weather | corn grain | corn silage 27 | up corn …...for the silage trials (pg. 31). fertilizer...
TRANSCRIPT
WEATHER 4 | CORN GRAIN 7 | CORN SILAGE 27 | UP CORN TRIALS 28 | TAR SPOT 46
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COMPANY INDEXBRAND CONTACT
AG ARMOUR Ag Armour Seeds 8236 North Williams Rd. St. Johns, MI 48879 www.ag-armourseeds.com
AGRIGOLD AgriGold Hybrids 5381 Akin Road St. Francisville, IL 62460 www.agrigold.com
BLUE RIVER Blue River Hybrids 2326 230th Street Ames, IA 50014 www.blueriverorgseed.com
DAIRYLAND Dairyland Seed P.O. Box 958 West Bend, WI 53095 www.dairylandseed.com
DYNA-GRO Dyna-Gro Seed 4648S.GarfieldRoad Auburn, MI 48611 www.dyna-groseed.com
FS InVision Growmark, Inc. 1701 Towands Ave. Bloomington, IL 61701 www.growmark.com
GOLDEN HARVEST Syngenta Seed 11055 Wayzata Boulevard Minnetonka, MN 55440 www.syngenta.com
INTEGRA Agra Solutions LLC 23778 Delphos Jennings Rd. Delphos, OH 45833 www.agrasolutions.com
KEY Wilbur-Ellis 345 California Street, 27th Floor San Francisco, CA 94104 www.wilburellis.com
BRAND CONTACT 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
SEEDWAY Seedway LLC 275 North Eighth Street Mifflinburg,PA17844 www.seedway.com
SPECIALTY Specialty Hybrids 306 N Main Street Monticello, IN 47960 www.specialtyhybrids.com
VIKING Albert Lea Seeds 1414 West Main Street P.O. Box 127 Albert Lea, MN 56007 [email protected]
WELLMAN Wellman Seeds, Incorporated 23778 Delphos Jennings Road Delphos, OH 45833 www.wellmanseeds.com
WYCKOFF Wyckoff Hybrids 594 E 400 N Valparaiso, IN 46383 www.wyckoffhybrids.com
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2019MICHIGAN CORN PERFORMANCE TRIALS
M. P. Singh and W. D. WiddicombeDepartment of Plant, Soil and Microbial Sciences
Michigan State UniversityIntroduction
The Michigan State University (MSU) Department of Plant, Soil and Microbial Sciences conducts the Michigan Corn Performance Trials (MCPT) each year in cooperation with Michigan State University AgBioResearch, The Ohio State University, seed corn companies, and farmers, to determine yield and quality performance for corn hybrids throughout the state of Michigan.
EntriesSeed companies are invited to enter their hybrids in the
trials and a fee is charged to cover expenses incurred. Separate indices for grain and silage provide a list of all hybrids entered in the 2019 trials (pg. 24 and 30 respectively). A total of 311 hybrids from 24 brand names make up the 463 entries; which translates into 5,556 separate plots planted across 12 grain locations and 9 silage locations in Michigan. Hybrids are entered into zones based upon growing degree days and then grouped into Early and Late trials based upon relative maturities. Company names used in association with hybrid numbers refer to the brand. Hybrid numbers are designated by the company.
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 along with trial averages within each zone. Complete one and two-year yield results are listed in tables for each trial within 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. Confidenceincornperformancedataincreasesasthenumberofyears 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
Results are the average of four replications grown in close proximity to one another. Two or more plots of the same hybrid in the same field may produce somewhat differentresults because of uncontrolled variability in the soil and other environmental factors. Replication and randomization of entries are two methods employed to reduce this variability. Because these methods do not eliminate all variability, the magnitude of difference necessary for statistical significance
has been calculated for yield, moisture content, and test weight. The least significant difference (LSD) is the amountan individual hybrid would have to differ from another hybrid to beconsideredsignificantlydifferent.Thecoefficientofvariability(CV) is indicative of a trial’s precision. Trials with low levels of error variation have lower CV values.
The highest yielding hybrid in each trial is indicated with a doubleasterisk (**),hybrids thatarenotsignificantlydifferentfrom the highest yielding hybrid are indicated with a single asterisk (*). Other agronomic information relative to each trial is given in Table B for the grain trials (pg. 26) and Table C for the silage trials (pg. 31). Fertilizer amounts are shown as total pounds per acre of N, P2O5, and K2O applied during the season.
Season in Summary: 2019Entry forms for participating companies were due March
15th; by the end of March seed was starting to arrive. After a lot of paperwork, printing labels, and placing labels on packets, our studentsbegancountingseedsandfillingpackets.Seedpacketswere sorted by trial and location and organized according to a computer-generated random planting order. Some seed in the trials comes from winter production in South America, meaning we are usually receiving seed up until the morning we leave the AgronomyFarmforthefirstdayofplanting.
The upgrade of our planter to a precision 4 row Almaco Seed Pro 360 vacuum planter in 2018 did not meet our expectations. To say the least, we were disappointed with the consistency of the planter. After further research, we switched the GPS provider to Trimble GFX-750 with a NAV-900 controller for 2019. This Trimble system is more compatible with the Almaco controller.
Planting commenced in Mason County on May 14th and ended in Ottawa County on June 27th. The protracted planting season was due to the numerous rain events during the planting season. These rainy conditions resurfaced late in the growing season and hampered harvest as well. Saginaw and Washtenaw locations were not planted because of the frequent and sometimes heavy rains. Lenawee was planted but was later abandoned, as heavy rains after planting caused poor emergence.
- Season Continued On Page 6.
2019GROWING SEASON WEATHER SUMMARY
Jeff Andresen, Extension Agricultural MeteorologistDepartment of GeographyMichigan State University
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From a weather-related perspective, the 2019 growing season across the Great Lakes region will go into the books ranking among the most challenging in recent memory. Overall, for the April-October period, mean temperatures were very close to the long term climatological normals. However, that mean was masked by high variability during the season, ranging from much cooler than normal weather early in the season to warmer than normal conditions during the late summer and early fall. Precipitation totals for the period were above normal region-wide, with seasonal surpluses in many spots greater than 8.00”. In contrast, some areas in Michigan had persistent dryness during the middle of the summer, which had an adverse impact on crop performance.
The winter of 2018/2019 was statistically somewhat colder and wetter than normal on average, with some notable regional differences. Winter weather began early last November but was quickly replaced by a milder than normal period from early December into early January, which was generally followed by an extended period of colder than normal conditions. This included at least two severe cold outbreaks during the second half of January. Seasonal December through February mean temperatures varied by location across the state and region, ranging from just above normal in extreme southeastern sections of the state to more than 3º below normal across the western Upper Peninsula. Precipitation totals varied similarly, ranging from slightly below normal across southeastern sections to much above normal in the northwest. Seasonal snowfall totals varied from below normal levels in the southern Lower Peninsula to above normal across sections of Upper Michigan. Ice concentration on the Great Lakes at the end of the winter season was more extensive than normal, with more than 80% coverage on Lakes Superior, Huron, and Erie, and just above 40% on Lake Michigan. Colder than normal temperatures statewide during the early spring resulted in a late break of dormancy and slow early development of most overwintering crops.
After seasonable temperatures early in April, soil temperatures had warmed enough to allow planting of many annual crops to begin when a series of weather disturbances moving along a near stationary frontal boundary stretching west to east across the Midwest
region led to several rounds of rain and snow across much of Michigan during the last week of April into early May. The unsettled weather continued through much of May into early June with rain and snow on an almost daily basisleadingtosaturatedsoils,flooding,andprolongedfieldworkdelaysthatpersistedthroughmuchofMayintoJune. Michigan statewide average precipitation totals (and departures from normal) for April, May, and June were 3.65” (+1.05”), 4.73” (+1.64”), and 4.13” (+0.85”) respectively, which is the fourth wettest April-June period on record back to 1895. By late May, soil moisture rankings in some areas reached the 95th or higher percentile levels relative to long term normals (which is especiallysignificantgiven thatsoilmoisture levelsarenormally at or near their highest levels of the year during the spring season). Crop planting delays reached record late dates in some areas and many growers switched to earlier maturing varieties or were even unable to plant. It is important to note that Michigan was not alone regardingthepoorspringweather(andspringfieldworkchallenges), with heavier than normal rainfall totals and planting delays also reported from the Great Plains eastward to the Atlantic.
Following the abnormally cool, wet weather during the spring, a major upper air pattern change took place during the last week of June with the formation of a broad upper air ridge across the region. This change resulted in much warmer, summerlike temperatures, less frequent rainfall in the region and accelerated phenological development rates of most crops. The pattern continued through much of July, with warmer than normal temperatures and a noticeable decrease in precipitation rates. While the warmer and drier weather favored forage and wheat harvests in many areas, it also led to increasing levels of moisture stress in other areas given the delayed planting and shallower and less developed than normal crop rooting systems. The timing of the dryness was unfavorable given that it coincided with relatively moisture-sensitive phenological stages.
- 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
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CO
UN
TY
MA
Y
JUN
E
JULY
A
UG
US
T S
EP
TEM
BE
R
SE
AS
ON
O
BS
N
OR
M
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
OB
S
NO
RM
DE
V
Zone 1 B
RA
NC
H &
CA
SS
TE
MP
56
.6
58.2
-1
.6
65.9
67
.3
-1.4
73
.2
71.3
1.
9 68
.1
69.3
-1
.2
65.9
61
.6
4.3
65.9
65
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0.4
(C
oldw
ater
) P
PT
5.21
3.
18
2.03
4.
65
3.67
0.
98
4.40
3.
13
1.27
1.
76
3.69
-1
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4.80
3.
61
1.19
20
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17.2
8 3.
54
GD
D
294
344
-50
494
527
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711
648
63
571
597
-26
486
396
90
2556
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12
44
LEN
AW
EE
TE
MP
56
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64.4
68
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66.1
62
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66
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&
WA
SH
TEN
AW
P
PT
5.66
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1.
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4.48
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(H
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289
346
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59
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9 61
3 62
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2601
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OD
(OH
) TE
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60
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reen
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37
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556
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687
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585
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131
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52
265
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ALL
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TE
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54
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65.6
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(
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SU
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RO
N
TEM
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9 62
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3 -4
8 42
8 37
3 55
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MA
SO
N
TEM
P
53.8
56
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2.
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3.25
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2.08
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3.
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TEM
P =
Mea
n te
mpe
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re (°
F)
PP
T =
Pre
cipi
tatio
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ches
) G
DD
= G
row
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Deg
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cal
cula
ted
at b
ase
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, with
an
86°F
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OB
S =
Tot
als
obse
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019
NO
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= N
orm
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calc
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ver 3
0 ye
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) D
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bser
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mal
Ta
ble
cour
tesy
of M
SU
Agr
icul
tura
l Wea
ther
Offi
ce (5
17-3
55-0
231)
- 6 -
A couple of changes in county location were made for the 2019 season. The Branch county location changed cooperators but still located near Coldwater and is in close proximity to previous years. Rotational restrictions limited suitable site selections. The Allegan county location was moved further west in Michigan in hopes of encountering Tar Spot infection. The Allegan county location did receive Tar Spot infection but not to the levels hoped for. We are still analyzing the large amounts of data collected at this site.
Weed control was applied at trial locations as needed. Fertilizer applications were consistent with rates that were necessary based on soil type, soil samples, and cooperator recommendationsforthefield.
Stand counts at all trials were conducted at approximately the V5 or V6 growth stages.
Silage harvesting began on September 17th in Branch CountyandfinishedonOctober24th in Ottawa County. Grain harvest began November 3rd at Branch County and ended December 6th close to home at Ingham County.
Table A (pg. 5) presents 2019 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 AgriculturalWeatherOffice.
Warmer and drier than normal weather continued across much of the region from late August into September, with statewide mean temperatures during September averaging + 3.7°F above the long term normal. While the warm weather resulted in continued moisture stress in some areas, it also provided additional heat units to advance summer crops towards maturity. For the May through October seasonal reference period, base 50ºF growing degree day totals varied considerably from north to south across the state, ranging from less than 1800 units across northern and central sections of Upper Michigan to near 3000 units in extreme southern sections of the state along the Indiana and Ohio borders. Those totals range from more than 100 units above normal in the extreme south to more than 200 units below normal across western Upper and northern Lower Michigan.
A series of low-pressure systems brought several rounds of widespread heavy rainfall to the region during lateSeptemberandthefirsthalfofOctober.Thepassageof several Canadian-origin high-pressure systems led to thefirstfrostandfreezingtemperaturesofthefallseasonacross northern sections of the region during the firstweek of October and across many southern sections during the third week of the month. In most areas, the first freezing temperatures were several days or morelate compared to the climatological normals, which was helpful given the delayed start of the season and consistentwithatrendacrossthestatetowardslaterfirstfall freezes during the past 20-30 years. The formation of a strong upper air troughing feature across the central USA during the middle of October led to a prolonged period of abnormally cool, wet weather that persisted well into November and included several episodes of heavy rain, snow, and high winds. Given the delayed state of many crops, the inclement weather came at a particularly inopportune time and led to extended delays in harvest andotherfieldworkactivities.Justasimportantly,colderthan normal temperatures associated with the pattern slowed drying of soils and field dry down rates ofunharvested crops.
- Season Continued From Page 3
- Weather Continued From Page 4
Overall, weather conditions during the 2019 growing season are generally consistent with long-term climatic trends across the region toward warmer and wetter conditions. May through September total growing season precipitation averaged across the state was 19.51”, which isthefifthwettestonrecordandreflectsatrendtowardswetter growing seasons with time, particularly during the last 30-40 years (The long term statistical trend is approximately +0.30” additional precipitation per decade). The timing of the changes in precipitation is also critical, with significant increases occurring during the springand fall seasons (when it can be counterproductive). As noted earlier, the abnormally wet April-June period this year was fourth wettest on record in Michigan. Amazingly, fourofthefivewettestApril-Juneperiodsonrecordhaveoccurred in the last eight years since 2011. While this shift has resulted in relatively fewer, less severe droughts with time,ithasalsogreatlycomplicatedfieldworkoperationsdue to excessive wetness.
2019GRAIN PERFORMANCE TRIALS
2019 Grain Trial Locations
Marinette Co. WI
- 7 -
IntroductionThe grain index (pg. 24) contains a list of all hybrids planted
in the 2019 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 (Saginaw Country dropped)
Tables 3E/3L Zone 3 - Huron, Mason, and MontcalmTables 4E/4L Zone 4 – Iosco, Osceola, and Presque Isle Tables 5E/5L Conventional Trial – Ingham, Saginaw,
(Zone 2) and Montcalm (Zone 3)
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, zone 3, and zone 4 were divided into two maturity groups, early and late, based on the relative maturity (RM) of each hybrid provided by the seed companies.
Variety trialswere conductedon farmers’ fields,TheOhioState University Ohio Agricultural Research and Development Center, and Michigan State University AgBio Research Stations. Planting was accomplished with an Almaco Seed Pro 360 vacuum planter equipped with precision metering units, Kinze planting units and, Trimbl GFX-750 paired with a NAV-900 controller provided the GPS signal. Four row plots were planted at a uniform length of 22 feet with a 3-foot alleyway at 30-inch row spacing. 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.
All plots within a location were managed uniformly with the same fertilizers, date of planting, and other management practices. In the field, hybrids were identified only by a plotnumber to assure unbiased comparisons. Trials in Branch, Cass, and Mason counties were irrigated.
Data was collected on the center two rows of each plot. Stand counts (%Std) were recorded in June. Target population rates and average trial populations are listed with other important agronomic information in Table B (pg. 26). 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 field weights were measuredby 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 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)
2019
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
636-
11VT
2PRO
106
P500
1,2
18.5
246.
4*
53.9
1.3
100
21.0
276.
7**
54.3
1.5
9915
.921
6.0
53
.51.
110
0AG
RIGO
LD A
637-
55VT
2RIB
107
P500
1,2
19.7
217.
1
56.1
2.8
9321
.824
5.7
55
.94.
090
17.6
188.
4
56.2
1.5
95DA
IRYL
AND
SEED
DS-
4318
AM10
3P5
001,
2,4
18.7
228.
8
56.0
1.8
9820
.124
4.1
56
.20.
097
17.2
213.
4
55.8
3.5
99DA
IRYL
AND
SEED
DS-
4329
AM10
3P5
001,
2,4
19.6
221.
9
55.2
3.7
9521
.626
2.9
*55
.10.
991
17.5
180.
9
55.2
6.5
98DA
IRYL
AND
SEED
DS-
4440
AM10
4P5
001,
2,4
19.3
224.
0
55.7
2.3
9421
.424
9.9
55
.40.
090
17.2
198.
0
55.9
4.5
98DA
IRYL
AND
SEED
DS-
7004
RA10
4P5
001,
2,4
18.4
222.
0
53.7
10.7
9221
.123
3.0
54
.14.
689
15.7
211.
0
53.3
16.8
95DA
IRYL
AND
SEED
DS-
4580
Q10
5P5
001,
2,3,
419
.822
9.9
57
.41.
895
21.3
249.
6
57.1
0.3
9018
.221
0.1
57
.63.
299
DYNA
GRO
D47S
S29
107
P500
1,2,
3,4
19.0
216.
3
56.3
0.6
9920
.925
5.0
57
.00.
097
17.0
177.
5
55.6
1.2
101
FS In
Visio
n FS
5594
X RI
B10
5P5
001,
2,3,
419
.620
6.4
56
.30.
898
21.6
226.
0
56.0
0.0
9917
.618
6.7
56
.61.
597
FS In
Visio
n FS
55RL
1 EZ
R10
5C2
501,
2,4,
619
.221
1.6
54
.90.
794
21.3
237.
5
55.0
0.0
9417
.018
5.6
54
.71.
393
FS In
Visio
n FS
57ZX
1 RI
B10
7P5
001,
2,3,
418
.620
1.1
56
.41.
290
20.5
233.
6
56.9
0.6
8316
.716
8.5
55
.81.
897
GOLD
EN H
ARVE
ST G
07F2
3-31
1110
7C2
501,
2,3,
4,6
19.5
249.
1**
55.1
2.0
9421
.525
6.5
55
.50.
088
17.4
241.
6**
54.6
4.0
99KE
Y 99
5QR
951,
2,4,
618
.021
3.3
56
.32.
310
018
.924
8.9
56
.93.
799
17.0
177.
6
55.7
0.9
100
LEGA
CY S
EEDS
L-5
519
DGVT
2P10
5A5
001,
2,18
18.8
228.
4
55.6
0.2
9520
.826
0.5
56
.20.
089
16.8
196.
3
54.9
0.3
101
LEGA
CY S
EEDS
L-6
047
SSX
105
A500
1,2,
3,4
19.0
199.
3
56.1
0.5
9320
.922
2.7
56
.70.
089
17.0
175.
9
55.4
0.9
96LG
SEE
DS L
G550
5VT2
RIB
100
P500
1,2
17.7
193.
8
57.8
0.6
9817
.923
2.9
58
.60.
695
17.5
154.
6
56.9
0.6
100
LG S
EEDS
LG5
1C48
VT2P
RO10
1P5
001,
218
.021
9.2
55
.60.
591
19.3
242.
3
55.9
0.0
8416
.719
6.1
55
.30.
997
LG S
EEDS
LG5
525V
T2RI
B10
5P5
001,
218
.820
6.5
56
.00.
097
20.7
252.
3
56.2
0.0
9716
.916
0.7
55
.70.
097
LG S
EEDS
LG5
7C33
STX
107
P500
1,2,
3,4
19.1
204.
2
53.6
1.0
9822
.023
7.6
53
.50.
099
16.2
170.
8
53.7
1.9
97LO
CAL
SEED
LC0
488
SSXR
IB10
4R5
001,
2,3,
417
.421
7.5
55
.40.
398
18.8
246.
0
55.9
0.0
9615
.918
9.0
54
.80.
699
LOCA
L SE
ED L
C065
7 SS
XRIB
106
R500
1,2,
3,4
17.0
205.
7
55.9
0.5
9417
.824
1.3
56
.90.
688
16.2
170.
1
54.9
0.3
99M
&W S
EEDS
45R
6910
3C2
501,
217
.822
5.3
55
.91.
197
18.8
245.
1
55.9
0.3
9616
.720
5.5
55
.81.
897
M&W
SEE
DS 4
4P86
105
C250
1,2
17.3
207.
8
56.6
0.2
9518
.223
4.6
57
.70.
094
16.4
180.
9
55.5
0.3
96RU
PP X
RD01
-90
101
P250
1,2
18.3
213.
4
56.8
1.6
100
19.4
248.
3
56.9
0.0
9917
.117
8.5
56
.63.
210
0RU
PP X
RD03
-07
103
P250
1,2
17.7
221.
0
55.4
0.3
9618
.624
7.2
55
.60.
096
16.7
194.
7
55.2
0.6
96RU
PP X
RD06
-53
106
P500
1,2
18.7
221.
2
57.6
0.9
9620
.225
0.5
57
.90.
096
17.1
191.
9
57.2
1.8
96RU
PP X
RD07
-72
107
P250
1,2
18.2
205.
4
55.0
1.1
9120
.523
3.5
55
.50.
086
15.9
177.
2
54.4
2.1
95SP
ECIA
LTY
32A8
8610
2P5
001,
2,3,
417
.620
0.0
54
.30.
210
118
.823
6.0
54
.90.
010
016
.316
4.0
53
.70.
310
2SP
ECIA
LTY
34A0
0710
4P5
001,
2,3,
418
.721
6.9
56
.70.
898
19.9
253.
6
56.6
0.0
9817
.518
0.1
56
.71.
597
SPEC
IALT
Y 36
A537
106
P500
1,2,
3,4
19.8
217.
8
56.8
0.5
9722
.223
8.0
56
.70.
093
17.4
197.
5
56.9
0.9
101
WEL
LMAN
W29
03DP
103
1,2
17.9
215.
2
55.9
0.7
9718
.824
5.0
56
.10.
094
16.9
185.
3
55.6
1.4
100
WEL
LMAN
W28
07DP
107
1,2
18.7
217.
4
55.1
0.3
9221
.025
0.9
55
.50.
090
16.3
183.
8
54.7
0.6
94W
YCKO
FF 2
212
VT2P
100
P500
1,2
18.7
208.
1
57.2
1.3
9719
.724
7.1
57
.01.
097
17.6
169.
0
57.3
1.5
97W
YCKO
FF 2
250
VT2P
102
P500
1,2
17.9
220.
4
55.7
0.3
9918
.625
0.1
54
.80.
098
17.1
190.
7
56.5
0.6
100
WYC
KOFF
233
5 SS
103
P500
1,2,
3,4
18.5
207.
8
56.1
0.6
9619
.824
8.8
56
.40.
093
17.2
166.
7
55.7
1.2
98W
YCKO
FF 2
390
VT2P
103
P500
1,2
17.4
189.
0
55.5
0.2
9418
.121
7.9
56
.40.
087
16.6
160.
0
54.6
0.3
100
WYC
KOFF
240
0 SS
105
P500
1,2,
3,4
17.2
203.
3
56.5
0.8
9317
.923
7.6
57
.50.
088
16.4
169.
0
55.4
1.5
98W
YCKO
FF 2
433
SS10
5P5
001,
2,3,
419
.521
4.7
56
.71.
196
21.1
228.
7
56.3
0.6
9117
.920
0.7
57
.11.
510
0W
YCKO
FF 2
500
SS10
6P5
001,
2,3,
418
.821
8.7
56
.30.
394
20.6
252.
