
9.1
0.6
4.3
2.0
1.3
16.1
1.1
1.4
4.0
1.3
14.6
1.1
12.7
4.0
0.8
16.1
0.8
2.1
3.0
2 Ye
ar A
vera
ges
2018
- 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
CROP
LAN
4079
SS/R
IB10
0AC
C1,
2,3,
421
.021
3.6
*51
.72.
195
20.5
195.
7*
52.7
5.1
9820
.223
2.6
*51
.20.
989
22.4
212.
5*
51.1
0.3
97DA
IRYL
AND
SEED
DS-
9599
99C5
001,
2,3,
421
.920
3.2
50
.73.
897
22.0
174.
2
50.3
2.2
9821
.423
0.3
51
.38.
695
22.4
205.
1*
50.6
0.6
98DA
IRYL
AND
SEED
RPM
-401
8AM
101
1,2,
423
.521
4.6
*51
.64.
795
24.8
199.
1*
51.8
1.6
9522
.024
1.6
*51
.512
.194
23.7
203.
0*
51.5
0.3
95DA
IRYL
AND
SEED
RPM
-411
5AM
101
1,2,
422
.220
8.3
52
.31.
991
23.0
183.
7
52.1
2.2
9321
.122
7.5
52
.32.
285
22.4
213.
6**
52.4
1.2
95DY
NAGR
O D3
9DC4
399
P500
1,2
22.0
215.
8**
51.1
0.7
9722
.320
0.7
*51
.62.
197
20.9
242.
4**
50.8
0.0
9622
.920
4.2
*50
.80.
097
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
Mas
on -
Late
Mon
tcal
m -
Late
BU/A
BU/A
BU/A
BU/A
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
Mas
on -
Late
Mon
tcal
m -
Late
BU/A
BU/A
BU/A
BU/A
- 19 -
MISS
ION
SEED
AMP
A98
26VT
2P98
P250
1,219
.921
5.1*
52.6
0.797
19.9
201.0
**53
.81.4
9919
.023
3.6*
51.7
0.496
20.9
210.7
*52
.40.3
95MI
SSIO
N SE
ED A
MP A
6101
VT2P
101
P250
1,221
.520
9.6*
52.5
0.292
22.3
193.6
*53
.40.3
9520
.722
9.6
51.9
0.089
21.6
205.6
*52
.30.3
92RU
PP X
RD00
-51
100
P250
1,221
.620
6.552
.90.3
9821
.719
6.7*
53.4
0.310
020
.521
7.952
.60.6
9522
.520
5.0*
52.7
0.098
AVER
AGE
21.7
210.8
51.9
1.895
22.1
193.1
52.4
1.997
20.7
231.9
51.7
3.192
22.4
207.4
51
.70.4
96HI
GHES
T23
.521
5.852
.94.7
9824
.820
1.053
.85.1
100
22.0
242.4
52.6
12.1
9623
.721
3.6
52.7
1.298
LOW
EST
19.9
203.2
50.7
0.291
19.9
174.2
50.3
0.393
19.0
217.9
50.8
0.085
20.9
203.0
50
.60.0
92CV
(%)
4.86.5
1.631
6.16.0
5.17.0
1.531
9.33.0
4.96.3
1.625
5.710
.04.5
6.0
1.728
6.74.0
LSD
(5%
)0.5
6.50.4
2.43.0
0.910
.80.7
2.72.0
0.811
.80.7
6.48.0
0.810
.8
0.71.6
3.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
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
CODE NUMBERS FOR HYBRID TRAITSCode Num. Traits & Resistant Events
1 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
- 20 -
TABL
E 4E
.ZO
NE 4
IOSC
O, O
SCEO
LA &
PRE
SQUE
ISLE
COU
NTY
GRAI
N TR
IALS
- EA
RLY
(92 D
ay an
d Ea
rlier
)20
18BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
DAIR
YLAN
D SE
ED D
S-96
8686
C500
1,2,
3,4
19.9
167.
3
54.5
8.0
9719
.318
8.5
56
.114
.799
20.5
146.
0
52.9
1.2
94DA
IRYL
AND
SEED
RPM
-291
8AM
861,
2,4
19.5
151.
8
53.3
16.6
9418
.715
7.2
54
.923
.292
20.2
146.
3
51.7
10.0
96DY
NAGR
O D2
7VC8
787
P500
1,2
20.9
170.
5
54.2
4.5
9718
.819
7.0
55
.38.
297
22.9
144.
0
53.1
0.8
97LE
GACY
SEE
DS L
-281
7VT2
P86
A250
1,2
20.2
183.
3*
54.6
5.5
9818
.519
2.1
55
.510
.297
21.8
174.
4*
53.7
0.8
99LE
GACY
SEE
DS L
-284
7 VT
2P88
A250
1,2
20.8
187.
1*
53.8
0.2
9319
.519
8.4
*54
.70.
391
22.0
175.
8**
52.8
0.0
95LE
GACY
SEE
DS L
-293
7 31
2089
C250
1,2,
4,6
22.6
184.
0*
52.6
0.3
9520
.621
5.9
**53
.60.
694
24.6
152.
1
51.5
0.0
95LE
GEND
40J
684
RR84
C250
121
.016
3.6
55
.712
.795
19.7
164.
4
57.2
23.0
9222
.316
2.8
*54
.12.
397
LEGE
ND E
XP-9
986
VT2P
RIB
86C2
501,
2,3,
420
.917
2.6
53
.42.
196
19.0
185.
4
54.5
4.2
9122
.715
9.8
*52
.30.
010
1LG
SEE
DS L
G537
0VT2
RIB
84P5
001,
2,3
20.0
179.
3*
54.8
0.8
9919
.019
4.0
55
.61.
298
20.9
164.
5*
54.0
0.4
99LG
SEE
DS L
G537
5VT2
RIB
85P5
001,
2,3
19.9
170.
5
55.3
3.7
9518
.217
5.4
56
.76.
295
21.5
165.
5*
53.8
1.2
95LG
SEE
DS L
G38C
18VT
2RIB
88P5
001,
2,3
19.9
166.
3
53.7
4.1
9318
.418
4.9
54
.97.
793
21.4
147.
6
52.4
0.4
93M
&W S
EEDS
48R
1187
P250
1,2
20.2
192.
5**
53.6
2.4
101
18.8
211.
1*
55.0
4.1
9921
.617
3.9
*52
.20.
710
3AV
ERAG
E20
.517
4.1
54.1
5.1
9619
.018
8.7
55.3
8.6
9521
.915
9.4
52.9
1.5
97HI
GHES
T22
.619
2.5
55.7
16.6
101
20.6
215.
957
.223
.299
24.6
175.
854
.110
.010
3LO
WES
T19
.515
1.8
52.6
0.2
9318
.215
7.2
53.6
0.3
9120
.214
4.0
51.5
0.0
93CV
(%)
3.9
9.4
1.6
136.
14
2.7
8.1
1.4
102.
43
4.3
10.4
1.7
276.
04
LSD
(5%
)0.
713
.50.
75.
73
0.6
18.3
1.0
10.6
41.
319
.91.
35.
85
2 Yea
r Ave
rage
s 201
8 - 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
DAIR
YLAN
D SE
ED D
S-96
8686
C500
1,2,
3,4
18.9
180.
3**
54.3
8.3
9719
.420
3.6
**55
.09.
299
18.3
156.
9
53.5
7.4
94LE
GEND
40J
684
RR84
C250
120
.517
9.3
*55
.115
.996
20.8
187.
4
55.7
13.6
9520
.217
1.1
*54
.418
.297
LG S
EEDS
LG5
375V
T2RI
B85
P500
1,2,
319
.318
0.0
*54
.92.
997
19.5
186.
055
.54.
897
19.0
173.
9**
54.3
0.9
96AV
ERAG
E19
.617
9.9
54.8
9.0
9719
.919
2.3
*55
.49.
097
19.2
167.
354
.19.
096
HIGH
EST
20.5
180.
355
.115
.997
20.8
203.
6**
55.7
14.0
9920
.217
3.9
54.4
18.0
97LO
WES
T18
.917
9.3
54.3
2.9
9619
.418
6.0
55
.05.
095
18.3
156.
953
.51.
094
CV (%
)4.
88.
41.
517
0.2
43.
97.
7
1.4
154.
03
5.3
9.5
1.7
210.
04
LSD
(5%
)0.
58.
00.
45.
02
0.6
12.2
0.
610
.02
1.0
12.8
0.8
8.0
3
Loca
tion
Drop
ped
Osce
ola -
Ear
lyBU
/A
TRIA
L AV
ERAG
EBU
/A
Pres
que I
sle -
Early
Iosc
o - E
arly
TRIA
L AV
ERAG
EBU
/ABU
/ABU
/A
BU/AIosc
o - E
arly
Pres
que I
sle -
Early
BU/A
Osce
ola -
Ear
lyBU
/A
- 21 -
TABL
E 4L
.ZO
NE 4
2018
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%
SdDA
IRYL
AND
SEED
DS-
7294
A94
C500
1,2,
4,6
25.3
208.
8**
52.1
4.6
9522
.522
0.2
**52
.95.
195
28.1
197.
3*
51.2
4.0
94DA
IRYL
AND
SEED
RPM
-351
8AM
961,
2,4
23.6
177.
6
52.7
6.5
9621
.318
1.1
53
.16.
997
25.9
174.
0
52.2
6.1
95DA
IRYL
AND
SEED
RPM
-351
9AM
961,
2,4
23.4
194.
8*
54.5
4.6
9521
.120
4.6
*55
.23.
695
25.7
184.
9*
53.7
5.5
95DY
NAG
RO D
34VC
5494
P500
1,2
23.3
200.
6*
51.8
8.3
9620
.819
9.6
52
.58.
697
25.8
201.
6**
51.1
8.0
95G
OLD
EN H
ARVE
ST G
90Y0
4-32
20A
92C2
501,
2,3,
424
.819
2.4
51
.61.
994
21.8
215.
8*
52.0
3.3
9727
.816
9.0
51
.10.
490
LEG
ACY
SEED
S L-
3017
VT2
P90
A250
1,2
23.1
185.
2
52.7
6.9
9420
.818
6.1
53
.82.
997
25.3
184.
3*
51.5
10.8
90LE
GAC
Y SE
EDS
L-31
17 V
T2P
91A2
501,
221
.918
4.6
52
.61.
693
19.5
194.
1
53.4
1.8
9524
.217
5.1
51
.71.
491
LEG
END
9891
VT2
PRIB
91C2
501,
222
.818
7.0
52
.73.
294
20.9
212.
1*
53.5
1.9
9424
.716
1.9
51
.94.
493
LG S
EEDS
LG
5410
VT2R
IB91
P500
1,2,
322
.519
6.6
*52
.51.
793
19.8
216.
4*
53.4
1.2
9825
.217
6.8
51
.62.
288
LG S
EEDS
LG
5415
VT2R
IB93
P500
1,2,
321
.618
1.0
52
.67.
193
19.0
196.
4
53.8
5.9
9624
.116
5.5
51
.48.
390
LG S
EEDS
LG
44C2
7VT2
PRO
94P5
001,
2,3
22.9
199.
2*
52.4
4.1
9619
.820
9.4
*53
.42.
997
26.0
188.
9*
51.4
5.2
95LG
SEE
DS L
G44
C34-
3110
94P5
001,
2,4,
623
.619
6.0
*51
.72.
693
21.7
219.
9*
52.6
1.2
9625
.417
2.0
50
.84.
090
M&W
SEE
DS 4
7P61
90P2
501,
223
.519
2.9
52
.80.
697
21.3
210.
4*
53.3
0.0
9625
.717
5.3
52
.31.
297
M&W
SEE
DS 4
6R52
95P2
501,
2,4,
624
.020
4.4
*52
.92.
299
22.4
213.
7*
53.0
2.3
100
25.6
195.
0*
52.7
2.1
97AV
ERAG
E23
.319
2.9
52.5
4.0
9520
.920
5.7
53.3
3.4
9625
.718
0.1
51.8
4.5
93HI
GHE
ST25
.320
8.8
54.5
8.3
9922
.522
0.2
55.2
8.6
100
28.1
201.
653
.710
.897
LOW
EST
21.6
177.
651
.60.
693
19.0
181.
152
.00.
094
24.1
161.
950
.80.
488
CV (%
)4.
79.
01.
212
8.8
53.
37.
31.
011
6.5
35.
59.
31.
413
3.3
6LS
D (5
%)
0.9
14.4
0.5
4.2
40.
817
.90.
64.
73
1.7
19.9
0.9
7.2
7
2 Ye
ar A
vera
ges
2018
- 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
DYNA
GRO
D34
VC54
94P5
001,
222
.120
9.3
**51
.56.
098
22.4
219.
0**
51.7
6.8
9921
.819
9.6
**51
.35.
197
LEG
ACY
SEED
S L-
3017
VT2
P90
A250
1,2
21.3
192.
4
52.4
4.2
9522
.320
1.9
52
.52.
998
20.2
182.
8
52.2
5.5
92LE
GEN
D 98
91 V
T2PR
IB91
C250
1,2
20.8
194.
1
52.3
5.1
9621
.821
6.4
*52
.86.
497
19.8
171.
7
51.8
3.8
95LG
SEE
DS L
G54
10VT
2RIB
91P5
001,
2,3
21.1
193.
6
52.2
2.9
9621
.520
3.4
52
.24.
799
20.6
183.
8
52.1
1.1
93LG
SEE
DS L
G54
15VT
2RIB
93P5
001,
2,3
20.1
182.
552
.56.
597
20.4
203.
253
.17.
398
19.8
161.
851
.85.
795
AVER
AGE
21.1
194.
452
.24.
996
21.7
208.
852
.55.
698
20.5
179.
951
.84.
295
HIG
HEST
22.1
209.
352
.56.
598
22.4
219.
053
.17.
399
21.8
199.
652
.25.
797
LOW
EST
20.1
182.
551
.52.
995
20.4
201.
951
.72.
997
19.8
161.
851
.31.
192
CV (%
)4.
87.
81.
423
8.0
43.
87.
01.
223
6.3
35.
78.
61.
624
5.4
5LS
D (5
%)
0.6
8.2
0.4
4.7
20.
712
.10.
58.
62
1.1
12.9
0.7
7.7
4
** 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
BU/A
Loca
tion
Drop
ped
Pres
que
Isle
- La
te
BU/A
BU/A
BU/A
Iosc
o - L
ate
TRIA
L AV
ERAG
EOs
ceol
a - L
ate
BU/A
BU/A
BU/A
Pres
que
Isle
- La
te
Osce
ola
- Lat
eBU
/ATR
IAL
AVER
AGE
Iosc
o - L
ate
IOSC
O, O
SCEO
LA &
PRE
SQUE
ISLE
COU
NTY
GRAI
N TR
IALS
- LA
TE (9
6 Day
and
Earli
er)
- 22 -
TABL
E 5E
.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)
2018
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
38G
5496
MXL
CONV
19.9
204.
8
51.3
3.1
9620
.620
5.5
51
.13.
693
19.2
204.
1
51.5
2.6
98DY
NAGR
O D3
9CC4
399
P500
CONV
19.6
221.
7*
50.5
1.8
9819
.222
1.9
*50
.71.
897
19.9
221.
4*
50.3
1.8
98LE
GACY
SEE
DS L
-354
795
CM25
0CO
NV19
.419
9.2
51
.54.
596
19.3
194.
8
52.1
7.2
9519
.420
3.5
50
.91.
896
LEGA
CY S
EEDS
L-3
712
96CM
250
CONV
18.1
210.
9
52.2
2.1
9918
.821
2.3
*53
.22.
999
17.4
209.
5*
51.2
1.2
99LG
SEE
DS L
G542
795
P500
CONV
18.1
210.
5
52.2
2.5
9818
.320
8.6
53
.12.
797
17.9
212.
3*
51.2
2.3
99LG
SEE
DS L
G547
098
P500
CONV
19.1
221.
2*
51.3
2.8
9919
.022
1.5
*51
.83.
298
19.2
220.
8*
50.7
2.3
99M
&W S
EEDS
47J
6494
P250
CONV
17.8
217.
7*
52.6
0.2
9917
.822
1.0
*53
.40.
398
17.7
214.
4*
51.7
0.0
99M
&W S
EEDS
47R
2294
P250
CONV
19.1
207.
6
53.7
3.3
9619
.421
6.5
*54
.73.
193
18.7
198.
6
52.7
3.5
98M
&W S
EEDS
46L
4196
P250
CONV
18.4
208.
2
52.7
2.1
9117
.921
1.9
*52
.71.
786
18.8
204.
5
52.6
2.4
96M
&W S
EEDS
45P
3310
0P2
50CO
NV18
.921
6.6
*50
.00.
697
19.3
225.
7*
51.2
0.3
9718
.420
7.4
48
.70.
997
M&W
SEE
DS 4
5R05
100
P250
CONV
22.9
226.
4**
52.5
4.5
9322
.723
0.0
**52
.44.
988
23.0
222.
7**
52.5
4.1
98M
&W S
EEDS
45A
3710
1P2
50CO
NV20
.621
2.7
51
.02.
496
19.8
214.
2*
51.8
3.2
9721
.421
1.2
*50
.21.
595
RUPP
XRA
94-1
694
C250
CONV
18.3
198.
5
52.5
2.8
9718
.619
1.2
53
.01.
895
17.9
205.
8
51.9
3.7
98RU
PP X
RA99
-20
99C2
50CO
NV18
.521
7.0
*53
.02.
498
18.4
222.
7*
53.5
1.8
9618
.521
1.3
*52
.42.
999
RUPP
XRA
00-2
110
0C2
50CO
NV20
.920
4.8
51
.64.
887
21.0
198.
4
52.2
6.9
8020
.821
1.1
*50
.92.
794
VIKI
NG O
.84-
95UP
95C2
50CO
NV17
.919
9.7
52
.31.
495
18.0
195.
7
53.2
0.6
9617
.720
3.6
51
.32.
194
VIKI
NG O
.98-
98P
98C2
50CO
NV19
.621
7.3
*51
.63.
093
20.0
223.
4*
51.8
1.0
8719
.221
1.2
*51
.35.
098
VIKI
NG O
.79-
0010
0CO
NV20
.120
0.7
49
.02.
788
21.1
197.
3
48.7
2.9
8119
.120
4.0
49
.32.
495
AVER
AGE
19.3
210.
951
.82.
695
19.4
211.
852
.22.
893
19.1
209.
951
.22.
497
HIGH
EST
22.9
226.
453
.74.
899
22.7
230.
054
.77.
299
23.0
222.
752
.75.
099
LOW
EST
17.8
198.
549
.00.
287
17.8
191.
248
.70.
380
17.4
198.
648
.70.
094
CV (%
)4.
76.
81.
710
4.7
7.0
4.3
7.6
1.4
113.
611
.05.
05.
82.
093
.02.
0LS
D (5
%)
0.8
11.8
0.7
2.2
5.0
1.0
19.2
0.8
3.7
12.0
1.1
14.4
1.2
2.6
2.0
2 Ye
ar A
vera
ges
2018
- 20
17BR
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 3
8G54
96M
XLCO
NV19
.219
9.0
*51
.71.
697
20.9
199.
5*
51.0
1.8
9617
.419
8.5
*52
.41.
398
LG S
EEDS
LG5
470
98P5
00CO
NV19
.020
2.1
**52
.01.
710
020
.620
4.1
**51
.72.
099
17.3
200.
1**
52.2
1.3
100
M&W
SEE
DS 4
7J64
94P2
50CO
NV17
.720
1.4
*53
.00.
498
18.9
203.
2*
53.2
0.1
9616
.519
9.5
*52
.80.
699
M&W
SEE
DS 4
6L41
96P2
50CO
NV18
.919
8.2
*52
.91.
395
19.8
199.
3*
52.6
1.4
9217
.919
7.0
*53
.21.
298
M&W
SEE
DS 4
5A37
101
P250
CONV
20.1
198.
4*
52.0
1.4
9620
.820
2.9
*51
.91.
996
19.4
193.
8*
52.0
0.9
96VI
KING
O.8
4-95
UP95
C250
CONV
18.1
189.
7
53.3
0.8
9619
.019
2.7
*53
.50.
396
17.2
186.
7
53.0
1.3
96VI
KING
O.7
9-00
100
CONV
20.3
187.
6
49.2
1.4
9422
.819
2.8
*48
.41.
690
17.7
182.
3
50.0
1.2
97AV
ERAG
E19
.019
6.6
52.0
1.2
9720
.419
9.2
51.8
1.3
9517
.619
4.0
52.2
1.1
98HI
GHES
T20
.320
2.1
53.3
1.7
100
22.8
204.
153
.52.
099
19.4
200.
153
.21.
310
0LO
WES
T17
.718
7.6
49.2
0.4
9418
.919
2.7
48.4
0.1
9016
.518
2.3
50.0
0.6
96CV
(%)
5.8
7.7
1.8
151.
46.
04.
76.
81.
511
7.5
8.0
5.7
6.4
1.7
95.6
2.0
LSD
(5%
)0.
68.
40.
51.
73.
00.
811
.60.
62.
26.
00.
911
.60.
81.
62.
0
Loca
tin D
ropp
ed
Early
- TR
IAL
AVER
AGE
BU/A
Sagi
naw
- Ear
lyBU
/AIn
gham
- Ea
rlyM
ontc
alm
- Ea
rlyBU
/A
BU/A
BU/A
BU/A
BU/A
BU/A
Sagi
naw
- Ear
lyM
ontc
alm
- Ea
rlyIn
gham
- Ea
rlyEa
rly -
TRIA
L AV
ERAG
E
- 23 -
TABL
E 5L
.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
18BR
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 4
8G35
102
MXL
CONV
23.6
198.
1
50.4
3.6
9425
.317
8.0
49
.85.
793
21.9
218.
1*
50.9
1.5
95BL
UE R
IVER
51T
5910
3M
XLCO
NV22
.720
9.6
51
.03.
696
23.5
196.
8
50.9
3.7
9421
.922
2.4
*51
.13.
598
LG S
EEDS
LG
5499
102
P500
CONV
20.5
218.
1*
51.4
3.8
9821
.421
1.6
*52
.14.
798
19.6
224.
5*
50.6
2.9
98LG
SEE
DS L
G55
6510
5P5
00CO
NV22
.423
0.2
**51
.20.
097
22.4
230.
2**
51.2
0.0
97M
&W S
EEDS
45M
4310
3P2
50CO
NV21
.820
9.8
52
.02.
696
23.1
194.
6
52.2
3.0
9520
.422
4.9
*51
.72.
196
M&W
SEE
DS 4
5M79
103
P250
CONV
19.8
198.
5
50.3
5.7
9821
.119
8.0
51
.08.
898
18.5
199.
0
49.6
2.6
98M
&W S
EEDS
44P
8510
4P2
50CO
NV21
.522
5.8
*51
.03.
997
22.6
226.
8**
51.3
5.0
9720
.422
4.8
*50
.72.