4
57.0
0.0
8917
.018
4.9
55
.50.
698
WYC
KOFF
258
5 VT
2P10
7P5
001,
219
.323
1.6
54.4
1.5
9722
.226
8.9
*54
.50.
396
16.4
194.
354
.32.
798
AVER
AGE
18.5
215.
455
.81.
296
20.1
244.
756
.10.
593
16.9
186.
155
.51.
998
HIGH
EST
19.8
249.
157
.810
.710
122
.227
6.7
58.6
4.6
100
18.2
241.
657
.616
.810
2LO
WES
T17
.018
9.0
53.6
0.0
9017
.821
7.9
53.5
0.0
8315
.715
4.6
53.3
0.0
93CV
(%)
3.2
6.1
1.1
226.
76
3.4
5.3
1.0
336.
09.
02.
96.
71.
218
1.8
3LS
D (5
%)
0.5
10.9
0.5
2.3
50.
815
.30.
71.
910
.00.
614
.70.
84.
13
Was
hten
aw -
Early
Cass
- Ea
rlyBr
anch
- Ea
rlyEa
rly -
TRIA
L AV
ERAG
EBU
/ABU
/ABU
/ABU
/A
Not P
lante
d
- 9 -
2 Ye
ar A
vera
ges
2019
- 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-43
18AM
103
P500
1,2,
418
.722
9.6
55
.21.
497
19.9
240.
7*
54.6
0.9
9717
.421
8.4
55
.81.
896
DAIR
YLAN
D SE
ED D
S-43
29AM
103
P500
1,2,
419
.922
3.8
53
.92.
295
21.8
243.
0*
53.3
1.2
9417
.920
4.6
54
.43.
296
GOLD
EN H
ARVE
ST G
07F2
3-31
1110
7C2
501,
2,3,
4,6
20.1
242.
6**
54.1
1.4
9422
.124
1.2
*53
.60.
792
18.0
244.
0**
54.6
2.0
96LG
SEE
DS L
G550
5VT2
RIB
100
P500
1,2
17.4
203.
7
56.9
0.5
9818
.222
1.1
56
.50.
697
16.6
186.
2
57.3
0.3
98LG
SEE
DS L
G552
5VT2
RIB
105
P500
1,2
18.9
211.
4
55.4
0.6
9720
.423
0.9
54
.60.
497
17.3
191.
9
56.1
0.8
97M
&W S
EEDS
45R
6910
3C2
501,
218
.321
1.7
55
.51.
694
19.4
225.
7
54.7
0.5
9517
.119
7.7
56
.22.
792
RUPP
XRD
07-7
210
7P2
501,
218
.721
1.5
54
.80.
689
20.9
232.
1
54.2
0.2
8616
.519
0.8
55
.31.
091
SPEC
IALT
Y 32
A886
102
P500
1,2,
3,4
18.2
208.
0
54.0
0.2
9819
.722
7.6
53
.40.
299
16.6
188.
3
54.6
0.1
97SP
ECIA
LTY
34A0
0710
4P5
001,
2,3,
418
.722
4.2
55
.90.
495
20.3
243.
5*
55.1
0.0
9617
.120
4.9
56
.70.
894
WEL
LMAN
W29
03DP
103
1,2
18.1
207.
1
55.3
0.4
9418
.922
2.0
54
.70.
094
17.2
192.
2
55.8
0.7
94W
YCKO
FF 2
212
VT2P
100
P500
1,2
18.3
215.
6
56.5
1.2
9619
.623
1.8
55
.51.
596
17.0
199.
4
57.4
0.8
96W
YCKO
FF 2
390
VT2P
103
P500
1,2
17.4
204.
4
55.0
0.1
9418
.121
4.5
54
.50.
092
16.6
194.
3
55.5
0.2
96W
YCKO
FF 2
400
SS10
5P5
001,
2,3,
416
.921
5.4
55
.70.
495
17.7
224.
8
55.4
0.0
9216
.020
6.0
56
.00.
797
WYC
KOFF
250
0 SS
106
P500
1,2,
3,4
18.9
226.
455
.80.
595
20.7
246.
2**
55.3
0.0
9117
.120
6.6
56.3
0.9
98AV
ERAG
E18
.521
6.8
55.3
0.8
9519
.823
1.8
54.7
0.4
9417
.020
1.8
55.9
1.1
96HI
GHES
T20
.124
2.6
56.9
2.2
9822
.124
6.2
56.5
1.5
9918
.024
4.0
57.4
3.2
98LO
WES
T16
.920
3.7
53.9
0.1
8917
.721
4.5
53.3
0.0
8616
.018
6.2
54.4
0.1
91CV
(%)
3.4
6.5
1.1
231.
55
3.6
5.3
0.9
346.
29.
03.
07.
71.
318
5.1
4LS
D (5
%)
0.4
8.2
0.4
1.4
30.
610
.50.
41.
57.
00.
412
.50.
62.
43
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
BU/A
BU/A
BU/A
Early
- TR
IAL
AVER
AGE
Was
hten
aw -
Early
BU/A
Bran
ch -
Early
Cass
- Ea
rly
- 10 -
TABL
E 1L
.ZO
NE 1
BRAN
CH, C
ASS
& W
ASHT
ENAW
COU
NTY
GRAI
N TR
IALS
- LA
TE (1
08 D
ay an
d La
ter)
2019
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
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101
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101
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101
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100
DAIR
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ED D
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40AM
108
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53
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DAIR
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ED D
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10AM
L11
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55
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DAIR
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ED D
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110
P500
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SEED
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3330
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54
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DS LG
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109
P500
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101
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101
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54
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55
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100
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55
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54
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392
LEGA
CY S
EEDS
L-3
617
VT2P
96A2
501,
226
.018
4.6
52
.11.
793
17.9
210.
9
56.7
1.8
9634
.015
8.3
47
.51.
689
LEGA
CY S
EEDS
L-4
118
VT2P
99A2
501,
227
.217
4.8
51
.96.
699
18.0
204.
9
56.4
9.2
101
36.3
144.
6
47.3
3.9
97LE
GACY
SEE
DS L
-424
8 VT
2P10
0A5
001,
227
.219
2.9
*51
.56.
996
18.5
209.
5
55.2
11.6
9835
.917
6.2
*47
.72.
294
LEGE
ND 9
895
VT2P
RIB
951,
226
.717
7.5
52
.54.
096
18.1
208.
6
56.9
3.3
9935
.314
6.4
48
.14.
793
LEGE
ND 9
997
GENS
SRIB
971,
2,3,
427
.118
6.8
53
.18.
699
18.8
204.
5
57.4
14.2
100
35.4
169.
0
48.7
3.0
98LE
GEND
999
9 VT
2PRI
B99
1,2
26.8
193.
4*
51.7
8.5
9819
.322
6.2
*55
.43.
110
234
.216
0.6
48
.013
.893
LG S
EEDS
LG4
4C27
VT2R
IB94
P500
1,2
24.6
188.
4
52.5
3.3
9617
.620
6.8
56
.26.
210
031
.517
0.0
48
.70.
492
LG S
EEDS
LG5
465V
T2RI
B97
P500
1,2
26.3
185.
1
52.7
4.6
9818
.021
1.5
57
.17.
010
034
.615
8.6
48
.32.
196
LG S
EEDS
LG5
505V
T2RI
B10
0P5
001,
226
.518
2.6
52
.65.
096
18.2
208.
2
57.4
9.3
9734
.715
7.0
47
.80.
694
LG S
EEDS
LG5
1C48
VT2P
RO10
1P5
001,
228
.619
9.9
**51
.27.
099
19.4
234.
6*
55.3
9.7
102
37.8
165.
1
47.1
4.3
95LO
CAL
SEED
ZS9
598
5222
EZ95
R500
1,2,
4,6
25.6
181.
9
51.3
6.8
9620
.021
4.5
55
.212
.197
31.2
149.
2
47.3
1.5
95LO
CAL
SEED
ZS9
796
3220
EZ97
R500
1,2,
4,6
26.4
190.
9*
53.0
5.2
9819
.222
9.1
*57
.41.
899
33.6
152.
7
48.5
8.6
97LO
CAL
SEED
LC9
888
VT2P
RIB
98R5
001,
224
.716
8.5
53
.65.
910
017
.718
9.6
58
.310
.510
031
.714
7.4
48
.81.
299
LOCA
L SE
ED L
C005
7 SS
XRIB
100
R500
1,2,
3,4
28.2
180.
2
51.6
2.6
9620
.520
9.1
54
.63.
210
035
.915
1.2
48
.61.
992
M&W
SEE
DS 4
7T16
90C2
501,
222
.317
8.6
52
.52.
097
17.5
192.
8
55.6
1.2
9927
.016
4.4
49
.32.
895
M&W
SEE
DS 4
6P76
97C2
501,
226
.118
8.1
51
.70.
697
17.6
221.
8
56.3
1.2
100
34.6
154.
3
47.1
0.0
94M
&W S
EEDS
46T
2999
C250
1,2
26.0
199.
1*
51.9
6.2
9917
.722
3.7
*56
.36.
310
134
.317
4.4
*47
.56.
096
M&W
SEE
DS 4
5T56
100
C250
1,2
27.5
195.
2*
51.6
4.3
9818
.922
4.8
*55
.17.
010
036
.116
5.5
48
.01.
696
RENK
RK7
17SS
TX95
P500
1,2,
3,4
27.9
180.
8
52.6
13.5
9619
.521
6.8
56
.415
.396
36.2
144.
8
48.7
11.7
96RE
NK R
K710
DGVT
2P98
P250
1,2,
1831
.318
8.5
51
.06.
897
21.1
225.
0*
54.6
9.2
9841
.515
1.9
47
.44.
395
RUPP
XRJ
94-9
194
P250
1,2,
3,4
25.3
186.
7
51.7
3.5
9719
.121
4.5
56
.25.
310
131
.415
8.8
47
.21.
692
RUPP
XRD
96-1
396
C250
1,2,
4,6
25.4
191.
0*
52.4
9.2
9819
.223
0.7
*57
.03.
510
131
.515
1.3
47
.814
.995
RUPP
XRD
97-9
597
P250
1,2
26.7
182.
3
52.6
3.6
9618
.120
7.3
56
.45.
597
35.2
157.
3
48.8
1.6
94RU
PP X
RJ98
-52
98P5
001,
225
.719
5.2
*51
.95.
494
18.3
218.
2
55.5
7.2
9833
.017
2.1
*48
.23.
590
RUPP
XRD
01-9
010
1P2
501,
228
.818
2.6
52
.64.
993
19.4
214.
5
57.0
8.4
9538
.115
0.6
48
.11.
490
SPEC
IALT
Y 26
A236
96P5
001,
2,3,
426
.118
3.4
51
.81.
396
18.1
214.
6
56.3
1.5
9834
.015
2.2
47
.21.
094
BU/A
BU/A
BU/A
BU/A
Not P
lante
d
Sagi
naw
- Ear
lyIn
gham
- Ea
rlyAl
lega
n - E
arly
Early
- TR
IAL
AVER
AGE
- 13 -
SPEC
IALT
Y 27
D728
97P2
501,
226
.019
9.7
*52
.46.
810
018
.121
4.4
56
.05.
410
133
.918
4.9
**48
.78.
299
SPEC
IALT
Y 28
D249
98P2
501,
226
.319
4.9
*51
.13.
897
17.3
220.
7
55.0
6.3
9835
.316
9.0
47
.21.
295
WYC
KOFF
217
5 SS
97P5
001,
2,3,
427
.317
4.6
51
.24.
398
18.2
201.
3
55.7
5.3
9936
.314
7.8
46
.73.
396
WYC
KOFF
218
7 VT
2P97
P500
1,2
27.4
179.
8
52.3
4.5
9718
.420
3.4
56
.26.
995
36.4
156.
2
48.3
2.1
98W
YCKO
FF 2
263
SS10
1P5
001,
2,3,
428
.918
1.6
51
.82.
496
19.0
212.
1
56.0
4.7
9838
.815
1.1
47
.60.
093
AVER
AGE
26.6
185.
252
.15.
297
18.7
213.
456
.27.
099
34.4
157.
047
.93.
395
HIGH
EST
31.3
199.
954
.113
.510
021
.523
5.5
59.1
20.5
103
41.5
184.
949
.318
.499
LOW
EST
22.3
168.
549
.80.
693
17.3
189.
654
.21.
295
27.0
135.
545
.30.
089
CV (%
)4.
45.
91.
496
.44
3.4
4.9
1.2
77.7
34.
47.
21.
513
4.7
4LS
D (5
%)
1.0
9.0
0.6
4.1
30.
712
.30.
86.
43
1.8
13.2
0.9
5.2
5
2 Ye
ar A
vera
ges
2019
- 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
AGRI
GOLD
A62
9-22
STXR
IB99
P500
1,2,
3,4
23.1
196.
7
53.3
3.6
9818
.121
3.2
56
.75.
497
28.1
180.
2
49.9
1.7
98DA
IRYL
AND
SEED
DS-
3519
AM95
P500
1,2,
421
.920
8.5
54
.35.
395
18.4
227.
8
57.7
10.3
9325
.318
9.2
50
.80.
397
DAIR
YLAN
D SE
ED D
S-37
15AM
97P5
001,
2,4
22.4
206.
2
50.7
3.2
9318
.522
6.4
53
.75.
391
26.2
185.
9
47.7
1.1
94DA
IRYL
AND
SEED
DS-
4018
AM10
0P5
001,
2,4
24.9
207.
3
51.8
3.7
9219
.623
3.6
*54
.74.
990
30.2
180.
9
48.9
2.5
93DY
NAGR
O D3
7VC6
497
P250
1,2
22.3
199.
7
52.7
2.1
9517
.222
0.6
56
.02.
597
27.3
178.
8
49.4
1.7
93GO
LDEN
HAR
VEST
G95
D32-
3220
95C2
501,
2,4,
622
.720
4.8
53
.41.
393
19.1
226.
8
56.1
0.7
9026
.318
2.7
50
.61.
996
LEGA
CY S
EEDS
L-3
617
VT2P
96A2
501,
222
.520
4.0
52
.91.
094
17.6
219.
1
56.2
1.1
9527
.418
8.8
49
.50.
892
LEGE
ND 9
999
VT2P
RIB
991,
223
.522
2.5
**52
.14.
397
19.1
239.
1**
54.5
1.6
9727
.920
5.9
**49
.76.
996
LG S
EEDS
LG5
465V
T2RI
B97
P500
1,2
22.8
199.
2
53.4
2.4
9817
.521
9.6
56
.63.
698
28.0
178.
7
50.1
1.1
97LG
SEE
DS L
G550
5VT2
RIB
100
P500
1,2
22.6
205.
7
53.7
2.6
9617
.822
0.5
57
.24.
895
27.4
190.
9
50.1
0.3
97M
&W S
EEDS
46P
7697
C250
1,2
22.1
204.
7
52.8
0.5
9617
.122
4.0
56
.00.
695
27.0
185.
4
49.5
0.3
96RU
PP X
RD97
-95
97P2
501,
222
.920
3.9
53
.41.
894
17.7
219.
3
56.3
2.7
9228
.018
8.5
50
.50.
895
SPEC
IALT
Y 26
A236
96P5
001,
2,3,
422
.520
3.6
52
.50.
695
17.7
221.
1
55.8
0.7
9427
.318
6.0
49
.20.
595
SPEC
IALT
Y 27
D728
97P2
501,
222
.821
1.1
53
.13.
410
018
.323
3.7
*55
.62.
710
027
.218
8.4
50
.54.
199
AVER
AGE
22.8
205.
652
.92.
695
18.1
224.
655
.93.
395
27.4
186.
449
.71.
796
HIGH
EST
24.9
222.
554
.35.
310
019
.623
9.1
57.7
10.3
100
30.2
205.
950
.86.
999
LOW
EST
21.9
196.
750
.70.
592
17.1
213.
253
.70.
690
25.3
178.
747
.70.
392
CV (%
)3.
86.
41.
578
.34
3.5
5.4
1.3
70.3
44.
07.
71.
512
1.6
4LS
D (5
%)
0.5
6.6
0.4
1.7
20.
59.
80.
63.
23
1.0
10.8
0.6
2.6
3
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
Ingh
am -
Early
BU/A
Alle
gan
- Ear
lyEa
rly -
TRIA
L AV
ERAG
ESa
gina
w - E
arly
BU/A
BU/A
BU/A
- 14 -
TABL
E 2L
.ZO
NE 2
2019
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
ARM
OUR
AA1
0252
102
C250
1,2,
4,6
29.7
179.
6
53.0
1.6
9920
.920
1.3
57
.22.
410
038
.415
7.9
48
.80.
797
AGRI
GO
LD A
632-
07VT
2PRO
102
P500
1,2
29.2
196.
1*
52.7
6.6
101
20.1
210.
8
56.5
5.0
101
38.3
181.
3**
48.9
8.1
101
AGRI
GO
LD A
635-
54VT
2RIB
105
P500
1,2
30.6
157.
7
52.9
2.3
9822
.118
3.5
56
.63.
210
139
.013
1.8
49
.21.
395
DAIR
YLAN
D SE
ED D
S-43
10AM
103
P500
1,2,
431
.918
0.6
51
.65.
497
22.3
217.
6*
55.2
10.2
9941
.514
3.5
47
.90.
695
DAIR
YLAN
D SE
ED D
S-43
18AM
103
P500
1,2,
430
.117
8.5
51
.514
.610
020
.820
0.7
56
.124
.510
139
.415
6.2
46
.94.
799
DAIR
YLAN
D SE
ED D
S-43
29AM
103
P500
1,2,
430
.317
7.4
49
.70.
696
21.1
207.
7
53.5
0.0
9739
.514
7.1
45
.81.
294
DAIR
YLAN
D SE
ED D
S-44
40AM
104
P500
1,2,
430
.019
6.4
**50
.66.
597
22.0
219.
6*
55.1
7.0
9738
.017
3.1
*46
.06.
097
DAIR
YLAN
D SE
ED D
S-70
04RA
104
P500
1,2,
430
.917
0.9
49
.819
.396
22.5
207.
1
53.5
19.9
9739
.313
4.6
46
.118
.795
DAIR
YLAN
D SE
ED D
S-45
80Q
105
P500
1,2,
3,4
28.8
186.
8
52.7
4.6
9621
.922
5.9
**57
.83.
097
35.6
147.
7
47.6
6.2
94DY
NAG
RO D
44VC
4010
3P2
501,
227
.916
3.8
51
.32.
497
18.5
195.
6
56.5
3.5
9937
.313
1.9
46
.11.
394
FS In
Visio
n FS
53ZX
1 RI
B10
3P5
001,
2,3,
428
.618
2.5
52
.16.
198
19.2
207.
3
56.7
10.8
101
38.0
157.
6
47.4
1.3
95FS
InVi
sion
FS55
94X
RIB
105
P500
1,2,
3,4
30.8
177.
5
53.1
2.6
9922
.120
4.3
57
.91.
210
039
.515
0.7
48
.24.
097
FS In
Visio
n FS
55RL
1 EZ
R10
5C2
501,
2,4,
632
.016
6.3
50
.614
.093
22.6
186.
0
54.5
26.3
9641
.414
6.5
46
.61.
789
FS In
Visio
n FS
57ZX
1 RI
B10
7P5
001,
2,3,
429
.018
1.2
51
.54.
594
20.3
215.
9*
56.3
6.1
9637
.714
6.5
46
.72.
992
GO
LDEN
HAR
VEST
G02
K39-
3120
102
C250
1,2,
430
.218
4.1
49
.02.
497
22.6
217.
0*
51.7
0.9
9737
.715
1.1
46
.23.
997
GO
LDEN
HAR
VEST
G03
C84-
3120
103
C250
1,2,
429
.716
4.1
50
.022
.599
22.7
171.
6
54.0
31.5
101
36.7
156.
6
45.9
13.5
96G
OLD
EN H
ARVE
ST G
03R4
0-31
1010
3C2
501,
2,4,
628
.717
3.1
53
.51.
310
020
.920
0.5
57
.32.
310
136
.414
5.6
49
.60.
398
GO
LDEN
HAR
VEST
G04
S19-
3122
104
C250
1,2,
3,4
31.3
172.
1
50.0
3.3
9822
.321
1.7
54
.05.
999
40.3
132.
4
46.0
0.6
97G
OLD
EN H
ARVE
ST G
06Q
68-3
220
106
C250
1,2,
4,6
31.5
150.
0
50.9
29.9
9922
.616
1.2
55
.455
.299
40.3
138.
8
46.4
4.5
99IN
TEG
RA 5
280
102
P250
1,2
28.2
173.
1
53.3
3.9
100
20.0
199.
1
57.8
6.0
102
36.3
147.
1
48.8
1.8
97LE
GAC
Y SE
EDS
L-52
17 V
T2P
102
1,2
28.8
175.
4
52.2
5.9
9819
.320
6.1
57
.21.
898
38.3
144.
7
47.2
9.9
97LE
GAC
Y SE
EDS
L-53
19 S
SX10
3A5
001,
2,3,
429
.918
2.7
50
.63.
410
120
.220
0.9
54
.86.
810
139
.516
4.4
46
.40.
010
0LE
GAC
Y SE
EDS
L-55
19 D
GVT
2P10
5A5
001,
2,18
30.9
169.
9
51.0
8.1
9721
.520
0.9
54
.310
.710
240
.213
8.9
47
.75.
592
LEG
END
9804
GEN
SSRI
B10
41,
2,3,
428
.617
4.3
52
.81.
994
19.4
193.
6
57.8
1.5
9537
.815
4.9
47
.72.
293
LEG
END
9905
VIP
3220
EZR
EF10
51,
2,4,
632
.316
1.9
51
.28.
297
21.7
180.
1
55.3
14.8
9842
.814
3.7
47
.01.
595
LEG
END
9806
GEN
SSRI
B10
61,
2,3,
430
.118
1.5
50
.93.
210
021
.220
5.3
54
.85.
510
138
.915
7.7
47
.00.
998
LG S
EEDS
LG
5525
VT2R
IB10
5P5
001,
231
.716
7.2
52
.31.
399
21.7
200.
2
57.1
1.7
104
41.7
134.
2
47.5
0.9
94LG
SEE
DS L
G57
C33S
TX10
7P5
001,
2,3,
431
.317
1.8
50
.926
.510
121
.818
8.0
55
.151
.510
040
.815
5.5
46
.71.
410
1LG
SEE
DS L
G58
C77V
T2RI
B10
8P5
001,
230
.115
1.4
50
.530
.695
22.0
164.
0
54.8
54.9
9638
.113
8.7
46
.26.
393
LOCA
L SE
ED L
C048
8 SS
XRIB
104
R500
1,2,
3,4
28.9
182.
1
52.0
3.0
9719
.920
0.0
55
.85.
699
37.9
164.
2
48.1
0.3
94LO
CAL
SEED
LC0
657
SSXR
IB10
6R5
001,
2,3,
428
.118
1.4
51
.71.
597
18.7
206.
4
56.6
1.5
9937
.515
6.3
46
.71.
595
LOCA
L SE
ED L
C087
7 VT
2PRI
B10
8R5
001,
232
.117
2.2
51
.36.
693
22.6
201.
5
54.8
11.0
9541
.514
2.8
47
.82.
291
M&W
SEE
DS 4
5R69
103
C250
1,2
28.2
171.
6
51.2
7.5
9619
.119
5.8
55
.85.
398
37.3
147.
3
46.5
9.7
94RE
NK R
K621
VT2P
102
P250
1,2
30.6
165.
8
51.2
5.7
9721
.119
6.4
55
.92.
198
40.1
135.
1
46.4
9.2
96RE
NK R
K626
SSTX
102
P500
1,2,
3,4
29.2
179.
6
50.5
3.4
100
20.2
204.
7
54.4
3.9
102
38.2
154.
5
46.5
2.9
97RE
NK R
K642
VT2P
103
P250
1,2
28.6
166.
5
52.2
4.6
9519
.318
4.5
56
.86.
096
37.9
148.
4
47.6
3.1
93RU
PP X
RD06
-53
106
P500
1,2
31.3
175.
1
54.6
9.1
9521
.120
1.6
59
.25.
395
41.5
148.
5
50.0
12.8
94RU
PP X
RD07
-72
107
P250
1,2
31.1
184.
4
51.1
1.7
9421
.721
4.0
*54
.73.
194
40.4
154.
7
47.5
0.3
93SP
ECIA
LTY
32A8
8610
2P5
001,
2,3,
429
.917
4.0
50
.51.
810
020
.019
7.4
54
.52.
910
139
.815
0.5
46
.40.
698
SPEC
IALT
Y 34
A007
104
P500
1,2,
3,4
30.1
169.
0
52.1
9.8
9720
.818
6.1
57
.018
.010
039
.315
1.8
47
.21.
693
SPEC
IALT
Y 36
A537
106
P500
1,2,
3,4
32.9
175.
353
.11.
097
22.9
203.
956
.70.
699
42.9
146.
749
.51.
395
AVER
AGE
30.1
174.
351
.67.
397
21.1
199.
455
.810
.799
39.1
149.
047
.33.
895
HIG
HEST
32.9
196.
454
.630
.610
122
.922
5.9
59.2
55.2
104
42.9
181.
350
.018
.710
1LO
WES
T27
.915
0.0
49.0
0.6
9318
.516
1.2
51.7
0.0
9435
.613
1.8
45.8
0.0
89CV
(%)
5.9
6.5
2.4
160.
73
3.3
5.5
2.0
140.
32
6.2
7.8
2.9
178.
94
LSD
(5%
)1.
59.
31.
09.
63
0.8
12.9
1.3
17.6
32.
813
.61.
68.
04
BU/A
BU/A
BU/A
BU/A
Sagi
naw
- Lat
eIn
gham
- La
teAl
lega
n - L
ate
Late
- TR
IAL
AVER
AGE
Not P
lant
ed
ALLE
GAN,
INGH
AM &
SAG
INAW
COU
NTY
GRAI
N TR
IALS
- LA
TE (
102 D
ay an
d La
ter)
- 15 -
2 Yea
r Ave
rages
2019
- 201
8BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
AGRI
GOLD
A63
5-54V
T2RI
B10
5P5
001,2
27.4
187.4
52
.61.2
9721
.821
3.9
54.8
1.699
33.0
160.8
50
.30.7
95DA
IRYL
AND
SEED
DS-
4318
AM10
3P5
001,2
,425
.920
2.6**
51.8
7.595
20.4
226.2
*54
.712
.294
31.3
178.9
**48
.82.7
95DA
IRYL
AND
SEED
DS-
4329
AM10
3P5
001,2
,428
.620
0.9*
50.0
0.394
22.3
227.3
**52
.20.0
9434
.817
4.5*
47.8
0.694
DYNA
GRO
D44V
C40
103
P250
1,225
.018
3.0
51.6
1.295
19.0
209.2
54
.81.8
9531
.015
6.8
48.4
0.695
GOLD
EN H
ARVE
ST G
03C8
4-312
010
3C2
501,2
,426
.618
9.0
50.9
12.7
9622
.120
8.6
53.1
17.6
9631
.116
9.4*
48.6
7.895
GOLD
EN H
ARVE
ST G
06Q6
8-322
010
6C2
501,2
,4,6
27.3
183.8
50
.815
.097
22.0
198.5
53
.427
.796
32.6
169.0
*48
.12.3
97LE
GEND
9804
GEN
SSRI
B10
41,2
,3,4
25.2
193.1
52
.71.1
9520
.021
0.4
55.5
0.893
30.3
175.7
*49
.81.3
96LG
SEE
DS LG
5525
VT2R
IB10
5P5
001,2
27.8
190.0
52
.40.6
9721
.521
4.2
55.1
0.897
34.0
165.8
*49
.60.4
96M&
W SE
EDS
45R6
910
3C2
501,2
25.2
193.1
51
.93.9
9419
.821
3.0
54.9
2.892
30.6
173.2
*48
.95.0
95SP
ECIA
LTY
32A8
8610
2P5
001,2
,3,4
26.5
200.2
*50
.51.0
9620
.522
2.7*
53.1
1.798
32.5
177.6
*47
.80.3
94SP
ECIA
LTY
34A0
0710
4P5
001,2
,3,4
26.4
190.7
52.4
4.995
20.8
207.0
55.2
9.093
32.0
174.3
*49
.50.8
96AV
ERAG
E26
.519
2.251
.64.5
9620
.921
3.754
.26.9
9532
.117
0.548
.92.0
95HI
GHES
T28
.620
2.652
.715
.097
22.3
227.3
55.5
27.7
9934
.817
8.950
.37.8
97LO
WEST
25.0
183.0
50.0
0.394
19.0
198.5
52.2
0.092
30.3
156.8
47.8
0.394
CV (%
)5.1
6.42.2
142.8
44.5
5.91.9
124.9
45.8
13.8
2.315
9.86
LSD
(5%)
0.87.0
0.74.9
20.8
10.2
0.98.8
31.7
18.0
0.94.1
4
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
Late
- TRI
AL A
VERA
GEBU
/ABU
/ASa
ginaw
- Late
BU/A
Alleg
an - L
ateIng
ham
- Late
BU/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)
2019
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
ARM
OUR
AA95
0995
C250
1,2,
4,6
28.0
206.
8
51.4
0.0
9732
.818
4.8
*49
.00.
095
26.2
234.
9*
52.7
0.0
9725
.020
0.7
52
.60.
098
AG A
RMOU
R AA
9608
96C2
501,
2,4,
627
.820
7.7
*52
.30.
199
33.6
183.
5
49.2
0.3
9725
.823
6.0
*54
.00.
010
023
.920
3.5
53
.70.
010
0DA
IRYL
AND
SEED
DS-
3550
Q95
P500
1,2,
3,4
29.4
204.
8
49.6
0.0
9834
.918
1.4
46
.70.
097
27.5
238.
0*
51.7
0.0
9825
.919
4.9
50
.30.
010
0DA
IRYL
AND
SEED
DS-
3519
AM95
P500
1,2,
426
.720
8.9
*53
.60.
399
30.5
191.
3*
49.2
0.0
9725
.724
1.3
*55
.10.
610
024
.019
4.2
56
.50.
399
DAIR
YLAN
D SE
ED D
S-37
50AM
97P5
001,
2,4
27.5
196.
7
54.0
0.2
9532
.516
6.1
50
.30.
092
26.0
237.
3*
55.4
0.0
9724
.018
6.8
56
.40.
697
DAIR
YLAN
D SE
ED D
S-37
15AM
97P5
001,
2,4
27.6
208.
0*
50.3
0.5
9631
.418
8.9
*46
.70.
093
27.0
242.
2*
51.6
1.5
9824
.419
2.9
52
.50.
098
DYNA
GRO
D37V
C64
97P2
501,
229
.319
4.3
50
.70.
098
37.0
186.
7*
48.7
0.0
9726
.123
0.8
51
.90.
010
124
.816
5.5
51
.50.
097
FS In
Visio
n FS
45SV
1 RI
B95
C250
1,2
28.2
196.
6
51.4
1.7
9835
.919
5.6
*49
.00.
095
25.5
213.
8
52.4
3.3
100
23.1
180.
4
52.8
1.8
100
FS In
Visio
n FS
47TV
1 RI
B97
C250
1,2
30.8
198.
2
51.1
1.2
9938
.416
9.5
49
.30.
097
27.5
221.
2
52.4
3.5
9926
.520
3.9
51
.70.
010
1GO
LDEN
HAR
VEST
G91
V51-
3110
A91
C500
1,2,
4,6,
1625
.321
6.7
**52
.310
.210
026
.219
6.1
**49
.70.
698
25.5
235.
5*
53.9
30.0
101
24.3
218.
4**
53.2
0.0
101
GOLD
EN H
ARVE
ST G
90Y0
4-32
20A
92C2
501,
2,4,
6,16
28.7
200.
6
51.0
0.0
9734
.916
8.7
47
.80.
094
25.7
240.
3*
52.9
0.0
9825
.419
2.9
52
.20.
098
GOLD
EN H
ARVE
ST G
95D3
2-32
2095
C250
1,2,
4,6
26.7
203.
3
52.3
0.2
9830
.417
9.0
49
.80.
097
25.9
234.
5
53.6
0.0
9923
.819
6.5
53
.60.
698
INTE
GRA
4782
97P2
501,
229
.619
1.9
50
.70.
097
37.5
164.
6
48.4
0.0
9526
.223
5.7
*52
.30.
099
25.0
175.
5
51.5
0.0
97LE
GACY
SEE
DS L
-341
9 VT
2P94
A500
1,2
27.5
194.
7
52.1
0.5
9833
.518
5.8
*49
.30.
096
25.6
228.
3
53.3
1.5
9923
.317
0.0
53
.70.
099
LEGA
CY S
EEDS
L-3
517
VT2P
95A2
501,
228
.420
1.6
52
.40.
296
36.0
191.
5*
49.3
0.0
9425
.523
4.4
54
.40.
098
23.7
178.
9
53.5
0.6
95LE
GACY
SEE
DS L
-361
7 VT
2P96
A250
1,2
28.5
193.
1
51.4
0.8
9434
.318
4.7
*49
.41.
894
26.3
227.
5
52.4
0.0
9425
.016
7.0
52
.40.
693
LEGE
ND 9
993
GENS
SRIB
931,
2,3,
428
.817
7.4
51
.30.
296
34.7
174.
6
48.6
0.3
9727
.119
9.7
52
.80.
098
24.5
157.
8
52.6
0.3
94LE
GEND
989
5 VT
2PRI
B95
1,2
29.1
196.
3
52.2
0.2
9837
.617
7.7
49
.20.
397
25.6
223.
1
53.5
0.0
9824
.018
8.2
53
.80.
399
LEGE
ND 9
995
VIP3
220
EZRE
F95
1,2,
4,6
27.1
201.
6
52.4
7.9
9731
.218
1.6
49
.20.
095
26.2
229.
2
53.7
23.5
100
23.8
194.
1
54.4
0.3
96LG
SEE
DS L
G541
0VT2
RIB
91P5
001,
229
.820
0.2
51
.00.
610
137
.918
1.9
49
.11.
899
26.5
240.
3*
52.3
0.0
104
24.9
178.
5
51.5
0.0
101
LG S
EEDS
LG4
2C63
VT2R
IB92
P500
1,2
26.4
190.
8
51.2
0.5
9632
.518
1.1
48
.40.
096
24.5
228.
2
53.3
0.3
9822
.316
3.1
51
.91.
193
LG S
EEDS
LG4
4C27
VT2R
IB94
P500
1,2
28.0
203.
1
51.4
0.4
9835
.118
5.8
*48
.70.
696
25.0
237.
0*
53.1
0.0
9923
.818
6.4
52
.30.
699
LG S
EEDS
LG5
465V
T2RI
B97
P500
1,2
29.0
202.
8
52.2
0.1
100
36.1
194.
1*
49.7
0.0
9826
.122
6.1
53
.80.
310
124
.718
8.2
53
.00.
010
0LO
CAL
SEED
LC9
278
SSXR
IB92
R500
1,2,
3,4
27.9
186.
7
52.0
0.3
9634
.916
9.4
49
.40.
093
24.9
219.
7
53.9
0.9
9723
.917
0.9
52
.80.
097
LOCA
L SE
ED Z
S959
8 52
22EZ
95R5
001,
2,4,
627
.420
9.2
*51
.50.
398
31.5
187.
8*
48.4
0.0
9426
.024
1.8
*52
.70.
310
124
.719
7.9
53
.30.
698
LOCA
L SE
ED Z
S979
6 32
20EZ
97R5
001,
2,4,
627
.320
9.7
*52
.80.
098
32.8
188.
6*
50.0
0.0
9525
.524
1.0
*54
.20.
099
23.7
199.
4
54.1
0.0
100
M&W
SEE
DS 4
8R11
87C2
501,
224
.318
9.9
53
.110
.597
26.2
189.
1*
51.5
0.0
9524
.320
7.3
53
.73.
599
22.3
173.
3
54.2
28.0
98M
&W S
EEDS
47T
1690
C250
1,2
27.0
195.
3
51.4
13.9
9829
.918
5.5
*49
.20.
097
24.0
205.
1*
53.5
27.8
99M
&W S
EEDS
46P
7697
C250
1,2
28.7
184.
7
50.7
0.0
9536
.517
1.0
48
.20.
095
25.9
212.
5
52.1
0.0
9723
.717
0.5
51
.70.
094
RENK
RK4
33VT
2P92
P250
1,2
28.6
189.
7
52.4
0.1
9537
.317
8.4
49
.60.
092
25.0
213.
7
54.2
0.0
9523
.617
6.9
53
.40.
397
RENK
RK5
61DG
VT2P
95P2
501,
2,18
28.5
206.
7
51.3
0.0
9735
.218
3.0
48
.80.
094
25.2
240.
1*
52.9
0.0
101
25.2
196.
9
52.2
0.0
96RE
NK R
K593
VT2P
96P2
501,
228
.220
4.2
52
.00.
499
34.8
183.
3
49.2
1.2
9825
.824
9.5
**53
.90.
099
24.0
179.
7
52.9
0.0
100
RENK
9S-
104-
3010
971,
2,4
31.2
202.
8
50.0
0.1
9638
.216
5.3
47
.90.
393
28.8
244.
2*
51.2
0.0
9826
.719
9.0
50
.80.
098
RENK
RK5
87VT
2P97
P250
1,2
29.6
184.
3
50.5
0.0
9837
.116
9.9
48
.50.
097
26.4
225.
6
52.4
0.0
9925
.315
7.5
50
.50.
098
RUPP
XRJ
94-9
194
P250
1,2,
3,4
27.9
195.
0
51.6
0.5
9935
.017
7.2
49
.30.
097
24.9
233.
6
53.3
0.0
100
23.9
174.
3
52.2
1.5
99RU
PP X
RD96
-13
96C2
501,
2,4,
627
.320
8.7
*52
.20.
298
31.7
194.
9*
49.9
0.6
100
25.9
232.
9
53.4
0.0
9724
.219
8.2
53
.30.
098
RUPP
XRD
97-9
597
P250
1,2
28.9
196.
1
52.7
0.1
9935
.817
3.5
51
.20.
097
26.4
244.
5*
53.4
0.3
101
24.6
170.
4
53.4
0.0
100
SEED
WAY
SW
3569
522
293
C250
1,2,
3,4,
627
.819
2.8
50
.60.
398
32.1
180.
1
48.4
0.0
9525
.722
3.1
51
.70.
010
025
.717
5.1
51
.60.
998
SEED
WAY
SW
3768
GEN
SS95
C250
1,2,
3,4
27.2
192.
351
.70.
099
32.5
176.
649
.60.
097
25.5
233.
953
.00.
010
123
.516
6.5
52.6
0.0
100
AVER
AGE
28.1
198.
651
.71.
398
34.0
181.
249
.10.
296
25.9
231.
053
.11.
899
24.3
184.
352
.81.
798
HIGH
EST
31.2
216.
754
.013
.910
138
.419
6.1
51.5
1.8
100
28.8
249.
555
.430
.010
426
.721
8.4
56.5
28.0
101
LOW
EST
24.3
177.
449
.60.
094
26.2
164.
646
.70.
092
24.3
199.
751
.20.
094
22.3
157.
550
.30.
093
CV (%
)6.
46.
91.
965
4.9
35.
45.
51.
747
0.0
33.
25.
51.
361
4.7
32.
76.
32.
058
7.2
3LS
D (5
%)
1.2
9.3
0.7
6.0
22.
111
.71.
01.
13
1.0
14.9
0.8
13.2
30.
813
.71.
211
.73
BU/A
BU/A
BU/A
Mon
tcal
m -
Early
Mas
on -
Early
Huro
n - E
arly
Early
- TR
IAL
AVER
AGE
BU/A
- 17 -
2 Yea
r Ave
rages
2019
- 201
8BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
DAIR
YLAN
D SE
ED D
S-35
19AM
95P5
001,2
,423
.120
6.8*
54.0
1.998
25.4
192.6
*51
.60.0
9821
.923
0.7*
54.8
5.498
21.9
197.1
55
.70.2
98DA
IRYL
AND
SEED
DS-
3715
AM97
P500
1,2,4
23.8
205.7
*50
.60.3
9626
.417
9.7
48.8
0.095
22.6
240.2
**51
.10.8
9622
.319
7.2
51.8
0.297
DYNA
GRO
D37V
C64
97P2
501,2
24.0
198.0
51
.80.3
9828
.418
4.8
51.2
0.098
21.6
211.4
52
.00.7
9922
.019
7.9
52.1
0.397
GOLD
EN H
ARVE
ST G
90Y0
4-322
0A92
C250
1,2,4,
6,16
23.9
199.2
52
.01.0
9626
.816
8.1
51.1
0.096
22.3
221.0
51
.72.7
9622
.720
8.4*
53.2
0.496
GOLD
EN H
ARVE
ST G
95D3
2-322
095
C250
1,2,4,
623
.020
6.3*
53.0
1.498
25.2
178.6
52
.00.1
9922
.122
9.8
53.3
3.797
21.8
210.4
**53
.60.4
98LE
GACY
SEED
S L-35
17 VT
2P95
A250
1,223
.520
0.9
53.0
0.496
27.6
183.8
51
.80.0
9621
.522
6.1
53.6
0.496
21.4
192.8
53
.50.7
95LE
GACY
SEED
S L-36
17 VT
2P96
A250
1,223
.620
3.5*
51.9
0.595
26.4
187.9
51
.31.2
9622
.022
7.6
52.2
0.093
22.5
194.9
52
.30.3
95LE
GEND
9895
VT2P
RIB
951,2
24.1
201.5
52
.80.4
9628
.518
6.8
51.8
0.298
22.4
217.0
52
.80.8
9221
.520
0.7*
53.8
0.397
LG SE
EDS L
G541
0VT2
RIB
91P5
001,2
23.9
191.7
52
.20.4
9928
.516
4.2
51.9
1.299
21.5
226.0
52
.30.1
100
21.6
185.0
52
.50.0
99LG
SEED
S LG5
465V
T2RI
B97
P500
1,224
.020
9.4**
52.7
0.198
28.2
200.0
**51
.50.1
9822
.122
4.7
53.3
0.398
21.8
203.6
*53
.40.0
99M&
W SE
EDS 4
8R11
87C2
501,2
20.3
190.8
53
.96.8
9821
.919
0.9*
53.7
0.697
19.1
205.6
53
.65.6
9819
.817
5.9
54.5
14.2
98M&
W SE
EDS 4
6P76
97C2
501,2
23.5
201.8
52
.00.0
9428
.119
2.7*
51.1
0.096
21.1
214.8
52
.50.0
9421
.219
7.9
52.3
0.092
RENK
RK5
87VT
2P97
P250
1,224
.519
4.1
51.3
0.395
28.6
182.6
50
.60.0
9721
.521
1.8
52.4
0.594
23.3
187.9
51
.00.3
95RU
PP XR
D97-9
597
P250
1,224
.019
5.353
.10.5
9627
.616
3.052
.80.2
9622
.522
9.552
.91.0
9421
.819
3.353
.60.2
99AV
ERAG
E23
.520
0.452
.51.0
9727
.018
2.551
.50.3
9721
.722
2.652
.71.5
9621
.819
5.953
.11.3
97HI
GHES
T24
.520
9.454
.06.8
9928
.620
0.053
.71.2
9922
.624
0.254
.85.6
100
23.3
210.4
55.7
14.2
99LO
WEST
20.3
190.8
50.6
0.094
21.9
163.0
48.8
0.095
19.1
205.6
51.1
0.092
19.8
175.9
51.0
0.092
CV (%
)5.6
7.21.8
538.0
34.9
7.65.9
377.2
33.6
5.51.3
454.3
43.4
6.31.8
532.0
3LS
D (5%
)0.7
6.80.5
3.21
1.211
.42.5
0.62
0.710
.20.6
7.53
0.610
.00.8
5.92
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
Montc
alm - E
arly
BU/A
Huro
n - Ea
rlyEa
rly - T
RIAL
AVE
RAGE
BU/A
BU/A
Maso
n - Ea
rlyBU
/A
- 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
19BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AG A
RMOU
R AA
1025
210
2C2
501,
2,4,
631
.619
0.8
52
.20.
098
39.1
174.
0
50.4
0.0
9527
.920
7.3
53
.50.
099
27.7
191.
0
52.6
0.0
99DA
IRYL
AND
SEED
DS-
3810
Q98
P500
1,2,
3,4
30.2
210.
8*
50.2
0.1
9639
.218
9.2
*47
.60.
095
26.6
245.
2*
51.6
0.0
9724
.819
8.0
*51
.30.
396
DAIR
YLAN
D SE
ED D
S-40
18AM
100
P500
1,2,
432
.119
5.9
51
.20.
093
41.4
173.
4
49.3
0.0
9128
.223
5.1
52
.50.
095
26.6
179.
1
51.7
0.0
93DA
IRYL
AND
SEED
DS-
4310
AM10
3P5
001,
2,4
35.2
203.
1
51.4
0.1
9743
.916
9.1
50
.00.
094
31.3
246.
1*
53.4
0.0
100
30.4
194.
0
50.9
0.3
96DA
IRYL
AND
SEED
DS-
4440
AM10
4P5
001,
2,4
33.6
207.
1
51.1
1.3
9743
.317
5.3
48
.50.
093
30.3
243.
4*
53.5
3.9
9827
.220
2.7
*51
.40.
099
DYNA
GRO
D39D
C43
99P2
501,
2,18
32.4
187.
9
50.6
0.0
9943
.717
3.7
49
.30.
096
27.6
211.
6
51.3
0.0
100
25.8
178.
3
51.2
0.0
100
DYNA
GRO
D39V
C40
99P2
501,
229
.818
7.6
51
.20.
098
38.9
179.
7
49.6
0.0
9526
.320
8.1
52
.20.
010
024
.317
4.9
51
.80.
098
FS In
Visio
n FS
5098
X RI
B10
0P2
501,
2,3,
431
.721
4.0
*51
.50.
098
42.0
190.
8*
49.4
0.0
9727
.224
7.3
*53
.10.
098
26.0
203.
8*
51.9
0.0
98FS
InVi
sion
FS51
QX1
RIB
101
P500
1,2,
3,4
31.5
192.
3
51.3
0.2
9842
.017
2.8
48
.70.
697
26.8
239.
5*
53.6
0.0
9925
.816
4.6
51
.50.
099
FS In
Visio
n FS
53ZX
1 RI
B10
3P5
001,
2,3,
431
.520
0.9
51
.20.
999
41.3
189.
5*
49.3
1.8
9828
.122
9.6
53
.00.
010
125
.118
3.5
51
.20.
998
INTE
GRA
5081
100
P250
1,2,
1831
.220
1.6
51
.30.
097
41.5
188.