796
M&W
SEE
DS 4
4M87
108
P250
CONV
26.1
212.
2
50.6
3.8
9727
.820
9.2
*50
.83.
896
24.3
215.
2
50.3
3.8
97M
ASTE
RS C
HOIC
E M
CT-5
790
107
MCM
CONV
25.8
193.
9
51.0
8.4
8926
.618
2.6
50
.45.
487
24.9
205.
1
51.5
11.3
90RU
PP X
RA02
-20
102
C250
CONV
21.6
209.
8
51.5
3.4
9722
.819
8.8
51
.64.
797
20.4
220.
8*
51.3
2.1
96VI
KING
55-
0210
2C2
50CO
NV23
.621
7.4
*52
.03.
497
24.5
219.
9*
52.0
5.3
9722
.721
4.9
51
.91.
597
VIKI
NG 5
1-04
GS
104
C250
CONV
24.1
204.
3
50.1
8.3
9725
.019
7.2
49
.92.
696
23.2
211.
4
50.3
14.0
98W
ELLM
AN W
2408
108
CONV
23.2
222.
9*
50.7
3.0
9823
.621
5.7
*51
.63.
296
22.8
230.
1*
49.7
2.8
100
WEL
LMAN
W27
0810
8CO
N V24
.720
1.5
48.9
5.2
9525
.018
9.4
49.4
5.3
9524
.421
3.6
48.4
5.1
95AV
ERAG
E23
.021
0.9
50.9
4.2
9624
.020
1.4
51.0
4.7
9522
.021
8.2
50.7
4.0
97HI
GHE
ST26
.123
0.2
52.0
8.4
9827
.822
6.8
52.2
8.8
9824
.923
0.2
51.9
14.0
100
LOW
EST
19.8
193.
948
.90.
089
21.1
178.
049
.42.
687
18.5
199.
048
.40.
090
CV (%
)4.
87.
71.
915
2.5
3.0
5.1
8.5
1.6
145.
52.
03.
75.
41.
419
7.8
2.0
LSD
(5%
)0.
913
.50.
85.
32.
01.
520
.51.
014
.53.
01.
014
.00.
99.
43.
0
2 Ye
ar A
vera
ges
2018
- 20
17BR
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 4
8G35
102
MXL
CONV
23.1
186.
1
50.7
2.2
9525
.617
3.7
49
.83.
395
20.6
198.
5
51.5
1.0
95BL
UE R
IVER
51T
5910
3M
XLCO
NV22
.619
7.8
51
.21.
896
24.0
185.
7*
51.1
1.8
9321
.220
9.9
51
.31.
899
LG S
EEDS
LG
5499
102
P500
CONV
21.6
199.
7
51.5
2.4
9623
.818
1.1
51
.12.
893
19.4
218.
3
51.8
2.0
99LG
SEE
DS L
G55
6510
5P5
00CO
NV21
.722
9.8
**52
.70.
798
21.7
229.
8**
52.7
0.7
98M
&W S
EEDS
45M
4310
3P2
50CO
NV21
.820
4.4
52
.21.
395
23.9
192.
4*
51.5
1.5
9519
.721
6.3
52
.81.
095
M&W
SEE
DS 4
4M87
108
P250
CONV
25.6
204.
6
51.5
2.1
9527
.619
7.0
**51
.22.
391
23.6
212.
2
51.7
1.9
98W
ELLM
AN W
2708
108
CON V
24.1
199.
950
.73.
295
25.0
187.
2*
50.5
3.7
9223
.121
2.5
50.9
2.6
97AV
ERAG
E22
.920
3.2
51.5
2.0
9625
.018
6.2
50.9
2.6
9321
.321
3.9
51.8
1.6
97HI
GHE
ST25
.622
9.8
52.7
3.2
9827
.619
7.0
51.5
3.7
9523
.622
9.8
52.8
2.6
99LO
WES
T21
.618
6.1
50.7
0.7
9523
.817
3.7
49.8
1.5
9119
.419
8.5
50.9
0.7
95CV
(%)
5.8
7.6
2.0
160.
44.
05.
37.
72.
025
1.6
4.0
4.8
5.7
1.5
212.
82.
0LS
D (5
%)
0.8
9.0
0.6
2.8
2.0
1.1
12.4
0.8
7.2
3.0
0.9
10.1
0.6
5.0
2.0
** 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
Late
- TR
IAL
AVER
AGE
Ingh
am -
Late
Mon
tcal
m -
Late
Sagi
naw
- La
teBU
/ABU
/ABU
/ABU
/A
Late
- TR
IAL
AVER
AGE
Ingh
am -
Late
Mon
tcal
m -
Late
Sagi
naw
- La
teBU
/ABU
/ABU
/ABU
/A
- 24 -
2 Yea
r Ave
rage
s 201
8 - 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AgVe
ntur
e AV
5096
AM96
C250
1,2,
419
.022
9.1
*52
.10.
195
17.5
248.
6*
52.8
0.0
9421
.322
3.4
51
.00.
195
18.3
215.
3*
52.4
0.3
97CH
ANNE
L 19
7-66
VT2
PRIB
97A2
501,
218
.521
7.1
54
.40.
296
17.3
236.
3
55.9
0.1
9419
.920
5.3
53
.90.
096
18.4
209.
8*
53.4
0.4
99CR
OPLA
N 33
99VT
2P/R
IB93
ACC
1,2,
3,4
18.0
214.
1
54.7
0.1
9616
.923
1.3
56
.50.
394
19.4
211.
8
53.7
0.0
9617
.619
9.2
53
.90.
099
CROP
LAN
3499
VT3P
/RIB
94AC
C1,
2,3
18.0
215.
9
54.7
0.1
9716
.622
5.9
56
.70.
396
19.2
214.
1
54.2
0.0
9818
.320
7.7
53
.30.
198
CROP
LAN
3575
VT2P
/RIB
95AC
C1,
217
.422
2.7
55
.30.
296
16.0
240.
6
57.1
0.5
9418
.920
9.1
54
.40.
096
17.2
218.
4*
54.5
0.2
98CR
OPLA
N 38
99VT
2P/R
IB96
ACC
1,2
18.9
225.
4
53.6
0.1
9617
.524
0.0
55
.70.
392
20.1
217.
0
52.9
0.0
9719
.021
9.2
*52
.30.
098
CROP
LAN
3795
VT2P
/RIB
97AC
C1,
218
.122
8.4
*54
.90.
397
16.8
243.
1*
56.9
0.3
9619
.624
1.1
**54
.30.
098
17.9
201.
0
53.4
0.6
98CR
OPLA
N 40
79SS
/RIB
100
ACC
1,2,
3,4
18.7
225.
3
53.7
0.6
9718
.023
3.9
55
.10.
194
19.9
222.
3
52.8
0.0
9718
.321
9.7
**53
.11.
799
DAIR
YLAN
D SE
ED R
PM-3
715A
M96
1,2,
418
.723
2.3
**52
.10.
194
17.6
251.
3**
53.3
0.0
9119
.622
8.4
51
.30.
393
18.8
217.
1*
51.6
0.0
98DA
IRYL
AND
SEED
DS-
9599
99C5
001,
2,3,
419
.122
4.4
53
.30.
196
18.2
238.
9
55.2
0.2
9420
.122
0.8
52
.30.
195
19.0
213.
4*
52.3
0.0
99DA
IRYL
AND
SEED
RPM
-401
8AM
101
1,2,
419
.622
8.4
*53
.30.
493
18.3
251.
0*
54.5
0.7
8921
.222
0.3
52
.60.
395
19.2
213.
9*
52.7
0.2
95DA
IRYL
AND
SEED
RPM
-411
5AM
101
1,2,
418
.722
1.1
54
.70.
292
17.9
235.
3
55.8
0.4
8620
.022
2.0
54
.00.
394
18.3
206.
0
54.4
0.0
97DY
NAGR
O D3
9DC4
399
P500
1,2
18.9
226.
0*
52.5
0.4
9717
.724
9.5
*54
.80.
095
20.9
221.
4
51.4
0.0
9818
.020
7.0
51
.31.
198
MIS
SION
SEE
D AM
P A9
826V
T2P
98P2
501,
217
.722
4.0
54
.60.
195
16.9
235.
9
55.8
0.0
9318
.722
4.6
54
.10.
094
17.6
211.
4*
53.8
0.3
98M
ISSI
ON S
EED
AMP
A610
1VT2
P10
1P2
501,
219
.022
0.5
54
.30.
093
17.9
223.
6
55.9
0.0
9020
.022
1.8
53
.60.
093
19.1
216.
2*
53.3
0.0
95RE
NK R
K608
DGVT
2P10
0C2
501,
219
.022
2.8
52
.80.
192
17.7
242.
1*
54.9
0.0
9120
.421
7.6
52
.20.
093
18.9
208.
8*
51.4
0.3
93RU
PP X
RT94
-06
94P2
501,
218
.122
1.1
54
.50.
297
16.9
235.
4
56.5
0.3
9619
.522
1.5
53
.60.
397
17.9
206.
3
53.3
0.0
98RU
PP X
RD97
-95
97P2
501,
217
.922
7.4
*54
.80.
396
16.8
243.
0*
56.7
0.1
9219
.523
0.6
*53
.80.
497
17.4
208.
5
53.8
0.3
98RU
PP X
RD00
-51
100
P250
1,2
18.8
210.
0
54.6
0.0
9717
.623
0.2
56
.40.
094
19.7
203.
2
54.1
0.0
9819
.019
6.5
53
.30.
199
SEED
CON
SULT
ANTS
SCS
101
8YHR
101
C250
1,2,
419
.223
0.5
*53
.30.
696
18.5
250.
0*
54.4
1.5
9220
.922
9.5
*52
.70.
498
18.3
212.
0*
52.9
0.0
98SP
ECIA
LTY
26A2
3696
P500
1,2,
3,4
18.3
227.
0*
54.0
0.1
9617
.223
9.2
55
.40.
493
19.3
230.
0*
53.3
0.0
9818
.321
1.8
*53
.40.
098
SPEC
IALT
Y 30
A307
100
P500
1,2,
3,4
20.1
223.
2
54.1
0.0
9718
.924
1.0
*55
.50.
096
21.2
216.
1
53.4
0.1
9720
.321
2.5
*53
.30.
099
AVER
AGE
18.6
223.
553
.90.
296
17.5
239.
455
.50.
393
20.0
220.
553
.20.
196
18.4
210.
553
.00.
398
HIGH
EST
20.1
232.
355
.30.
697
18.9
251.
357
.11.
596
21.3
241.
154
.40.
498
20.3
219.
754
.51.
799
LOW
EST
17.4
210.
052
.10.
092
16.0
223.
652
.80.
086
18.7
203.
251
.00.
093
17.2
196.
551
.30.
093
CV (%
)4.
26.
21.
451
8.6
4.0
3.6
5.5
1.4
525.
35.
04.
27.
01.
355
9.6
4.0
4.7
6.2
1.6
454.
73.
0LS
D (5
%)
0.4
6.5
0.4
0.5
2.0
0.5
10.5
0.6
1.0
4.0
0.7
12.3
0.6
0.5
3.0
0.7
11.1
0.7
1.0
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
Early
- TR
IAL
AVER
AGE
BU/A
BU/A
Alleg
an -
Early
Ingh
am -
Early
BU/A
Sagi
naw
- Ear
lyBU
/A
TABL
E 2E
- Co
ntin
ued
from
pag
e 13.
ZONE
2AL
LEGA
N, IN
GHAM
& S
AGIN
AW C
OUNT
Y GR
AIN
TRIA
LS -
EARL
Y (1
01 D
ay an
d Ea
rlier
)
- 25 -
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 DROPPED 2018 Extended rain events, too wet to plant
BRANCH May 29 Nov 8 Corn 33,264 31,767 190-9-3
CASS May 9 Oct 22 Corn 33,264 31,434 245-9-3
Zone
2
ALLEGAN May 18 Oct 19 Soybeans 33,264 29,938 160-9-3 plus manure
INGHAM May 27 Oct 27 Soybeans 33,264 31,933 195-9-3
INGHAM CONV. DROPPED 2018 Drought conditions, poor quality stand
SAGINAW & CONV. May 30 Nov 14 Soybeans 33,264 31,933 160-9-3
Zone
3
HURON May 16 Oct 23 Corn 33,264 32,100 160-9-3 plus manure
MONTCALM & CONV. May 18 Nov 2 Corn 33,264 31,518 160-9-3
MASON May 23 Oct 24 Soybeans 33,264 31,434 160-9-3 plus manure
Zone
4
IOSCO May 17 Oct 30 Corn 33,264 31,767 160-9-3 plus manure
OSCEOLA May 23 Nov 1 Black beans 33,264 31,601 160-9-3 plus manure
PRESQUE ISLE DROPPED 2018 Drought conditions, poor plant development
COUNTY SOIL TYPE SOIL TEST FARM COOPERATOR LOCATION
Zone
1
WASHTENAW DROPPED Talladay Farms Matthew Talladay
Milan
BRANCH Oshtemo sandy loam pH 6.2, P89 K 110
Huff Farms Kyle Huff
Coldwater
CASS Kalamazoo loam pH 6.4, P25K 198
Brossman’s Farm George Brossman
Vandalia
Zone
2
ALLEGAN Ockley loam pH 6.1, P95 K 170
Schipper Farms Jim & John Schipper
Martin
INGHAM Conover loam pH 7, P 35K 192
Jorgensen Farms Jerry Jorgensen & Mike Turner
Williamston
INGHAM CONV. DROPPED Plant, Soil & Microbial Sciences Research Facility, MSU
Lansing
SAGINAW & CONV. Conover loam 61%Brookston loam 39%
pH 6.75, P 47 K 219
Fred Gross Farms Peggy Gross & Dick Birchmeier
New Lothrop
Zone
3
HURON & CONV. Shebeon cobbley loam 69% Shebeon loam 31%
pH 7.9, P77.5 K 236
Wil-Le Farms Ron, Ed and Chris McCrea
Bad Axe
MONTCALM McBride and Isabella sandy loams 100%
pH 5.95, P 96K 198
Karnatz Farms Scott Karnatz
Greenville
MASON Ithica-Arkona complex 98% pH 6.6, P 47 K 121
Robert Oshe Jacob Zwagerman
Scottville
Zone
4
IOSCO Kawkawlin sandy loam 100% pH 7.2, P 40K 194
Double B Dairy Jeremy, Tim and Roger Beebe
Hale
OSCEOLA McBride sandy loam 80% Onekama loam/Saginaw lobe
pH 6.5, P 77 k 156
Pine Crest Dairy Farm John Bode
Cadillac
PRESQUE ISLE DROPPED Ponik Farms Paul Ponik
Posen
- 26 -
HYBRID INDEX FOR GRAIN TRIALSZONE 1
Tables 1E/1LBranchCass
WastenawTrial Average
ZONE 2Tables 2E/2L
Allegan InghamSaginaw
Trial Average
CONVENTIONAL TRIALTables 5E/5L
Ingham - Zone 2Montcalm - Zone 3Saginaw - Zone 2
Trial Average
ZONE 3Tables 3E/3L
HuronMason
MontcalmTrial Average
ZONE 4Table 4E/4L
Iosco Osceola
Presque IsleTrial Average
BRAND / HYBRID RM TABLE
AGRIGOLD A628-20VT2RIB 98 2E A629-22STXRIB 99 2E~ A633-94STX 103 2L A635-54VT2RIB 105 1E,2L A637-55VT2PRO 107 1E~ A639-40VT2RIB 109 1L A641-78STXRIB 111 1L AgVenture AV4994AM 94 2E,3E AV5096AM 96 2E,3E AV5799AM 99 2E,3L AV6302AM 102 2L,3L BLUE RIVER 38G54 96 5E 48G35 102 5L~ 51T59 103 5L BRODBECK 59RA02 102 2L,3L 48PW03E 103 2L,3L 48PW09E 109 1L,2L 46RA05 112 1L,2L CHANNEL 192-08 VT2PRIB 92 2E 195-18 VT2PRIB 95 2E 196-40 STXRIB 96 1E 197-66 VT2PRIB 97 2E 197-68 STXRIB 97 1E 201-28 VT2PRIB 101 2E 203-01 STXRIB 103 1E 203-01 VT2PRIB 103 2L 207-27 STXRIB 107 1E 207-27 VT2PRIB 107 2L 209-15 STXRIB 109 1L 213-19 STXRIB 113 1L CROPLAN 3399VT2P/RIB 93 2E,3E X18093VT2P 93 2E,3E 3499VT3P/RIB 94 2E,3E 3575VT2P/RIB 95 2E,3E 3899VT2P/RIB 96 2E,3E
BRAND / HYBRID RM TABLE
3575SS/RIB 95 2E,3E 3795VT2P/RIB 97 2E,3E 4079VT2P/RIB 99 2E,3L 4079SS/RIB 100 2E,3L DAIRYLAND SEED DS-9686 86 4E RPM-2918AM 86 4E DS-7294A 94 3E,4L~ RPM-3518AM 96 4L~ RPM-3519AM 96 2E,3E,4L~ RPM-3715AM 96 2E,3E~ RPM-499AM 97 2E,3E DS-9599 99 2E,3L RPM-4019AM 99 2E,3L DS-7101 101 2E,3L RPM-4018AM 101 2E,3L~ RPM-4115AM 101 2E,3L DS-7603PE 103 2L,3L~ EXP-10306 103 2L,3L RPM-4317AM 103 2L DS-9804RA 104 2L,3L~ EXP-10411 104 1E,2L~ RPM-4318AM 104 1E,2L,3L RPM-4329AM 104 1E,2L,3L~ RPM-562XRR 106 1E,2L DS-9508RA 108 1L EXP-10813 108 1L~ RPM-4816AM 108 1L~ DS-7909PE 109 1L RPM-5018AM 109 1L DS-9510RA 110 1L~ EXP-11015 110 1L EXP-11020 110 1L DYNAGRO D27VC87 87 4E D34VC54 94 2E,3E,4L D37VC64 97 2E,3E D39CC43 99 5E~ D39DC43 99 2E,3L~ D43VC81 103 2L D44VC40 104 2L D47VC29 107 1E D49VC70 109 1L
BRAND / HYBRID RM TABLE
GOLDEN HARVEST ~ G90Y04-3220A 92 2E,3E,4L~ G95D32-3220 95 2E,3E G95P13-3110 95 2E G97N86-3110 97 2E G03C84-3120 103 2L~ G04S19-3010 104 1E,2L G06Q68-3220 106 1E,2L G07F23-3111 107 1E~ G08M20-3010 108 1L~ G09A86-3110 109 1L~ G09Y24-3220A 109 1L LEGACY SEEDS L-2817VT2P 86 4E L-2847 VT2P 88 4E L-2937 3120 89 4E L-3017 VT2P 90 4L L-3117 VT2P 91 4L L-3115 SSX 93 3E L-3517 VT2P 95 3E L-3547 CONV 95 5E L-3712 CONV 96 5E L-3617 VT2P 97 2E,3E L-3718 VT2P 98 2E,3L L-3816 VT2P 100 3L L-4118 SSX 100 2E~ L-5217 SSX 102 2L L-5418 SSX 105 1E L-5516 SSX 105 1E L-6918 SSX 108 1L LEGEND 40J684 RR 84 4E 9986 VT2PRIB 86 4E 9891 VT2PRIB 91 4L 9895 VT2PRIB 95 3E 9897 VT2PRIB 97 2E,3E 9999 VT2PRIB 99 2E 9701 GENSSRIB 101 2L 9804 GENSSRIB 104 2L 9907 GENSSRIB 107 2L
- 27 -
BRAND / HYBRID RM TABLE LG SEEDS LG5370VT2RIB 84 4E LG5375VT2RIB 85 4E LG38C18VT2RIB 88 4E LG5410VT2RIB 91 3E,4L LG5415VT2RIB 93 3E,4L~ LG44C27VT2PRO 94 2E,3E,4L~ LG44C34-3110 94 2E,3E,4L LG5427 95 5E~ LG5465VT2RIB 97 2E,3E LG5470 98 5E~ LG5494VT2RIB 99 2E,3L LG5505VT2RIB 100 1E,2E,3L LG5499 102 5L LG5499VT2RIB 102 1E,2L~ LG5525VT2RIB 105 1E,2L LG5565 105 5L~ LG57C28VT2PRO 107 1E,2L~ LG58C77VT2PRO 107 1E~ LG5565STXRIB 108 1L~ LG59C66VT2PRO 109 1L LG5590VT2RIB 110 1L M&W SEEDS 48R11 87 3E,4E 47P61 90 3E,4L 47J64 94 5E 47R22 94 5E 46R52 95 2E,3E,4L 46L41 96 5E 46P76 97 2E,3E 45P33 100 5E 45R05 100 5E 45A37 101 5E 45M43 103 5L 45M79 103 5L 45R69 103 1E,2L 44P85 104 5L~ 44R35 105 1E,2L~ 44D81 108 1L 44M87 108 5L 44R77 108 1L MASTERS CHOICE MCT-5790 107 5L MISSION SEED AMP A9567VT2P 95 2E,3E A9826VT2P 98 2E,3L MEX9938VT2P 99 2E,3L A6101VT2P 101 2E,3L A0357SS 103 2L,3L
BRAND / HYBRID RM TABLE NK Brand NK8920-3120 89 3E~ NK9227-3220A 92 3E~ NK9505-3110 95 3E NK9659-3120 96 2E NK0199-3122A 101 2E~ NK0330-3120 103 2L NK0624-3220 106 1E NK0886-3010 108 1L NK0962-3220A 109 1L RENK RK408VT2P™ 90 3E RK433RR 92 3E 8-536VT2P 94 3E RK568VT2P 95 3E RK587VT2P 97 3E RK579DGVT2P 98 3L RK593SSTX 99 3L RK608DGVT2P 100 2E RK604SSTX 102 2L~ RK642SSTX 103 2L~ RK717SSTX 105 2L~ RK710DGVT2P 106 2L~ RK737SSTX 106 2L RK763VT2P 108 1L RK779SSTX 108 1L RK810SSTX 110 1L~ RK842SSTX 112 1L RUPP XRA94-16 94 5E XRT94-06 94 2E,3E XRD97-95 97 2E,3E XRA99-20 99 5E XRA00-21 100 5E XRD00-51 100 2E,3L XRA02-20 102 5L XRD03-07 103 2L,3L~ XRD06-70 106 1E~ XRD07-72 107 1E 8XP888 108 1L 8XP843 110 1L XRD10-16 110 1L~ XRD11-57 111 1L XRD12-49 112 1L SEED CONSULTANTS SCS 989YHR™ 98 1E,2E SCS 1018YHR™ 101 1E,2E SCS 1037YHR™ 103 1E,2L SCS 10HR43™ 104 1E,2L~ SC 10AGT59™ 105 1E,2L
BRAND / HYBRID RM TABLE SEEDWAY SW3600GENSSRIB 92 2E,3E SW3768GENSSRIB 95 2E,3E SW4010GENSSRIB 100 2E,3L SW5440GENSSRIB 106 2L SPECIALTY 26A236 96 2E 27D728 97 2E 30A307 100 2E 32A323 102 1E,2L 32A886 102 1E,2L 34A007 104 1E,2L 37A808 107 1E SUN PRAIRIE SP1970 94 2E,3E SP1927 95 2E,3E SP2272 101 2E,3L VIKING O.84-95UP 95 5E O.98-98P 98 5E~ O.79-00 100 5E 55-02 102 5L~ 51-04GS 104 5L WELLMAN W2801DP 101 1E,2E W2903DP 103 1E,2L W2705DP 105 1E,2L W2307DP 107 1E,2L W2408 108 5L W2708 108 5L W2807DP 108 1L,2L W2609DP 109 1L,2L W2911DP 110 1L,2L W2812DP 111 1L,2L WYCKOFF 2187 VT2P 97 1E 2212 VT2P 100 1E 2263 SS 101 1E 2313 VT2P 103 1E 2390 VT2P 103 1E 2399 SS 104 1E 2400 SS 105 1E 2433 VT2P 105 1E 2500 SS 106 1E 2585 SS 107 1E
~ Denotes hybrids that were entered into the Grain and Silage Trials.