0*
49.4
0.0
9727
.123
0.9
53
.30.
097
25.0
186.
0
51.3
0.0
97IN
TEGR
A 52
8010
2P2
501,
231
.621
0.8
*52
.20.
099
39.6
192.
8**
50.4
0.0
9729
.324
8.2
*53
.90.
010
025
.819
1.3
52
.30.
099
LEGA
CY S
EEDS
L-4
118
VT2P
99A2
501,
230
.220
0.7
52
.00.
110
039
.719
0.3
*50
.20.
098
25.9
235.
4
53.8
0.0
101
24.9
176.
4
52.1
0.3
101
LEGA
CY S
EEDS
L-4
248
VT2P
100
A500
1,2
32.9
218.
4**
51.7
0.0
9742
.319
0.4
*50
.00.
098
29.8
255.
4*
53.9
0.0
9526
.620
9.3
**51
.10.
097
LEGA
CY S
EEDS
L-5
217
VT2P
102
1,2
31.6
204.
0
51.1
0.0
9641
.118
6.8
*50
.00.
096
27.3
225.
9
52.3
0.0
9626
.519
9.4
*51
.00.
096
LG S
EEDS
LG5
505V
T2RI
B10
0P5
001,
229
.319
4.5
52
.40.
098
38.0
178.
8
50.0
0.0
9725
.921
9.0
54
.00.
099
23.9
185.
6
53.2
0.0
98LG
SEE
DS L
G51C
48VT
2PRO
101
P500
1,2
32.5
214.
4*
50.7
0.0
9841
.118
5.7
*49
.20.
097
28.9
256.
8**
52.1
0.0
101
27.5
200.
7*
50.7
0.0
96LO
CAL
SEED
LC9
888
VT2P
RIB
98R5
001,
228
.417
7.8
52
.60.
297
36.2
175.
7
49.7
0.0
9525
.420
0.8
54
.30.
099
23.5
156.
9
53.8
0.6
98LO
CAL
SEED
LC0
057
SSXR
IB10
0R5
001,
2,3,
431
.919
1.8
51
.10.
099
40.8
171.
8
49.3
0.0
9628
.522
9.3
52
.50.
010
026
.517
4.2
51
.40.
010
0LO
CAL
SEED
LC0
297
SSXR
IB10
2R5
001,
2,3,
434
.619
4.0
50
.60.
097
45.7
167.
6
49.8
0.0
9528
.822
6.4
51
.60.
098
29.2
188.
0
50.3
0.0
99LO
CAL
SEED
ZS0
398
3110
103
R500
1,2,
4,6
32.2
195.
8
52.2
0.3
9741
.016
2.4
49
.90.
096
28.8
227.
1
53.1
0.9
9926
.719
7.8
*53
.60.
096
LOCA
L SE
ED L
C048
8 SS
XRIB
104
R500
1,2,
3,4
32.5
205.
1
51.2
0.2
9742
.818
3.5
*49
.60.
794
27.4
235.
3
52.6
0.0
9927
.319
6.6
51
.50.
099
RENK
RK5
79DG
VT2P
98P2
501,
2,18
30.1
199.
4
51.1
0.0
9739
.219
0.9
*49
.50.
097
26.4
223.
9
52.6
0.0
9924
.718
3.3
51
.30.
096
RUPP
XRJ
98-5
298
P500
1,2
30.8
205.
8
51.3
0.2
9638
.918
5.5
*49
.40.
398
28.0
236.
2
53.0
0.0
9525
.519
5.6
51
.40.
396
RUPP
XRD
01-9
010
1P2
501,
231
.620
3.4
52
.30.
398
41.0
184.
3*
50.2
0.0
9727
.823
0.1
53
.60.
098
26.1
195.
8
53.2
0.9
99SE
EDW
AY S
W40
00 G
ENSS
100
C250
1,2,
3,4
29.9
192.
7
52.1
0.1
9737
.519
2.0
*49
.30.
094
27.6
219.
4
53.8
0.0
100
24.5
166.
7
53.2
0.3
98SE
EDW
AY S
W40
10 G
ENSS
100
C250
1,2,
3,4
31.5
189.
050
.00.
098
38.9
168.
448
.10.
098
29.2
225.
551
.10.
099
26.3
173.
150
.90.
097
AVER
AGE
31.6
199.
651
.40.
197
40.7
180.
849
.50.
196
27.9
231.
152
.90.
299
26.1
186.
951
.80.
198
HIGH
EST
35.2
218.
452
.61.
310
045
.719
2.8
50.4
1.8
9831
.325
6.8
54.3
3.9
101
30.4
209.
353
.80.
910
1LO
WES
T28
.417
7.8
50.0
0.0
9336
.216
2.4
47.6
0.0
9125
.420
0.8
51.1
0.0
9523
.515
6.9
50.3
0.0
93CV
(%)
4.4
6.1
1.4
620.
83
5.1
5.5
1.5
632.
53
3.6
6.7
1.4
720.
42
3.0
5.5
1.3
376.
63
LSD
(5%
)0.
98.
20.
50.
62
2.4
11.7
0.9
0.9
41.
218
.30.
91.
53
0.9
12.0
0.8
0.6
3
2 Ye
ar A
vera
ges
2019
- 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-40
18AM
100
P500
1,2,
427
.120
9.3
**51
.33.
695
31.7
192.
5*
50.9
0.2
9324
.723
2.2
**51
.610
.297
25.0
203.
1*
51.4
0.3
94DY
NAGR
O D3
9DC4
399
P250
1,2,
1826
.419
9.8
50
.70.
097
32.4
187.
7*
50.5
0.0
9523
.121
4.7
50
.80.
098
23.7
197.
1
50.8
0.0
98LG
SEE
DS L
G550
5VT2
RIB
100
P500
1,2
24.2
203.
9*
53.0
0.5
9828
.219
3.5
**52
.60.
497
22.4
215.
8
53.3
0.6
9822
.020
2.5
*53
.20.
698
RENK
RK5
79DG
VT2P
98P2
501,
2,18
25.3
204.
4*
51.5
0.3
9730
.818
5.4
*51
.50.
098
22.5
218.
451
.80.
995
22.7
209.
4**
51.3
0.0
97AV
ERAG
E25
.820
4.4
51.6
1.1
9730
.818
9.8
51.4
0.1
9623
.222
0.3
51.9
2.9
9723
.320
3.0
51.7
0.2
97HI
GHES
T27
.120
9.3
53.0
3.6
9832
.419
3.5
52.6
0.4
9824
.723
2.2
53.3
10.2
9825
.020
9.4
53.2
0.6
98LO
WES
T24
.219
9.8
50.7
0.0
9528
.218
5.4
50.5
0.0
9322
.421
4.7
50.8
0.0
9522
.019
7.1
50.8
0.0
94CV
(%)
4.0
6.4
1.6
1099
.03
4.3
6.5
1.7
699.
13
3.9
6.1
1.6
842.
13
2.9
6.3
1.4
724.
13
LSD
(5%
)0.
66.
10.
42.
21
1.4
9.9
0.7
0.8
30.
911
.60.
76.
42
0.6
10.0
0.6
1.1
2
Mon
tcal
m -
Late
BU/A
Huro
n - L
ate
BU/A
BU/A
BU/A
Late
- TR
IAL
AVER
AGE
BU/A
BU/A
Mon
tcal
m -
Late
Mas
on -
Late
Huro
n - L
ate
Late
- TR
IAL
AVER
AGE
Mas
on -
Late
BU/A
BU/A
- 19 -
TREATMENT CODES FOR SEED APPLIED INSECTICIDES
CODE NUMBERS FOR HYBRID TRAITS *
* Hig
hest
Yie
ldin
g Hy
brid
* N
ot S
igni
fican
tly D
iffer
ent f
rom
Hig
hest
Yie
ldin
g Hy
brid
- 20 -
TABL
E 4E
.ZO
NE 4
IOSC
O, O
SCEO
LA &
PRE
SQUE
ISLE
COU
NTY
GRAI
N TR
IALS
- EA
RLY
(89 D
ay an
d Ea
rlier
)20
19BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
FS In
Visio
n FS3
5SV1
RIB
85C2
501,2
33.5
165.6
50
.00.0
9327
.519
6.8
50.2
0.096
43.4
126.8
48
.80.0
9029
.717
3.2*
50.9
0.093
FS In
Visio
n FS3
7TV1
RIB
87C2
501,2
34.7
168.7
49
.30.7
9628
.320
7.7*
49.7
2.198
43.9
133.1
48
.30.0
9531
.816
5.4*
49.9
0.096
LEGA
CY S
EEDS
L-23
47 V
T2P
83A2
501,2
34.5
164.4
50
.00.2
9826
.420
1.5*
50.7
0.699
47.6
118.6
48
.50.0
9529
.617
3.0*
50.8
0.099
LEGE
ND 47
J086
VIP
3220
EZR
EF86
1,2,4,
634
.216
5.8
50.1
0.610
129
.119
6.1
50.7
0.010
141
.214
9.1**
49.2
0.099
32.4
152.2
50
.31.9
104
LEGE
ND 98
86 V
T2PR
IB86
1,238
.316
5.7
48.9
0.696
31.5
207.1
*49
.01.2
9746
.312
4.9
48.2
0.094
37.2
165.0
*49
.40.6
96LE
GEND
47J9
88 31
20 E
ZREF
881,2
,436
.916
5.8
48.3
0.793
30.5
212.3
*49
.00.6
9945
.014
1.3*
46.7
0.089
35.1
143.7
49
.11.6
91LG
SEE
DS LG
5370
VT2R
IB84
P500
1,232
.917
5.0*
49.3
0.498
26.9
205.2
*49
.80.3
9842
.014
1.2*
48.1
0.695
29.9
178.6
**50
.10.3
100
LG S
EEDS
LG38
C18V
T2RI
B88
P500
1,236
.815
4.1
48.5
0.097
28.9
201.0
*48
.80.0
9945
.111
6.1
47.6
0.096
36.3
145.3
49
.00.0
97LO
CAL S
EED
LC85
97 V
T2PR
IB85
R500
1,234
.117
6.7**
50.0
0.295
28.0
215.7
**50
.40.6
9941
.814
0.0*
48.6
0.090
32.5
174.4
*51
.00.0
96LO
CAL S
EED
LC86
67 S
SXRI
B86
R500
1,2,3,
438
.415
1.7
48.1
1.588
32.1
181.3
47
.84.6
9145
.812
6.5
47.4
0.091
37.3
147.2
49
.00.0
83M&
W S
EEDS
48R1
187
C250
1,233
.617
4.2*
49.9
0.396
26.3
212.8
*51
.20.9
9942
.314
6.2*
48.3
0.095
32.2
163.7
50.2
0.093
AVER
AGE
35.3
166.2
49.3
0.596
28.7
203.4
49.8
1.098
44.0
133.1
48.2
0.194
33.1
162.0
50.0
0.495
HIGH
EST
38.4
176.7
50.1
1.510
132
.121
5.751
.24.6
101
47.6
149.1
49.2
0.699
37.3
178.6
51.0
1.910
4LO
WES
T32
.915
1.748
.10.0
8826
.318
1.347
.80.0
9141
.211
6.146
.70.0
8929
.614
3.749
.00.0
83CV
(%)
5.66.7
1.738
2.14
5.36.1
1.830
5.03
5.76.1
1.666
3.35
5.36.9
1.724
1.54
LSD
(5%
)1.3
7.50.6
1.23
1.815
.01.1
3.64
3.09.8
0.90.5
52.1
13.6
1.01.2
5
2 Yea
r Ave
rage
s 201
9 - 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
LG S
EEDS
LG53
70VT
2RIB
84P5
001,2
27.3
176.2
51
.90.6
9823
.019
9.6
52.7
0.798
31.5
152.8
*51
.10.5
97LG
SEE
DS LG
38C1
8VT2
RIB
88P5
001,2
28.5
162.4
51
.02.0
9523
.719
2.9
51.9
3.896
33.3
131.8
50
.00.2
94M&
W S
EEDS
48R1
187
C250
1,227
.318
6.0**
51.7
1.599
22.6
212.0
**53
.12.5
9931
.916
0.0**
50.3
0.499
AVER
AGE
27.7
174.9
51.5
1.497
23.1
201.5
52.5
2.398
32.2
148.2
50.4
0.497
HIGH
EST
28.5
186.0
51.9
2.099
23.7
212.0
53.1
3.899
33.3
160.0
51.1
0.599
LOW
EST
27.3
162.4
51.0
0.695
22.6
192.9
51.9
0.796
31.5
131.8
50
.00.2
94CV
(%)
5.07.9
1.751
4.54
4.36.9
1.7
389.5
35.1
9.4
1.717
55.0
4LS
D (5
%)
0.97.1
0.52.4
20.9
11.6
0.7
5.53
1.810
.9
0.82.5
4
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
BU/A
Iosc
o - E
arly
BU/A
TRIA
L AV
ERAG
EBU
/A
BU/A
BU/A
BU/A
BU/A
BU/A
Pres
que I
sle -
Early
TRIA
L AV
ERAG
E
Iosc
o - E
arly
Osce
ola -
Ear
ly
Pres
que I
sle -
Early
Osce
ola -
Ear
ly
- 21 -
TABL
E 4L
.ZO
NE 4
2019
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
ARM
OUR
AA92
0692
C250
1,2,4
39.0
144.1
48
.60.0
9230
.820
1.2*
48.8
0.094
46.4
135.0
47
.90.0
9139
.896
.2
49.1
0.091
DAIR
YLAN
D SE
ED D
S-30
30AM
90P5
001,2
,434
.316
4.0*
47.2
0.498
28.4
204.7
*47
.00.0
9940
.715
4.5*
46.1
0.097
33.9
132.8
48
.41.2
97DY
NAGR
O D3
7VC6
497
P250
1,244
.515
5.0
48.8
0.799
36.9
197.9
*48
.41.8
9947
.615
2.6
48.6
0.098
49.1
114.5
49
.40.3
99FS
InVi
sion F
S41T
V1 R
IB`
91C2
501,2
38.8
160.8
*48
.40.1
9833
.119
1.8
48.0
0.310
042
.816
3.0**
47.5
0.096
40.5
127.6
49
.70.0
99FS
InVi
sion F
S45S
V1 R
IB95
C250
1,241
.115
5.8
48.9
0.210
035
.319
8.9*
48.4
0.398
47.2
149.6
48
.70.0
100
40.9
119.0
49
.70.3
101
LEGA
CY S
EEDS
L-29
18 V
T2P
89A5
001,
237
.416
4.6*
48.8
0.298
30.9
192.9
*48
.00.0
100
44.4
151.2
48
.20.0
9437
.014
9.7*
50.1
0.610
0LE
GACY
SEE
DS L-
3048
VT2
P90
A500
1,238
.016
7.4**
49.2
0.099
32.9
185.5
48
.20.0
100
47.3
145.2
50
.00.0
9733
.917
1.4**
49.3
0.010
1LG
SEE
DS LG
5410
VT2R
IB91
P500
1,244
.116
1.4*
48.9
0.010
039
.018
6.2
48.5
0.010
048
.215
4.9*
48.0
0.099
45.1
143.2
50
.20.0
102
LG S
EEDS
LG42
C63V
T2RI
B92
P500
1,237
.115
4.2
48.1
0.095
31.6
187.7
48
.00.0
9641
.814
6.9
47.3
0.094
37.8
127.9
49
.10.0
94LG
SEE
DS LG
44C2
7VT2
RIB
94P5
001,2
41.4
162.8
*48
.90.0
9933
.420
8.2**
48.4
0.010
046
.115
7.0*
48.8
0.097
44.6
123.1
49
.50.0
101
LOCA
L SEE
D LC
9278
SSX
RIB
92R5
001,2
,3,4
43.0
146.3
49
.20.2
9734
.918
5.6
49.2
0.699
48.9
132.7
49
.10.0
9845
.312
0.6
49.3
0.095
LOCA
L SEE
D ZS
9598
5222
EZ95
R500
1,2,4,
642
.713
7.6
47.5
0.199
34.4
177.5
46
.60.3
100
48.7
136.9
47
.40.0
9945
.098
.5
48.4
0.099
LOCA
L SEE
D ZS
9796
3220
EZ97
R500
1,2,4,
641
.615
4.5
49.0
0.099
34.7
177.5
48
.10.0
9848
.714
0.7
48.5
0.098
41.5
145.2
50
.40.0
100
M&W
SEE
DS 47
T16
90C2
501,2
39.1
155.4
49
.20.3
9631
.520
3.8*
48.7
0.397
46.5
142.7
49
.10.0
9439
.211
9.8
49.8
0.698
M&W
SEE
DS 46
P76
97C2
501,2
44.6
147.1
49
.00.0
9437
.419
0.4
48.1
0.097
47.9
151.1
48
.80.0
9248
.599
.9
50.2
0.093
AVER
AGE
40.4
155.4
48.6
0.198
33.7
192.6
48.1
0.299
46.2
147.6
48.3
0.096
41.5
126.0
49.5
0.298
HIGH
EST
44.6
167.4
49.2
0.710
039
.020
8.249
.21.8
100
48.9
163.0
50.0
0.010
049
.117
1.450
.41.2
102
LOW
EST
34.3
137.6
47.2
0.092
28.4
177.5
46.6
0.094
40.7
132.7
46.1
0.091
33.9
96.2
48.4
0.091
CV (%
)5.5
9.11.5
474.8
37.2
7.01.7
423.1
34.1
5.81.6
0.04
5.614
.91.0
327.4
3LS
D (5
%)
1.59.5
0.50.5
22.9
16.1
1.01.2
42.3
10.2
0.90.0
52.8
22.4
0.70.8
3
2 Yea
r Ave
rage
s 201
9 - 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
LG S
EEDS
LG54
10VT
2RIB
91P5
001,2
30.8
187.1
50.6
0.399
29.4
201.3
50.9
0.699
32.1
172.9
50.3
0.099
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
TRIA
L AV
ERAG
EBU
/ABU
/ABU
/ABU
/A
BU/A
Iosc
o - E
arly
Osce
ola -
Ear
ly
Pres
que I
sle -
Late
Osce
ola -
Ear
lyIo
sco
- Ear
ly
BU/A
TRIA
L AV
ERAG
EBU
/ABU
/APr
esqu
e Isle
- La
te
IOSC
O, O
SCEO
LA &
PRE
SQUE
ISLE
COU
NTY
GRAI
N TR
IALS
- LA
TE (9
0 Day
and
Late
r)
- 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)
2019
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
629-
2299
P500
Conv
.29
.316
5.0
51.2
0.5
9534
.016
3.5
48.8
1.0
9024
.616
6.5
53.5
0.0
99BL
UE R
IVER
26B
7888
P250
Conv
.26
.916
2.6
51.5
6.5
9930
.215
1.6
48.2
11.7
9823
.517
3.5
54.8
1.2
100
BLUE
RIV
ER 2
7B16
88P2
50Co
nv.
27.5
169.
251
.711
.297
31.2
133.
348
.720
.995
23.7
205.
0**
54.7
1.5
99BL
UE R
IVER
33A
1692
P250
Conv
.29
.015
9.3
50.5
4.6
9233
.013
0.8
47.9
5.7
8725
.018
7.7
53.0
3.4
96BL
UE R
IVER
38G
5496
P250
Conv
.29
.216
4.4
49.5
2.2
8833
.714
0.8
48.2
4.1
7624
.618
8.0
50.8
0.3
100
FS In
Visio
n FS
45S0
095
C250
Conv
.26
.318
1.0
**50
.23.
796
29.0
182.
8**
47.8
5.9
9523
.517
9.1
52.6
1.5
97FS
InVi
sion
FS50
A00
100
C250
Conv
.29
.616
2.0
49.2
1.1
9634
.415
2.9
47.7
2.2
9124
.817
1.1
50.7
0.0
101
King
Fish
er 4
9C60
99Co
nv.
29.7
164.
649
.71.
794
33.4
146.
647
.83.
390
25.9
182.
651
.50.
098
LEGA
CY S
EEDS
L-3
438
CONV
94CM
250
Conv
.26
.017
4.9
*51
.41.
699
27.2
160.
049
.22.
896
24.7
189.
853
.50.
310
1LE
GACY
SEE
DS L
-351
7 CO
NV95
CM25
0Co
nv.
27.8
177.
9*
50.7
0.2
9431
.617
3.0
*48
.70.
390
23.9
182.
852
.60.
097
LEGA
CY S
EEDS
L-4
148
CONV
100
CM25
0Co
nv.
33.2
178.
7*
50.5
1.8
9337
.816
7.1
48.9
3.6
8828
.519
0.3
52.0
0.0
97LG
SEE
DS L
G547
098
P500
Conv
.28
.816
1.0
49.4
1.0
9133
.314
8.5
47.5
1.0
8124
.317
3.5
51.2
0.9
100
LG S
EEDS
LG5
505
100
P500
Conv
.30
.115
7.7
50.2
0.6
9135
.514
6.7
47.6
1.1
8224
.616
8.6
52.8
0.0
99M
&W S
EEDS
47J
6494
C250
Conv
.27
.116
9.2
51.0
1.0
9230
.915
9.0
48.8
1.6
9223
.317
9.3
53.1
0.3
92M
&W S
EEDS
47R
2294
C250
Conv
.25
.916
7.5
52.1
2.5
9527
.514
5.1
50.2
2.2
9224
.318
9.9
53.9
2.7
98M
&W S
EEDS
45P
3310
0C2
50Co
nv.
30.0
162.
849
.00.
289
35.1
160.
848
.10.
383
24.9
164.
749
.90.
094
RENK
RK5
6895
P250
CONV
.28
.915
8.5
50.3
0.8
9233
.815
4.7
48.7
0.7
8323
.916
2.2
51.8
0.9
100
RUPP
XRA
97-5
597
P250
Conv
.28
.017
1.0
50.8
0.2
9532
.216
8.1
*48
.90.
390
23.7
173.
852
.60.
099
VIKI
NG O
.84-
95UP
95C2
50Co
nv.
27.6
170.
750
.70.
694
32.4
177.
2*
48.7
0.6
9222
.816
4.1
52.7
0.6
95VI
KING
O.9
8-98
P98
C250
Conv
.29
.116
7.4
49.4
0.0
8732
.416
3.3
47.9
0.0
7925
.717
1.5
50.8
0.0
95VI
KING
O.8
5-00
P10
0C2
50Co
nv.
30.2
170.
749
.31.
495
35.6
162.
447
.62.
889
24.8
178.
951
.00.
010
0AV
ERAG
E28
.616
7.4
50.4
2.1
9432
.615
6.6
48.4
3.4
8824
.517
8.2
52.4
0.6
98HI
GHES
T33
.218
1.0
52.1
11.2
9937
.818
2.8
50.2
20.9
9828
.520
5.0
54.8
3.4
101
LOW
EST
25.9
157.
749
.00.
087
27.2
130.
847
.50.
076
22.8
162.
249
.90.
092
CV (%
)3.
96.
51.
423
2.2
64.
38.
01.
219
2.6
83.
05.
11.
615
4.1
3LS
D (5
%)
0.9
9.0
0.6
3.9
51.
714
.80.
77.
89
0.9
10.7
1.0
1.2
4
2 Yea
r Ave
rage
s 201
9 - 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 3
8G54
96P2
50Co
nv.
23.8
184.
051
.12.
891
25.0
171.
351
.33.
686
22.6
196.
7*
50.9
2.0
96LG
SEE
DS L
G547
098
P500
Conv
.23
.618
4.2
51.0
1.3
8525
.517
0.8
50.5
0.5
7121
.619
7.5
*51
.52.
099
M&W
SEE
DS 4
7J64
94C2
50Co
nv.
22.1
181.
452
.50.
686
23.7
162.
751
.70.
876
20.5
200.
1*
53.2
0.3
95M
&W S
EEDS
47R
2294
C250
Conv
.21
.820
3.2
**54
.32.
995
21.8
203.
2**
54.3
2.9
95M
&W S
EEDS
45P
3310
0C2
50Co
nv.
24.0
186.
550
.50.
292
25.9
177.
8*
50.5
0.2
8922
.119
5.2
*50
.50.
195
VIKI
NG O
.84-
95UP
95C2
50Co
nv.
22.7
183.
052
.00.
594
24.9
186.
0**
51.0
0.3
9220
.417
9.9
53.0
0.6
96VI
KING
O.9
8-98
P98
C250
Conv
.23
.717
5.9
51.2
2.7
9024
.615
4.3
51.1
4.9
8822
.819
7.4
*51
.30.
591
AVER
AGE
23.1
185.
551
.81.
690
24.9
170.
551
.01.
784
21.7
195.
752
.11.
295
HIGH
EST
24.0
203.
254
.32.
995
25.9
186.
051
.74.
992
22.8
203.
254
.32.
999
LOW
EST
21.8
175.
950
.50.
285
23.7
154.
350
.50.
271
20.4
179.
950
.50.
191
CV (%
)3.
97.
11.
618
8.6
64.
39.
91.
517
7.1
163.
47.
01.
525
5.5
7LS
D (5
%)
0.6
7.4
0.5
2.2
41.
113
.30.
75.
013
0.7
10.9
0.6
1.9
6
** 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
Sagi
naw
- Ear
lyBU
/AIn
gham
- Ea
rlyMo
ntca
lm -
Early
BU/A
BU/A
BU/A
BU/A
Sagi
naw
- Ear
l yMo
ntca
lm -
Early
Ingh
am -
Early
Early
- TR
IAL
AVER
AGE
Not P
lante
d
BU/A
- 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
19BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AGRI
GO
LD A
634-
9310
3P5
00Co
nv.
30.6
155.
2
50.4
5.1
9035
.811
7.6
47
.48.
083
25.4
192.
7
53.3
2.1
97AG
RIG
OLD
A63
5-54
105
P500
Conv
.35
.915
4.8
49
.62.
196
41.5
135.
7
48.3
4.1
9230
.217
3.8
50
.80.
099
BLUE
RIV
ER 4
8G35
102
P250
Conv
.35
.016
0.8
48
.65.
696
41.0
114.
5
47.0
9.1
9228
.920
7.0
**50
.22.
199
BLUE
RIV
ER 5
1T59
103
P250
Conv
.34
.716
1.3
*49
.21.
890
41.8
133.
3
47.5
2.3
8627
.518
9.2
50
.91.
294
FS In
Visio
n FS
5296
C10
2C2
50Co
nv.
32.2
164.
6*
49.5
0.4
8837
.313
4.1
47
.60.
780
27.0
195.
0
51.3
0.0
95FS
InVi
sion
FS54
A00
104
C250
Conv
.36
.115
8.1
49
.52.
293
42.6
115.
0
47.2
3.4
8729
.520
1.2
*51
.80.
999
FS In
Visio
n FS
58G
0010
8C2
50Co
nv.
36.2
165.
0*
47.6
5.7
9039
.913
7.0
45
.611
.388
32.4
193.
0
49.5
0.0
91KE
Y 90
810
8Co
nv.
35.4
132.
0
48.9
1.3
9441
.910
1.8
46
.92.
690
28.9
162.
1
50.8
0.0
98LE
GAC
Y SE
EDS
L-52
17
102
CM25
0Co
nv.
32.4
168.
0*
49.8
0.9
8738
.113
9.4
*48
.11.
883
26.7
196.
6*
51.5
0.0
91LE
GAC
Y SE
EDS
L-60
47
105
CM25
0Co
nv.
34.1
157.
7
49.2
0.7
8641
.112
2.7
46
.90.
774
27.0
192.
7
51.4
0.6
98LG
SEE
DS L
G54
C04
104
P500
Conv
.33
.216
2.6
*50
.05.
190
39.5
129.
2
47.8
9.3
8126
.819
6.0
*52
.20.
999
LG S
EEDS
LG
5525
105
P500
Conv
.36
.014
4.7
49
.80.
591
41.8
121.
3
48.3
0.3
8230
.216
8.0
51
.20.
610
0M
&W S
EEDS
45M
4310
3C2
50Co
nv.
33.7
150.
0
49.9
6.0
8840
.212
5.3
48
.011
.684
27.2
174.
6
51.7
0.3
92M
&W S
EEDS
45R
6710
3C2
50Co
nv.
32.1
166.
0*
49.4
0.2
8636
.514
0.8
*47
.60.
380
27.7
191.
1
51.1
0.0
91M
&W S
EEDS
44P
8510
5C2
50Co
nv.
33.4
156.
2
49.1
2.6
9238
.813
4.3
47
.44.
289
27.9
178.
1
50.7
0.9
94M
&W S
EEDS
44R
3310
6C2
50Co
nv.
32.2
168.
4*
49.3
6.7
8837
.414
8.7
*48
.013
.483
26.9
188.
1
50.5
0.0
93M
&W S
EEDS
44M
8710
8C2
50Co
nv.
38.9
142.
5
49.8
2.3
8645
.110
4.3
48
.34.
579
32.6
180.
7
51.3
0.0
93RE
NK R
K642
102
P250
Conv
.34
.015
5.9
49
.39.
288
41.0
132.
3
47.4
18.1
8227
.017
9.5
51
.20.
394
RENK
RK7
2410
4P2
50Co
nv.
36.4
169.
6*
49.1
4.6
9242
.413
6.9
46
.97.
789
30.3
202.
2*
51.2
1.5
94RU
PP X
RA02
-20
102
P250
Conv
.33
.915
4.1
49
.90.
693
40.7
123.
8
48.2
0.3
8627
.118
4.4
51
.60.
910
0VI
KING
O.4
6-02
P10
2C2
50Co
nv.
33.0
170.
9**
49.6
2.9
9337
.915
4.6
**48
.25.
188
28.0
187.
1
50.9
0.6
97VI
KING
O.5
5-02
UP10
2C2
50Co
nv.
35.7
156.
2
50.2
3.4
8942
.211
6.6
48
.26.
581
29.2
195.
8*
52.1
0.3
97VI
KING
O.5
1-04
P10
4C2
50Co
nv.
35.6
160.
8
49.0
3.0
9241
.912
4.5
47
.15.
785
29.2
197.
0*
50.9
0.3
98VI
KING
O.1
8-06
P10
6C2
50Co
nv.
35.6
169.
1*
51.6
2.2
8942
.513
4.2
49
.94.
481
28.7
204.
0*
53.3
0.0
96W
ELLM
AN W
2902
102
Conv
.32
.916
2.4
*49
.30.
587
38.8
133.
7
47.2
0.7
8026
.919
1.0
51
.40.
394
WEL
LMAN
W29
0610
6Co
nv.
33.6
167.
6*
49.4
7.2
8040
.313
5.9
47
.114
.372
26.8
199.
2*
51.7
0.0
88W
ELLM
AN W
2910
110
Conv
.38
.915
6.5
51.0
4.2
9145
.112
2.4
50.1
7.2
8632
.719
0.6
51.9
1.2
96AV
ERAG
E34
.515
8.9
49.6
3.2
9040
.512
8.5
47.7
5.8
8428
.518
9.3
51.3
0.6
95HI
GHE
ST38
.917
0.9
51.6
9.2
9645
.115
4.6
50.1
18.1
9232
.720
7.0
53.3
2.1
100
LOW
EST
30.6
132.
047
.60.
280
35.8
101.
845
.60.
372
25.4
162.
149
.50.
088
CV (%
)5.
47.
41.
521
6.3
85.
610
.51.
616
6.4
124.
75.
31.
319
8.0
3LS
D (5
%)
1.5
9.7
0.6
5.7
62.
715
.90.
911
.412
1.6
11.7
0.8
1.3
3
2 Ye
ar A
vera
ges
2019
- 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
P250
Conv
.28
.917
0.5
49
.74.
592
30.7
148.
5
49.3
5.0
8727
.119
2.5
*50
.03.
996
BLUE
RIV
ER 5
1T59
103
P250
Conv
.28
.018
2.2
*50
.62.
093
30.4
171.
3*
50.2
1.6
9125
.519
3.0
*50
.92.
494
M&W
SEE
DS 4
5M43
103
C250
Conv
.27
.917
1.2
51
.34.
192
30.6
157.
8*
50.6
6.5
9025
.118
4.6
51
.91.
794
M&W
SEE
DS 4
4P85
105
C250
Conv
.27
.118
9.5
**50
.72.
693
29.0
176.
5**
50.3
2.3
9025
.220
2.5
**51
.02.
995
M&W
SEE
DS 4
4M87
108
C250
Conv
.32
.218
1.0
50
.82.
489
34.1
167.
0*
50.4
2.8
8330
.219
4.9
*51
.11.
994
RUPP
XRA
02-2
010
2P2
50Co
nv.
27.6
176.
851
.31.
595
30.3
161.
9*
51.0
0.2
9124
.919
1.6
*51
.62.
898
AVER
AGE
28.6
178.
550
.72.
992
30.8
163.
850
.33.
188
26.3
193.
251
.12.
695
HIG
HEST
32.2
189.
551
.34.
595
34.1
176.
551
.06.
591
30.2
202.
551
.93.
998
LOW
EST
27.1
170.
549
.71.
589
29.0
148.
549
.30.
283
24.9
184.
650
.01.
794
CV (%
)4.
78.
41.
720
5.1
65.
619
.01.
814
4.4
124.
67.
31.
570
0.5
3LS
D (5
%)
0.9
8.3
0.5
3.9
31.
722
.50.
75.
99
1.1
11.7
0.6
7.2
2
** 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
BU/A
BU/A
BU/A
BU/A
BU/A
Not P
lant
ed
Late
- TR
IAL
AVER
AGE
Sagi
naw
- La
te
BU/A
BU/A
Ingh
am -
Late
Mon
tcal
m -
Late
Sagi
naw
- La
teM
ontc
alm
- La
teIn
gham
- La
teLa
te -
TRIA
L AV
ERAG
E
- 24 -
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 Isle Trial Average
BRAND / HYBRID RM TABLE AG ARMOUR AA9206 92 4L AA9509 95 2E,3E AA9608 96 2E,3E AA10102 101 2E AA10252 102 2L,3L AGRIGOLD A628-16VT2RIB 98 2E A629-22 99 5E A629-22STXRIB 99 2E A632-07VT2PRO 102 2L A634-93 103 5L A635-54 105 5L A635-54VT2RIB 105 2L A636-11VT2PRO 106 1E` A637-55VT2RIB 107 1E A638-74VT2RIB 108 1L A639-40VT2RIB 109 1L BLUE RIVER 26B78 88 5E 27B16 88 5E 33A16 92 5E 38G54 96 5E 48G35 102 5L 51T59 103 5L DAIRYLAND SEED DS-3030AM 90 4L DS-3550Q 95 3E DS-3519AM 95 2E,3E DS-3750AM 97 2E,3E` DS-3715AM 97 2E,3E DS-3810Q 98 3L DS-4018AM 100 2E,3L DS-4310AM 103 2L,3L DS-4318AM 103 1E,2L DS-4329AM 103 1E,2L DS-4440AM 104 1E,2L,3L DS-7004RA 104 1E,2L DS-4580Q 105 1E,2L DS-4840AM 108 1L DS-4910AML 110 1L` DS-5018Q 110 1L DS-5319Q 113 1L
BRAND / HYBRID RM TABLE DYNAGRO D37VC64 97 2E,3E,4L D39DC43 99 3L D39VC40 99 2E,3L D44VC40 103 2L` D47SS29 107 1E D49VC70 109 1L FS InVision FS35SV1 RIB 85 4E FS37TV1 RIB 87 4E FS41TV1 RIB` 91 4L FS45S00 95 5E FS45SV1 RIB 95 3E,4L FS47TV1 RIB 97 3E FS5098X RIB 100 2E,3L FS50A00 100 5E FS51QX1 RIB 101 2E,3L FS5296C 102 5L FS53ZX1 RIB 103 2L,3L FS54A00 104 5L FS5594X RIB 105 1E,2L` FS55RL1 EZR 105 1E,2L FS57ZX1 RIB 107 1E,2L FS59VL1 EZR 109 1L FS58G00 108 5L` FS58RL1 EZR 108 1L` FS60UX1 RIB 110 1L FS6194V RIB 111 1L FS6299L2 EZR 112 1L` FS62ZX1 RIB 112 1L GOLDEN HARVEST G91V51-3110A 91 3E G90Y04-3220A 92 3E` G95D32-3220 95 2E,3E G97N86-3220 97 2E G00H12-3010 100 2E G02K39-3120 102 2L G03C84-3120 103 2L` G03R40-3110 103 2L` G04S19-3122 104 2L G06Q68-3220 106 2L G07F23-3111 107 1E` G08M20-3120 108 1L G08R52-3220 108 1L G09A86-3330 109 1L` G09Y24-3220A 109 1L
BRAND / HYBRID RM TABLE INTEGRA 4782 97 2E,3E 5081 100 2E,3L 5280 102 2L,3L KEY 995QR 95 1E 908 108 5L KingFisher ` 49C60 99 5E LEGACY SEEDS L-2347 VT2P 83 4E L-2918 VT2P 89 4L L-3048 VT2P 90 4L L-3419 VT2P 94 2E,3E L-3438 CONV 94 5E L-3517 CONV 95 5E L-3517 VT2P 95 3E L-3617 VT2P 96 2E,3E L-4118 VT2P 99 2E,3L L-4148 CONV 100 5E L-4248 VT2P 100 2E,3L L-5217 CONV 102 5L` L-5217 VT2P 102 2L,3L L-5319 SSX 103 2L L-5519 DGVT2P 105 1E,2L L-6047 CONV 105 5L` L-6047 SSX 105 1E L-6918 SSX 108 1L LEGEND 47J086 VIP3220 EZREF 86 4E 9886 VT2PRIB 86 4E 47J988 3120 EZREF 88 4E 9993 GENSSRIB 93 3E 9895 VT2PRIB 95 2E,3E 9995 VIP3220 EZREF 95 3E 9997 GENSSRIB 97 2E 9999 VT2PRIB 99 2E 9804 GENSSRIB 104 2L 9905 VIP3220 EZREF 105 2L 9806 GENSSRIB 106 2L
- 25 -
BRAND / HYBRID RM TABLE LG SEEDS LG5370VT2RIB 84 4E LG38C18VT2RIB 88 4E` LG5410VT2RIB 91 3E,4L` LG42C63VT2RIB 92 3E,4L` LG44C27VT2RIB 94 2E,3E,4L` LG5465VT2RIB 97 2E,3E LG5470 98 5E LG5505 100 5E` LG5505VT2RIB 100 1E,2E,3L` LG51C48VT2PRO 101 1E,2E,3L` LG54C04 104 5L LG5525 105 5L` LG5525VT2RIB 105 1E,2L LG57C33STX 107 1E,2L` LG58C77VT2RIB 108 1L,2L LG59C46VT2RIB 109 1L` LG59C66VT2RIB 109 1L` LG5590VT2RIB 110 1L` LG60C33VT2PRO 110 1L LOCAL SEED LC8597 VT2PRIB 85 4E LC8667 SSXRIB 86 4E LC9278 SSXRIB 92 3E,4L` ZS9598 5222EZ 95 2E,3E,4L` ZS9796 3220EZ 97 2E,3E,4L` LC9888 VT2PRIB 98 2E,3L LC0057 SSXRIB 100 2E,3L LC0297 SSXRIB 102 3L ZS0398 3110 103 3L` LC0488 SSXRIB 104 1E,2L,3L` LC0657 SSXRIB 106 1E,2L` LC0877 VT2PRIB 108 1L,2L LC1289 VT2PRIB 112 1L LC1488 VT2RIB 114 1L M&W SEEDS 48R11 87 3E,4E 47T16 90 2E,3E,4L 47J64 94 5E 47R22 94 5E 46P76 97 2E,3E,4L 46T29 99 2E 45P33 100 5E 45T56 100 2E 45M43 103 5L 45R67 103 5L 45R69 103 1E,2L 44P85 105 5L 44P86 105 1E 44R33 106 5L 44D81 108 1L 44M87 108 5L 44R77 108 1L
BRAND / HYBRID RM TABLE RENK RK433VT2P 92 3E RK561DGVT2P 95 3E RK568 95 5E` RK717SSTX 95 2E RK593VT2P 96 3E` 9S-104-3010 97 3E RK587VT2P 97 3E RK579DGVT2P 98 3L` RK710DGVT2P 98 2E RK621VT2P 102 2L RK626SSTX 102 2L RK642 102 5L RK642VT2P 103 2L RK724 104 5L RK765VT2P 108 1L RK807SSTX 111 1L RK842SSTX 112 1L RUPP XRJ94-91 94 2E,3E XRD96-13 96 2E,3E XRA97-55 97 5E XRD97-95 97 2E,3E XRJ98-52 98 2E,3L XRD01-90 101 1E,2E,3L XRA02-20 102 5L XRD03-07 103 1E XRD06-53 106 1E,2L XRD07-72 107 1E,2L XRD09-42 109 1L XRD09-63 109 1L XRD10-16 110 1L XRD12-49 112 1L SEEDWAY SW3569 5222 93 3E SW3768 GENSS 95 3E` SW4000 GENSS 100 3L SW4010 GENSS 100 3L SPECIALTY 26A236 96 2E 27D728 97 2E 28D249 98 2E 32A886 102 1E,2L 34A007 104 1E,2L 36A537 106 1E,2L
BRAND / HYBRID RM TABLE VIKING O.84-95UP 95 5E O.98-98P 98 5E O.85-00P 100 5E O.46-02P 102 5L O.55-02UP 102 5L O.51-04P 104 5L O.18-06P 106 5L WELLMAN W2902 102 5L W2903DP 103 1E W2906 106 5L W2807DP 107 1E W2910 110 5L W2911DP 110 1L W2012DP 112 1L WYCKOFF 2175 SS 97 2E 2187 VT2P 97 2E 2212 VT2P 100 1E 2263 SS 101 2E 2250 VT2P 102 1E 2335 SS 103 1E 2390 VT2P 103 1E 2400 SS 105 1E 2433 SS 105 1E 2500 SS 106 1E 2585 VT2P 107 1E ~ Denotes hybrids that were entered into the Grain and Silage Trials.
- 26 -
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 2019 Extended rain events, too wet to plant
BRANCH (Irrigated) May 16 Nov 3 Soybean 33,264 31,268 218-10-3
CASS (Irrigated) May 16 Dec 3 Soybeans 33,264 32,599 245-10-3
Zone
2
ALLEGAN June 3 Nov 26 & 29 Corn with forage ryes 33,264 32,931 161-10-3
plus manure
INGHAM June 23 Dec 6 Wheat 33,264 31,601 161-10-3
INGHAM CONV. June 23 Dec 6 Wheat 33,264 28,607 161-10-3
SAGINAW & CONV. DROPPED 2019 Extended rain Events, too wet to plant
Zone
3
HURON June 9 Nov 25 Corn Silage 33,264 31,933 161-10-3 plus manure
MONTCALM & CONV. May 15 Nov 10 Soybeans 33,264 32,599 161-10-3
MASON (Irrigated) May 14 Nov 5 Carrots 33,264 32,931 161-10-3 plus manure
Zone
4
IOSCO June 2 Nov 18 Corn 33,264 32,765 161-10-3 plus manure
OSCEOLA May 31 Nov 24 Black beans 33,264 31,601 161-10-3 plus manure
PRESQUE ISLE May 22 Nov 18 Corn 33,264 32,100 161-10-3 plus manure
COUNTY SOIL TYPE SOIL TEST1 FARM COOPERATOR LOCATION
Zone
1
WASHTENAW DROPPED Talladay Farms Matthew Talladay
Milan
BRANCH Fox sandy loam, Oshtemo sandy loam
pH 6.9, P 48 K 122
Oak Prairie Brian Nunemaker
Coldwater
CASS Kalamazoo loam pH 6.9, P 38K 155
Brossman’s Farm George Brossman
Vandalia
Zone
2
ALLEGAN Glendora Loamy Sand pH 6.1, P 172 K 194
Scenic View Dairy Bryan Geerlings
Fennville
INGHAM Conover loam pH 6.3, P 69 K 134
Plant, Soil & Microbial Sciences Research Facility, MSU
East Lansing
INGHAM CONV. Conover loam pH 6.3, P 69, K 134
Plant, Soil & Microbial Sciences Research Facility, MSU
East Lansing
SAGINAW & CONV. DROPPED Fred Gross Farms Peggy Gross & Dick Birchmeier
New Lothrop
Zone
3
HURON Kilmanagh loam pH 7.5, P 61 K 118
Wil-Le Farms Ron, Ed and Chris McCrea
Bad Axe
MONTCALM McBride and Isabella sandy loams 100%
pH 5.8, P 88 K 135
Karnatz Farms Scott Karnatz
Greenville
MASON Wixom-Capac complex, Fern-Marlette Complex
pH 6.7, P 53 K 106
Robert Oshe Jacob Zwagerman
Scottville
Zone
4
IOSCO Kawkawlin sandy loam pH 7.0, P 65K 144
Double B Dairy Jeremy, Tim and Roger Beebe
Hale
OSCEOLA Onekama loam, Saginaw Lobe
pH 6.6, P 42 K 103
Pine Crest Dairy Farm John Bode
Cadillac
PRESQUE ISLE Omena fine sandy loam pH 7.5, P 83 K 285
Ponik Farms Paul Ponik
Posen
1-P and K reported in m3-ppm
- 27 -- 27 -
2019SILAGE PERFORMANCE TRIALS
IntroductionThe silage index (pg. 30) contains a list of all hybrids planted
in the 2019 silage trials.County results are reported in the following tables:
Tables 6E/6L Zone 1 - Branch, Lenawee, and Wood County, OH (Lenawee County dropped)
Tables 7E/7L Zone 2/3 – Ottawa, Huron (Zone 3), and Ingham (Ingham County dropped)
Tables 8E/8L Zone 4 – Iosco, Osceola, and Presque Isle
The map of Michigan (pg. 28) 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 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 based on the relative maturity (RM) submitted by the companies with results listed in separate tables. The Wood Country, OH location is managed in cooperation with The Ohio State University. Planting and in-season management is conducted by The Ohio State University while Michigan State University harvests plots and performs 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 is used to harvest the two center rows of plots. Electronic scales mounted on the Haldrup M-63 weigh system measured plot and subsample weights. All field datawas recorded on a Panasonic FZ-G1 Toughpad using Harvest MasterTM software. Total plot weight was used to calculate green tons per acre (GT/A). Subsamples 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. ThesamplesweregroundusingaChristymillfittedwitha1mmscreen 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 as well as averaged over multiple locations within each zone. 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 specificchemicalandphysicalproperties.Thereflectedenergyismeasured 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 fiber. 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=neutraldetergentfiber. NDF is a measure of the
fibercontentofthecornforage.Itislessdigestiblethannon-fiberconstituentsoftheforage.ForageswithhighNDF 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 fiber digestibility. NDFD is the portion of neutral detergent fiber digested byanimalsataspecifiedleveloffeedintake.HighNDFDisdesirable.