- 28 -
2018SILAGE PERFORMANCE TRIALS
IntroductionThe silage index (pg. 31) contains a list of all hybrids planted
in the 2018 silage trials.County results are reported in the following tables:Tables 6E/6L Zone 1 - Branch, Lenawee, and Wood
County, OH (Lenawee County early trial dropped)Tables 7E/7L Zone 2/3 – Ottawa, Huron (Zone 3), and
Ingham Tables 8E/8L Zone 4 – Iosco, Osceola, and Presque Isle
(Presque Isle County dropped)The map of Michigan (pg.29) 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. 30).
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, Wood County, OH location is planted and managed by The Ohio State University while Michigan State University performs harvest, quality and data analysis.
A New Holland T6.175 tractor powered a two-row Champion C1200 Kemper forage harvester and a rear mounted Haldrup M-63 weigh system to harvest the two center rows. Electronic scales mounted on the Haldrup M-63 weigh system measured plot and subsample weights. All fi eld data was recorded on a Panasonic FZ-G1 Toughpad using Harvest MasterTM software. Total plot weight was used to calculate green tons per acre (GT/A). Sub samples of fodder including grain were collected, weighed, and oven dried in a WRH586-500 Greives forced air dryer until weight loss was zero, then re-weighed 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 Christy mill fi tted with a 1mm screen before conducting quality analysis using Near-infrared spectroscopy (NIRS) to predict quality components.
Silage Analysis Tables 6E, 6L, 7E, 7L, 8E and , 8L provide silage quality
data as determined by Near-infrared Spectroscopy (NIRS) 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 correlated statistically with the NIRS Consortiums calibration 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.
Silage 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.
- 29 -
2018 Silage Trial LocationsMILK2006The MILK2006 equation (University Wisconsin-Madison
Dairy Science Department) was used to estimate 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 crude protein, 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 neutral detergent fi ber 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
Marinette Co. WI
Notes
- 30 -
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 29 Sept 28 Corn 33,264 31,600 190-9-3
LENAWEE May 30 Oct 2 Corn 33,264 31,600 160-9-3 plus manure
WOOD(OHIO) May 24 Sept 5 Soybeans 33,264 31,600 222-26-0
Zone
2/3
OTTAWA June 7 Oct 9 Corn/rye cover 33,264 30,104 160-9-3 plus manure
INGHAM May 27 Sept 7 Soybeans 33,264 32,099 160-9-3 plus manure
HURON May 16 Sept 13 & 14 Corn 33,264 32,432 160-9-3 plus manure
Zone
4
IOSCO May 17 Sept 24 Corn 33,264 31,933 160-9-3 plus manure
PRESQUEISLE DROPPED 2018 Drought conditions poor plant development
OSCEOLA May 23 Sept 12 Black beans 33,264 31,600 160-9-3 plus manure
COUNTY SOIL TYPE SOIL TEST FARM COOPERATOR LOCATION
Zone
1
BRANCH Oshtemo sandy loam pH 6.2, P 89 K 110
Huff Farms Kyle Huff
Coldwater
LENAWEE Blount loam 64% Pewamo clay 31%
pH 7.4, P 62 K 161
Baker-Ladd Farms Blaine Baker Clayton
WOOD(OHIO) Hoytville clay loam pH 6.9 , P 57
K 191
OARDC Matt Davis &
Richard Minyo Hoytville, Ohio
Zone
2/3
OTTAWA Belding sandy loam pH 7, P 41 K 178
J & J Dairy Tim, Dave and Daniel
Van Dyke Marne
INGHAM Conover loam 88% Colwood-Brookston loams 12%
pH 6, P 49 K 196
Plant, Soil & Microbial Sciences Research
Facility, MSU East Lansing
HURON Shebeon cobbley loam 69%
Shebeon loam 31% pH 7.9, P 77.5
K 236
Wil-Le Farms Ron, Ed and Chris
McCrea Bad Axe
Zone
4
IOSCO Kawkawlin sandy loam 100% pH 7.2, P 40K 194
Double B Dairy Jeremy, Tim and Roger
Beebe Hale
PRESQUEISLE DROPPED Ponik Farms
Paul Ponik Posen
OSCEOLAMcBride sandy loam 80% Onekama/Saginaw lobe
pH 6.5, P 77K 156
Pine Crest Dairy Farm John Bode
Cadillac
- 31 -
SILAGE HYBRID INDEXZONE 1 - Tables 6E/6L
BranchLenawee
Wood (Ohio)Trial Average
ZONE 2/3- Tables 7E/7LHuron - Zone 3
InghamOttawa
Trial Average
ZONE 4 - Tables 8E/8LIosco
OsceolaPresque IsleTrial Average
BRAND / HYBRID RM TABLE
AGRIGOLD ~ A633-94STX 103 7E A638-94STX 108 7L~ A639-40VT2RIB 109 7L BECK 5829A4 108 7L 6082AM™* 110 6E BLUE RIVER ~ 51T59 103 7E CROPLAN 4099SS/RIB 99 7E 4188SS 104 7E S4600/RIB 104 7E 4791AS3111GT 106 7L DAIRYLAND SEED HiDF-3188-6 88 8E HiDF-3290-9 90 8E~ RPM-3518AM 96 8E~ RPM-3519AM 96 8E~ RPM-3715AM 96 8E HiDF-3197RA 97 7E,8E~ RPM-499AM 97 8E HiDF-3099RA 99 7E,8E~ RPM-4115AM 101 8L EXP-10207 102 7E,8E HiDF-3202PE 102 7E,8E HiDF-3702-9 102 7E,8E~ EXP-10306 103 7E,8E~ EXP-10411 104 7E~ RPM-4318AM 104 7E,8E HiDF-3605RA 105 6E,7L EXP-10617 106 7L~ RPM-562XRR 106 7L,8L HiDF-3407RA 107 6E,7L HiDF-3808RA 108 6E,7L~ RPM-4816AM 108 7L~ DS-7909PE 109 6E,7L DS-9713RA 110 6E~ EXP-11015 110 6E EXP-11016 110 6E,7L HiDF-3510SSX 110 6E EXP-11113 111 6L HiDF-3211RA 111 6L,7L DS-7215 112 6L EXP-11315 113 6L HiDF-3413SSX 113 6L DYNAGRO D37SS64 97 8E~ D39DC43 99 7E~ D43VC81 103 7E D47SS29 107 7L D49SS70 109 6E D58SS65 118 6L
BRAND / HYBRID RM TABLE FS InVision FS53ZX1 RIB 103 6E FS57ZX1 RIB 107 6E FS60UX1 RIB 110 6E FS62RL1 EZR 112 6L FS62ZX1 RIB 112 6L FS63ZX1 RIB 113 6L FS64SX1 RIB 114 6L GOLDEN HARVEST ~ G90Y04-3220A 92 7E,8E~ G95D32-3220 95 7E,8E~ G04S19-3010 104 7E~ G08M20-3010 108 6E,7L~ G09A86-3110 109 6E,7L~ G09Y24-3220A 109 6E,7L G10T63-3120 110 6E,7L G14R38-3120 114 6L G16K01-3111 116 6L G18D87-3111 118 6L KingFisher 43C40 93 8E 52C20 102 7E 54C10 104 7E 58C80 108 6E,7L 60C30 110 6E LEGACY SEEDS L-3335 3220 93 8E L-3537 3110 95 8E L-4433 3122 101 7E,8E~ L-5217 SSX 102 7E L-5350 3122 104 7E L-6838 3010 108 7L L-6937 3111 109 6E,7L LG SEEDS ~ LG44C27VT2PRO 94 8E~ LG44C34-3110 94 8E~ LG5465VT2RIB 97 8E~ LG5494VT2RIB 99 8L LG5505STXRIB 100 7E,8E LG5499STXRIB 102 7E,8E~ LG5525VT2RIB 105 7L~ LG57C28VT2PRO 107 7L~ LG58C77VT2PRO 107 6E,7L~ LG5565STXRIB 108 6E,7L LG5548STXRIB 109 6E~ LG59C66VT2PRO 109 6E LG5606STXRIB 111 6L LG62C02STX 112 6L LOCAL SEED LC1349 SSXRIB 113 6L LC1600 VT3PRIB 116 6L
BRAND / HYBRID RM TABLE
M&W SEEDS ~ 44R35 105 6E,7L~ 44D81 108 6E,7L MASTERS CHOICE MCT-4934 99 7E,8E MCT-5371 103 6E,7E,8L MCT-5454 104 6E,7E,8L MCT-5663 106 6E,7L MCT-6153 111 6L MCT-6363 113 6L NK Brand ~ NK9227-3220A 92 7E NK9292-3111 92 7E~ NK9505-3110 95 7E~ NK0330-3120 103 6E,7E NK0519-3122 105 6E NK0760-3111 107 6E NK0929-3122 109 6E RENK RK724RR 102 7E 7-726SSTX 103 7E~ RK642SSTX 103 7E~ RK717SSTX 105 7L~ RK710DGVT2P 106 7L~ RK737SSTX 106 7L RK859DGVT2P 109 6E,7L~ RK842SSTX 112 6L,7L RUPP XRJ99-70 99 7E~ XRD06-70 106 6E~ XRD07-72 107 6E~ XRD11-57 111 6L SEED CONSULTANTS ~ SC 10AGT59™ 105 7L SCS 1087YHR™ 108 7L SCS 1125YHR™ 112 7L VIKING 71-90GS 90 8E~ O.79-00 100 7E,8E~ 51-04GS 104 6E,7E,8L 48-08GS 108 6E O.74-10GS 110 6E 53-12 112 6L WOLF RIVER VALLEY 2612 110 6E 3910FLRR 110 6E
~ Denotes hybrids that were entered into the Grain and Silage Trials.
- 32 -
TABL
E 6E
.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
2018
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/
ABE
CK 6
082A
M™
*11
01,
2,4
39.1
27.4
10.7
*95
82.3
20.5
38.4
53.9
7.0
40.3
3313
3478
841
.626
.310
.9*
9483
.118
.935
.652
.67.
544
.033
8436
941
DAIR
YLAN
D SE
ED H
iDF-
3605
RA10
5C5
001,
2,3,
4,6
41.7
23.4
9.6
9380
.221
.638
.847
.07.
337
.432
2731
171
42.8
21.6
8.9
9079
.722
.439
.144
.27.
435
.932
3029
374
DAIR
YLAN
D SE
ED H
iDF-
3407
RA10
7C5
001,
2,3,
4,6
40.8
24.2
9.7
9580
.120
.941
.350
.86.
737
.731
6130
669
44.0
22.7
9.9
9880
.519
.441
.050
.26.
840
.031
8031
590
DAIR
YLAN
D SE
ED H
iDF-
3808
RA10
8C5
001,
2,3,
4,6
37.4
28.0
10.5
*99
80.2
22.8
41.2
50.3
6.8
37.1
3165
3410
540
.028
.211
.3**
9982
.218
.736
.250
.77.
442
.433
2337
460
DAIR
YLAN
D SE
ED D
S-79
09PE
109
C500
1,2,
4,6
43.6
24.3
10.4
*97
82.7
18.8
36.4
52.5
6.8
42.1
3358
3573
548
.022
.710
.7*
9783
.017
.735
.852
.47.
044
.233
7636
221
DAIR
YLAN
D SE
ED D
S-97
13RA
110
C500
1,2,
3,4,
636
.826
.49.
896
81.0
19.2
37.9
49.9
6.9
40.7
3244
3237
637
.726
.610
.195
81.4
18.4
36.7
49.4
7.3
41.6
3275
3290
3DA
IRYL
AND
SEED
EXP
-110
1511
01,
2,4
42.3
24.7
10.4
*94
81.2
20.0
38.3
51.0
6.9
41.5
3252
3388
242
.923
.510
.195
82.3
18.7
36.8
51.9
7.1
44.8
3326
3350
9DA
IRYL
AND
SEED
EXP
-110
1611
01,
2,4
40.9
24.9
10.2
9683
.817
.936
.254
.07.
441
.934
1934
948
42.0
25.3
10.6
9784
.018
.535
.054
.27.
844
.734
3936
547
DAIR
YLAN
D SE
ED H
iDF-
3510
SSX
110
C500
1,2,
3,4,
635
.327
.99.
894
79.9
22.6
41.0
51.9
6.6
34.3
3104
2992
535
.627
.89.
994
80.0
22.3
41.7
51.9
6.9
36.8
3144
3111
0DY
NAGR
O D4
9SS7
010
9P5
001,
2,3,
441
.024
.410
.096
81.8
18.0
35.8
49.0
7.2
43.2
3306
3363
644
.923
.710
.697
82.4
15.7
33.9
47.9
7.3
45.9
3357
3550
7FS
InVi
sion
FS53
ZX1
RIB
103
P500
1,2,
3,4
48.0
19.5
9.1
9583
.217
.935
.250
.87.
143
.933
9330
078
54.7
16.3
8.9
9284
.716
.333
.351
.17.
248
.535
0329
403
FS In
Visio
n FS
57ZX
1 RI
B10
7P5
001,
2,3,
442
.823
.19.
894
81.5
19.7
38.1
50.1
7.0
40.1
3268
3264
046
.521
.39.
993
82.2
17.5
35.2
49.5
7.1
44.5
3338
3296
2FS
InVi
sion
FS60
UX1
RIB
110
P500
1,2,
3,4
40.3
24.7
9.9
9881
.417
.637
.050
.57.
141
.832
7632
538
42.4
23.8
10.1
9782
.615
.736
.150
.67.
144
.933
5333
774
GOLD
EN H
ARVE
ST G
08M
20-3
010
108
C500
1,2,
444
.722
.29.
894
82.5
16.7
34.0
50.8
7.6
45.2
3364
3293
950
.719
.810
.191
83.7
16.2
33.9
51.8
8.0
46.4
3430
3446
7GO
LDEN
HAR
VEST
G09
A86-
3110
109
C500
1,2,
4,6
44.2
22.6
10.0
9581
.018
.136
.750
.97.
241
.832
5532
611
44.8
22.0
9.8
9382
.516
.535
.650
.97.
543
.933
5032
936
GOLD
EN H
ARVE
ST G
09Y2
4-32
20A
109
C500
1,2,
3,4
42.6
22.2
9.5
9481
.718
.837
.753
.17.
140
.632
8531
756
46.3
19.8
9.4
9381
.618
.436
.953
.17.
541
.232
8232
132
GOLD
EN H
ARVE
ST G
10T6
3-31
2011
0C5
001,
2,4
37.5
26.5
10.0
9679
.821
.840
.149
.47.
039
.031
5032
097
40.5
25.7
10.5
9881
.418
.536
.248
.67.
643
.432
7734
511
King
Fish
er 5
8C80
108
CONV
44.6
23.9
10.7
*95
82.4
18.5
36.0
51.8
7.3
39.2
3360
3680
546
.923
.611
.1*
9382
.816
.533
.451
.97.
440
.234
2938
245
King
Fish
er 6
0C30
110
CONV
38.1
25.6
9.7
9581
.518
.938
.551
.17.
737
.832
6231
774
39.1
25.7
10.1
9382
.617
.536
.751
.08.
140
.033
4233
592
LEGA
CY S
EEDS
L-6
937
3111
109
C250
1,2,
3,4,
643
.123
.810
.296
82.4
18.7
37.3
51.7
7.6
40.6
3325
3395
345
.223
.810
.7*
9582
.916
.935
.351
.67.
844
.233
7436
172
LG S
EEDS
LG5
8C77
VT2P
RO10
7P5
001,
2,3
45.4
23.2
10.5
*96
82.2
18.6
36.1
50.8
7.3
42.0
3329
3412
946
.322
.510
.496
82.6
18.0
35.6
51.3
7.5
42.9
3352
3321
6LG
SEE
DS L
G556
5STX
RIB
108
P500
1,2,
3,4
41.4
24.8
10.4
*95
83.5
16.4
34.7
52.6
6.9
42.9
3422
3542
044
.722
.010
.296
85.1
14.8
32.1
53.5
7.0
47.2
3536
3616
0LG
SEE
DS L
G554
8STX
RIB
109
P500
1,2,
3,4
41.4
24.0
9.9
9882
.916
.935
.353
.06.
743
.033
7733
308
43.7
22.1
9.6
9883
.016
.434
.253
.16.
945
.333
9032
452
LG S
EEDS
LG5
9C66
VT2P
RO10
9P5
001,
2,3
46.6
23.2
10.8
**96
81.8
19.0
37.7
50.8
7.2
40.7
3292
3551
348
.122
.610
.8*
9783
.116
.134
.951
.47.
445
.033
8836
612
M&W
SEE
DS 4
4R35
105
P250
1,2
45.1
22.0
9.5
9582
.218
.135
.447
.57.
440
.833
1631
357
51.2
20.8
10.5
9382
.818
.334
.445
.27.
541
.133
3535
047
M&W
SEE
DS 4
4D81
108
P250
1,2
43.5
23.7
10.2
9781
.419
.037
.450
.37.
040
.132
6133
400
47.1
22.3
10.5
9883
.115
.533
.850
.07.
445
.834
0035
596
MAS
TERS
CHO
ICE
MCT
-537
110
3C2
501
45.5
18.0
8.4
9382
.117
.235
.950
.17.
143
.033
2328
000
51.1
18.1
9.4
9283
.615
.532
.949
.97.
148
.434
3732
128
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
44.4
20.3
9.1
9181
.920
.538
.451
.17.
644
.632
8629
813
47.1
19.2
9.0
8883
.716
.932
.850
.37.
847
.934
4231
039
MAS
TERS
CHO
ICE
MCT
-566
310
6C2
501,
2,3,
442
.022
.89.
393
82.5
18.5
35.8
51.5
7.1
42.8
3351
3127
445
.222
.19.
690
83.0
18.3
36.1
51.7
7.3
43.3
3376
3224
7NK
Bra
nd N
K033
0-31
2010
3C2
501,
2,4
50.3
19.3
9.5
9781
.017
.835
.349
.67.
843
.332
6131
589
56.4
16.1
9.0
9782
.416
.533
.248
.98.
245
.833
6230
320
NK B
rand
NK0
519-
3122
105
C250
1,2,
3,4
41.8
22.6
9.4
9681
.020
.439
.651
.27.
136
.531
9929
532
44.2
21.8
9.6
9581
.418
.639
.551
.07.
338
.532
4631
119
NK B
rand
NK0
760-
3111
107
C250
1,2,
3,4,
643
.124
.110
.297
83.2
19.2
38.0
54.9
6.8
42.5
3365
3429
246
.323
.410
.595
83.9
16.6
35.7
54.7
7.1
43.6
3430
3594
3NK
Bra
nd N
K092
9-31
2210
9C2
501,
2,3,
438
.824
.69.
594
82.9
16.2
33.7
50.9
7.4
44.0
3387
3223
340
.424
.09.
790
82.8
15.7
33.2
51.6
7.6
46.0
3383
3272
4RE
NK R
K859
DGVT
2P10
9C2
501,
239
.824
.29.
697
82.0
18.7
36.5
49.6
7.2
42.5
3313
3170
943
.124
.010
.496
82.7
18.0
35.9
49.5
7.5
45.1
3356
3483
6RU
PP X
RD06
-70
106
P250
1,2
47.5
20.4
9.4
9782
.516
.935
.051
.77.
643
.733
5632
342
56.4
17.7
9.8
9683
.915
.131
.953
.17.
746
.934
6533
997
RUPP
XRD
07-7
210
7P2
501,
246
.122
.510
.4*
9382
.516
.933
.849
.77.
544
.133
6634
895
45.9
22.4
10.2
9183
.016
.533
.448
.97.
645
.633
9634
713
VIKI
NG 5
1-04
GS10
4C2
50CO
NV51
.919
.410
.096
83.7
16.7
34.5
53.2
7.4
43.9
3431
3439
851
.718
.19.
496
84.6
13.6
30.3
52.5
7.5
49.0
3520
3294
8VI
KING
48-
08GS
108
C250
CONV
47.8
22.5
10.5
*95
83.2
17.1
34.0
51.6
6.8
45.7
3405
3581
249
.321
.610
.395
84.7
16.3
33.4
51.9
7.0
47.9
3500
3606
1VI
KING
O.7
4-10
GS11
0C2
50CO
NV43
.222
.89.
696
83.6
16.3
33.8
51.6
7.4
44.5
3432
3291
046
.022
.59.
895
83.9
15.4
32.8
51.1
7.3
46.8
3459
3398
9W
OLF
RIVE
R VA
LLEY
261
211
0C2
501,
2,3,
439
.025
.710
.097
79.9
22.3
42.1
51.1
6.9
36.1
3139
3081
941
.225
.710
.698
79.5
23.4
43.4
50.3
7.1
35.9
3099
3082
9W
OLF
RIVE
R VA
LLEY
391
0FLR
R11
0C2
501
36.8
26.7
9.7
9677
.424
.946
.451
.77.
230
.529
4528
667
39.8
25.0
9.9
9478
.221
.141
.248
.77.
535
.230
3730
029
AVER
AGE
42.6
23.6
9.9
9581
.818
.937
.251
.17.
241
.132
9432
679
45.4
22.5
10.1
9582
.617
.535
.550
.87.
443
.733
5733
692
HIGH
EST
51.9
28.0
10.8
9983
.824
.946
.454
.97.
845
.734
3236
805
56.4
28.2
11.3
9985
.123
.443
.454
.78.
249
.035
3638
245
LOW
EST
35.3
18.0
8.4
9177
.416
.233
.747
.06.
630
.529
4528
000
35.6
16.1
8.9
8878
.213
.630
.344
.26.
835
.230
3729
374
CV (%
)5.
95.
36.