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 fiber, accountsfor 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.
- 28 -- 28 -
2019 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-tractdigestibilitycoefficientstoestimateenergy.Wholeplantdry matter was calculated to 34% for all hybrids and digestibility coefficientsused. Fatandsugars, aswell as theorganicacidfractions, were held constant. MILK2006 also assumes the weight of the cow is 1,350 lbs. and that it consumes a 30 percent neutral detergentfiberdiet.UsingNationalResearchCouncil(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
2019UPPER PENINSULA CORN PERFORMANCE TRIALS
M.P. Singh, J. Lauer, J. DeDecker, C. Kapp,
and W. D. Widdicombe
A collaboration was successfully established in 2018 between Michigan Corn Performance Trials (MCPT), Wisconsin Corn Performance Trials (WCPT), and the Upper Peninsula (UP) team 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. This collaboration was developed as part of efforts to improve relevancy of MCPT trials in the UP, and was supported for the second year (2019) by funding from MSU AgBioResearch and MSU Extension.
Methods and data presented for the Menominee location is similar to the grain and silage performance trials presented in this bulletin. Previous crop in thefield (sandy loamsoil)wascorn.Plantingwasaccomplished using Winterstieger Plot King Planter on June 4 at a target rate of 34,000 seeds/acre. Duetoplantermalfunction,wewereunabletofinishplanting grain hybrids and no data is available on their performance from Menominee County. Corn silage plots were harvested on October 17. For details on performance of grain and silage hybrids at WCPT location in Marinette County, please refer to University of Wisconsin bulletin A3653 (available at http://corn.agronomy.wisc.edu/HT/2019/2019Text.aspx).
-Data Continued On Page 29.
- 29 -
2019BRAND / HYBRID RM %DM GT/A %STD IVD ADF NDF NDFD CP STR MK/T MK/AChannel 185-30VT2PRIB 85 77.4 16.4 12.2 ** 92 82.4 19.6 40.6 56.9 6.9 36.9 3349 39019Channel 192-98STXRIB 92 42.7 21.8 9.3 93 82.7 20.6 40.3 57.2 7.2 33.8 3367 31367Dairyland HiDF3197RA 97 44.1 24.7 11.2 94 81.4 20.4 38.9 56.3 7.1 36.0 3299 36892Dairyland HiDF-3397RA 97 38.5 25.8 9.9 96 78.9 27.1 49.4 57.3 5.9 20.9 2872 31468Dairyland DS-3519AM 96 45.5 21.0 9.5 87 81.4 25.7 46.8 56.4 6.7 28.2 3230 30591Dairyland DS-3715AM 97 51.2 22.3 11.4 * 97 80.8 23.0 42.3 54.7 6.5 34.3 3243 36828Dekalb DKC32-12RIB 82 54.0 16.6 9.0 91 83.2 20.1 39.4 57.5 7.2 38.0 3403 30614Dekalb DKC37-50RIB 87 50.1 18.4 9.1 91 82.3 21.4 41.1 56.7 7.2 32.8 3281 28369Federal Hybrids 4160VT2PRIB 91 42.3 21.4 9.2 91 82.4 21.4 41.7 57.8 6.5 33.2 3338 30690Federal Hybrids 4240VT2PRIB 92 38.7 22.4 8.9 88 81.7 22.3 43.6 58.0 6.4 29.3 3267 29171InVision FS 35SV1 RIB 85 50.4 16.5 8.2 91 82.5 21.4 40.6 57.0 7.2 36.2 3352 29466InVision FS 37TV1 RIB 87 53.4 16.9 9.4 91 83.8 17.8 38.2 57.7 7.0 36.2 3449 32379InVision FS 41TV1 RIB 91 38.9 19.8 8.3 89 81.4 23.7 45.4 58.9 6.6 27.5 3217 26700InVision FS 45SV1 RIB 95 59.3 18.6 11.1 94 81.4 22.8 42.7 56.5 6.8 30.1 3185 37053Jung 36DP310 86 59.5 16.1 9.0 92 85.3 18.0 35.5 58.6 7.2 42.9 3555 31836Jung 46SS428 96 40.2 23.7 9.4 93 84.6 19.7 39.8 61.3 6.6 34.5 3470 32703Jung 4D178RIB 84 39.7 23.5 9.7 87 81.4 20.2 40.4 59.7 6.0 34.9 3293 34267Jung 7S378RIB 94 35.5 25.1 8.9 90 80.6 21.6 41.6 56.8 6.8 31.4 3237 28778Latham 4242VT2PRO 92 42.5 23.6 10.0 96 81.5 22.3 43.0 56.8 6.5 27.9 3149 31487Latham 4375VT2PRO 93 39.7 21.7 8.8 93 80.7 21.9 42.7 58.7 6.7 30.9 3234 28380Latham 4517VT2PRO 95 56.1 19.7 10.4 94 77.9 26.7 48.2 54.2 6.3 30.2 3030 31625Legacy Seeds L3517VT2P(RIB) 95 41.1 23.5 9.8 93 81.9 22.6 43.5 58.4 6.5 29.3 3292 32391Legacy Seeds L3537-3220 95 40.1 21.8 8.8 87 79.6 24.9 46.6 56.1 6.6 26.5 3134 27461LG SEEDS LG38C18VT2RIB 88 43.5 21.3 9.1 94 84.0 19.0 38.3 58.3 6.9 38.3 3459 33523LG SEEDS LG42C63VT2RIB 92 40.6 21.1 8.6 98 82.4 20.1 39.3 58.4 6.5 35.3 3358 28788LG SEEDS LG44C27VT2RIB 94 45.4 23.0 10.4 93 81.4 22.4 45.1 58.8 6.5 28.5 3217 33518LG SEEDS LG5410VT2RIB 91 43.8 24.9 10.8 96 82.4 21.8 42.4 58.0 6.4 30.8 3318 35717LG SEEDS LG5465VT2RIB 97 32.0 23.7 7.8 91 79.5 27.2 46.8 56.2 6.6 20.1 2710 21161Masters Choice MCT2552-3110 75 86.5 13.1 11.2 92 84.8 17.0 36.9 58.8 7.5 42.7 3514 39248Masters Choice MCT3393-3000GT 83 63.8 17.8 10.7 94 83.0 17.9 36.1 58.0 7.1 42.6 3417 36703Masters Choice MCT3891GT 88 58.3 15.2 8.9 82 83.7 21.6 39.5 58.7 7.0 36.4 3427 28903Masters Choice MCT4572-3010 95 40.1 22.6 9.1 93 79.6 25.5 47.4 56.9 6.1 27.3 3121 28315NK Brand NK8519-3220-EZ1 85 63.1 19.3 12.1 * 92 82.1 19.9 40.6 56.0 7.4 37.9 3327 40108NK Brand NK8881-3120A-EZ1 88 65.4 18.9 12.2 ** 91 82.8 17.7 35.9 55.8 7.0 36.8 3314 40481NK Brand NK9175-3110A 91 62.2 19.7 11.9 * 91 84.0 19.1 38.0 58.0 7.2 39.2 3458 39304NK Brand NK9227-3220A-EZ1 92 43.7 24.7 10.5 97 81.0 22.9 42.4 55.3 7.1 32.3 3253 34245Prairie Hybrids 418 97 46.7 21.5 10.0 94 80.6 21.5 41.5 57.6 6.8 32.6 3234 30022RENK RK433VT2P 92 47.6 21.1 10.0 91 80.8 23.1 44.4 56.8 6.2 29.2 3224 30215RENK RK561DGVT2P 95 34.6 21.7 7.5 90 82.8 22.3 43.5 60.4 6.2 29.1 3309 26333RENK RK579DGVT2P 98 39.5 26.4 10.4 93 81.4 23.7 44.9 58.7 6.3 27.5 3230 33473RENK RK593VT2P 96 33.8 29.3 9.8 96 80.4 23.0 44.3 61.5 6.0 25.3 3098 31170Viking 42-92 92 53.3 21.5 11.2 89 83.1 20.4 40.8 58.6 6.7 35.1 3384 37988VIKING 71-90GS 90 42.4 18.8 7.7 96 83.4 21.1 41.5 60.0 6.8 29.1 3250 25084Viking O.82-95GS 95 46.4 21.4 10.0 87 80.5 20.6 39.9 59.5 7.1 33.7 3416 34950AVERAGE 48.1 21.1 9.8 92 81.9 21.7 41.9 57.7 6.7 32.5 3279 32245HIGHEST 86.5 29.3 12.2 98 85.3 27.2 49.4 61.5 7.5 42.9 3555 40481LOWEST 32.0 13.1 7.5 82 77.9 17.0 35.5 54.2 5.9 20.1 2710 21161CV (%) 6.6 6.6 6.2 5 2.7 5.9 5.8 3.1 5.5 6.6 4 5LSD (5%) 4.3 1.9 0.8 6 3.0 1.7 3.3 2.4 0.5 2.9 167 2224
2 Year Averages 2019 - 2018BRAND / HYBRID RM %DM GT/A %STD IVD ADF NDF NDFD CP STR MK/T MK/AChannel 192-98STXRIB 92 38.7 22.8 8.8 89 82.5 18.5 38.6 54.6 7.4 36.6 3345 29441Dairyland HiDF3197RA 97 40.3 25.0 10.2 ** 91 82.7 17.7 36.4 54.5 7.3 39.2 3378 34490Federal Hybrids 4160VT2PRIB 91 41.5 21.0 8.8 88 82.5 19.7 38.2 53.7 6.7 37.8 3351 29362InVision FS 37TV1 RIB 87 48.9 16.9 8.6 88 83.9 16.8 35.1 53.7 7.1 41.5 3457 29772InVision FS 41TV1 RIB 91 36.2 20.3 7.6 87 82.8 20.0 39.5 56.0 7.1 35.6 3346 25314InVision FS 45SV1 RIB 95 49.8 19.5 9.7 * 92 82.0 20.4 39.0 53.4 7.1 35.9 3271 32215Jung 46SS428 96 38.1 25.7 9.7 * 91 84.7 17.9 36.0 57.1 7.1 38.8 3496 34014Jung 4D178RIB 84 41.0 21.9 9.0 88 82.6 18.5 36.7 55.3 6.6 39.2 3373 31475Jung 7S378RIB 94 35.7 25.2 9.0 88 81.9 19.5 38.2 54.2 7.1 36.4 3319 29816Latham 4242VT2PRO 92 40.0 23.5 9.4 91 82.1 20.1 39.2 54.0 6.6 34.6 3260 30409LG SEEDS LG5410VT2RIB 91 39.2 24.1 9.4 91 82.6 20.1 39.2 55.3 6.9 35.4 3344 31494Prairie Hybrids 418 97 44.1 21.9 9.6 * 94 82.8 18.6 36.7 55.4 6.9 39.5 3385 31343Viking 42-92 92 44.5 22.1 9.7 * 89 82.7 19.7 38.7 55.0 6.9 37.7 3357 32512VIKING 71-90GS 90 40.0 20.6 8.3 90 83.3 18.9 37.2 54.4 7.0 36.9 3331 27642AVERAGE 41.3 22.2 9.1 90 82.8 19.0 37.8 54.8 7.0 37.5 3358 30664HIGHEST 49.8 25.7 10.2 94 84.7 20.4 39.5 57.1 7.4 41.5 3496 34490LOWEST 35.7 16.9 7.6 87 81.9 16.8 35.1 53.4 6.6 34.6 3260 25314CV (%) 6.1 7.3 7.3 5 2.7 9.1 7.7 3.2 6.1 11.1 4 7LSD (5%) 2.7 1.5 0.7 4 2.1 1.8 3.0 1.7 0.4 3.7 131 2174
** Highest Yielding Hybrid * Not Significantly Different from Highest Yielding Hybrid
YIELDDT/A
YIELDDT/A
% QUALITY MILK 2006
Upper Peninsula - Silage
Upper Peninsula - Silage
% QUALITY MILK 2006
UPPER PENINSULA SILAGE TRIAL
- 30 -
SILAGE HYBRID INDEXZONE 1 - Tables 6E/6L
Branch Lenawee
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 AG ARMOUR AA10810 108 7L AGRIGOLD A628-16VT2PRO 98 6E A636-43VT2PRO 106 6E` A637-55VT2RIB 107 6E DAIRYLAND SEED HiDF-3197RA 97 7E,8E HiDF-3397RA 97 7E,8E` DS-3715AM 97 7E,8E HiDF-3099RA 99 7E,8L HiDF-3802Q 102 6E,7E DS-4318AMXT 104 7E,8L HiDF-3407RA 107 6E,7L HiDF-3308AM 108 6E,7L, HiDF-3808RA 108 6E DS-4816AMXT 108 6E,7L` DS-5018Q 110 6L,7L HiDF-3211RA 111 6L DS-5329Q 114 6L DYNAGRO D43SS81 103 7E` D47SS29 107 7L D49SS70 109 6E,7L D52SS63 112 6L FS InVision ` FS55RL1 EZR 105 6E` FS58RL1 EZR 108 6E` FS60UX1 RIB 110 6L FS62RL1 EZR 112 6L` FS62ZX1 RIB 112 6L FS63ZX1 RIB 113 6L FS64SX1 RIB 114 6L GOLDEN HARVEST G90Y04-3110A 92 8E` G95D32-3220 95 8E` G03R40-3110 103 7E` G04S19-3122 104 7E` G08M20-3120 108 6E,7L G09A86-3110 109 6E,7L` G09Y24-3220A 109 6E,7L G10T63-3120 110 6L,7L G12J11-3220A 112 6L,7L G14N11-3110 114 6L G16K01-3111 116 6L
BRAND / HYBRID RM TABLE INTEGRA 4550 STP 95 7E 4810 STP 98 7E 5209 STP 102 7E 5500 STP 105 6E,7L 6010 STP 110 6L 6498 STP 114 6L KingFisher 34C30 84 8E 43C40 93 8E` 49C60 99 8L 57T81 107 6E,7L LEGACY SEEDS ` L-5217 VT2P 102 7E L-5350 3122 104 7E L-5438 3010 104 7E` L-6047 SSX 105 7L LG SEEDS ` LG5410VT2RIB 91 8E` LG42C63VT2RIB 92 8E` LG44C27VT2RIB 94 8E` LG5465VT2RIB 97 8E LG5494VT2RIB 99 7E` LG5505VT2RIB 100 7E` LG51C48VT2PRO 101 7E,8L` LG54C04 104 8L` LG5525VT2RIB 105 7L,` LG58C77VT2RIB 108 6E,7L` LG59C66VT2RIB 109 6E,7L` LG5590VT2RIB 110 6L` LG60C33VT2PRO 110 6L LG62C02VT2RIB 112 6L LOCAL SEED ` ZS9598 5222EZ 95 8E` ZS9796 3220EZ 97 8E` LC9888 VT2PRIB 98 8L` LC0488 SSXRIB 104 7E` LC0657 SSXRIB 106 6E,7L,8L` LC0877 VT2PRIB 108 6E,7L,8L ZS1098 330EZ 110 6L,7L,8L LC1349 SSXRIB 113 6L,7L LC1586 TC 115 6L
BRAND / HYBRID RM TABLE MASTERS CHOICE MCT-5454 104 6E,7E,8L MCT-5663 106 6E,7L MC-5790 107 7L MCT-6153 111 6L MCT-6363 113 6L NK Brand NK8920-3120 89 7E NK9175-3110A 91 7E NK9227-3220A 92 7E NK9535-3220 95 7E NK9610-3010 96 6E,7E NK9738-3220 97 6E,7E NK9852-3120 98 6E,7E NK9930-3010 99 6E,7E NK0199-3122A 101 6E,7E NK0243-3120 102 6E NK0440-3122 104 6E NK0886-3120 108 6E NK0962-3220A 109 6E RENK ` RK717SSTX 95 7E` 9S-104-3010 97 7E` RK710DGVT2P 98 7E RK724RR 98 7E RK771 100 7E 9S-109-3110 102 7E RK937VT2P 107 6E RK945DGVT2P 108 6E SEEDWAY ` SW4000 GENSS 100 6E SW6320 108 6E SW6540 VT2PRIB 108 6E SW6630 GENSS 110 6L SPECIALTY 37A593 107 6E 38A836 108 6E 42A843 112 6L VIKING O.82-95P 95 7E O.69-01P 101 7E O.51-04PGS 104 6E,7E O.48-08PGS 108 6E,7L O.74-10PGS 110 6L,7L 53-12PGS 112 6L O.82-14PGS 114 6L~ Denotes hybrids that were entered into the Grain
and Silage Trials.
- 31 -- 31 -
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 16 Sept 17 Soybean 33,264 31,102 218-10-3
LENAWEE DROPPED 2019 Extended rain Events, to wet to plant
WOOD(OHIO) June 12 Oct 7 Soybeans 33,264 27,110 222-26-0
Zone
2/3
OTTAWA June 27 Oct 24 Corn/rye cover 33,264 32,599 161-10-3 plus manure
INGHAM June 7 Oct 1 & 9 Soybeans 33,264 32,099 161-10-3
HURON June 9 Oct 10 Corn Silage 33,264 32,100 161-10-3 plus manure
Zone
4
IOSCO June 2 Oct 8 Corn 33,264 32,432 161-10-3 plus manure
OSCEOLA May 31 Oct 18 Black beans 33,264 31,434 161-10-3 plus manure
PRESQUEISLE May 22 Oct 8 Corn 33,264 32,100 161-10-3
plus manure
COUNTY SOIL TYPE SOIL TEST1 FARM COOPERATOR LOCATION
Zone
1
BRANCHFox sandy loam,
Oshtemo sandy loam pH 6.9, P 48
K 122 Oak Prairie
Brian NunemakerColdwater
LENAWEE DROPPED Baker-Ladd Farms Blaine Baker Clayton
WOOD(OHIO) Hoytville clay loam pH 6.9 , P 63
K 164
OARDC Matt Davis &
Richard Minyo Hoytville, Ohio
Zone
2/3
OTTAWA Richter sandy loam pH 6.3, P 125 K 152
J & J Dairy Tim, Dave and Daniel
Van Dyke Marne
INGHAM Conover loam pH 6.1, P 49K 104
Plant, Soil & Microbial Sciences Research
Facility, MSU East Lansing
HURON Kilmanagh loam pH 7.5, P 61K 118
Wil-Le Farms Ron, Ed and Chris
McCrea Bad Axe
Zone
4
IOSCO Kawkawlin sandy pH 7.0, P 65 K 144
Double B Dairy Jeremy, Tim and Roger
Beebe Hale
OSCEOLA Omena fine sandy loam pH 6.6, P 42 K 103
Pine Crest Dairy Farm John Bode Cadillac
PRESQUEISLE Onekama loam, Saginaw Lobe pH 6.6, P 42
K 103 Ponik Farms Paul Ponik Posen
1-P and K reported in m3-ppm
- 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
2019
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
628-
16VT
2PRO
98P5
001,
247
.722
.510
.788
83.5
16.5
32.8
55.0
7.6
44.3
3511
3806
747
.226
.212
.490
83.3
17.0
33.2
54.1
8.0
44.5
3422
4223
4AG
RIGO
LD A
636-
43VT
2PRO
106
P500
1,2
44.7
23.3
10.2
8984
.716
.532
.854
.77.
145
.135
2536
014
41.0
27.5
11.3
9483
.717
.433
.053
.47.
544
.534
5338
920
AGRI
GOLD
A63
7-55
VT2R
IB10
7P5
001,
247
.720
.69.
984
85.3
17.6
32.9
55.4
8.0
44.7
3558
3509
145
.522
.410
.387
84.2
19.1
34.7
54.4
8.7
42.7
3460
3571
3DA
IRYL
AND
SEED
HiD
F-38
02Q
102
P500
1,2,
3,4
45.0
23.1
10.2
7986
.616
.232
.158
.38.
045
.336
4635
227
44.9
27.2
11.8
9286
.815
.930
.356
.38.
547
.236
5640
650
DAIR
YLAN
D SE
ED H
iDF-
3407
R A10
7P5
001,
2,3,
443
.025
.311
.281
83.9
17.0
33.8
54.7
7.5
42.7
3521
3952
345
.729
.113
.690
82.8
17.8
33.3
53.4
7.9
41.6
3496
4822
2DA
IRYL
AND
SEED
HiD
F-33
08AM
108
P500
1,2,
439
.727
.010
.786
84.6
18.7
35.2
58.5
7.4
42.7
3500
3508
338
.431
.612
.194
83.6
18.8
34.4
56.6
7.8
43.9
3429
3948
8DA
IRYL
AND
SEED
HiD
F-38
08R A
108
P500
1,2,
3,4
41.3
27.7
11.2
9283
.020
.638
.155
.37.
037
.033
4537
424
39.7
30.8
12.2
9081
.621
.639
.753
.57.
436
.532
6639
690
DAIR
YLAN
D SE
ED D
S-48
16AM
X T10
8P5
001,
2,3,
439
.227
.010
.283
84.9
19.6
35.5
57.6
7.9
41.8
3511
3565
737
.831
.111
.185
83.5
22.9
37.5
56.0
8.6
39.3
3391
3771
3DY
NAGR
O D4
9SS7
010
9P5
001,
2,3,
438
.825
.29.
493
82.5
18.9
35.1
53.4
7.7
42.2
3446
3005
337
.829
.310
.896
80.7
19.1
34.9
51.1
8.3
41.9
3393
3209
3FS
InVi
sion
FS55
RL1
EZR
105
C250
1,2,
4,6
51.3
17.1
8.6
7785
.417
.133
.358
.07.
044
.635
5530
673
53.2
19.8
10.5
8484
.917
.432
.957
.86.
644
.435
1336
992
FS In
Visio
n FS
58RL
1 EZ
R10
8C2
501,
2,4,
647
.523
.711
.293
83.4
20.3
36.2
52.6
8.2
42.8
3418
3810
445
.728
.513
.099
82.1
21.1
36.6
51.0
8.8
40.9
3320
4090
4GO
LDEN
HAR
VEST
G08
M20
-312
010
8C5
001,
2,4
47.9
22.6
10.4
8683
.818
.734
.754
.58.
242
.434
5535
606
48.9
26.8
11.9
9282
.719
.935
.453
.38.
741
.433
6539
912
GOLD
EN H
ARVE
ST G
09A8
6-31
1 010
9C5
001,
2,4,
643
.823
.610
.483
83.4
19.3
36.0
53.9
7.9
42.6
3418
3531
244
.926
.611
.992
82.8
19.7
36.6
52.8
8.1
42.4
3362
4007
5GO
LDEN
HAR
VEST
G09
Y24-
3220
A10
9C5
001,
2,4,
6,16
44.4
24.3
10.9
8282
.619
.236
.054
.57.
441
.733
7636
634
44.6
27.1
12.3
8681
.619
.235
.653
.68.
042
.132
9840
456
INTE
GRA
5500
STP
105
P500
1,2,
3,4
48.4
22.6
11.1
8583
.718
.134
.855
.57.
843
.134
4636
745
49.2
26.2
13.1
9483
.918
.734
.953
.98.
543
.334
4445
031
King
Fish
er 5
7T81
107
144
.924
.110
.882
86.3
17.2
32.5
58.0
7.3
46.1
3626
3825
443
.226
.611
.581
85.5
18.9
33.8
57.2
7.8
45.4
3551
3937
7LG
SEE
DS L
G58C
77VT
2RIB
108
P500
1,2
46.8
25.4
11.7
8584
.517
.434
.254
.98.
044
.035
0140
973
42.6
30.3
12.9
9083
.318
.135
.953
.48.
442
.933
9643
866
LG S
EEDS
LG5
9C66
VT2R
IB10
9P5
001,
245
.621
.610
.093
84.3
18.2
34.3
54.4
7.8
44.1
3490
3475
644
.622
.29.
995
83.3
19.1
35.6
52.9
8.5
43.1
3400
3374
1LO
CAL
SEED
LC0
657
SSXR
I B10
6R5
001,
2,3,
448
.722
.010
.686
85.2
16.8
31.8
55.8
8.2
46.8
3560
3651
846
.525
.611
.994
84.2
17.4
31.8
54.9
8.7
46.6
3485
3924
2LO
CAL
SEED
LC0
877
VT2P
RIB
108
R500
1,2
49.8
22.3
11.0
8284
.420
.136
.056
.77.
741
.834
7736
680
48.4
26.7
12.7
9383
.120
.837
.054
.38.
240
.733
7740
491
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
48.8
19.7
9.5
7485
.116
.831
.955
.28.
145
.035
4234
672
46.5
24.6
11.4
9483
.719
.034
.853
.28.
443
.234
3339
119
MAS
TERS
CHO
ICE
MCT
-566
310
6C2
501
46.6
21.2
9.6
7885
.316
.934
.157
.17.
644
.635
4931
734
40.9
26.5
10.9
9583
.918
.736
.055
.57.
943
.334
3733
229
NK B
rand
NK9
610-
301 0
96C2
501,
2,4
59.8
17.4
10.2
8986
.017
.232
.455
.47.
646
.236
0336
827
54.8
21.7
11.8
9985
.019
.035
.054
.37.
843
.735
0644
857
NK B
rand
NK9
738-
322 0
97C2
501,
2,4,
650
.020
.310
.192
84.0
18.6
33.0
53.3
8.2
44.2
3477
3554
249
.924
.912
.497
85.7
16.1
28.0
53.5
8.7
50.5
3607
4475
4NK
Bra
nd N
K985
2-31
2 098
C250
1,2,
456
.319
.010
.493
85.1
16.6
31.5
55.0
7.6
46.9
3560
3708
250
.923
.411
.810
084
.416
.631
.054
.17.
946
.035
0541
475
NK B
rand
NK9
930-
301 0
99C2
501,
2,4
57.3
14.8
8.8
7683
.619
.435
.652
.48.
145
.934
3629
599
56.3
15.6
9.2
8181
.820
.937
.050
.88.
541
.033
0129
191
NK B
rand
NK0
199-
3122
A10
1C2
501,
2,3,
4,16
55.9
17.7
9.5
7984
.816
.633
.454
.78.
544
.235
2331
309
51.7
21.8
11.0
9983
.718
.334
.853
.28.
744
.234
3235
961
NK B
rand
NK0
243-
312 0
102
C250
1,2,
450
.021
.210
.587
86.5
16.0
31.3
57.0
7.5
46.9
3646
3798
548
.026
.212
.598
85.6
17.0
32.6
55.9
7.6
45.9
3570
4469
9NK
Bra
nd N
K044
0-31
2 210
4C2
501,
2,3,
448
.121
.910
.483
84.5
20.2
36.3
55.1
7.6
41.2
3482
3323
646
.226
.112
.192
83.4
20.5
36.0
53.7
8.0
41.9
3403
3791
2NK
Bra
nd N
K088
6-31
2 010
8C2
501,
2,4
57.1
22.7
13.3
**94
83.4
17.9
33.7
54.0
7.4
43.7
3440
4545
865
.825
.416
.8**
9782
.119
.634
.951
.57.
843
.933
4056
064
NK B
rand
NK0
962-
3220
A10
9C2
501,
2,4,
6,16
41.7
26.5
10.9
9085
.318
.034
.557
.47.
644
.535
4740
021
40.7
31.3
12.6
9685
.117
.533
.655
.88.
343
.835
2844
392
RENK
RK9
37VT
2P10
7P2
501,
245
.424
.211
.095
83.8
18.8
34.9
55.1
7.9
43.2
3453
3921
943
.627
.812
.296
83.3
19.8
35.8
53.4
8.4
42.1
3400
4419
1RE
NK R
K945
DGVT
2P10
8P2
501,
2,18
43.3
24.4
10.3
8483
.719
.737
.255
.06.
941
.034
3335
172
46.2
27.8
12.2
9282
.121
.238
.653
.66.
839
.033
1140
262
SEED
WAY
SW
4000
GEN
SS10
0C2
501,
2,3,
450
.719
.310
.184
85.2
17.0
31.8
53.5
8.5
45.0
3559
3599
050
.520
.310
.895
84.3
17.7
32.7
52.0
8.9
43.8
3487
3749
0SE
EDW
AY S
W63
2010
8C2
50Co
nv.
40.2
20.0
8.0
7581
.120
.738
.455
.07.
337
.032
8427
259
SEED
WAY
SW
6540
VT2
PRIB
108
P500
1,2
42.0
25.0
10.4
8584
.616
.832
.553
.77.
745
.635
2035
302
41.1
29.4
12.1
8883
.217
.232
.850
.98.
045
.634
2238
772
SPEC
IALT
Y 37
A593
107
P500
1,2,
3,4
43.9
22.1
9.9
8884
.317
.432
.955
.88.
343
.835
6835
370
42.7
24.0
10.6
9083
.317
.031
.954
.69.
144
.335
7038
270
SPEC
IALT
Y 38
A836
108
P500
1,2,
3,4
44.4
21.3
9.4
8285
.716
.432
.256
.77.
644
.635
8634
556
43.3
24.8
10.8
9485
.716
.230
.956
.27.
745
.735
8039
886
VIKI
NG O
.51-
04PG
S10
4C2
50Co
nv.
54.5
17.6
9.6
8786
.315
.830
.955
.67.
647
.636
4834
916
VIKI
NG O
.48-
08PG
S10
8C2
50Co
nv.
52.6
19.3
9.9
7885
.917
.333
.057
.16.
945
.136
0835
719
AVER
AGE
47.3
22.3
10.4
8584
.418
.134
.255
.37.
743
.634
9835
814
46.2
26.0
11.8
9383
.618
.734
.453
.98.
143
.334
4140
144
HIGH
EST
59.8
27.7
13.3
9586
.620
.738
.458
.58.
546
.936
4645
458
65.8
31.6
16.8
100
86.8
22.9
39.7
57.8
9.1
50.5
3656
5606
4LO
WES
T38
.814
.88.
074
81.1
16.0
31.3
52.4
6.9
37.0
3284
2725
937
.815
.69.
281
80.7
15.9
28.0
50.8
6.6
36.5
3266
2919
1CV
(%)
9.2
9.6
11.5
113.
010
.38.
33.
36.
47.
84
108.
17.
18.
37
2.8
8.6
7.2
3.1
5.3
6.9
46
LSD
(5%
)3.
61.
81.
08
2.0
1.5
2.3
1.5
0.4
2.8
114
2901
4.4
2.2
1.2
82.
81.
92.
91.
90.
53.
516
230
28
YIEL
D%
QUA
LITY
% Q
UALI
TYM
ILK
2006
DT/A
MIL
K 20
06DT
/A
Early
- TR
IAL
AVER
AGE
Bran
ch -
Early
YIEL
D
- 33 -
2019
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%
DMGT
/A%
STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGO
LD A
628-
16VT
2PRO
98P5
001,2
48.2
18.8
9.187
83.7
16.0
32.4
55.9
7.244
.236
0133
901
AGRI
GOLD
A63
6-43
VT2P
RO10
6P5
001,2
48.3
19.1
9.283
85.6
15.6
32.6
56.0
6.745
.735
9633
108
AGRI
GOLD
A63
7-55
VT2R
IB10
7P5
001,2
49.8
18.9
9.480
86.4
16.0
31.1
56.4
7.346
.736
5534
468
DAIR
YLAN
D SE
ED H
iDF-
3802
Q10
2P5
001,2
,3,4
45.1
19.0
8.667
86.5
16.5
33.9
60.2
7.443
.436
3729
804
DAIR
YLAN
D SE
ED H
iDF-
3407
R A10
7P5
001,2
,3,4
40.3
21.5
8.772
85.0
16.2
34.2
56.1
7.243
.735
4530
824
DAIR
YLAN
D SE
ED H
iDF-
3308
AM10
8P5
001,2
,441
.022
.59.2
7985
.718
.636
.160
.47.0
41.5
3572
3067
8DA
IRYL
AND
SEED
HiD
F-38
08R A
108
P500
1,2,3,
442
.924
.610
.3*
9384
.419
.736
.557
.26.5
37.5
3424
3515
8DA
IRYL
AND
SEED
DS-
4816
AMX T
108
P500
1,2,3,
440
.622
.99.3
8086
.316
.333
.459
.27.3
44.3
3631
3360
0DY
NAGR
O D4
9SS7
010
9P5
001,2
,3,4
39.9
21.0
8.089
84.3
18.6
35.2
55.6
7.142
.635
0028
013
FS In
Visio
n FS5
5RL1
EZR
105
C250
1,2,4,
649
.514
.36.8
6985
.816
.733
.858
.17.5
44.7
3598
2435
5FS
InVi
sion F
S58R
L1 E
ZR10
8C2
501,2
,4,6
49.3
18.9
9.387
84.8
19.5
35.8
54.2
7.644
.835
1735
304
GOLD
EN H
ARVE
ST G
08M2
0-31
2 010
8C5
001,2
,446
.818
.38.8
7985
.017
.533
.955
.77.7
43.5
3545
3130
1GO
LDEN
HAR
VEST
G09
A86-
311 0
109
C500
1,2,4,
642
.720
.58.8
7384
.018
.935
.555
.07.8
42.9
3474
3054
8GO
LDEN
HAR
VEST
G09
Y24-
3220
A10
9C5
001,2
,4,6,1
644
.221
.59.5
7983
.719
.236
.555
.36.7
41.3
3454
3281
3IN
TEGR
A 55
00 S
TP10
5P5
001,2
,3,4
47.6
18.9
9.076
83.4
17.5
34.8
57.0
7.143
.034
4828
458
King
Fishe
r 57T
8110
71
46.6
21.6
10.0
*82
87.2
15.6
31.1
58.8
6.946
.837
0137
130
LG S
EEDS
LG58
C77V
T2RI
B10
8P5
001,2
50.9
20.5
10.6
**81
85.8
16.8
32.5
56.4
7.645
.236
0638
080
LG S
EEDS
LG59
C66V
T2RI
B10
9P5
001,2
46.6
21.1
10.0
*90
85.4
17.3
33.0
55.8
7.045
.135
8035
772
LOCA
L SEE
D LC
0657
SSX
RIB
106
R500
1,2,3,
450
.918
.49.3
7786
.216
.231
.856
.87.7
46.9
3636
3379
3LO
CAL S
EED
LC08
77 V
T2PR
IB10
8R5
001,2
51.3
18.0
9.271
85.6
19.4
35.1
59.1
7.243
.035
7632
869
MAST
ERS
CHOI
CE M
CT-5
454
104
C250
1,2,3,
4,651
.114
.97.6
5386
.514
.529
.157
.37.9
46.7
3651
3022
4MA
STER
S CH
OICE
MCT
-566
310
6C2
501
52.2
15.9
8.361
86.7
15.0
32.2
58.7
7.345
.936
6130
239
NK B
rand
NK9
610-
301 0
96C2
501,2
,464
.813
.18.5
8087
.015
.429
.856
.67.4
48.7
3700
2879
7NK
Bra
nd N
K973
8-32
2 097
C250
1,2,4,
650
.215
.67.9
8782
.221
.138
.153
.27.7
37.9
3348
2633
0NK
Bra
nd N
K985
2-31
2 098
C250
1,2,4
61.8
14.6
9.086
85.9
16.6
32.0
55.8
7.347
.736
1532
690
NK B
rand
NK9
930-
301 0
99C2
501,2
,458
.314
.08.4
7185
.517
.934
.354
.17.8
50.9
3571
3000
7NK
Bra
nd N
K019
9-31
22A
101
C250
1,2,3,
4,16
60.0
13.5
8.160
85.9
14.9
32.1
56.1
8.344
.336
1426
657
NK B
rand
NK0
243-
312 0
102
C250
1,2,4
52.1
16.1
8.476
87.4
15.0
30.0
58.1
7.547
.937
2131
270
NK B
rand
NK0
440-
312 2
104
C250
1,2,3,
449
.917
.78.8
7485
.619
.936
.556
.57.2
40.5
3560
2856
0NK
Bra
nd N
K088
6-31
2 010
8C2
501,2
,448
.420
.09.8
*92
84.7
16.3
32.5
56.4
7.043
.435
4034
852
NK B
rand
NK0
962-
3220
A10
9C2
501,2
,4,6,1
642
.621
.79.2
8485
.518
.535
.358
.97.0
45.3
3565
3564
9RE
NK R
K937
VT2P
107
P250
1,247
.320
.79.8
*93
84.3
17.8
33.9
56.8
7.344
.335
0634
247
RENK
RK9
45DG
VT2P
108
P250
1,2,18
40.5
20.9
8.576
85.4
18.2
35.8
56.4
7.143
.035
5430
082
SEED
WAY
SW
4000
GEN
SS10
0C2
501,2
,3,4
51.0
18.2
9.573
86.1
16.3
31.0
55.0
8.146
.336
3134
490
SEED
WAY
SW
6320
108
C250
Conv
.40
.220
.08.0
7581
.120
.738
.455
.07.3
37.0
3284
2725
9SE
EDW
AY S
W65
40 V
T2PR
IB10
8P5
001,2
42.8
20.5
8.883
86.0
16.3
32.3
56.6
7.345
.536
1831
831
SPEC
IALT
Y 37
A593
107
P500
1,2,3,
445
.220
.29.1
8685
.317
.734
.056
.97.6
43.3
3566
3247
0SP
ECIA
LTY
38A8
3610
8P5
001,2
,3,4
45.6
17.9
8.170
85.7
16.7
33.5
57.3
7.543
.435
9229
226
VIKI
NG O
.51-0
4PGS
104
C250
Conv
.54
.517
.69.6
8786
.315
.830
.955
.67.6
47.6
3648
3491
6VI
KING
O.48
-08P
GS10
8C2
50Co
nv.
52.6
19.3
9.9*
7885
.917
.333
.057
.16.9
45.1
3608
3571
9AV
ERAG
E48
.318
.89.0
7885
.417
.333
.656
.77.3
44.3
3571
3188
7HI
GHES
T64
.824
.610
.693
87.4
21.1
38.4
60.4
8.350
.937
2138
080
LOW
EST
39.9
13.1
6.853
81.1
14.5
29.1
53.2
6.537
.032
8424
355
CV (%
)5.6
6.17.7
131.9
6.76.1
2.15.5
5.63
6LS
D (5
%)
3.71.6
0.914
2.21.6
2.81.6
0.63.4
138
2606
MILK
2006
Lena
wee -
Ear
lyW
ood
- Ear
lyYI
ELD
% Q
UALI
TYMI
LK 20
06YI
ELD
% Q
UALI
TYDT
/ADT
/A
Drop
ped L
ocati
on
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
5.
- 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
2019
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
DS-
5018
Q11
0P5
001,
2,3,
440
.127
.311
.0*
9586
.716
.331
.658
.08.
145
.536
5040
937
36.5
29.2
10.6
9985
.317
.532
.855
.38.
643
.735
4839
199
DAIR
YLAN
D SE
ED H
iDF-
3211
RA11
1P5
001,
2,3,
440
.325
.610
.587
84.5
18.0
34.7
55.5
7.8
42.3
3497
3581
536
.126
.610
.194
84.4
17.9
34.3
54.5
8.0
43.0
3483
3330
1DA
IRYL
AND
SEED
DS-
5329
Q11
4P5
001,
2,3,
444
.323
.410
.284
84.2
18.9
35.8
55.8
7.9
41.2
3464
3515
440
.226
.410
.792
83.7
19.1
35.7
54.3
8.3
41.4
3427
3648
5DY
NAGR
O D5
2SS6
311
2P5
001,
2,3,
445
.025
.111
.2*
8784
.117
.735
.354
.97.
942
.034
6338
142
43.5
29.2
12.7
*96
84.5
16.7
33.7
54.1
8.1
44.2
3492
4283
5FS
InVi
sion
FS60
UX1
RIB
110
P500
1,2,
3,4
43.9
26.3
11.7
*98
83.7
17.5
33.6
53.9
7.9
44.2
3452
3870
642
.329
.312
.6*
100
82.2
18.3
35.4
54.3
7.9
42.4
3338
3938
4FS
InVi
sion
FS62
RL1
EZR
112
C250
1,2,
4,6
41.6
24.7
10.2
9084
.218
.934
.454
.17.
943
.634
7635
395
38.8
26.3
10.1
8882
.321
.237
.252
.48.
340
.633
3233
724
FS In
Visio
n FS
62ZX
1 RI
B11
2P5
001,
2,3,
447
.124
.811
.3*
9482
.620
.538
.754
.97.
739
.633
4637
770
46.2
29.1
12.8
*99
81.8
21.4
39.8
54.1
7.8
39.2
3276
4197
9FS
InVi
sion
FS63
ZX1
RIB
113
P500
1,2,
3,4
44.6
24.7
10.9
9284
.516
.632
.952
.97.
845
.535
0840
159
41.5
28.3
11.7
9683
.817
.333
.351
.38.
345
.234
5340
466
FS In
Visio
n FS
64SX
1 RI
B11
4P5
001,
2,3,
443
.424
.210
.491
83.7
18.1
35.4
54.0
8.0
41.1
3439
3574
041
.025
.710
.593
82.8
18.4
36.0
52.2
8.6
39.3
3370
3534
9GO
LDEN
HAR
VEST
G10
T63-
3120
110
C500
1,2,
442
.226
.411
.1*
9184
.019
.535
.653
.47.
943
.134
5538
307
41.7
28.0
11.6
9983
.419
.635
.052
.48.
143
.134
1439
691
GOLD
EN H
ARVE
ST G
12J1
1-32
20A
112
C500
1,2,
4,6,
1642
.624
.110
.291
82.0
20.2
37.2
53.1
7.9
40.0
3329
3293
441
.426
.010
.796
81.2
20.6
37.1
52.1
8.1
40.7
3268
3295
4GO
LDEN
HAR
VEST
G14
N11-
3110
114
C500
1,2,
4,6
45.9
24.6
11.4
*89
85.0
18.3
34.5
55.5
7.2
44.6
3528
4003
944
.326
.912
.2*
9184
.019
.836
.353
.67.
342
.834
4042
013
GOLD
EN H
ARVE
ST G
16K0
1-31
1111
6C5
001,
2,3,
4,6
46.4
25.7
11.5
*87
83.7
19.7
35.7
54.4
7.6
41.5
3438
3751
043
.427
.211
.897
81.9
22.8
38.6
53.0
7.8
39.1
3296
3712
6IN
TEGR
A 60
10 S
TP11
0P5
001,
2,3,
444
.122
.910
.186
83.3
19.2
35.6
54.7
8.0
41.2
3414
3465
943
.723
.110
.196
84.0
18.0
33.0
55.0
8.6
44.5
3467
3754
8IN
TEGR
A 64
98 S
TP11
4P2
501
49.8
15.3
8.4
7879
.723
.542
.752
.78.
429
.631
0826
470
46.5
14.9
6.9
9177
.825
.745
.751
.38.
825
.129
1620
062
LG S
EEDS
LG5
590V
T2RI
B11
0P5
001,
245
.824
.411
.9**
9785
.415
.830
.755
.07.
947
.335
8042
331
42.4
26.8
12.9
*99
84.0
16.5
31.8
54.3
8.3
45.7
3472
4481
6LG
SEE
DS L
G60C
33VT
2PRO
110
P500
1,2
45.5
23.7
10.6
8984
.917
.732
.754
.08.
244
.235
3538
797
40.0
26.7
10.7
9384
.618
.433
.553
.98.
743
.034
9737
212
LG S
EEDS
LG6
2C02
VT2R
IB11
2P5
001,
243
.824
.410
.491
84.6
18.0
34.2
54.9
8.0
42.9
3504
3778
544
.126
.011
.598
85.8
16.1
31.0
54.1
8.5
46.6
3593
4347
4LO
CAL
SEED
ZS1
098
3330
EZ11
0R5
001,
2,4,
643
.123
.810
.285
83.0
19.3
35.9
53.9
7.9
41.1
3396
3433
441
.027
.211
.292
82.0
20.0
36.0
52.3
8.3
40.6
3322
3450
7LO
CAL
SEED
LC1
349
SSXR
IB11
3R5
001,
2,3,
442
.425
.710
.894
84.3
17.6
33.0
52.6
8.3
40.8
3341
3491
540
.229
.411
.898
83.8
18.2
33.6
51.9
9.0
44.6
3451
4085
8LO
CAL
SEED
LC1
586
TC11
5P5
001,
2,6
46.5
24.8
11.6
*84
84.8
17.2
32.0
54.5
8.3
45.6
3533
4080
442
.726
.511
.389
84.0
18.4
32.9
54.7
8.7
44.6
3464
3922
4M
ASTE
RS C
HOIC
E M
CT-6
153
111
C250
1,2,
3,4
40.1
24.3
9.8
8183
.618
.935
.654
.17.
741
.834
3734
630
39.9
26.7
10.8
8883
.818
.334
.552
.98.
142
.934
4239
057
MAS
TERS
CHO
ICE
MCT
-636
311
3C2
501,
2,3,
443
.523
.110
.180
83.7
18.4
34.7
53.0
8.1
41.5
3446
3280
743
.324
.610
.685
82.9
19.2
36.0
52.4
8.3
39.9
3377
3409
9SE
EDW
AY S
W66
30 G
ENSS
110
C250
1,2,
3,4
43.4
25.2
10.9
9086
.315
.731
.356
.37.
546
.436
3340
449
41.6
28.6
11.9
9585
.616
.532
.255
.37.
545
.935
7544
612
SPEC
IALT
Y 42
A843
112
P500
1,2,
3,4
42.3
25.0
11.2
*92
83.1
19.3
36.8
54.0
7.7
40.4
3393
3794
143
.128
.913
.2**
9282
.519
.637
.453
.18.
239
.733
4244
097
VIKI
NG O
.74-
10PG
S11
0C2
50Co
nv.
44.4
19.9
8.8
7585
.816
.031
.855
.37.
545
.636
0329
900
VIKI
NG 5
3-12
PGS
112
C250
Conv
.49
.122
.210
.479
86.0
16.6
32.1
56.4
7.5
45.8
3613
3757
9VI
KING
O.8
2-14
PGS
114
C250
Conv
.42
.023
.69.
988
84.0
17.3
33.6
58.1
6.5
44.1
3486
3640
3AV
ERAG
E44
.024
.110
.688
84.1
18.2
34.6
54.6
7.8
42.6
3467
3665
741
.826
.711
.294
83.3
19.0
35.3
53.4
8.2
41.9
3402
3816
3HI
GHES
T49
.827
.311
.998
86.7
23.5
42.7
58.1
8.4
47.3
3650
4233
146
.529
.413
.210
085
.825
.745
.755
.39.
046
.635
9344
816
LOW
EST
40.1
15.3
8.4
7579
.715
.730
.752
.66.
529
.631
0826
470
36.1
14.9
6.9
8577
.816
.131
.051
.37.
325
.129
1620
062
CV (%
)8.
09.
510
.87
2.9
10.8
8.5
3.4
6.3
8.6
410
7.3
7.7
7.3
52.