33
2.5
8.4
7.4
4.2
4.6
7.6
46
5.4
6.6
5.4
42.
27.
06.
05.
14.
16.
94
6LS
D (5
%)
2.1
1.0
0.5
31.
71.
32.
31.
80.
32.
610
617
132.
91.
70.
64
2.2
1.4
2.5
3.1
0.4
3.6
138
2437
Early
- TR
IAL
AVER
AGE
Bran
ch -
Early
DT/A
DT/A
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
- 33 -
2018
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/
ABE
CK 6
082A
M™
*11
01,
2,4
36.6
28.6
10.5
*97
81.6
22.0
41.2
55.2
6.5
36.5
3242
3263
5DA
IRYL
AND
SEED
HiD
F-36
05RA
105
C500
1,2,
3,4,
640
.525
.310
.2*
9780
.820
.938
.549
.97.
239
.032
2332
969
DAIR
YLAN
D SE
ED H
iDF-
3407
RA10
7C5
001,
2,3,
4,6
37.6
25.7
9.5
9379
.822
.441
.651
.46.
535
.331
4129
749
DAIR
YLAN
D SE
ED H
iDF-
3808
RA10
8C5
001,
2,3,
4,6
34.8
27.8
9.7
9878
.326
.846
.350
.06.
331
.830
0630
750
DAIR
YLAN
D SE
ED D
S-79
09PE
109
C500
1,2,
4,6
39.1
25.9
10.1
*96
82.5
20.0
37.0
52.6
6.7
40.0
3340
3524
9DA
IRYL
AND
SEED
DS-
9713
RA11
0C5
001,
2,3,
4,6
35.9
26.3
9.5
9680
.619
.939
.150
.46.
539
.732
1331
849
DAIR
YLAN
D SE
ED E
XP-1
1015
110
1,2,
441
.825
.910
.8**
9380
.221
.339
.950
.26.
838
.231
7834
255
DAIR
YLAN
D SE
ED E
XP-1
1016
110
1,2,
439
.924
.69.
895
83.6
17.2
37.3
53.8
7.1
39.1
3399
3334
9DA
IRYL
AND
SEED
HiD
F-35
10SS
X11
0C5
001,
2,3,
4,6
35.0
28.0
9.8
9579
.922
.940
.451
.96.
431
.930
6428
740
DYNA
GRO
D49S
S70
109
P500
1,2,
3,4
37.1
25.2
9.4
9681
.220
.437
.850
.17.
040
.532
5531
765
FS In
Visio
n FS
53ZX
1 RI
B10
3P5
001,
2,3,
441
.322
.89.
497
81.6
19.4
37.2
50.5
7.0
39.3
3284
3075
3FS
InVi
sion
FS57
ZX1
RIB
107
P500
1,2,
3,4
39.1
24.8
9.7
9580
.821
.941
.150
.76.
935
.731
9932
318
FS In
Visio
n FS
60UX
1 RI
B11
0P5
001,
2,3,
438
.225
.79.
899
80.2
19.5
37.9
50.5
7.1
38.7
3198
3130
3GO
LDEN
HAR
VEST
G08
M20
-301
010
8C5
001,
2,4
38.8
24.6
9.5
9781
.417
.134
.249
.87.
243
.932
9831
411
GOLD
EN H
ARVE
ST G
09A8
6-31
1010
9C5
001,
2,4,
643
.523
.310
.2*
9779
.619
.637
.851
.06.
839
.731
5932
286
GOLD
EN H
ARVE
ST G
09Y2
4-32
20A
109
C500
1,2,
3,4
38.9
24.5
9.6
9681
.919
.238
.653
.16.
740
.032
8731
380
GOLD
EN H
ARVE
ST G
10T6
3-31
2011
0C5
001,
2,4
34.6
27.3
9.4
9478
.125
.144
.050
.26.
534
.630
2229
683
King
Fish
er 5
8C80
108
CONV
42.2
24.3
10.3
*98
82.0
20.4
38.7
51.6
7.1
38.3
3291
3536
4Ki
ngFi
sher
60C
3011
0CO
NV37
.125
.49.
496
80.4
20.3
40.3
51.2
7.3
35.6
3181
2995
5LE
GACY
SEE
DS L
-693
7 31
1110
9C2
501,
2,3,
4,6
41.1
23.7
9.7
9881
.920
.439
.451
.87.
437
.032
7631
734
LG S
EEDS
LG5
8C77
VT2P
RO10
7P5
001,
2,3
44.5
23.9
10.6
*97
81.9
19.1
36.5
50.3
7.1
41.1
3306
3504
3LG
SEE
DS L
G556
5STX
RIB
108
P500
1,2,
3,4
38.1
27.6
10.5
*94
82.0
18.0
37.3
51.7
6.8
38.6
3309
3468
0LG
SEE
DS L
G554
8STX
RIB
109
P500
1,2,
3,4
39.1
25.9
10.2
*97
82.8
17.3
36.4
52.8
6.5
40.6
3365
3416
4LG
SEE
DS L
G59C
66VT
2PRO
109
P500
1,2,
345
.223
.910
.8**
9580
.621
.840
.650
.37.
036
.531
9534
415
M&W
SEE
DS 4
4R35
105
P250
1,2
39.0
23.3
8.4
9681
.717
.936
.449
.87.
340
.532
9827
667
M&W
SEE
DS 4
4D81
108
P250
1,2
39.8
25.2
10.0
*97
79.7
22.6
41.1
50.6
6.7
34.4
3121
3120
3M
ASTE
RS C
HOIC
E M
CT-5
371
103
C250
139
.817
.97.
494
80.6
19.0
38.9
50.2
7.2
37.5
3210
2387
1M
ASTE
RS C
HOIC
E M
CT-5
454
104
C250
1,2,
3,4,
641
.821
.59.
195
80.2
24.1
44.0
51.8
7.3
41.3
3130
2858
7M
ASTE
RS C
HOIC
E M
CT-5
663
106
C250
1,2,
3,4
38.8
23.5
9.1
9582
.018
.735
.551
.37.
042
.333
2630
302
NK B
rand
NK0
330-
3120
103
C250
1,2,
444
.222
.510
.1*
9779
.519
.137
.350
.27.
340
.931
6032
859
NK B
rand
NK0
519-
3122
105
C250
1,2,
3,4
39.4
23.4
9.2
9780
.722
.239
.751
.36.
934
.431
5227
945
NK B
rand
NK0
760-
3111
107
C250
1,2,
3,4,
639
.824
.99.
998
82.5
21.9
40.4
55.2
6.5
41.5
3301
3264
1NK
Bra
nd N
K092
9-31
2210
9C2
501,
2,3,
437
.225
.39.
497
83.0
16.8
34.3
50.3
7.3
42.0
3391
3174
2RE
NK R
K859
DGVT
2P10
9C2
501,
236
.624
.38.
897
81.3
19.4
37.1
49.6
7.0
39.9
3269
2858
1RU
PP X
RD06
-70
106
P250
1,2
38.7
23.2
9.0
9781
.118
.838
.150
.37.
540
.532
4730
686
RUPP
XRD
07-7
210
7P2
501,
246
.222
.610
.5*
9582
.117
.334
.350
.57.
542
.633
3735
077
VIKI
NG 5
1-04
GS10
4C2
50CO
NV52
.220
.610
.7*
9682
.919
.838
.754
.07.
338
.933
4235
847
VIKI
NG 4
8-08
GS10
8C2
50CO
NV46
.223
.310
.8**
9581
.617
.934
.651
.36.
643
.533
1035
562
VIKI
NG O
.74-
10GS
110
C250
CONV
40.5
23.1
9.4
9783
.317
.334
.952
.17.
542
.334
0531
831
WOL
F RI
VER
VALL
EY 2
612
110
C250
1,2,
3,4
36.8
25.7
9.4
9680
.421
.240
.952
.06.
836
.331
7830
809
WOL
F RI
VER
VALL
EY 3
910F
LRR
110
C250
133
.928
.49.
697
76.7
28.8
51.6
54.8
6.8
25.9
2854
2730
6AV
ERAG
E39
.824
.69.
796
81.0
20.4
38.9
51.4
6.9
38.4
3231
3166
6HI
GHES
T52
.228
.610
.899
83.6
28.8
51.6
55.2
7.5
43.9
3405
3584
7LO
WES
T33
.917
.97.
493
76.7
16.8
34.2
49.6
6.3
25.9
2854
2387
1CV
(%)
6.1
3.9
6.6
32.
68.
67.
82.
95.
17.
84
7LS
D (5
%)
2.8
1.1
0.8
32.
52.
13.
61.
70.
43.
516
224
69
MIL
K 20
06Le
nawe
e - E
arly
Woo
d - E
arly
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYDT
/ADT
/A
Loca
tion
Drop
ped
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
3.
- 34 -
TABL
E 6L
.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
2018
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/
ADA
IRYL
AND
SEED
EXP
-111
1311
11,
2,4
41.7
27.0
11.0
**95
82.1
16.9
35.7
49.7
7.3
42.5
3328
3608
440
.728
.711
.6**
9781
.218
.337
.049
.27.
141
.532
5237
822
DAIR
YLAN
D SE
ED H
iDF-
3211
RA11
1C5
001,
2,3,
4,6
34.8
26.4
9.2
9480
.319
.338
.251
.97.
140
.131
9630
448
35.0
29.1
10.2
9479
.320
.238
.750
.27.
338
.831
2434
319
DAIR
YLAN
D SE
ED D
S-72
1511
2C5
001,
2,6
37.9
27.7
10.3
9680
.322
.241
.653
.57.
134
.731
5932
380
39.1
30.2
11.4
*95
80.1
20.1
38.6
52.0
6.9
37.1
3170
3625
5DA
IRYL
AND
SEED
EXP
-113
1511
31,
2,4
39.6
24.9
9.5
9683
.017
.834
.352
.97.
841
.134
2232
261
38.8
29.0
10.8
*10
082
.616
.732
.352
.07.
840
.534
7238
879
DAIR
YLAN
D SE
ED H
iDF-
3413
SSX
113
C500
1,2,
3,4,
634
.927
.49.
495
81.0
20.9
40.4
53.5
7.4
37.3
3219
3000
833
.729
.910
.195
80.0
22.0
41.0
51.1
7.2
37.1
3141
3172
5DY
NAGR
O D5
8SS6
511
8P5
001,
2,3,
439
.525
.09.
795
80.6
18.9
38.4
49.5
7.6
40.3
3213
3106
139
.025
.29.
893
79.1
19.8
40.4
48.2
7.6
39.5
3094
3036
4FS
InVi
sion
FS62
RL1
EZR
112
P250
1,2,
4,6
44.6
21.2
9.1
9483
.618
.235
.553
.07.
444
.034
2031
150
43.0
22.8
9.8
9482
.517
.335
.750
.97.
543
.533
3834
504
FS In
Visio
n FS
62ZX
1 RI
B11
2P5
001,
2,3,
441
.124
.09.
797
82.1
18.6
37.6
52.5
7.5
41.1
3311
3244
940
.625
.410
.496
82.2
18.7
36.3
50.8
7.4
42.5
3315
3435
8FS
InVi
sion
FS63
ZX1
RIB
113
P500
1,2,
3,4
40.8
23.8
9.6
9481
.617
.035
.549
.17.
443
.032
9932
118
40.6
24.1
9.8
9181
.217
.235
.747
.57.
442
.932
6631
867
FS In
Visio
n FS
64SX
1 RI
B11
4P5
001,
2,3,
439
.025
.59.
896
82.3
17.6
36.0
51.5
7.5
42.3
3336
3332
139
.427
.810
.9*
9981
.517
.035
.349
.77.
444
.032
8435
909
GOLD
EN H
ARVE
ST G
14R3
8-31
2011
4C5
001,
2,4
40.6
23.9
9.6
9582
.618
.536
.452
.17.
241
.933
5431
469
39.2
25.2
9.9
9481
.919
.336
.850
.77.
242
.232
9132
664
GOLD
EN H
ARVE
ST G
16K0
1-31
1111
6C5
001,
2,3,
4,6
37.9
26.9
10.0
9382
.219
.437
.652
.67.
040
.233
2033
213
38.3
27.6
10.6
9181
.020
.537
.849
.86.
841
.532
3434
259
GOLD
EN H
ARVE
ST G
18D8
7-31
1111
8C5
001,
2,3,
4,6
35.5
26.7
9.4
9681
.420
.539
.953
.37.
537
.332
4230
369
33.1
31.8
10.5
9579
.621
.941
.851
.17.
935
.531
0732
667
LG S
EEDS
LG5
606S
TXRI
B11
1P5
001,
2,3,
439
.524
.59.
797
81.6
19.1
37.3
50.4
7.5
40.9
3282
3041
139
.027
.010
.599
80.9
20.4
39.3
48.1
7.3
39.7
3206
3145
0LG
SEE
DS L
G62C
02ST
X11
2P5
001,
2,3,
440
.525
.610
.095
83.0
17.7
35.8
53.2
7.6
42.1
3376
3330
239
.628
.511
.0*
9982
.915
.733
.451
.17.
845
.333
8637
201
LOCA
L SE
ED L
C134
9 SS
XRIB
113
C250
1,2,
3,4
42.3
24.0
9.8
9281
.718
.736
.950
.57.
241
.632
9232
263
42.1
25.4
10.7
*96
80.6
19.8
38.8
50.1
7.1
39.8
3200
3401
7LO
CAL
SEED
LC1
600
VT3P
RIB
116
C250
1,2,
338
.626
.19.
997
82.2
18.9
37.8
52.9
7.2
39.5
3317
3289
739
.626
.910
.695
82.1
18.6
37.0
51.6
7.1
41.5
3304
3508
8M
ASTE
RS C
HOIC
E M
CT-6
153
111
C250
1,2,
3,4
45.0
23.4
10.1
9482
.518
.737
.152
.87.
441
.633
4133
673
44.6
23.4
10.4
9282
.417
.735
.750
.57.
243
.833
3234
648
MAS
TERS
CHO
ICE
MCT
-636
311
3C2
501,
2,3,
440
.824
.59.
890
82.4
17.6
35.0
51.0
7.5
42.2
3353
3201
439
.025
.910
.190
81.9
18.5
35.8
49.4
7.4
42.0
3305
3342
8RE
NK R
K842
SSTX
112
C500
1,2,
3,4
40.1
24.5
9.6
9482
.418
.337
.652
.57.
440
.633
2932
042
41.1
25.3
10.4
9582
.418
.036
.752
.17.
542
.233
2534
589
RUPP
XRD
11-5
711
1P2
501,
242
.824
.310
.097
82.1
17.7
36.4
51.2
7.2
42.0
3324
3369
242
.927
.511
.4*
9982
.118
.236
.648
.57.
443
.333
0737
784
VIKI
NG 5
3-12
112
C250
CONV
48.4
21.4
9.9
9683
.816
.632
.652
.27.
245
.634
2133
657
44.3
24.7
10.9
*97
84.0
16.0
32.7
50.9
7.3
47.5
3455
3768
8AV
ERAG
E40
.324
.99.
895
82.0
18.6
37.0
51.9
7.4
41.0
3312
3228
639
.726
.910
.595
81.4
18.7
37.0
50.2
7.3
41.4
3269
3461
3HI
GHES
T48
.427
.711
.097
83.8
22.2
41.6
53.5
7.8
45.6
3422
3608
444
.631
.811
.610
084
.022
.041
.852
.17.
947
.534
7238
879
LOW
EST
34.8
21.2
9.1
9080
.316
.632
.649
.17.
034
.731
5930
008
33.1
22.8
9.8
9079
.115
.732
.347
.56.
835
.530
9430
364
CV (%
)6.
56.
27.
64
2.2
8.1
6.8
2.9
4.6
7.1
47
5.8
5.8
6.9
42.
48.
06.
13.
23.
96.
94
7LS
D (5
%)
1.8
1.0
0.5
31.
21.
01.
71.
00.
22.
079
1503
2.7
1.8
0.9
42.
31.
82.
71.
90.
33.
413
830
53
2 Ye
ar A
vera
ges
2018
- 20
17BR
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
DAIR
YLAN
D SE
ED E
XP-1
1113
111
1,2,
442
.025
.510
.5**
9581
.018
.837
.549
.36.
940
.032
4533
889
43.9
23.5
10.1
*95
80.7
18.7
37.8
48.9
7.3
40.6
3214
3257
8DA
IRYL
AND
SEED
EXP
-113
1511
31,
2,4
38.9
25.4
9.6
9881
.819
.737
.451
.67.
238
.633
0731
936
41.4
25.7
10.3
*99
81.8
17.4
34.8
50.5
7.7
41.3
3357
3577
5LO
CAL
SEED
LC1
349
SSXR
IB11
3C2
501,
2,3,
442
.924
.09.
994
81.3
19.4
37.5
49.9
6.9
40.0
3262
3229
247
.123
.110
.2*
9681
.218
.736
.648
.67.
341
.432
5833
262
LOCA
L SE
ED L
C160
0 VT
3PRI
B11
6C2
501,
2,3
39.8
26.0
10.2
*98
82.4
18.6
37.0
52.3
6.8
39.8
3333
3387
343
.124
.710
.5**
9682
.218
.236
.551
.37.
040
.933
1935
682
MAS
TERS
CHO
ICE
MCT
-636
311
3C2
501,
2,3,
440
.024
.59.
693
82.4
17.9
35.1
50.6
7.1
41.5
3352
3181
241
.323
.39.
693
82.6
17.6
34.6
49.8
7.3
42.6
3358
3212
0AV
ERAG
E40
.725
.110
.095
81.8
18.9
36.9
50.7
7.0
40.0
3300
3276
143
.424
.010
.196
81.7
18.1
36.0
49.8
7.3
41.4
3301
3388
3HI
GHES
T42
.926
.010
.598
82.4
19.7
37.5
52.3
7.2
41.5
3352
3388
947
.125
.710
.599
82.6
18.7
37.8
51.3
7.7
42.6
3358
3577
5LO
WES
T38
.924
.09.
693
81.0
17.9
35.1
49.3
6.8
38.6
3245
3181
241
.323
.19.
693
80.7
17.4
34.6
48.6
7.0
40.6
3214
3212
0CV
(%)
6.9
6.2
8.5
32.
59.
27.
73.
64.
77.
34
76.
95.
37.
33
2.5
9.1
8.2
3.2
4.0
6.9
47
LSD
(5%
)1.
30.
70.
42
1.0
0.8
1.4
0.9
0.2
1.4
6410
502.
41.
10.
63
1.7
1.4
2.5
1.3
0.2
2.4
114
1949
DT/A
YIEL
D%
QUA
LITY
% Q
UALI
TYYI
ELD
MIL
K 20
06La
te -
TRIA
L AV
ERAG
E
Bran
ch -
Late
YIEL
D%
QUA
LITY
MIL
K 20
06La
te -
TRIA
L AV
ERAG
E
DT/A
MIL
K 20
06
DT/A
Bran
ch -
Late
YIEL
D%
QUA
LITY
MIL
K 20
06
DT/A
- 35 -
2018
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%D
MGT
/A%S
TDIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/ADA
IRYL
AND
SEED
EXP
-111
1311
11,2
,445
.922
.49.8
**94
84.1
15.0
32.4
52.8
7.446
.735
0233
112
38.6
30.0
11.6
**95
81.1
17.6
37.5
47.0
7.539
.432
2937
318
DAIR
YLAN
D SE
ED H
iDF-
3211
RA11
1C5
001,2
,3,4,6
36.9
20.0
7.795
81.2
17.9
37.3
56.5
6.641
.032
9427
352
32.6
30.2
9.994
80.3
19.8
38.7
49.0
7.540
.531
7129
674
DAIR
YLAN
D SE
ED D
S-72
1511
2C5
001,2
,641
.520
.88.7
9681
.123
.645
.158
.07.0
29.0
3194
2778
833
.032
.110
.697
79.7
23.0
41.0
50.4
7.338
.131
1233
097
DAIR
YLAN
D SE
ED E
XP-1
1315
113
1,2,4
45.0
15.5
7.195
84.9
16.5
35.0
58.2
7.443
.535
2723
256
35.0
30.3
10.6
9381
.620
.335
.748
.58.2
39.5
3266
3464
8DA
IRYL
AND
SEED
HiD
F-34
13SS
X11
3C5
001,2
,3,4,6
39.8
19.7
7.894
82.8
19.6
39.5
58.0
7.436
.933
6926
378
31.3
32.4
10.2
9780
.221
.140
.651
.37.6
38.0
3146
3192
2DY
NAGR
O D5
8SS6
511
8P5
001,2
,3,4
44.6
20.5
8.996
83.0
17.0
36.7
53.6
7.342
.534
0530
371
35.0
29.4
10.3
9679
.719
.838
.246
.87.9
38.9
3142
3244
6FS
InVi
sion F
S62R
L1 E
ZR11
2P2
501,2
,4,6
52.2
14.1
7.397
84.5
19.1
37.8
56.9
7.243
.334
8025
202
38.6
26.7
10.4
9283
.918
.233
.051
.37.7
45.3
3440
3374
5FS
InVi
sion F
S62Z
X1 R
IB11
2P5
001,2
,3,4
45.9
17.9
8.299
83.6
17.9
37.9
56.8
7.340
.534
2827
927
36.9
28.5
10.5
9580
.619
.238
.749
.97.7
40.3
3191
3506
2FS
InVi
sion F
S63Z
X1 R
IB11
3P5
001,2
,3,4
45.4
18.6
8.695
83.0
17.3
36.9
53.7
6.942
.034
0229
095
36.4
28.6
10.4
9680
.616
.734
.046
.27.8
44.0
3230
3539
3FS
InVi
sion F
S64S
X1 R
IB11
4P5
001,2
,3,4
42.1
19.6
8.396
84.3
17.6
35.9
56.3
7.342
.434
8628
774
35.6
29.0
10.3
9481
.118
.336
.748
.47.9
40.6
3238
3528
1GO
LDEN
HAR
VEST
G14
R38-
3120
114
C500
1,2,4
44.4
18.2
8.195
84.1
18.4
37.5
57.5
7.040
.834
6027
962
38.1
28.2
10.7
9582
.017
.834
.748
.07.5
42.9
3309
3378
2GO
LDEN
HAR
VEST
G16
K01-
3111
116
C500
1,2,3,
4,640
.622
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9583
.618
.939
.057
.96.9
36.6
3418
3008
435
.030
.610
.793
82.1
18.9
35.9
50.1
7.242
.533
0835
296
GOLD
EN H
ARVE
ST G
18D8
7-31
1111
8C5
001,2
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39.4
18.1
7.597
83.7
18.8
39.1
58.3
7.138
.234
2425
607
34.2
30.2
10.3
9580
.820
.838
.950
.57.6
38.2
3196
3283
4LG
SEE
DS LG
5606
STXR
IB11
1P5
001,2
,3,4
42.5
18.3
8.098
83.9
17.7
35.6
54.9
7.242
.834
6727
576
36.9
28.4
10.6
9580
.019
.136
.948
.27.9
40.1
3173
3220
7LG
SEE
DS LG
62C0
2STX
112
P500
1,2,3,
446
.718
.98.8
9585
.317
.135
.558
.47.3
42.9
3547
2979
235
.229
.410
.390
80.7
20.4
38.6
49.9
7.938
.231
9532
913
LOCA
L SEE
D LC
1349
SSX
RIB
113
C250
1,2,3,
449
.318
.38.8
8985
.016
.333
.955
.67.0
45.4
3543
3126
635
.428
.410
.192
79.5
20.1
38.0
46.0
7.639
.731
3431
507
LOCA
L SEE
D LC
1600
VT3
PRIB
116
C250
1,2,3
40.7
20.2
8.297
83.1
19.5
39.3
57.0
7.236
.033
8827
682
35.4
31.1
11.0
*98
81.5
18.5
37.0
50.1
7.341
.032
6035
920
MAST
ERS
CHOI
CE M
CT-6
153
111
C250
1,2,3,
452
.518
.18.9
9582
.719
.639
.956
.67.4
38.7
3358
2996
937
.828
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9582
.618
.835
.951
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42.2
3331
3640
1MA
STER
S CH
OICE
MCT
-636
311
3C2
501,2
,3,4
45.2
19.1
8.392
83.5
16.2
34.8
56.1
7.541
.734
4726
567
38.1
28.6
10.9
*88
81.9
18.2
34.5
47.5
7.742
.833
0636
047
RENK
RK8
42SS
TX11
2C5
001,2
,3,4
42.6
20.7
8.493
83.7
18.1
37.7
56.7
7.040
.934
3628
976
36.8
27.5
10.1
9381
.218
.938
.548
.67.7
38.8
3224
3256
1RU
PP X
RD11
-57
111
P250
1,248
.417
.78.3
9684
.116
.636
.656
.66.6
41.3
3473
2892
037
.027
.610
.296
80.2
18.5
36.0
48.4
7.541
.331
9334
371
VIKI
NG 53
-12
112
C250
CONV
60.2
13.8
8.394
84.9
16.0
33.1
56.5
6.947
.935
4329
329
40.6
25.7
10.4
9782
.517
.732
.249
.17.4
41.4
3266
3395
5AV
ERAG
E45
.118
.88.3
9583
.617
.937
.156
.57.1
40.9
3436
2831
836
.129
.210
.594
81.1
19.1
36.9
48.9
7.640
.632
3033
926
HIGH
EST
60.2
22.5
9.899
85.3
23.6
45.1
58.4
7.547
.935
4733
112
40.6
32.4
11.6
9883
.923
.041
.051
.38.2
45.3
3440
3731
8LO
WES
T36
.913
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8981
.115
.032
.452
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29.0
3194
2325
631
.325
.79.9
8879
.516
.732
.246
.07.2
38.0
3112
2967
4CV
(%)
7.49.3
8.13
2.08.3
6.73.0
5.67.4
36
6.03.8
6.75
2.18.0
7.62.2
4.36.9
47
LSD
(5%
)3.9
2.10.8
42.0
1.82.9
2.00.5
3.613
221
372.5
1.30.8
52.0
1.83.3
1.30.4
3.314
729
71
2 Yea
r Ave
rage
s 201
8 - 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%STD
IVD
ADF
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NDFD
CPST
RMK
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/A%D
MGT
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TDIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIR
YLAN
D SE
ED E
XP-1
1113
111
1,2,4
40.7
26.0
10.2
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81.7
18.5
36.8
51.2
6.740
.833
1232
956
41.5
27.1
11.3
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80.6
19.4
38.0
47.7
6.838
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0836
132
DAIR
YLAN
D SE
ED E
XP-1
1315
113
1,2,4
38.8
23.7
8.797
82.7
19.6
38.5
54.3
7.137
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5328
082
36.5
26.8
9.797
81.0
22.1
39.0
49.9
6.936
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1031
953
LOCA
L SEE
D LC
1349
SSX
RIB
113
C250
1,2,3,
442
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*91
82.4
19.8
38.4
53.0
6.638
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3532
499
39.2
25.0
9.894
80.2
19.7
37.4
48.1
6.840
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9231
116
LOCA
L SEE
D LC
1600
VT3
PRIB
116
C250
1,2,3
37.0
25.9
9.397
82.6
19.5
38.5
54.7
6.636
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5130
432
39.2
27.6
10.7
*99
82.3
18.1
35.9
50.8
6.741
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2835
505
MAST
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CHOI
CE M
CT-6
363
113
C250
1,2,3,
439
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9382
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39.0
3356
2775
039
.326
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.393
82.3
17.9
34.2
48.4
7.242
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4335
565
AVER
AGE
39.7
24.7
9.495
82.4
19.1
37.8
53.4
6.838
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4130
344
39.1
26.5
10.4
9681
.319
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40.1
3256
3405
4HI
GHES
T42
.426
.010
.297
82.7
19.8
38.5
54.7
7.140
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5632
956
41.5
27.6
11.3
9982
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42.8
3343
3613
2LO
WES
T37
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9181
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36.6
3312
2775
036
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9380
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36.9
3192
3111
6CV
(%)
6.88.9
9.24
2.28.6
6.44.2
5.57.0
47
7.04.2
8.23
2.89.6
8.33.0
4.67.8
48
LSD
(5%
)2.4
1.50.7
31.5
1.32.0
1.90.3
2.398
1698
2.21.0
0.73
1.91.5
2.51.2
0.32.6
119
2166
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
YIEL
D DT/A
DT/A
MILK
2006
YIEL
D%
QUAL
ITYMI
LK 20
06%
QUAL
ITY
DT/A
DT/A
Lena
wee -
Late
Woo
d - La
te
Lena
wee -
Late
Woo
d - La
teYI
ELD
% QU
ALITY
MILK
2006
YIEL
D%
QUAL
ITYMI
LK 20
06
- 36 -
TABL
E 7E
.HU
RON,
INGH
AM &
OTT
AWA
COUN
TY S
ILAG
E TR
IALS
- EA
RLY
(104
Day
and
Earli
er)
ZONE
2 - 3
2018
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
633-
94ST
X10
3P5
001,
2,3,
440
.522
.89.
293
82.7
20.0
40.3
55.2
7.7
35.6
3325
2871
837
.320
.17.
594
83.7
16.9
35.5
54.0
8.2
37.8
3432
2379
5BL
UE R
IVER
51T
5910
3M
XLCO
NV40
.523
.69.
596
83.5
17.4
35.2
53.6
7.6
42.8
3423
3243
836
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.48.
599
84.1
15.5
32.1
53.8
8.0
43.1
3481
2948
7CR
OPLA
N 40
99SS
/RIB
99AC
C1,
2,3,
442
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8*
9483
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.154
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540
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7833
011
37.4
22.5
8.4
9683
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941
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4528
945
CROP
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4188
SS10
4AC
C1,
2,3,
443
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8*
9783
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643
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5634
270
38.8
21.5
8.4
101
83.9
15.7
34.5
53.2
7.8
44.2
3454
3058
9CR
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N S4
600/
RIB
104
ACC
1,2,
3,4
37.8
24.1
9.0
9778
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530
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5927
956
34.0
22.5
7.7
103
79.9
23.5
45.7
54.2
8.0
26.4
3111
2507
4DA
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AND
SEED
HiD
F-31
97RA
97C5
001,
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4,6
45.5
19.6
8.8
9482
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941
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5529
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40.9
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542
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3028
300
DAIR
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D SE
ED H
iDF-
3099
RA99
C500
1,2,
3,4,
640
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396
82.1
18.1
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53.0
8.2
39.6
3324
3046
738
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398
83.7
16.9
35.2
53.8
9.0
39.3
3432
2840
2DA
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AND
SEED
EXP
-102
0710
21,
2,4
41.6
24.4
10.1
*93
83.3
17.2
33.6
50.9
7.8
42.5
3404
3381
239
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297
84.8
14.0
31.3
51.3
8.3
45.0
3529
3041
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AND
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F-32
02PE
102
C500
1,2,
641
.922
.79.
495
83.1
18.8
37.2
53.4
8.1
38.2
3379
3209
040
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799
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14.8
31.8
52.6
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102
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637
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7*
9683
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340
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8534
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24.9
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440
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2728
123
DAIR
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20.0
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443
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418
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440
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190
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ED R
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M10
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2,4
41.0
25.2
10.3
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83.5
18.1
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52.8
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3421
3488
137
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598
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17.0
33.7
53.3
7.5
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399
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20.7
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344
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39.4
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3487
3481
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799
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438
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1,2,
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643
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39.4
3418
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X10
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440
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9682
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338
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542
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6227
293
MAS
TERS
CHO
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MCT
-545
410
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4,6
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21.6
9.6
9283
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641
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715
40.3
21.1
8.7
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786
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3220
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7.7
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Bra
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K950
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1095
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442
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5528
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3120
103
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1,2,
442
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40.9
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939
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7.4
40.8
3401
3091
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698
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33.2
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7.9
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99P5
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2,3,
441
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37.3
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5924
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326
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34
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12.6
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Early
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IAL
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arly
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6.587
75.9
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46.4
48.0
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6620
640
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55.5
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25.9
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46.5
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83.4
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35.4
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9.888
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16.2
33.5
49.2
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55.5
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9.795
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6.643
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429
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104
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51.2
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38.0
53.7
7.740
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339
AVER
AGE
48.4
20.2
9.896
83.6
17.7
36.2
54.3
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25.8
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339
LOW
EST
41.4
15.0
6.990
75.3
13.1
29.6
45.9
6.526
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3820
113
35.2
12.7
6.584
75.9
16.2
33.5
47.0
6.833
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6620
640
CV (%
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6.98.6
32.6
8.78.4
5.76.3
8.84
86.2
7.07.0
52.6
8.67.9
3.15.0
7.84
6LS
D (5%
)3.1
1.61.0
42.5
1.83.6
3.70.5
4.216
130
702.9
2.10.8
52.5
2.03.6
1.90.4
3.716
724
92
MILK
2006
YIEL
DIng
ham
- Ear
lyOt
tawa -
Ear
lyYI
ELD
% QU
ALITY
% QU
ALITY
MILK
2006
DT/A
DT/A
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
0.
- 38 -
TABL
E 7L
.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
2018
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
638-
94ST
X10
8P5
001,
2,3,
440
.922
.69.
292
83.7
17.2
34.7
54.3
7.4
43.3
3447
3112
240
.520
.38.
5*
9684
.616
.133
.654
.07.
542
.435
1329
745
AGRI
GOLD
A63
9-40
VT2R
IB10
9P5
001,
240
.324
.69.
996
83.8
17.6
35.5
54.2
7.5
41.6
3444
3335
236
.921
.27.
998
84.3
17.1
35.2
55.1
7.9
41.3
3478
2732
3BE
CK 5
829A
410
81,
2,3,
4,6
38.7
26.9
10.3
*94
84.3
18.6
37.3
57.3
7.4
38.7
3456
3544
036
.123
.98.
7*
9285
.717
.135
.159
.38.
137
.935
6430
823
CROP
LAN
4791
AS31
11GT
106
ACC
1,2,
3,4,
637
.526
.19.
897
83.3
19.3
40.0
57.5
7.0
35.6
3334
3204
135
.323
.08.
210
084
.917
.437
.359
.67.
734
.134
2028
047
DAIR
YLAN
D SE
ED H
iDF-
3605
RA10
5C5
001,
2,3,
4,6
38.8
24.4
9.4
9581
.419
.838
.651
.97.
936
.732
7331
233
37.5
20.2
7.6
9781
.919
.840
.354
.98.
332
.432
9425
918
DAIR
YLAN
D SE
ED E
XP-1
061 7
106
1,2,
3,4
38.5
25.7
9.9
9683
.217
.535
.352
.88.
340
.233
8733
738
34.8
22.4
7.8
9583
.119
.237
.955
.48.
435
.733
8824
874
DAIR
YLAN
D SE
ED R
PM-5
62XR
R10
61,
2,4
39.0
25.9
10.0
*93
84.4
16.3
33.6
54.6
7.6
43.8
3491
3475
036
.724
.99.
1*
9684
.914
.330
.053
.48.
046
.335
5332
359
DAIR
YLAN
D SE
ED H
iDF-
3407
RA10
7C5
001,
2,3,
4,6
36.2
26.0
9.4
9680
.120
.640
.052
.37.
036
.331
9429
199
35.4
22.2
7.8
9783
.317
.035
.155
.47.
639
.434
2125
212
DAIR
YLAN
D SE
ED H
iDF-
3808
RA10
8C5
001,
2,3,
4,6
36.6
27.5
9.9
9781
.720
.439
.455
.17.
435
.332
5733
097
34.2
23.7
8.1
9883
.318
.136
.357
.87.
633
.233
3627
578
DAIR
YLAN
D SE
ED R
PM-4
816A
M10
81,
2,4
38.1
25.8
9.7
9784
.316
.635
.556
.28.
340
.734
5734
016
34.1
24.1
8.2
102
83.9
18.7
37.1
56.5
8.4
38.3
3438
2972
9DA
IRYL
AND
SEED
DS-
7909
PE10
9C5
001,
2,4,
640
.225
.210
.1*
9682
.718
.137
.853
.47.
139
.833
5833
662
37.5
22.1
8.3
9984
.517
.135
.356
.07.
638
.334
9328
907
DAIR
YLAN
D SE
ED E
XP-1
1016
110
1,2,
438
.826
.19.
896
84.3
17.2
34.7
55.6
8.4
41.2
3475
3370
835
.223
.98.
4*
100
85.1
17.1
35.5
57.9
8.8
37.4
3519
2955
4DA
IRYL
AND
SEED
HiD
F-32
11RA
111
C500
1,2,
3,4,
636
.028
.010
.0*
9482
.418
.136
.853
.47.
539
.833
4834
163
33.1
24.9
8.3
9782
.517
.635
.855
.17.
638
.633
7130
328
DYNA
GRO
D47S
S29
107
P500
1,2,
3,4
40.4
23.7
9.4
9382
.417
.436
.652
.37.
540
.933
5131
520
37.4
21.5
8.1
9282
.916
.336
.353
.07.
940
.533
9227
353
GOLD
EN H
ARVE
ST G
08M
20-3
010
108
C500
1,2,
440
.726
.010
.5**
9583
.816
.034
.653
.17.
843
.434
4936
564
38.2
23.6
9.0
*96
83.7
16.5
34.2
52.3
8.1
41.7
3455
3257
5GO
LDEN
HAR
VEST
G09
A86-
3110
109
C500
1,2,
4,6
39.1
24.4
9.5
9883
.017
.937
.754
.97.
939
.233
7331
304
36.7
21.9
8.0
100
83.6
18.4
37.8
56.6
8.2
36.5
3416
2735
6GO
LDEN
HAR
VEST
G09
Y24-
3220
A10
9C5
001,
2,3,
436
.124
.98.
993
81.9
18.9
39.1
55.5
7.6
34.8
3277
2825
533
.221
.97.
399
82.9
17.8
37.0
57.2
7.8
31.9
3354
2480
6GO
LDEN
HAR
VEST
G10
T63-
3120
110
C500
1,2,
438
.126
.510
.0*
9581
.619
.438
.653
.07.
738
.332
8532
573
37.4
21.1
7.9
9982
.719
.738
.755
.37.
836
.733
5926
560
King
Fish
er 5
8C80
108
CONV
37.8
25.2
9.4
9383
.019
.137
.755
.27.
937
.033
4731
696
34.7
22.6
7.9
9383
.318
.737
.855
.98.
034
.033
3126
143
LEGA
CY S
EEDS
L-6
838
3010
108
C250
1,2,
3,4
40.6
24.1
9.7
9582
.917
.336
.352
.87.
641
.333
8432
708
37.1
22.7
8.4
*99
83.2
17.5
35.7
53.0
7.6
40.2
3416
2862
0LE
GACY
SEE
DS L
-693
7 31
1110
9C2
501,
2,3,
4,6
40.1
24.9
9.9
9682
.717
.836
.853
.28.
040
.433
6832
798
38.4
23.0
8.8
*97
83.0
19.2
37.0
54.2
8.2
38.2
3391
2983
5LG
SEE
DS L
G552
5VT2
RIB
105
P500
1,2,
344
.222
.09.
897
83.8
17.4
35.9
54.6
7.4
42.4
3438
3306
641
.420
.08.
310
284
.117
.836
.955
.47.
540
.934
5728
519
LG S
EEDS
LG5
7C28
VT2P
RO10
7P5
001,
2,3
41.0
23.4
9.4
9781
.818
.437
.151
.47.
140
.333
1331
481
41.3
18.3
7.6
9584
.016
.133
.752
.57.
341
.634
7926
451
LG S
EEDS
LG5
8C77
VT2P
RO10
7P5
001,
2,3
38.7
25.1
9.6
9482
.417
.635
.352
.77.
738
.533
3833
050
38.9
22.1
8.6
*96
84.2
15.5
32.3
53.8
7.9
37.8
3470
3106
7LG
SEE
DS L
G556
5STX
RIB
108
P500
1,2,
3,4
36.7
25.6
9.3
9383
.216
.736
.153
.97.
340
.033
7131
207
35.6
21.0
7.3
9783
.417
.137
.255
.47.
738
.734
1124
846
M&W
SEE
DS 4
4R35
105
P250
1,2
43.0
23.0
9.8
9584
.116
.834
.453
.08.
042
.334
6534
469
40.4
20.8
8.4
*98
84.4
15.0
32.0
51.1
8.5
42.7
3507
3075
9M
&W S
EEDS
44D
8110
8P2
501,
240
.724
.49.
995
83.8
15.5
34.2
52.5
7.8
42.7
3453
3414
939
.120
.27.
995
84.4
15.9
33.9
53.8
8.3
40.1
3494
2743
8M
ASTE
RS C
HOIC
E M
CT-5
663
106
C250
1,2,
3,4
38.1
23.9
9.1
9182
.718
.937
.554
.67.
438
.733
6031
317
37.7
21.2
8.0
9184
.217
.735
.555
.57.
638
.534
7429
190
RENK
RK7
17SS
TX10
5C5
001,
2,3,
443
.322
.39.
694
82.3
18.0
36.9
52.0
7.6
40.4
3341
3192
141
.418
.87.
810
083
.615
.734
.552
.37.
940
.634
4326
683
RENK
RK7
10DG
VT2P
106
C250
1,2
38.8
25.0
9.8
9381
.221
.041
.553
.47.
036
.632
3731
503
36.6
22.0
8.3
9682
.120
.942
.554
.57.
135
.332
8727
156
RENK
RK7
37SS
TX10
6C5
001,
2,3,
440
.723
.19.
395
83.3
17.7
36.5
53.6
7.4
40.6
3403
3172
238
.521
.88.
4*
101
84.0
16.7
34.8
53.9
7.8
39.8
3467
2903
0RE
NK R
K859
DGVT
2P10
9C2
501,
237
.924
.29.
195
82.8
18.1
36.6
52.4
7.8
40.6
3371
3011
038
.920
.07.
797
84.3
16.1
33.8
53.5
8.2
41.6
3493
2558
3RE
NK R
K842
SSTX
112
C500
1,2,
3,4
37.2
26.9
10.0
*93
82.8
18.0
37.2
53.8
7.9
39.6
3371
3352
536
.425
.19.
2**
9684
.017
.035
.354
.58.
139
.934
6031
804
SEED
CON
SULT
ANTS
SC
10AG
T59™
105
C250
1,2,
442
.822
.09.
495
84.0
15.7
34.7
54.9
8.3
42.3
3458
3362
938
.518
.57.
197
83.4
16.7
37.4
55.5
8.6
38.8
3406
2419
2SE
ED C
ONSU
LTAN
TS S
CS 1
087Y
HR10
8C2
501,
2,4
36.1
28.1
10.1
*97
83.4
17.4
36.4
55.1
7.4
39.6
3386
3463
633
.624
.28.
110
083
.518
.837
.856
.37.
734
.033
4127
029
SEED
CON
SULT
ANTS
SCS
112
5YHR
112
C250
1,2,
434
.727
.19.
494
83.2
18.0
36.2
53.6
8.1
39.2
3399
3156
133
.322
.97.
698
83.7
18.3
36.6
55.5
8.5
35.5
3431
2606
7AV
ERAG
E39
.125
.09.
795
82.9
17.9
36.7
53.9
7.6
39.8
3374
3261
937
.022
.08.
197
83.7
17.4
35.9
55.0
7.9
38.4
3431
2804
1HI
GHES
T44
.228
.110
.598
84.4
21.0
41.5
57.5
8.4
43.8
3491
3656
441
.425
.19.
210
285
.720
.942
.559
.68.
846
.335
6432
575
LOW
EST
34.7
22.0
8.9
9180
.115
.533
.651
.47.
034
.831
9428
255
33.1
18.3
7.1
9181
.914
.330
.051
.17.
131
.932
8724
192
CV (%
)5.
75.
97.
54
2.1
8.4
7.3
3.6
5.2
8.2
37
5.9
6.2
8.6
32.
07.
97.
23.
15.
07.
43
7LS
D (5
%)
1.5
1.0
0.5
31.
21.
01.
81.
30.
32.
279
1484
2.5
1.6
0.8
41.
91.
63.
02.
00.
53.
312
424
31
DT/A
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
DT/A
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
- 39 -
2018
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%D
MGT
/A%S
TDIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGO
LD A
638-9
4STX
108
P500
1,2,3,
444
.420
.99.1
9684
.016
.434
.356
.66.8
44.4
3479
3176
437
.726
.710
.185
82.6
19.1
36.3
52.2
8.043
.033
4931
858
AGRI
GOLD
A63
9-40V
T2RI
B10
9P5
001,2
45.0
22.2
10.0
9783
.419
.337
.555
.86.6
39.2
3419
3219
839
.030
.311
.8**
9183
.716
.433
.851
.88.1
44.3
3435
4053
4BE
CK 58
29A4
108
1,2,3,
4,645
.724
.211
.1*
9285
.816
.534
.658
.96.8
42.5
3581
3968
534
.232
.511
.1*
9781
.522
.242
.253
.97.3
35.7
3224
3581
4CR
OPLA
N 47
91AS
3111
GT10
6AC
C1,2
,3,4,6
40.8
23.2
9.597
82.6
21.6
42.6
58.9
6.234
.432
8229
742
36.4
32.1
11.6
*93
82.4
18.8
40.3
54.0
7.138
.332
9938
334
DAIR
YLAN
D SE
ED H
iDF-
3605
RA10
5C5
001,2
,3,4,6
44.3
23.4
10.3
9283
.118
.135
.652
.57.1
42.2
3411
3521
834
.529
.510
.597
79.3
21.6
39.9
48.2
8.135
.531
1532
563
DAIR
YLAN
D SE
ED E
XP-10
617
106
1,2,3,
446
.223
.410
.999
84.0
15.1
32.0
51.6
7.843
.534
3140
073
34.6
31.4
10.9
9382
.518
.236
.151
.58.7
41.5
3343
3626
6DA
IRYL
AND
SEED
RPM
-562X
RR10
61,2
,445
.322
.110
.094
85.7
15.8
33.4
57.2
7.044
.035
8535
875
35.1
30.8
10.8
9082
.519
.037
.353
.17.7
41.0
3334
3601
4DA
IRYL
AND
SEED
HiD
F-34
07RA
107
C500
1,2,3,
4,640
.024
.59.8
100
78.7
22.4
42.7
52.7
6.033
.731
0330
442
33.3
31.3
10.5
9078
.522
.342
.148
.97.4
35.7
3057
3194
2DA
IRYL
AND
SEED
HiD
F-38
08RA
108
C500
1,2,3,
4,643
.625
.311
.0*
9684
.019
.938
.756
.76.8
38.1
3437
3785
532
.233
.410
.795
77.7
23.2
43.2
50.9
7.834
.830
0033
857
DAIR
YLAN
D SE
ED R
PM-48
16AM
108
1,2,4
45.9
21.5
9.996
86.3
14.5
31.9
59.2
7.844
.135
8537
695
34.4
31.7
10.9
9382
.916
.737
.652
.98.6
39.6
3347
3462
3DA
IRYL
AND
SEED
DS-
7909
PE10
9C5
001,2
,4,6
45.8
23.1
10.6
9982
.018
.340
.653
.66.4
40.6
3308
3511
637
.430
.311
.3*
9181
.518
.937
.550
.67.4
40.4
3274
3696
2DA
IRYL
AND
SEED
EXP
-1101
611
01,2
,450
.022
.111
.0*
9986
.215
.431
.456
.07.6
46.8
3631
3990
631
.432
.310
.190
81.6
19.0
37.3
53.1
8.639
.532
7531
664
DAIR
YLAN
D SE
ED H
iDF-
3211
RA11
1C5
001,2
,3,4,6
41.8
26.2
10.9
9783
.917
.435
.454
.57.0
41.6
3463
3764
933
.032
.910
.889
80.7
19.2
39.1
50.5
7.839
.132
0934
512
DYNA
GRO
D47S
S29
107
P500
1,2,3,
447
.621
.410
.096
83.5
17.0
36.8
55.0
6.740
.334
2634
177
36.4
28.1
10.2
9080
.818
.836
.949
.18.0
41.9
3235
3303
2GO
LDEN
HAR
VEST
G08
M20-3
010
108
C500
1,2,4
47.5
22.2
10.8
9585
.713
.932
.656
.17.3
46.2
3592
3892
536
.432
.311
.6*
9581
.917
.536
.950
.97.9
42.1
3299
3819
3GO
LDEN
HAR
VEST
G09
A86-3
110
109
C500
1,2,4,
645
.623
.010
.510
384
.416
.636
.156
.97.4
41.8
3485
3640
235
.128
.39.9
9180
.818
.839
.251
.38.2
39.3
3216
3015
4GO
LDEN
HAR
VEST
G09
Y24-3
220A
109
C500
1,2,3,
442
.122
.69.5
9782
.219
.040
.856
.66.8
34.1
3278
2950
633
.230
.210
.084
80.6
20.0
39.5
52.8
8.138
.531
9930
453
GOLD
EN H
ARVE
ST G
10T6
3-312
011
0C5
001,2
,444
.126
.911
.9**
9883
.617
.236
.154
.47.2
41.8
3435
4086
032
.831
.510
.389
78.4
21.3
41.0
49.2
8.236
.630
6030
300
KingF
isher
58C8
010
8CO
NV48
.523
.111
.2*
9786
.015
.733
.257
.87.4
44.8
3604
4018
730
.430
.09.3
8879
.823
.042
.051
.98.2
32.2
3104
2876
0LE
GACY
SEE
DS L-
6838
3010
108
C250
1,2,3,
446
.720
.39.5
9683
.116
.636
.853
.97.1
41.1
3401
3225
738
.129
.411
.2*
9082
.417
.836
.351
.68.0
42.8
3336
3724
6LE
GACY
SEE
DS L-
6937
3111
109
C250
1,2,3,
4,645
.222
.810
.396
84.1
15.2
35.0
54.7
7.742
.934
7534
146
36.7
29.0
10.6
9481
.119
.138
.550
.98.3
40.1
3238
3441
3LG
SEE
DS LG
5525
VT2R
IB10
5P5
001,2
,348
.722
.711
.2*
9583
.816
.634
.456
.57.2
43.8
3459
3866
042
.623
.310
.094
83.5
17.7
36.4
51.9
7.542
.433
9732
020
LG S
EEDS
LG57
C28V
T2PR
O10
7P5
001,2
,344
.322
.79.7
101
81.0
19.5
39.5
53.4
6.738
.332
5931
535
37.4
29.2
10.9
9580
.319
.438
.048
.37.5
40.9
3201
3645
6LG
SEE
DS LG
58C7
7VT2
PRO
107
P500
1,2,3
41.9
22.2
9.394
83.1
17.9
36.5
55.3
7.340
.334
0231
597
35.3
31.0
10.9
9380
.019
.237
.249
.07.9
37.3
3143
3648
7LG
SEE
DS LG
5565
STXR
IB10
8P5
001,2
,3,4
38.6
25.8
10.1
9983
.315
.333
.952
.26.7
41.3
3342
3283
635
.929
.910
.784
83.0
17.8
37.3
54.2
7.540
.033
6035
937
M&W
SEE
DS 44
R35
105
P250
1,248
.321
.310
.396
84.4
18.5
36.3
55.3
7.340
.934
8235
874
40.2
26.9
10.8
9083
.416
.935
.052
.68.2
43.3
3405
3677
2M&
W S
EEDS
44D8
110
8P2
501,2
45.7
24.0
11.0
*99
84.6
14.2
33.3
53.5
7.344
.435
1938
643
37.3
29.1
10.9
9082
.416
.435
.450
.37.9
43.5
3347
3636
7MA
STER
S CH
OICE
MCT
-5663
106
C250
1,2,3,
442
.121
.39.2
8882
.018
.837
.955
.16.6
38.6
3331
3068
234
.429
.010
.093
81.8
20.2
38.9
53.3
7.939
.032
7634
078
RENK
RK7
17SS
TX10
5C5
001,2
,3,4
48.4
20.9
10.1
9683
.217
.536
.253
.67.1
42.0
3416
3458
240
.227
.110
.985
80.1
20.9
40.1
50.2
7.738
.731
6534
499
RENK
RK7
10DG
VT2P
106
C250
1,242
.722
.99.8
9981
.520
.340
.053
.86.5
37.5
3286
3219
437
.130
.111
.2*
8579
.921
.941
.951
.97.4
37.0
3138
3516
0RE
NK R
K737
SSTX
106
C500
1,2,3,
444
.719
.38.7
9283
.018
.437
.955
.26.6
38.7
3391
2950
138
.828
.310
.992
82.8
18.0
36.9
51.7
7.743
.433
5336
635
RENK
RK8
59DG
VT2P
109
C250
1,241
.823
.69.9
9583
.617
.536
.353
.17.3
41.2
3436
3391
733
.129
.29.7
9280
.420
.739
.850
.67.9
39.0
3184
3082
9RE
NK R
K842
SSTX
112
C500
1,2,3,
439
.824
.59.8
9883
.018
.738
.755
.97.2
38.4
3378
3305
835
.330
.910
.984
81.6
18.3
37.6
51.1
8.440
.632
7435
713
SEED
CON
SULT
ANTS
SC
10AG
T59™
105
C250
1,2,4
50.0
20.2
10.3
9685
.314
.633
.355
.87.7
44.5
3560
3658
740
.027
.411
.0*
9383
.315
.733
.453
.48.6
43.7
3408
4011
0SE
ED C
ONSU
LTAN
TS S
CS 10
87YH
R10
8C2
501,2
,442
.126
.811
.3*
9885
.314
.234
.056
.56.9
44.7
3555
4248
132
.733
.410
.993
81.3
19.3
37.3
52.5
7.640
.132
6334
399
SEED
CON
SULT
ANTS
SCS
1125
YHR
112
C250
1,2,4
39.1
26.2
10.4
9984
.816
.334
.255
.47.5
43.1
3520
3669
431
.832
.410
.387
81.1
19.5
37.8
50.1
8.438
.932
4631
923
AVER
AGE
44.6
23.0
10.2
9783
.717
.236
.155
.37.0
41.3
3437
3523
735
.730
.010
.791
81.3
19.2
38.2
51.4
7.939
.732
5334
580
HIGH
EST
50.0
26.9
11.9
103
86.3
22.4
42.7
59.2
7.846
.836
3142
481
42.6
33.4
11.8
9783
.723
.243
.254
.28.7
44.3
3435
4053
4LO
WES
T38
.619
.38.7
8878
.713
.931
.451
.66.0
33.7
3103
2950
130
.423
.39.3
8477
.715
.733
.448
.27.1
32.2
3000
2876
0CV
(%)
5.86.0
7.63
2.07.9
7.94.5
5.68.7
47
5.25.3
6.46
2.18.9
6.72.9
4.98.2
47
LSD
(5%)
3.01.6
0.94
2.01.6
3.42.9
0.54.2
148
2783
2.21.9
0.86
2.02.0
3.01.7
0.53.8
140
2738
% QU
ALITY
MILK
2006
YIEL
DDT
/ADT
/AYI
ELD
% QU
ALITY
MILK
2006
Ingha
m - L
ateOt
tawa -
Late
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
1.
- 40 -
ZONE
2 - 3
TABL
E 7E
- Co
ntin
ued
from
pag
e 37.
HURO
N, IN
GHAM
& O
TTAW
A CO
UNTY
SIL
AGE
TRIA
LS -
EARL
Y (1
04 D
ay an
d Ea
rlier
)
2 Ye
ar A
vera
ges
2018
- 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/
A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
A%
DMG
T/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
CRO
PLAN
409
9SS/
RIB
99AC
C1,
2,3,
446
.422
.810
.4**
9882
.416
.235
.150
.17.
143
.433
5333
864
39.4
27.5
11.0
9481
.920
.839
.252
.27.
437
.632
3835
641
CRO
PLAN
418
8SS
104
ACC
1,2,
3,4
46.4
19.7
9.1
9782
.220
.338
.650
.67.
241
.733
0030
229
42.1
28.4
11.8
**95
82.3
16.6
33.8
47.7
7.9
44.2
3348
3828
5DA
IRYL
AND
SEED
HiD
F-31
97RA
97C5
001,
2,3,
4,6
47.9
18.5
8.8
9781
.919
.638
.452
.07.
340
.632
9129
103
42.4
23.7
10.1
9181
.518
.337
.350
.38.
142
.032
6833
246
DAIR
YLAN
D SE
ED H
iDF-
3099
RA99
C500
1,2,
3,4,
641
.821
.89.
198
81.4
17.3
37.2
49.6
7.6
39.8
3269
2955
542
.825
.810
.995
80.1
20.1
38.8
48.9
7.8
39.7
3171
3386
5DA
IRYL
AND
SEED
EXP
-102
0710
21,
2,4
42.6
21.5
9.1
9582
.118
.133
.450
.97.
540
.833
8830
224
41.2
28.5
11.7
*90
83.0
17.2
33.9
49.7
7.9
43.9
3387
3888
4DA
IRYL
AND
SEED
HiD
F-37
02-9
102
C500
1,2,
3,4,
639
.322
.99.
097
82.4
19.4
36.8
51.1
7.0
40.5
3266
3090
536
.630
.111
.095
82.4
19.7
37.3
52.7
7.5
40.7
3319
3835
2DA
IRYL
AND
SEED
RPM
-431
8AM
104
1,2,
441
.422
.89.
599
82.4
19.1
34.9
50.7
7.2
40.7
3340
3101
737
.929
.911
.3*
9281
.818
.235
.448
.67.
443
.133
0737
401
DYNA
GRO
D39
DC43
99P5
001,
245
.820
.29.
299
82.9
18.9
36.1
53.2
6.6
43.4
3371
3206
844
.625
.811
.4*
9683
.317
.936
.453
.07.
343
.633
7938
471
MAS
TERS
CHO
ICE
MCT
-537
110
3C2
501
42.1
21.3
8.8
9582
.215
.833
.849
.66.
743
.033
4931
741
41.3
26.8
11.1
*95
80.9
19.8
38.7
50.4
7.2
37.6
3221
3685
8RE
NK R
K724
RR10
2C2
501
42.6
20.5
8.7
9582
.417
.136
.053
.06.
840
.833
4429
052
39.6
26.9
10.7
9381
.720
.337
.651
.57.
237
.133
0935
204
RENK
RK6
42SS
T X10
3C5
001,
2,3,
443
.623
.09.
9*
9684
.116
.734
.453
.77.
142
.334
6334
207
38.2
30.4
11.5
*93
81.8
17.5
35.9
49.3
7.3
41.1
3301
3801
6AV
ERAG
E43
.621
.49.
297
82.4
18.0
35.9
51.3
7.1
41.5
3339
3108
840
.627
.611
.194
81.9
18.8
36.8
50.4
7.5
41.0
3295
3674
7HI
GHE
ST47
.923
.010
.499
84.1
20.3
38.6
53.7
7.6
43.4
3463
3420
744
.630
.411
.896
83.3
20.8
39.2
53.0
8.1
44.2
3387
3888
4LO
WES
T39
.318
.58.
795
81.4
15.8
33.4
49.6
6.6
39.8
3266
2905
236
.623
.710
.190
80.1
16.6
33.8
47.7
7.2
37.1
3171
3324
6CV
(%)
5.6
7.4
7.9
43.
29.
38.
49.
25.
98.
15
77.
26.
88.
04
2.8
9.5
8.3
5.9
5.2
7.8
57
LSD
(5%
)2.
11.
30.
63
2.2
1.4
2.5
4.0
0.4
2.8
129
1991
2.4
1.5
0.7
31.
91.
52.
62.
50.
32.
612
220
32
** 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
MIL
K 20
06YI
ELD
DT/A
DT/A
Ingh
am -
Early
Otta
wa
- Ear
lyYI
ELD
% Q
UALI
TY%
QUA
LITY
MIL
K 20
06
2 Ye
ar A
vera
ges
2018
- 20
17BR
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
ACC
1,2,
3,4
42.2
23.8
10.0
**97
82.3
18.4
36.8
51.5
7.1
40.6
3319
3301
240
.921
.28.
5*
9882
.718
.336
.152
.16.
840
.733
6629
532
CROP
LAN
4188
SS10
4AC
C1,
2,3,
443
.922
.69.
8*
9782
.717
.835
.549
.97.
443
.433
6333
056
43.0
19.8
8.5
*98
83.7
16.6
34.2
51.3
7.0
44.1
3440
3065
6DA
IRYL
AND
SEED
HiD
F-31
97RA
97C5
001,
2,3,
4,6
45.6
19.9
9.0
9682
.518
.536
.952
.57.
641
.533
3930
321
46.6
17.5
8.1
9984
.117
.634
.855
.07.
341
.834
5928
616
DAIR
YLAN
D SE
ED H
iDF-
3099
RA99
C500
1,2,
3,4,
642
.622
.79.
6*
9781
.618
.136
.849
.97.
740
.532
8331
148
43.3
20.5
8.8
*98
83.2
17.1
34.5
51.1
7.6
41.9
3408
3002
6DA
IRYL
AND
SEED
EXP
-102
0710
21,
2,4
42.3
23.6
9.9
*94
83.1
16.9
33.2
50.5
7.6
43.2
3420
3322
243
.220
.89.
0*
9684
.215
.432
.351
.07.
345
.134
8430
557
DAIR
YLAN
D SE
ED H
iDF-
3702
-910
2C5
001,
2,3,
4,6
37.9
24.8
9.3
9783
.018
.836
.152
.97.
141
.233
5632
154
37.7
21.4
7.8
9984
.417
.434
.154
.96.
842
.534
8427
205
DAIR
YLAN
D SE
ED R
PM-4
318A
M10
41,
2,4
40.0
24.7
9.8
*96
83.0
18.0
34.4
50.6
7.1
43.0
3387
3319
440
.821
.58.
7*
9984
.716
.632
.852
.66.
845
.235
1531
164
DYNA
GRO
D39D
C43
99P5
001,
245
.521
.59.
7*
9883
.817
.334
.453
.17.
044
.134
2833
548
46.1
18.7
8.5
*98
85.2
15.0
30.8
53.0
6.9
45.4
3534
3010
5M
ASTE
RS C
HOIC
E M
CT-5
371
103
C250
141
.522
.49.
295
82.4
17.2
34.9
50.7
6.9
41.0
3339
3165
341
.119
.07.
795
84.0
16.1
32.3
52.1
6.7
42.3
3447
2636
0RE
NK R
K724
RR10
2C2
501
41.5
23.0
9.5
9482
.617
.935
.752
.67.
040
.033
6531
845
42.4
21.6
9.1
**95
83.8
16.2
33.5
53.3
6.8
42.0
3442
3127
9RE
NK R
K642
SST X
103
C500
1,2,
3,4
41.5
24.3
9.9
*96
83.2
17.1
34.9
51.7
7.1
41.8
3399
3366
042
.619
.58.
499
83.5
17.2
34.3
52.0
6.8
41.9
3433
2875
6AV
ERAG
E42
.223
.09.
696
82.7
17.8
35.4
51.4
7.2
41.8
3363
3243
842
.520
.18.
598
84.0
16.7
33.6
52.6
7.0
43.0
3456
2947
8HI
GHES
T45
.624
.810
.098
83.8
18.8
36.9
53.1
7.7
44.1
3428
3366
046
.621
.69.
199
85.2
18.3
36.1
55.0
7.6
45.4
3534
3127
9LO
WES
T37
.919
.99.
094
81.6
16.9
33.2
49.9
6.9
40.0
3283
3032
137
.717
.57.
795
82.7
15.0
30.8
51.0
6.7
40.7
3366
2636
0CV
(%)
6.7
7.9
8.9
42.
911
.89.
47.
05.
69.
25
96.
06.
98.
93
2.3
10.3
8.6
4.1
4.9
8.2
47
LSD
(5%
)1.
40.
80.
42
1.1
1.0
1.6
1.7
0.2
1.8
7312
932.
01.
20.
62
1.6
1.4
2.4
1.8
0.3
2.8
108
1783
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
Early
- TR
IAL
AVER
AGE
Huro
n - E
arly
YIEL
D%
QUA
LITY
DT/A
DT/A
- 41 -
2 Ye
ar A
vera
ges
2018
- 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/
A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
A%
DMG
T/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
BECK
582
9A4
108
1,2,
3,4,
639
.926
.410
.4**
9783
.218
.937
.154
.47.
039
.433
8334
920
41.1
22.0
9.0
**95
84.5
17.9
35.4
56.1
6.8
40.2
3488
3144
5CR
OPL
AN 4
791A
S311
1GT
106
ACC
1,2,
3,4,
639
.524
.49.
698
83.9
18.7
37.7
56.9
6.8
38.2
3402
3222
140
.320
.38.
299
85.3
17.8
36.5
59.6
6.8
37.2
3483
2859
0DA
IRYL
AND
SEED
HiD
F-36
05RA
105
C500
1,2,
3,4,
639
.423
.89.
396
79.9
20.5
39.0
48.6
7.3
36.4
3185
2977
140
.420
.18.
297
80.9
21.0
40.9
53.2
7.0
33.8
3230
2704
4DA
IRYL
AND
SEED
EXP
-106
1710
61,
2,3,
439
.325
.89.
996
82.8
18.4
35.7
52.5
7.8
38.9
3336
3321
741
.020
.88.
4*
9583
.419
.536
.554
.47.
237
.933
8827
748
DAIR
YLAN
D SE
ED H
iDF-
3407
RA10
7C5
001,
2,3,
4,6
37.0
26.0
9.5
9880
.720
.439
.251
.96.
736
.132
0130
318
38.5
21.6
8.3
9982
.718
.637
.054
.76.
638
.533
6927
794
DAIR
YLAN
D SE
ED H
iDF-
3808
RA10
8C5
001,
2,3,
4,6
36.2
27.6
9.9
9881
.321
.039
.553
.66.
935
.532
3032
903
36.7
22.8
8.5
*99
82.9
19.3
37.2
55.9
6.6
35.5
3338
2915
1DA
IRYL
AND
SEED
RPM
-481
6AM
108
1,2,
438
.125
.99.
798
83.8
17.7
35.5
55.0
7.7
40.6
3423
3333
538
.323
.18.
7*
101
84.2
18.8
36.2
56.2
7.2
39.8
3459
3095
8DA
IRYL
AND
SEED
EXP
-110
1611
01,
2,4
38.1
25.8
9.6
9883
.717
.134
.653
.37.
841
.334
3132
890
38.7
21.9
8.4
*99
84.8
17.3
35.0
56.6
7.4
39.7
3507
2949
5G
OLD
EN H
ARVE
ST G
09Y2
4-32
20A
109
C500
1,2,
3,4
36.5
25.3
9.3
9781
.719
.037
.653
.57.
136
.932
8030
269
38.4
21.0
8.0
9983
.618
.235
.456
.06.
836
.834
1327
641
RENK
RK8
42SS
TX11
2C5
001,
2,3,
437
.226
.59.
796
82.1
19.4
38.4
53.1
7.4
37.8
3307
3216
939
.322
.08.
6*
9783
.118
.637
.254
.67.
138
.833
9029
977
SEED
CO
NSUL
TANT
S SC
S 11
25YH
R11
2C2
501,
2,4
35.9
26.5
9.3
9782
.117
.835
.850
.07.
639
.933
3030
744
37.4
21.1
7.8
9883
.818
.436
.555
.77.
237
.534
3927
363
AVER
AGE
37.9
25.8
9.7
9782
.319
.037
.353
.07.
338
.333
1932
069
39.1
21.5
8.4
9883
.618
.736
.755
.77.
037
.834
1028
837
HIG
HEST
39.9
27.6
10.4
9883
.921
.039
.556
.97.
841
.334
3134
920
41.1
23.1
9.0
101
85.3
21.0
40.9
59.6
7.4
40.2
3507
3144
5LO
WES
T35
.923
.89.
396
79.9
17.1
34.6
48.6
6.7
35.5
3185
2977
136
.720
.17.
895
80.9
17.3
35.0
53.2
6.6
33.8
3230
2704
4CV
(%)
6.1
6.5
8.0
42.
710
.07.
87.
35.
29.
34
75.
86.
79.
13
2.3
9.2
8.1
5.7
5.2
8.1
47
LSD
(5%
)1.
10.
80.
42
1.0
0.9
1.4
1.8
0.2
1.7
6810
361.
91.
20.
63
1.6
1.4
2.4
2.6
0.3
2.6
109
1750
YIEL
D%
QUA
LITY
DT/A
MIL
K 20
06YI
ELD
% Q
UALI
TYDT
/A
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
MIL
K 20
06
HURO
N, IN
GHAM
& O
TTAW
A CO
UNTY
SIL
AGE
TRIA
LS -
LATE
(105
Day
and
Late
r)ZO
NE 2
- 3TA
BLE
7L -
Cont
inue
d fro
m p
age 3
9.
2 Ye
ar A
vera
ges
2018
- 20
17BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/
A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
A%
DMG
T/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
BECK
582
9A4
108
1,2,
3,4,
641
.425
.610
.5**
9684
.817
.535
.256
.66.
941
.035
0336
669
37.3
31.8
11.6
**98
80.3
21.4
40.6
50.4
7.2
36.9
3158
3664
7CR
OPL
AN 4
791A
S311
1GT
106
ACC
1,2,
3,4,
639
.024
.49.
498
83.9
19.8
38.2
57.7
6.5
37.5
3406
3111
439
.428
.611
.2*
9682
.618
.438
.453
.57.
239
.933
1636
960
DAIR
YLAN
D SE
ED H
iDF-
3605
RA10
5C5
001,
2,3,
4,6
40.2
22.4
9.1
9579
.619
.036
.045
.67.
039
.732
3229
317
37.6
29.0
10.7
9779
.221
.640
.247
.07.
935
.730
9432
951
DAIR
YLAN
D SE
ED E
XP-1
0617
106
1,2,
3,4
42.5
22.8
9.9
*97
83.1
17.4
35.0
52.3
7.7
40.0
3369
3454
134
.534
.011
.5*
9682
.018
.335
.650
.88.
438
.932
5237
361
DAIR
YLAN
D SE
ED H
iDF-
3407
RA10
7C5
001,
2,3,
4,6
36.9
25.3
9.3
100
80.8
20.4
39.3
52.5
6.4
34.5
3172
2949
435
.531
.011
.0*
9578
.722
.241
.448
.47.
135
.330
6133
665
DAIR
YLAN
D SE
ED H
iDF-
3808
RA10
8C5
001,
2,3,
4,6
38.1
26.3
9.9
*97
82.8
20.6
39.2
55.2
6.8
35.1
3322
3310
533
.933
.711
.4*
9778
.323
.142
.149
.77.
435
.930
3136
454
DAIR
YLAN
D SE
ED R
PM-4
816A
M10
81,
2,4
41.0
21.6
8.8
9784
.616
.834
.656
.87.
840
.734
7131
948
34.9
33.0
11.4
*96
82.6
17.7
35.5
52.1
8.2
41.4
3339
3709
8DA
IRYL
AND
SEED
EXP
-110
1611
01,
2,4
43.0
21.9
9.4
100
83.9
16.4
33.4
52.1
7.7
42.9
3463
3324
432
.833
.711
.0*
9582
.317
.635
.451
.28.
441
.233
2235
930
GO
LDEN
HAR
VEST
G09
Y24-
3220
A10
9C5
001,
2,3,
436
.124
.39.
199
80.9
19.0
39.1
52.3
6.9
35.3
3215
2952
735
.130
.510
.792
80.8
19.7
38.4
52.1
7.5
38.6
3212
3364
0RE
NK R
K842
SSTX
112
C500
1,2,
3,4
37.6
24.4
9.2
9982
.918
.738
.054
.87.
237
.833
6431
010
34.8
33.2
11.2
*92
80.4
20.9
40.1
49.8
8.0
36.7
3167
3551
9SE
ED C
ONS
ULTA
NTS
SCS
1125
YHR
112
C250
1,2,
438
.523
.99.
298
82.1
16.6
34.1
47.7
7.3
42.6
3349
3165
931
.834
.411
.0*
9380
.518
.336
.746
.58.
239
.832
0333
209
AVER
AGE
39.5
23.9
9.4
9882
.718
.436
.653
.17.
138
.833
5131
966
35.2
32.1
11.2
9580
.719
.938
.650
.17.
838
.231
9635
403
HIG
HEST
43.0
26.3
10.5
100
84.8
20.6
39.3
57.7
7.8
42.9
3503
3666
939
.434
.411
.698
82.6
23.1
42.1
53.5
8.4
41.4
3339
3736
1LO
WES
T36
.121
.68.
895
79.6
16.4
33.4
45.6
6.4
34.5
3172
2931
731
.828
.610
.792
78.3
17.6
35.4
46.5
7.1
35.3
3031
3295
1CV
(%)
5.9
6.8
7.5
32.
810
.17.
98.
75.
710
.84
76.
75.
97.
14
2.7
10.3
7.3
7.1
4.5
8.5
47
LSD
(5%
)2.
11.
30.
62
1.9
1.5
2.4
3.9
0.3
3.6
126
1857
2.0
1.5
0.6
31.
81.
72.
33.
00.
32.
812
020
37
** 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
DT/A
DT/A
Ingh
am -
Late
Otta
wa
- Lat
eM
ILK
2006
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TY
- 42 -
TABL
E 8E
.IO
SCO,
OSC
EOLA
& P
RESQ
UE IS
LE C
OUNT
Y SI
LAGE
TRI
ALS
- EAR
LY (
101 D
ay an
d Ea
rlier
)ZO
NE 4
2018
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMG
T/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
%DM
GT/
A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
ADA
IRYL
AND
SEED
HiD
F-31
88-6
88C5
001
45.3
17.5
7.8
9685
.415
.634
.258
.38.
841
.135
3529
110
52.6
16.7
8.8
9885
.912
.629
.257
.38.
148
.935
9934
248
DAIR
YLAN
D SE
ED H
iDF-
3290
-990
C500
1,2,
3,4
48.5
16.8
8.0
9783
.416
.731
.653
.38.
543
.133
8028
946
59.7
14.5
8.7
9783
.514
.529
.252
.97.
749
.934
5033
208
DAIR
YLAN
D SE
ED R
PM-3
518A
M96
1,2,
445
.318
.98.
597
84.8
14.8
33.4
54.1
8.4
43.0
3514
3010
151
.818
.69.
6*
9785
.911
.929
.653
.77.
947
.636
0334
507
DAIR
YLAN
D SE
ED R
PM-3
519A
M96
1,2,
443
.821
.29.
3*
9683
.717
.936
.955
.28.
240
.534
1632
496
48.3
21.1
10.2
*97
84.3
17.6
36.5
55.8
7.5
42.7
3443
3512
7DA
IRYL
AND
SEED
RPM
-371
5AM
961,
2,4
42.7
20.9
8.9
*94
84.4
14.5
30.6
53.0
8.2
45.7
3511
3213
146
.720
.59.
5*
9785
.411
.626
.551
.67.
552
.135
8836
065
DAIR
YLAN
D SE
ED H
iDF-
3197
RA97
C500
1,2,
3,4,
642
.921
.58.
8*
9783
.318
.637
.155
.58.
238
.233
7829
880
52.7
18.2
9.6
*98
85.2
14.8
31.5
56.7
7.7
45.1
3516
3548
0DA
IRYL
AND
SEED
RPM
-499
AM97
1,2,
443
.319
.58.
696
85.1
14.7
31.9
54.6
8.4
44.5
3547
3137
349
.819
.59.
7*
9686
.013
.130
.353
.57.
848
.236
0236
599
DYNA
GRO
D37
SS64
97P5
001,
2,3,
445
.621
.59.
5**
9785
.613
.932
.454
.78.
143
.535
7433
561
51.6
20.1
10.4
**99
86.9
10.9
27.9
52.9
7.7
51.0
3680
3810
7G
OLD
EN H
ARVE
ST G
90Y0
4-32
20A
92C2
501,
2,3,
439
.922
.88.
9*
9683
.618
.036
.555
.08.
838
.734
1630
486
47.5
20.5
9.7
*95
84.8
17.0
34.4
55.4
8.4
44.3
3494
3384
5G
OLD
EN H
ARVE
ST G
95D3
2-32
2095
C250
1,2,
3,4,
641
.322
.08.
9*
9983
.516
.733
.750
.98.
541
.734
3229
958
44.8
20.5
9.2
9983
.017
.934
.250
.47.
742
.533
9229
911
King
Fish
er 4
3C40
93CO
NV41
.722
.09.
0*
9583
.216
.033
.750
.98.
737
.632
8329
294
48.0
19.9
9.5
*99
82.9
14.9
31.9
48.1
8.5
36.8
3133
2809
7LE
GAC
Y SE
EDS
L-33
35 3
220
93C2
501,
2,4,
640
.621
.78.
695
83.9
16.0
33.6
52.8
8.6
40.7
3452
2979
246
.520
.69.
6*
9684
.613
.830
.251
.28.
545
.435
0433
568
LEG
ACY
SEED
S L-
3537
311
095
C250
1,2,
4,6
42.3
21.1
8.9
*97
82.9
17.6
36.0
54.3
8.2
39.8
3378
3127
346
.821
.310
.0*
9984
.616
.633
.954
.67.
943
.334
8936
995
LG S
EEDS
LG
44C2
7VT2
PRO
94P5
001,
2,3
42.9
21.0
9.0
*96
84.4
17.3
32.6
52.4
7.9
42.9
3499
3299
348
.520
.59.
9*
9684
.217
.630
.048
.47.
446
.734
9936
461
LG S
EEDS
LG
44C3
4-31
1094
P500
1,2,
4,6
43.8
20.4
8.9
*94
84.4
13.6
30.0
49.4
8.1
42.9
3438
3134
946
.519
.79.
294
85.6
10.6
25.8
45.9
8.3
44.5
3452
3470
5LG
SEE
DS L
G54
65VT
2RIB
97P5
001,
2,3
40.8
22.4
9.0
*98
83.9
17.6
37.0
55.8
8.3
39.5
3425
3094
546
.021
.19.
7*
9884
.817
.035
.554
.77.
644
.034
8333
778
VIKI
NG 7
1-90
GS
90C2
50CO
N V45
.717
.48.
094
85.0
17.0
34.6
55.7
8.3
42.0
3518
2753
653
.116
.38.
692
86.8
13.6
29.3
54.8
8.1
49.7
3661
3159
0AV
ERAG
E43
.320
.58.
896
84.1
16.3
33.9
53.9
8.3
41.5
3453
3066
049
.519
.49.
597
85.0
14.5
30.9
52.8
7.9
46.0
3505
3425
3HI
GHE
ST48
.522
.89.
599
85.6
18.6
37.1
58.3
8.8
45.7
3574
3356
159
.721
.310
.499
86.9
17.9
36.5
57.3
8.5
52.1
3680
3810
7LO
WES
T39
.916
.87.
894
82.9
13.6
30.0
49.4
7.9
37.6
3283
2753
644
.814
.58.
692
82.9
10.6
25.8
45.9
7.4
36.8
3133
2809
7CV
(%)
6.9
7.6
9.6
32.
58.
87.
35.
46.
58.
44
76.
96.
18.
62
2.8
8.0
8.2
6.7
4.9
8.9
57
LSD
(5%
)2.
51.
30.
72
1.7
1.2
2.1
2.4
0.5
2.9
123
1782
4.1
1.4
1.0
22.
81.
43.
04.
20.
54.
921
429
50
Iosc
o - E
arly
DT/A
DT/A
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
TRIA
L AV
ERAG
E
2018
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMG
T/A
DT/A
%ST
DIV
DAD
FND
FND
FDCP
STR
MK/
TM
K/A
%DM
GT/
A%
STD
IVD
ADF
NDF
NDFD
CPST
RM
K/T
MK/
AD
AIR
YLAN
D S
EED
HiD
F-31
88-6
88C
500
137
.918
.36.
994
84.9
18.6
39.2
59.2
9.6
33.3
3471
2397
3D
AIR
YLAN
D S
EED
HiD
F-32
90-9
90C
500
1,2,
3,4
37.3
19.1
7.2
9783
.318
.934
.053
.69.
336
.333
1024
685
DAI
RYL
AND
SEE
D R
PM-3
518A
M96
1,2,
438
.819
.27.
596
83.7
17.7
37.2
54.5
8.9
38.3
3424
2569
4D
AIR
YLAN
D S
EED
RPM
-351
9AM
961,
2,4
39.3
21.2
8.5
*96
83.1
18.1
37.3
54.6
8.8
38.4
3389
2986
4D
AIR
YLAN
D S
EED
RPM
-371
5AM
961,
2,4
38.7
21.3
8.2
*92
83.5
17.3
34.6
54.5
8.9
39.4
3434
2819
7D
AIR
YLAN
D S
EED
HiD
F-31
97R
A97
C50
01,
2,3,
4,6
33.2
24.8
8.1
*97
81.4
22.4
42.7
54.3
8.7
31.4
3240
2427
9D
AIR
YLAN
D S
EED
RPM
-499
AM97
1,2,
436
.819
.57.
596
84.3
16.4
33.6
55.8
9.0
40.9
3492
2614
7D
YNAG
RO
D37
SS64
97P5
001,
2,3,
439
.622
.98.
7**
9584
.416
.936
.856
.58.
536
.034
6829
016
GO
LDEN
HAR
VEST
G90
Y04-
3220
A92
C25
01,
2,3,
432
.325
.28.
1*
9782
.519
.038
.754
.79.
233
.233
3827
127
GO
LDEN
HAR
VEST
G95
D32
-322
095
C25
01,
2,3,
4,6
37.8
23.6
8.7
**99
84.0
15.6
33.1
51.5
9.3
40.9
3472
3000
6Ki
ngFi
sher
43C
4093
CO
NV
35.4
24.1
8.5
*92
83.6
17.1
35.5
53.7
8.9
38.4
3433
3049
0LE
GAC
Y SE
EDS
L-33
35 3
220
93C
250
1,2,
4,6
34.7
22.7
7.7
*95
83.2
18.2
36.9
54.5
8.7
36.0
3401
2601
6LE
GAC
Y SE
EDS
L-35
37 3
110
95C
250
1,2,
4,6
37.9
20.8
7.8
*95
81.1
18.5
38.1
53.9
8.5
36.2
3266
2555
0LG
SEE
DS
LG44
C27
VT2P
RO
94P5
001,
2,3
37.3
21.6
8.0
*95
84.7
17.0
35.2
56.4
8.3
39.2
3500
2952
5LG
SEE
DS
LG44
C34
-311
094
P500
1,2,
4,6
41.1
21.1
8.6
*95
83.2
16.7
34.2
53.0
7.9
41.3
3424
2799
2LG
SEE
DS
LG54
65VT
2RIB
97P5
001,
2,3
35.6
23.6
8.4
*98
82.9
18.3
38.5
56.8
9.0
34.9
3367
2811
1VI
KIN
G 7
1-90
GS
90C
250
CO
NV
38.3
18.6
7.3
9783
.320
.340
.056
.78.
534
.333
7523
482
AVER
AGE
37.2
21.6
8.0
9683
.318
.036
.854
.98.
837
.034
0027
068
HIG
HES
T41
.125
.28.
799
84.9
22.4
42.7
59.2
9.6
41.3
3500
3049
0LO
WES
T32
.318
.36.
992
81.1
15.6
33.1
51.5
7.9
31.4
3240
2348
2C
V (%
)6.
59.
010
.74
2.1
8.8
6.3
3.4
7.7
7.0
37
LSD
(5%
)2.
92.
31.
04
2.0
1.9
2.8
2.2
0.8
3.1
128
2316
** H
ighe
st Y
ield
ing
Hyb
rid
* Not
Sig
nific
antly
Diff
eren
t fro
m H
ighe
st Y
ield
ing
Hyb
rid
Osc
eola
- Ea
rlyYI
ELD
% Q
UALI
TYM
ILK
2006
Pres
que
Isle
- Ea
rl yYI
ELD
% Q
UALI
TYM
ILK
2006
DT/A
Loca
tion
Dro
pped
- 43 -
TABL
E 6L
- Co
ntin
ued
from
pag
e 33.
ZONE
4
2 Yea
r Ave
rage
s 201
8 - 20
17BR
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
BECK
6082
AM™
*11
01,2
,440
.026
.610
.6**
9682
.619
.538
.454
.76.8
40.9
3328
3493
040
.426
.710
.8*
9683
.018
.637
.554
.57.3
42.5
3360
3618
4DA
IRYL
AND
SEED
HiD
F-36
05RA
105
C500
1,2,3,
4,642
.522
.39.2
9579
.920
.938
.346
.67.0
39.3
3235
2905
243
.321
.28.7
9379
.420
.538
.344
.57.4
39.1
3266
2772
0DA
IRYL
AND
SEED
HiD
F-34
07RA
107
C500
1,2,3,
4,641
.323
.39.6
9780
.521
.340
.351
.16.5
37.5
3184
3058
243
.122
.99.8
9680
.620
.040
.250
.76.7
39.2
3200
3137
8DA
IRYL
AND
SEED
HiD
F-38
08RA
108
C500
1,2,3,
4,638
.126
.610
.199
79.6
23.3
42.4
50.9
6.634
.831
0932
472
39.8
27.0
10.7
*99
81.4
19.7
38.5
51.6
7.238
.032
4835
491
DAIR
YLAN
D SE
ED D
S-97
13RA
110
C500
1,2,3,
4,637
.825
.59.6
9880
.619
.438
.549
.76.6
39.1
3215
3111
738
.226
.510
.297
80.9
18.9
37.2
48.7
7.140
.232
4333
003
DAIR
YLAN
D SE
ED E
XP-1
1015
110
1,2,4
43.1
22.8
9.896
81.7
19.0
37.6
51.3
6.942
.032
8733
272
42.3
22.7
9.696
82.5
18.5
36.4
52.0
7.243
.033
4633
096
DAIR
YLAN
D SE
ED E
XP-1
1016
110
1,2,4
40.9
24.3
9.798
84.0
17.5
35.4
54.1
7.342
.034
3833
762
40.4
26.0
10.1
9984
.117
.334
.754
.07.7
43.8
3452
3553
1GO
LDEN
HAR
VEST
G09
Y24-
3220
A10
9C5
001,2
,3,4
42.8
22.6
9.597
82.0
18.5
36.8
51.7
6.841
.333
1031
722
46.2
21.1
9.696
82.2
17.1
34.7
50.1
7.443
.433
3932
966
GOLD
EN H
ARVE
ST G
10T6
3-31
2011
0C5
001,2
,441
.124
.910
.2*
9780
.621
.238
.850
.06.9
39.8
3212
3348
943
.724
.110
.6*
9882
.018
.135
.649
.47.5
42.7
3320
3503
3M&
W S
EEDS
44D8
110
8P2
501,2
46.1
22.7
10.3
*96
81.9
18.8
37.3
51.4
7.141
.132
9433
995
49.7
22.8
11.1
**96
83.1
16.3
34.9
51.5
7.545
.533
9237
615
MAST
ERS
CHOI
CE M
CT-5
371
103
C250
145
.017
.27.8
9680
.820
.038
.650
.37.0
37.0
3174
2496
546
.418
.98.8
9683
.016
.734
.450
.57.4
42.6
3362
2957
3MA
STER
S CH
OICE
MCT
-545
410
4C2
501,2
,3,4,6
48.9
19.8
9.494
81.5
19.1
37.1
48.9
7.343
.333
1631
275
46.7
20.9
9.391
82.2
18.7
36.2
50.8
7.642
.533
2930
943
VIKI
NG O
.74-1
0GS
110
C250
CONV
42.2
22.6
9.498
81.9
18.7
37.3
51.3
7.041
.432
9930
528
41.0
23.5
9.398
81.6
17.6
37.3
50.8
7.242
.032
8730
683
AVER
AGE
42.3
23.2
9.697
81.3
19.8
38.2
50.9
6.940
.032
6231
628
43.2
23.4
9.996
82.0
18.3
36.6
50.7
7.341
.933
1933
017
HIGH
EST
48.9
26.6
10.6
9984
.023
.342
.454
.77.3
43.3
3438
3493
049
.727
.011
.199
84.1
20.5
40.2
54.5
7.745
.534
5237
615
LOW
EST
37.8
17.2
7.894
79.6
17.5
35.4
46.6
6.534
.831
0924
965
38.2
18.9
8.791
79.4
16.3
34.4
44.5
6.738
.032
0027
720
CV (%
)6.7
7.58.1
33.1
9.88.6
7.65.6
8.04
76.5
7.57.2
42.5
9.47.1
6.94.9
7.34
6LS
D (5
%)
1.51.0
0.42
1.31.0
1.72.1
0.21.7
7511
522.4
1.40.6
31.7
1.42.1
2.90.3
2.610
017
58
MILK
2006
YIEL
D%
QUA
LITY
MILK
2006
Early
- TR
IAL
AVER
AGE
Bran
ch -
Early
YIEL
D%
QUA
LITY
DT/A
DT/A
2 Yea
r Ave
rage
s 201
8 - 20
17BR
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
BECK
608
2AM
™*
110
1,2,
439
.626
.410
.4**
9582
.220
.339
.454
.86.
339
.432
9733
676
DAIR
YLAN
D SE
ED H
iDF-
3605
RA10
5C5
001,
2,3,
4,6
41.7
23.4
9.8
*97
80.4
21.2
38.3
48.7
6.7
39.6
3204
3038
4DA
IRYL
AND
SEED
HiD
F-34
07RA
107
C500
1,2,
3,4,
639
.623
.89.
397
80.4
22.6
40.4
51.4
6.2
35.9
3169
2978
6DA
IRYL
AND
SEED
HiD
F-38
08RA
108
C500
1,2,
3,4,
636
.426
.29.
498
77.7
26.9
46.3
50.3
6.0
31.6
2970
2945
3DA
IRYL
AND
SEED
DS-
9713
RA11
0C5
001,
2,3,
4,6
37.5
24.5
9.0
9880
.320
.039
.950
.76.
138
.131
8629
231
DAIR
YLAN
D SE
ED E
XP-1
1015
110
1,2,
443
.923
.010
.0*
9680
.819
.438
.750
.66.
641
.032
2733
449
DAIR
YLAN
D SE
ED E
XP-1
1016
110
1,2,
441
.422
.79.
498
83.8
17.7
36.1
54.1
6.8
40.1
3424
3199
4GO
LDEN
HAR
VEST
G09
Y24-
3220
A10
9C5
001,
2,3,
439
.424
.19.
398
81.8
19.8
39.0
53.3
6.2
39.2
3281
3047
7GO
LDEN
HAR
VEST
G10
T63-
3120
110
C500
1,2,
438
.525
.79.
9*
9679
.324
.342
.050
.66.
336
.931
0431
946
M&W
SEE
DS 4
4D81
108
P250
1,2
42.5
22.6
9.5
9680
.721
.239
.851
.46.
636
.831
9630
374
MAS
TERS
CHO
ICE
MCT
-537
110
3C2
501
43.7
15.4
6.8
9778
.523
.342
.850
.16.
631
.529
8620
357
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
51.2
18.7
9.5
9780
.819
.538
.147
.07.
044
.133
0331
606
VIKI
NG O
.74-
10GS
110
C250
CONV
43.3
21.8
9.4
9982
.119
.837
.251
.96.
840
.933
1130
373
AVER
AGE
41.4
23.0
9.4
9780
.721
.239
.851
.16.
538
.132
0430
239
HIGH
EST
51.2
26.4
10.4
9983
.826
.946
.354
.87.
044
.134
2433
676
LOW
EST
36.4
15.4
6.8
9577
.717
.736
.147
.06.
031
.529
7020
357
CV (%
)6.
84.
67.
53
3.4
9.5
9.8
7.9
5.7
8.5
57
LSD
(5%
)2.
30.
90.
62
2.3
1.6
3.2
3.4
0.3
2.7
127
1822
** 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
MILK
2006
Lena
wee -
Ear
lyW
ood
- Ear
lyYI
ELD
% Q
UALI
TYMI
LK 20
06DT
/ADT
/A
BRAN
CH, L
ENAW
EE &
WOO
D (O
HIO)
COU
NTY
SILA
GE T
RIAL
S - E
ARLY
(110
Day
and
Earli
er)
ZONE
1
- 44 -
TABL
E 8L
.IO
SCO,
OSC
EOLA
& P
RESQ
UE IS
LE C
OUNT
Y SI
LAGE
TRI
ALS
- LAT
E (1
06 D
ay an
d Ea
rlier
)ZO
NE 4
2018
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/
ADA
IRYL
AND
SEED
HiD
F-30
99RA
99C5
001,
2,3,
4,6
37.3
24.5
9.1
*96
84.3
16.1
33.1
52.7
8.0
43.4
3496
3237
740
.222
.28.
9*
9784
.316
.232
.852
.17.
844
.534
9332
564
DAIR
YLAN
D SE
ED R
PM-4
115A
M10
11,
2,4
40.2
23.9
9.5
**95
84.9
16.5
33.1
56.2
7.3
44.3
3536
3359
347
.619
.99.
4*
9685
.916
.631
.855
.57.
347
.135
9933
911
DAIR
YLAN
D SE
ED E
XP-1
0207
102
1,2,
438
.124
.59.
2*
9483
.616
.032
.751
.87.
743
.634
5833
092
42.0
22.9
9.4
*98
84.5
14.9
31.4
50.7
7.8
46.1
3517
3305
2DA
IRYL
AND
SEED
HiD
F-32
02PE
102
C500
1,2,
636
.823
.48.
696
83.8
17.5
36.3
54.3
8.0
38.7
3441
2965
739
.722
.99.
1*
9884
.216
.634
.952
.57.
941
.334
6831
565
DAIR
YLAN
D SE
ED H
iDF-
3702
-910
2C5
001,
2,3,
4,6
31.4
29.4
9.2
*94
83.6
17.9
36.5
56.0
7.8
36.8
3310
3079
634
.028
.89.
8**
9383
.917
.035
.454
.57.
442
.034
5131
936
DAIR
YLAN
D SE
ED E
XP-1
0306
103
1,2,
3,4
40.0
22.3
8.9
*97
84.0
16.6
34.7
54.0
7.7
42.3
3469
3069
745
.019
.28.
699
85.0
16.1
32.4
53.5
7.6
46.1
3539
3042
7DA
IRYL
AND
SEED
RPM
-431
8AM
104
1,2,
435
.225
.58.
9*
9683
.718
.036
.354
.47.
540
.034
3630
003
39.2
24.1
9.5
*97
85.2
14.2
30.5
53.9
7.5
48.1
3565
3240
2DA
IRYL
AND
SEED
RPM
-562
XRR
106
1,2,
432
.526
.78.
695
83.9
18.4
36.6
56.0
7.5
38.3
3447
3054
037
.325
.29.
3*
9584
.916
.333
.755
.17.
243
.735
2532
868
LEG
ACY
SEED
S L-
4433
312
210
1C2
501,
2,3,
4,6
35.4
25.1
8.8
9583
.817
.335
.854
.67.
838
.134
3730
241
39.9
23.4
9.4
*96
84.2
15.9
33.4
52.8
7.8
42.7
3485
3269
2LG
SEE
DS L
G54
94VT
2RIB
99P5
001,
2,3
38.9
23.7
8.9
*96
83.0
17.7
36.1
54.2
7.8
40.6
3396
2947
346
.920
.29.
5*
9784
.514
.731
.954
.27.
546
.935
1631
664
LG S
EEDS
LG
5505
STXR
IB10
0P5
001,
2,3,
433
.627
.08.
9*
8983
.017
.436
.754
.77.
938
.133
9030
901
39.6
24.6
9.8
**95
84.4
15.3
34.5
54.7
8.0
42.0
3484
3534
3LG
SEE
DS L
G54
99ST
XRIB
102
P500
1,2,
3,4
38.3
23.5
9.0
*99
83.9
17.4
35.2
54.1
7.6
40.7
3458
3178
843
.721
.79.
5*
9984
.716
.333
.253
.77.
444
.635
1633
347
MAS
TERS
CHO
ICE
MCT
-493
499
C250
1,2,
3,4,
640
.422
.59.
0*
9383
.018
.137
.754
.07.
739
.333
8030
655
44.5
19.4
8.7
9482
.718
.636
.853
.17.
640
.833
6831
244
MAS
TERS
CHO
ICE
MCT
-537
110
3C2
501
35.6
23.5
8.2
9383
.418
.035
.654
.27.
637
.733
5126
890
40.5
21.6
8.6
9084
.215
.933
.552
.87.
443
.334
8329
973
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
36.7
22.9
8.4
8784
.116
.835
.954
.47.
940
.534
6029
798
41.3
21.4
8.8
8283
.717
.535
.551
.67.
644
.034
3730
347
VIKI
NG O
.79-
0010
0CO
NV37
.924
.18.
9*
9484
.217
.435
.455
.47.
640
.734
7230
803
45.0
20.5
9.4
*96
84.4
16.8
34.4
54.6
7.4
43.1
3489
3261
8VI
KING
51-
04G
S10
4C2
50CO
NV36
.324
.28.
895
84.7
16.6
33.9
54.6
7.6
41.7
3512
3102
738
.323
.69.
0*
9684
.615
.632
.452
.57.
345
.035
1631
643
AVER
AGE
36.7
24.5
8.9
9483
.817
.335
.454
.47.
740
.334
3830
725
41.5
22.4
9.2
9584
.416
.133
.453
.47.
644
.234
9732
211
HIG
HEST
40.4
29.4
9.5
9984
.918
.437
.756
.28.
044
.335
3633
593
47.6
28.8
9.8
9985
.918
.636
.855
.58.
048
.135
9935
343
LOW
EST
31.4
22.3
8.2
8783
.016
.032
.751
.87.
336
.833
1026
890
34.0
19.2
8.6
8282
.714
.230
.550
.77.
240
.833
6829
973
CV (%
)7.
16.
68.
64
1.9
8.7
7.0
3.3
5.4
7.5
46
7.1
5.4
8.2
31.
68.
47.
03.
83.
56.
63
7LS
D (5
%)
2.2
1.3
0.6
31.
41.
32.
11.
50.
32.
510
115
333.
51.
40.
93
1.6
1.6
2.8
2.4
0.3
3.4
111
2523
2 Ye
ar A
vera
ges
2018
- 20
17BR
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
DAIR
YLAN
D SE
ED H
iDF-
3099
RA99
C500
1,2,
3,4,
635
.826
.89.
5*
9882
.517
.435
.651
.17.
940
.833
5532
485
36.0
27.1
9.6
9882
.117
.335
.749
.98.
041
.433
1533
644
DAIR
YLAN
D SE
ED R
PM-4
115A
M10
11,
2,4
40.8
23.3
9.3
*92
83.8
17.5
34.3
54.4
7.4
42.9
3447
3217
942
.223
.79.
893
84.1
17.9
33.6
52.7
7.5
43.4
3457
3364
8DA
IRYL
AND
SEED
EXP
-102
0710
21,
2,4
39.2
24.4
9.3
*92
82.7
16.6
34.1
51.0
7.9
43.3
3378
3205
338
.126
.09.
896
82.6
16.3
34.1
49.2
7.9
44.0
3363
3275
7DA
IRYL
AND
SEED
HiD
F-37
02-9
102
C500
1,2,
3,4,
633
.229
.29.
6*
9582
.217
.836
.852
.37.
837
.532
7230
953
32.5
30.2
9.7
9580
.917
.536
.247
.67.
641
.032
4729
643
DAIR
YLAN
D SE
ED R
PM-4
318A
M10
41,
2,4
36.2
27.3
9.7
**98
83.0
19.2
37.4
54.1
7.6
39.0
3368
3228
136
.029
.910
.6**
9883
.717
.234
.053
.27.
643
.534
2535
391
DAIR
YLAN
D SE
ED R
PM-5
62XR
R10
61,
2,4
33.1
27.9
9.2
*95
83.3
19.5
37.4
55.3
7.5
37.8
3385
3203
533
.829
.29.
896
83.6
18.7
35.8
54.4
7.5
40.4
3407
3329
2M
ASTE
RS C
HOIC
E M
CT-5
371
103
C250
137
.523
.68.
695
83.0
17.7
35.7
52.0
7.5
39.8
3350
2900
237
.224
.89.
193
82.4
17.4
35.5
50.7
7.4
41.3
3339
3103
2M
ASTE
RS C
HOIC
E M
CT-5
454
104
C250
1,2,
3,4,
636
.424
.38.
891
82.8
18.7
37.9
53.4
7.7
38.0
3348
3017
338
.625
.09.
689
82.8
19.4
38.1
52.4
7.6
39.5
3335
3253
2AV
ERAG
E36
.525
.89.
395
82.9
18.1
36.1
52.9
7.7
39.9
3363
3139
536
.827
.09.
795
82.8
17.7
35.4
51.3
7.6
41.8
3361
3274
2HI
GHE
ST40
.829
.29.
798
83.8
19.5
37.9
55.3
7.9
43.3
3447
3248
542
.230
.210
.698
84.1
19.4
38.1
54.4
8.0
44.0
3457
3539
1LO
WES
T33
.123
.38.
691
82.2
16.6
34.1
51.0
7.4
37.5
3272
2900
232
.523
.79.
189
80.9
16.3
33.6
47.6
7.4
39.5
3247
2964
3CV
(%)
7.9
6.6
9.2
42.
99.
77.
67.
75.
07.
74
77.
45.
79.
13
3.2
8.7
6.7
11.1
4.1
6.9
47
LSD
(5%
)1.
50.
90.
52
1.3
0.9
1.5
2.2
0.2
1.6
7610
862.
41.
20.
73
2.2
1.2
1.9
4.8
0.3
2.4
126
1968
TRIA
L AV
ERAG
EIo
sco
- Lat
e
DT/A
DT/A
MIL
K 20
06
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
DT/A
DT/A
TRIA
L AV
ERAG
EIo
sco
- Lat
eYI
ELD
% Q
UALI
TYM
ILK
2006
YIEL
D%
QUA
LITY
- 45 -
2018
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/
ADA
IRYL
AND
SEED
HiD
F-30
99RA
99C5
001,
2,3,
4,6
34.3
26.8
9.2
*95
84.3
16.1
33.5
53.2
8.2
42.3
3499
3219
1DA
IRYL
AND
SEED
RPM
-411
5AM
101
1,2,
432
.927
.99.
6**
9584
.016
.534
.457
.07.
341
.434
7433
274
DAIR
YLAN
D SE
ED E
XP-1
0207
102
1,2,
434
.126
.29.
0*
9082
.717
.134
.052
.97.
641
.133
9933
131
DAIR
YLAN
D SE
ED H
iDF-
3202
PE10
2C5
001,
2,6
33.9
24.0
8.1
9383
.518
.337
.656
.18.
236
.234
1427
748
DAIR
YLAN
D SE
ED H
iDF-
3702
-910
2C5
001,
2,3,
4,6
28.8
30.0
8.6
9483
.218
.937
.757
.58.
131
.631
6929
657
DAIR
YLAN
D SE
ED E
XP-1
0306
103
1,2,
3,4
35.0
25.4
9.1
*96
83.1
17.1
37.0
54.4
7.9
38.5
3399
3096
7DA
IRYL
AND
SEED
RPM
-431
8AM
104
1,2,
431
.326
.88.
495
82.3
21.9
42.0
54.9
7.4
31.9
3307
2760
4DA
IRYL
AND
SEED
RPM
-562
XRR
106
1,2,
427
.828
.37.
994
83.0
20.4
39.5
57.0
7.8
32.9
3368
2821
2LE
GACY
SEE
DS L
-443
3 31
2210
1C2
501,
2,3,
4,6
30.9
26.7
8.2
9483
.418
.638
.156
.37.
833
.633
9027
791
LG S
EEDS
LG5
494V
T2RI
B99
P500
1,2,
330
.927
.18.
396
81.5
20.7
40.4
54.2
8.1
34.4
3277
2728
2LG
SEE
DS L
G550
5STX
RIB
100
P500
1,2,
3,4
27.6
29.4
8.0
8281
.619
.639
.054
.77.
834
.132
9726
460
LG S
EEDS
LG5
499S
TXRI
B10
2P5
001,
2,3,
432
.825
.28.
599
83.1
18.5
37.2
54.6
7.9
36.9
3400
3022
8M
ASTE
RS C
HOIC
E M
CT-4
934
99C2
501,
2,3,
4,6
36.3
25.7
9.3
*93
83.2
17.7
38.6
54.9
7.9
37.9
3392
3006
6M
ASTE
RS C
HOIC
E M
CT-5
371
103
C250
130
.825
.37.
896
82.7
20.1
37.8
55.6
7.8
32.1
3218
2380
7M
ASTE
RS C
HOIC
E M
CT-5
454
104
C250
1,2,
3,4,
632
.124
.48.
092
84.5
16.1
36.3
57.2
8.2
37.0
3483
2924
9VI
KING
O.7
9-00
100
CONV
30.9
27.6
8.4
9384
.018
.036
.556
.17.
938
.434
5528
988
VIKI
NG 5
1-04
GS10
4C2
50CO
NV34
.324
.88.
7*
9384
.717
.535
.456
.87.
938
.535
0730
411
AVER
AGE
32.0
26.6
8.5
9483
.218
.437
.355
.57.
936
.433
7929
239
HIGH
EST
36.3
30.0
9.6
9984
.721
.942
.057
.58.
242
.335
0733
274
LOW
EST
27.6
24.0
7.8
8281
.516
.133
.552
.97.
331
.631
6923
807
CV (%
)6.
97.
38.
65
2.2
8.8
7.0
2.7
6.6
8.7
46
LSD
(5%
)2.
62.
30.
95
2.1
1.9
3.1
1.8
0.6
3.7
172
2186
2 Ye
ar A
vera
ges
2018
- 20
17BR
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
DAIR
YLAN
D SE
ED H
iDF-
3099
RA99
C500
1,2,
3,4,
635
.726
.59.
4**
9783
.017
.635
.652
.27.
840
.333
9531
325
DAIR
YLAN
D SE
ED R
PM-4
115A
M10
11,
2,4
39.4
23.0
8.9
*91
83.6
17.1
34.9
56.1
7.3
42.4
3438
3071
0DA
IRYL
AND
SEED
EXP
-102
0710
21,
2,4
40.3
22.7
8.9
*88
82.7
16.9
34.0
52.7
7.8
42.7
3393
3134
9DA
IRYL
AND
SEED
HiD
F-37
02-9
102
C500
1,2,
3,4,
633
.928
.39.
4**
9683
.518
.237
.457
.18.
034
.032
9632
264
DAIR
YLAN
D SE
ED R
PM-4
318A
M10
41,
2,4
36.3
24.6
8.8
*97
82.3
21.2
40.7
55.0
7.5
34.4
3310
2917
0DA
IRYL
AND
SEED
RPM
-562
XRR
106
1,2,
432
.426
.78.
7*
9582
.920
.239
.056
.17.
635
.233
6230
778
MAS
TERS
CHO
ICE
MCT
-537
110
3C2
501
37.9
22.4
8.2
9783
.718
.136
.053
.47.
638
.233
6026
972
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
34.3
23.5
8.1
9282
.718
.137
.754
.47.
936
.533
6027
815
AVER
AGE
36.2
24.7
8.8
9483
.118
.436
.954
.67.
738
.033
6430
048
HIGH
EST
40.3
28.3
9.4
9783
.721
.240
.757
.18.
042
.734
3832
264
LOW
EST
32.4
22.4
8.1
8882
.316
.934
.052
.27.
334
.032
9626
972
CV (%
)8.
27.
98.
94
2.6
10.0
7.8
3.3
6.0
8.7
47
LSD
(5%
)2.
41.
70.
73
1.8
1.5
2.4
1.5
0.4
2.7
123
1618
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
Loca
tion
Drop
ped
% Q
UALI
TYM
ILK
2006
% Q
UALI
TYM
ILK
2006
Osce
ola
- Lat
ePr
esqu
e Is
le -
Late
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
DT/A
DT/A
Osce
ola
- Lat
ePr
esqu
e Is
le -
Late
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
DT/A
DT/A
- 46 -
CORN TAR SPOT: HYBRID RESISTANCE AND SUSCEPTIBILITY
M.I. Chilvers, A.M. Byrne, W.D. Widdicombe, L. Williams, M.P. Singh
Michigan State University
Fig 1: Percentage tar spot severity and canopy greenness by tar spot for the early relative maturitygroup, 101 day and earlier. Note, that some hybrids with resistance under this low to moderate pressurefailed in other fields with early infection and high disease pressure. There is still much to learn.
0102030405060708090100
101
101 99 101
101
101 96 99 96 99 94 101 95 92 95 96 95 97 97 99 96 98 99 95 94 101 97 95 97 100
101
101
100 97 98 100 99 94 95 99 100 96 94 92 92 93 98 100
100 99 100 96 94 97 97 99 97 94 94 95 95 98 95 97 93 97 97
TarS
potS
everity
orGreene
ss(%
)
Tar Spot (%) Green (%)
Tar spot is a fungal disease recently discovered in the U.S. and was confi rmed in 26 counties across Michigan in 2018, with reported yield losses of up to 50 bu/A. Tar spot as the name suggests looks and feels like black spots of tar, which cannot be easily rubbed off the leaf. The black structures are fungal fruiting (ascomata) bodies which release spores to infect the plant, the pathogen is capable of overwintering in debris. The 2018 Allegan County corn performance trial had low to moderate levels of tar spot. The trial was rated on Sep 17, by estimating the percentage of the upper canopy (ear leaf and above) symptomatic for tar spot. Gray leaf spot was also present at moderate levels, but this was not scored due to the diffi culty distinguishing gray leaf spot from senescent tissue. We also rated the upper canopy for percentage green. Interestingly there were signifi cant differences in resistance to tar spot by hybrid.
Note, that some hybrids demonstrating resistance under this low to moderate pressure failed in other fi elds with severe disease and lodging due to early infection and high disease pressure. There is still much to learn. There appeared to be no strong effect of relative maturity on the level of disease across the hybrids. However, the level of tar spot severity was correlated with canopy greenness, supporting the observation that tar spot disease was causing premature leaf death or senescence. However, the presence of gray leaf spot should be taken into consideration, when looking at the hybrid scores. As tar spot is such a new disease for North America, there is much to learn about its epidemiology and management. Developing management plans will require the selection for and use of hybrid resistance, accompanied by fungicides, when warranted.
- 47 -
2018UPPER PENINSULA CORN PERFORMANCE TRIALS
M.P. Singh, J. Lauer, M. Jean, C. Kapp, W. D. Widdicombe and L. A. Williams
Michigan Corn Performance Trials (MCPT), conducted by Michigan State University (MSU) has had a long history in the Upper Peninsula (UP). However, due to its low corn acreage, remote nature, diverse climate, and challenging landscape, the trial has lost relevancy over time to its local stakeholders. It is not possible for the MCPT to attract corn hybrid entries that are adapted to and commercially available in the UP, as most of these hybrids were entered in the Wisconsin Corn Performance Trials (WCPT) and not in the MCPT due to differences in regional sales districts for seed companies’.
In 2018, the MCPT team (Maninder Singh, Bill Widdicombe, and Lori Williams) in partnership with the UP team (UP Research and Extenshion Center Director, Monica Jean, and Christian Kapp) collaborated with the WCPT team (Joe Lauer) to conduct corn hybrid evaluation trials on a grower farm (Charlie Meintz, Pleasant View Dairy Farm) in Menominee County with entries from WCPT’s Marinette County, WI location. Additionally, hybrid performance from the WCPT
location (representing an environment similar to the UP) is reported with permission from WCPT team. This collaboration was developed as part of an effort to improve the relevancy of MCPT trials in the UP, and was supported by funding from MSU AgBioResearch and MSU Extension. A minimum of 58 grain hybrids and 40 silage hybrids were planted at both locations, with additional entries at the UP location solicited from local seed dealers.
Methods and data presented for the Menominee location is similar to the grain and silage performance trials presented in this bulletin. Planting was accomplished using Winterstieger Plot King Planter on May 14 at a target seeding rate of 31,600 seeds/acre. Previous crop in the fi eld (sandy loam soil) was corn. Corn silage and grain plots were harvested on September 9 and October 29, respectively. For more details on WCPT location in Marinette County, please refer to University of Wisconsin bulletin A3653 (available at https://corn.agronomy.wisc.edu/HT/2018/2018Text.aspx ).
Fig 2: Percentage tar spot severity and canopy greenness by tar spot for the late relative maturity group,102 day and later. Note, that some hybrids with resistance under this low to moderate pressure failed inother fields with early infection and high disease pressure. There is still much to learn.
0102030405060708090100
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- 48 -
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2006
IntroductionTHANK YOU TO OUR FARM COOPERATORS:
ZONE 1Blaine Baker, Clayton
George Brossman, VandaliaKyle Huff, Coldwater
OSU NW Experiment Station, Matt Davis & Richard Minyo Hoytville, Ohio
Matthew Talladay, MilanZONE 2
Peggy Gross & Dick Birchmeier, New LothrupMSU Agronomy Farm, Mike Particka, East Lansing
Jim & John Schipper, MartinJerry Jorgensen & Mike Turner, Williamston
Tim, David and Daniel VanDyke, MarneZONE 3
Scott Karnatzs, GreenvilleRon, Ed and Chris McCrea, Bad Axe
Robert Oshe & Jacob Zwagerman, CusterZONE 4
Jeremy, Tim and Roger Beebe, WhitmoreJohn Bode, CadillacPaul Ponik, Posen
UPCharlie Meintz, Stephenson
THANK YOU TO THOSE WHO HELPED:Steve AndersonKristyn Bawol
Kalvin Canfi eldJake Cardon
Katlin Blaine-FusilierKyle Imwalle Chole JonesThomas Siler
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. Jeff Dwyer, 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 Early - 89 Day and Earlier
Zone 4 Grain Late - 90 Day and Later
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 Early - 97 Day and Earlier
Zone 4 Silage Late - 98 Day and Later
Company Index
Corn Silage Hybrid Index
Corn Grain Performance Trials
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