39.
27.
32.
46.
27.
24
6LS
D (5
%)
2.8
1.9
0.9
52.
01.
62.
41.
50.
43.
011
931
333.
62.
41.
06
2.2
2.1
3.1
1.5
0.6
3.6
151
2630
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
% Q
UALI
TYDT
/AM
ILK
2006
Bran
ch -
Late
% Q
UALI
TYM
ILK
2006
Late
- TR
IAL
AVER
AGE
YIEL
D DT/A
YIEL
D
- 35 -
2019
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
DS-
5018
Q11
0P5
001,2
,3,4
43.7
25.4
11.4
*91
88.1
15.1
30.3
60.7
7.747
.337
5342
675
DAIR
YLAN
D SE
ED H
iDF-
3211
RA11
1P5
001,2
,3,4
44.6
24.6
10.9
*79
84.7
18.0
35.1
56.4
7.741
.635
1038
328
DAIR
YLAN
D SE
ED D
S-53
29Q
114
P500
1,2,3,
448
.420
.59.7
7784
.618
.736
.057
.27.5
40.9
3500
3382
2DY
NAGR
O D5
2SS6
311
2P5
001,2
,3,4
46.6
21.0
9.778
83.6
18.8
37.0
55.8
7.739
.934
3433
450
FS In
Vision
FS60
UX1 R
IB11
0P5
001,2
,3,4
45.6
23.3
10.7
*97
85.2
16.6
31.9
53.4
7.946
.035
6538
028
FS In
Vision
FS62
RL1 E
ZR11
2C2
501,2
,4,6
44.4
23.0
10.2
9186
.016
.531
.755
.97.6
46.6
3620
3706
6FS
InVis
ion FS
62ZX
1 RIB
112
P500
1,2,3,
448
.020
.69.8
8883
.419
.637
.555
.77.5
39.9
3415
3356
2FS
InVis
ion FS
63ZX
1 RIB
113
P500
1,2,3,
447
.721
.110
.188
85.2
15.8
32.5
54.4
7.245
.835
6339
852
FS In
Vision
FS64
SX1 R
IB11
4P5
001,2
,3,4
45.7
22.7
10.3
9084
.617
.934
.955
.77.4
42.8
3508
3613
1GO
LDEN
HAR
VEST
G10
T63-3
120
110
C500
1,2,4
42.7
24.9
10.6
8284
.619
.336
.354
.47.7
43.1
3496
3692
4GO
LDEN
HAR
VEST
G12
J11-3
220A
112
C500
1,2,4,
6,16
43.9
22.2
9.785
82.9
19.8
37.2
54.1
7.739
.233
9032
913
GOLD
EN H
ARVE
ST G
14N1
1-311
011
4C5
001,2
,4,6
47.4
22.3
10.5
8786
.116
.932
.757
.47.1
46.4
3616
3806
5GO
LDEN
HAR
VEST
G16
K01-3
111
116
C500
1,2,3,
4,649
.424
.211
.3*
7785
.516
.632
.855
.77.3
44.0
3580
3789
4IN
TEGR
A 60
10 S
TP11
0P5
001,2
,3,4
44.5
22.8
10.1
7682
.520
.438
.354
.47.5
37.9
3360
3177
0IN
TEGR
A 64
98 S
TP11
4P2
501
53.0
15.8
10.0
6681
.721
.339
.754
.08.0
34.2
3299
3287
8LG
SEE
DS LG
5590
VT2R
IB11
0P5
001,2
49.2
22.0
10.8
*96
86.9
15.1
29.6
55.7
7.449
.036
8839
846
LG S
EEDS
LG60
C33V
T2PR
O11
0P5
001,2
51.0
20.8
10.6
8585
.316
.932
.054
.17.7
45.4
3573
4038
1LG
SEE
DS LG
62C0
2VT2
RIB
112
P500
1,243
.522
.99.4
8483
.419
.937
.555
.77.5
39.2
3415
3209
5LO
CAL S
EED
ZS10
98 33
30EZ
110
R500
1,2,4,
645
.120
.39.2
7884
.118
.635
.855
.57.5
41.6
3470
3416
1LO
CAL S
EED
LC13
49 S
SXRI
B11
3R5
001,2
,3,4
44.6
22.0
9.889
84.8
17.1
32.5
53.3
7.737
.032
3228
972
LOCA
L SEE
D LC
1586
TC11
5P5
001,2
,650
.323
.111
.8**
7885
.716
.031
.254
.27.9
46.5
3602
4238
3MA
STER
S CH
OICE
MCT
-6153
111
C250
1,2,3,
440
.421
.98.8
7483
.519
.536
.755
.27.3
40.8
3433
3020
3MA
STER
S CH
OICE
MCT
-6363
113
C250
1,2,3,
443
.721
.69.5
7584
.517
.633
.353
.67.8
43.1
3515
3151
5SE
EDW
AY S
W66
30 G
ENSS
110
C250
1,2,3,
445
.121
.89.8
8587
.015
.030
.457
.47.4
47.0
3691
3628
7SP
ECIA
LTY
42A8
4311
2P5
001,2
,3,4
41.6
21.1
9.292
83.7
19.1
36.2
54.8
7.341
.234
4431
784
VIKI
NG O
.74-10
PGS
110
C250
Conv
.44
.419
.98.8
7585
.816
.031
.855
.37.5
45.6
3603
2990
0VI
KING
53-12
PGS
112
C250
Conv
.49
.122
.210
.479
86.0
16.6
32.1
56.4
7.545
.836
1337
579
VIKI
NG O
.82-14
PGS
114
C250
Conv
.42
.023
.69.9
8884
.017
.333
.658
.16.5
44.1
3486
3640
3AV
ERAG
E45
.922
.110
.183
84.8
17.7
34.2
55.5
7.542
.935
1335
531
HIGH
EST
53.0
25.4
11.8
9788
.121
.339
.760
.78.0
49.0
3753
4267
5LO
WES
T40
.415
.88.8
6681
.715
.029
.653
.36.5
34.2
3232
2897
2CV
(%)
6.06.0
7.68
1.57.7
6.12.4
4.66.3
35
LSD
(5%)
3.71.8
1.19
1.71.9
2.91.8
0.53.7
128
2443
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
DT/A
DT/A
Drop
ped L
ocati
on
YIEL
D%
QUAL
ITYMI
LK 20
06YI
ELD
% QU
ALITY
MILK
2006
Lena
wee -
Late
Woo
d - La
te
- 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
2019
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-31
97RA
97P5
001,
2,3,
456
.822
.012
.5*
9681
.222
.040
.854
.98.
037
.832
4540
110
51.7
21.8
11.1
*95
82.5
21.6
39.1
52.5
8.2
38.1
3328
3692
4DA
IRYL
AND
SEED
HiD
F-33
97RA
97P5
001,
2,3,
443
.723
.810
.497
77.0
27.0
48.9
53.0
7.1
26.3
2908
2940
242
.323
.39.
895
80.2
22.0
42.6
53.5
7.5
34.0
3168
2935
7DA
IRYL
AND
SEED
DS-
3715
AM97
P500
1,2,
462
.621
.113
.2*
9681
.421
.339
.654
.77.
238
.832
6446
120
47.6
21.9
10.8
*95
81.2
19.8
36.8
52.6
7.3
39.1
3261
3821
2DA
IRYL
AND
SEED
HiD
F-30
99RA
99P5
001,
2,3,
442
.225
.010
.595
80.1
22.9
41.5
54.0
7.5
35.5
3143
3391
839
.724
.99.
893
79.0
23.5
40.5
52.3
7.4
33.6
3047
3149
0DA
IRYL
AND
SEED
HiD
F-38
02Q
102
P500
1,2,
3,4
37.7
28.3
10.6
9581
.023
.143
.257
.67.
331
.831
8732
857
36.1
28.4
10.2
9681
.219
.640
.156
.67.
236
.832
5034
480
DAIR
YLAN
D SE
ED D
S-43
18AM
XT10
4P5
001,
2,3,
436
.927
.310
.199
80.7
23.3
43.2
56.8
7.1
31.7
3188
3244
734
.227
.29.
399
81.0
21.2
39.7
55.5
6.8
35.8
3239
3235
7DY
NAGR
O D4
3SS8
110
3P5
001,
2,3,
444
.623
.510
.397
81.4
23.6
44.2
55.8
7.3
34.0
3308
3482
838
.424
.39.
297
82.5
20.4
39.0
55.0
7.4
36.0
3330
3046
1GO
LDEN
HAR
VEST
G03
R40-
3110
103
C250
1,2,
4,6
54.2
21.7
11.7
9878
.224
.845
.552
.17.
629
.430
0134
235
50.2
22.4
11.2
*97
79.1
22.2
42.9
51.2
7.3
31.1
3035
3217
8GO
LDEN
HAR
VEST
G04
S19-
3122
104
C250
1,2,
3,4
39.3
27.3
10.5
9679
.125
.846
.553
.67.
327
.430
2631
236
35.1
27.4
9.1
9380
.623
.142
.354
.16.
933
.631
9130
730
INTE
GRA
4550
STP
95P2
501
45.1
23.3
10.8
9978
.824
.245
.453
.27.
631
.430
6233
407
44.2
22.6
10.4
9879
.124
.243
.551
.97.
730
.830
7931
937
INTE
GRA
4810
STP
98P2
501
47.6
23.8
11.5
9679
.523
.544
.554
.08.
133
.931
1733
489
46.6
23.5
11.1
*94
82.9
17.9
37.5
54.4
8.4
41.1
3368
3477
4IN
TEGR
A 52
09 S
TP10
2P5
001,
2,3,
448
.022
.811
.096
81.4
22.1
41.5
56.7
7.5
35.3
3252
3605
739
.724
.49.
798
82.1
20.4
38.6
56.8
7.2
37.4
3313
3081
3LE
GACY
SEE
DS L
-521
7 VT
2P10
21,
246
.125
.011
.897
81.2
20.5
39.5
55.6
7.1
38.3
3265
3538
541
.024
.910
.398
83.0
18.9
36.1
54.4
7.4
40.8
3387
3435
6LE
GACY
SEE
DS L
-535
0 31
2210
4CM
250
1,2,
3,4,
637
.626
.19.
793
81.3
21.9
41.6
55.3
7.3
34.7
3246
3163
833
.126
.48.
791
81.2
24.3
44.3
53.1
7.1
30.1
3201
2562
9LE
GACY
SEE
DS L
-543
8 30
1010
4CM
250
1,2,
439
.926
.910
.798
80.2
24.0
44.1
55.0
6.9
31.1
3159
3391
235
.326
.39.
396
79.8
24.1
43.5
53.4
6.9
31.0
3135
2897
1LG
SEE
DS L
G549
4VT2
RIB
99P5
001,
250
.522
.711
.696
80.4
19.9
39.7
55.8
7.2
37.4
3213
3587
442
.422
.29.
794
82.1
16.4
34.8
55.5
7.1
41.9
3344
3243
5LG
SEE
DS L
G550
5VT2
RIB
100
P500
1,2
47.1
26.0
12.1
9781
.720
.939
.755
.37.
635
.631
7535
842
41.5
27.2
11.3
*97
82.7
19.6
35.6
54.6
7.6
35.4
3150
3281
9LG
SEE
DS L
G51C
48VT
2PRO
101
P500
1,2
38.6
29.8
11.4
9779
.024
.245
.253
.67.
531
.730
8334
232
35.2
30.1
10.5
9681
.920
.939
.754
.47.
635
.332
9134
651
LOCA
L SE
ED L
C048
8 SS
XRIB
104
R500
1,2,
3,4
49.4
25.5
12.6
*97
81.5
22.3
42.0
55.9
7.2
35.5
3257
3984
544
.226
.011
.4*
9582
.720
.037
.954
.47.
538
.533
5736
293
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
44.0
24.2
10.6
9781
.120
.642
.153
.47.
337
.232
3134
166
41.4
23.4
9.7
9582
.619
.838
.054
.27.
238
.633
4832
393
NK B
rand
NK8
920-
3120
89C2
501,
2,4
57.1
20.1
11.3
9881
.820
.740
.055
.37.
738
.832
8737
054
52.8
19.2
9.8
9783
.018
.635
.654
.57.
344
.633
9533
106
NK B
rand
NK9
175-
3110
A91
C250
1,2,
4,6,
1669
.120
.313
.5**
100
79.8
23.4
43.6
53.9
7.1
33.5
3134
4326
363
.920
.911
.9**
9981
.918
.236
.453
.96.
842
.333
2239
534
NK B
rand
NK9
227-
3220
A92
C250
1,2,
4,6,
1647
.722
.610
.797
80.3
23.0
42.2
55.2
7.8
32.2
3138
3394
745
.523
.010
.398
81.3
20.4
39.0
55.7
7.6
34.1
3179
3274
4NK
Bra
nd N
K953
5-32
2095
C250
1,2,
4,6
53.0
22.8
12.1
9879
.322
.741
.454
.37.
534
.131
0537
514
44.1
22.9
10.1
9781
.620
.837
.253
.97.
334
.831
0233
735
NK B
rand
NK9
610-
3010
96C2
501,
2,4
62.4
19.5
11.8
9881
.621
.341
.755
.97.
636
.732
6138
262
46.4
21.6
10.0
9782
.119
.639
.754
.97.
239
.333
0233
125
NK B
rand
NK9
738-
3220
97C2
501,
2,4,
649
.323
.211
.398
81.7
19.4
39.6
55.5
7.9
36.4
3274
3855
449
.023
.311
.4*
9684
.415
.030
.656
.37.
748
.035
1042
900
NK B
rand
NK9
852-
3120
98C2
501,
2,4
49.6
23.0
11.4
9880
.822
.441
.753
.97.
136
.332
1835
608
46.8
23.4
11.0
*98
82.6
21.3
39.6
52.5
7.2
37.4
3329
3648
4NK
Bra
nd N
K993
0-30
1099
C250
1,2,
451
.320
.410
.694
78.4
25.4
47.1
52.4
7.7
31.3
3032
3373
844
.820
.49.
489
79.8
22.0
42.3
52.3
7.8
35.9
3148
3088
8NK
Bra
nd N
K019
9-31
22A
101
C250
1,2,
3,4,
1645
.121
.89.
697
81.8
20.0
40.3
55.1
7.7
37.7
3292
3207
439
.722
.99.
194
84.0
17.9
35.9
55.4
7.8
40.1
3448
3115
4RE
NK R
K717
SSTX
95P5
001,
2,3,
444
.524
.911
.097
79.7
23.6
42.4
53.8
7.7
32.8
3123
3577
739
.125
.49.
996
82.1
23.2
39.8
52.8
7.8
33.2
3253
3209
1RE
NK 9
S-10
4-30
1097
1,2,
450
.023
.111
.695
80.6
24.6
45.3
55.3
7.4
33.2
3169
3547
443
.024
.010
.593
81.9
21.2
39.6
54.2
7.6
36.9
3289
3463
0RE
NK R
K710
DGVT
2P98
P250
1,2,
1841
.526
.511
.296
82.2
21.4
41.0
56.5
7.0
34.7
3305
3626
037
.726
.410
.095
82.6
20.0
38.5
54.8
7.0
36.5
3342
3322
4RE
NK R
K724
RR98
P250
145
.724
.311
.090
81.0
22.1
41.9
54.5
7.6
33.5
3223
3512
438
.925
.710
.088
83.5
18.2
35.8
54.1
7.8
39.5
3421
3402
8RE
NK R
K771
100
P250
CONV
.42
.725
.310
.896
81.1
22.4
41.9
55.9
7.4
33.8
3232
3373
642
.125
.810
.8*
9384
.017
.734
.756
.37.
641
.234
5835
235
RENK
9S-
109-
3110
102
1,2,
4,6
38.9
25.1
9.7
9779
.123
.744
.254
.58.
233
.030
9829
423
35.7
25.3
8.9
9581
.918
.237
.655
.58.
536
.533
0426
697
VIKI
NG O
.82-
95P
95C2
50Co
nv.
52.1
20.0
10.5
9482
.319
.338
.657
.17.
939
.033
3034
755
44.6
19.6
8.7
8983
.218
.638
.155
.87.
639
.433
7929
229
VIKI
NG O
.69-
01P
101
C250
Conv
.43
.025
.811
.196
80.9
21.0
40.0
56.9
7.3
37.2
3240
3435
942
.724
.710
.594
82.6
18.7
36.4
56.7
7.5
40.0
3363
3541
9VI
KING
O.5
1-04
PGS
104
C250
Conv
.46
.024
.211
.197
82.1
19.8
39.6
54.8
7.5
36.2
3306
3640
445
.126
.111
.7*
9684
.017
.435
.354
.87.
740
.934
5542
102
AVER
AGE
47.4
24.0
11.2
9780
.422
.742
.754
.87.
534
.131
7835
280
42.7
24.2
10.2
9581
.920
.238
.554
.37.
537
.432
8533
357
HIGH
EST
69.1
29.8
13.5
100
82.2
27.0
48.9
57.6
8.2
38.8
3308
4612
063
.930
.111
.999
84.4
24.3
44.3
56.8
8.5
48.0
3510
4290
0LO
WES
T36
.919
.59.
690
77.0
19.4
39.5
52.1
6.9
26.3
2908
2940
233
.119
.28.
788
79.0
15.0
30.6
51.2
6.8
30.1
3035
2562
9CV
(%)
8.8
7.5
11.1
33.
79.
38.
13.
85.
88.
25
77.
98.
09.
53
3.3
7.3
7.6
3.1
5.8
6.6
57
LSD
(5%
)3.
51.
51.
02
2.5
1.7
2.8
1.7
0.4
2.3
144
2072
4.0
2.3
1.1
43.
21.
73.
42.
00.
52.
919
325
81
YIEL
DYI
ELD DT
/A%
QUA
LITY
% Q
UALI
TYM
ILK
2006
DT/A
Huro
n - E
arly
Early
- TR
IAL
AVER
AGE
MIL
K 20
06
- 37 -
2019
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
HiD
F-31
97RA
97P5
001,2
,3,4
61.8
22.1
13.8
9779
.822
.342
.557
.37.8
37.6
3162
4329
6DA
IRYL
AND
SEED
HiD
F-33
97RA
97P5
001,2
,3,4
45.1
24.2
11.0
9973
.832
.155
.352
.56.8
18.6
2647
2944
6DA
IRYL
AND
SEED
DS-
3715
AM97
P500
1,2,4
77.7
20.4
15.6
**97
81.7
22.7
42.5
56.8
7.138
.532
6854
028
DAIR
YLAN
D SE
ED H
iDF-
3099
RA99
P500
1,2,3,
444
.825
.111
.296
81.2
22.3
42.5
55.8
7.737
.532
3936
346
DAIR
YLAN
D SE
ED H
iDF-
3802
Q10
2P5
001,2
,3,4
39.2
28.2
11.1
9580
.726
.746
.358
.57.5
26.8
3125
3123
4DA
IRYL
AND
SEED
DS-
4318
AMXT
104
P500
1,2,3,
439
.627
.310
.899
80.5
25.4
46.6
58.2
7.427
.531
3732
537
DYNA
GRO
D43S
S81
103
P500
1,2,3,
450
.922
.711
.598
80.4
26.8
49.5
56.6
7.232
.032
8639
194
GOLD
EN H
ARVE
ST G
03R4
0-31
1010
3C2
501,2
,4,6
58.2
21.1
12.2
9977
.427
.348
.253
.17.8
27.7
2967
3629
2GO
LDEN
HAR
VEST
G04
S19-
3122
104
C250
1,2,3,
443
.627
.211
.999
77.6
28.5
50.7
53.1
7.621
.228
6131
743
INTE
GRA
4550
STP
95P2
501
46.0
24.0
11.2
100
78.5
24.2
47.3
54.6
7.532
.030
4534
878
INTE
GRA
4810
STP
98P2
501
48.7
24.1
11.8
9776
.129
.151
.653
.77.9
26.6
2866
3220
3IN
TEGR
A 52
09 S
TP10
2P5
001,2
,3,4
56.3
21.2
12.3
9580
.723
.944
.556
.67.7
33.2
3191
4130
1LE
GACY
SEE
DS L-
5217
VT2
P10
21,2
51.2
25.1
13.4
9579
.522
.242
.956
.86.9
35.8
3142
3641
5LE
GACY
SEE
DS L-
5350
3122
104
CM25
01,2
,3,4,6
42.1
25.8
10.7
9581
.519
.638
.957
.57.5
39.2
3290
3764
8LE
GACY
SEE
DS L-
5438
3010
104
CM25
01,2
,444
.527
.612
.299
80.6
24.0
44.7
56.5
6.931
.231
8338
852
LG S
EEDS
LG54
94VT
2RIB
99P5
001,2
58.7
23.3
13.4
9778
.723
.444
.656
.17.2
33.0
3083
3931
3LG
SEE
DS LG
5505
VT2R
IB10
0P5
001,2
52.6
24.7
12.8
9880
.722
.143
.856
.07.6
35.7
3200
3886
5LG
SEE
DS LG
51C4
8VT2
PRO
101
P500
1,242
.129
.512
.498
76.0
27.6
50.7
52.8
7.428
.128
7433
813
LOCA
L SEE
D LC
0488
SSX
RIB
104
R500
1,2,3,
454
.725
.113
.898
80.4
24.6
46.2
57.5
6.932
.631
5843
396
MAST
ERS
CHOI
CE M
CT-5
454
104
C250
1,2,3,
4,646
.725
.011
.698
79.6
21.4
46.2
52.7
7.535
.831
1435
940
NK B
rand
NK8
920-
3120
89C2
501,2
,461
.521
.112
.999
80.5
22.9
44.4
56.0
8.133
.031
7941
002
NK B
rand
NK9
175-
3110
A91
C250
1,2,4,
6,16
74.3
19.7
15.1
*10
077
.728
.550
.853
.87.3
24.6
2946
4699
3NK
Bra
nd N
K922
7-32
20A
92C2
501,2
,4,6,1
649
.922
.211
.197
79.4
25.6
45.5
54.6
8.130
.330
9635
151
NK B
rand
NK9
535-
3220
95C2
501,2
,4,6
61.9
22.7
14.1
*99
76.9
24.6
45.5
54.8
7.733
.431
0841
293
NK B
rand
NK9
610-
3010
96C2
501,2
,478
.317
.313
.599
81.1
23.0
43.8
56.9
8.034
.132
2143
399
NK B
rand
NK9
738-
3220
97C2
501,2
,4,6
49.6
23.2
11.3
100
79.0
23.8
48.7
54.7
8.024
.930
3834
208
NK B
rand
NK9
852-
3120
98C2
501,2
,452
.322
.611
.999
79.0
23.6
43.8
55.4
7.135
.331
0734
731
NK B
rand
NK9
930-
3010
99C2
501,2
,457
.920
.411
.899
77.1
28.7
51.9
52.5
7.626
.829
1636
588
NK B
rand
NK0
199-
3122
A10
1C2
501,2
,3,4,1
650
.620
.610
.199
79.7
22.1
44.8
54.8
7.635
.331
3532
994
RENK
RK7
17SS
TX95
P500
1,2,3,
450
.024
.312
.299
77.3
24.1
44.9
54.9
7.532
.429
9439
463
RENK
9S-1
04-3
010
971,2
,457
.022
.312
.796
79.4
27.9
51.0
56.3
7.329
.430
4936
319
RENK
RK7
10DG
VT2P
98P2
501,2
,1845
.426
.612
.498
81.8
22.8
43.5
58.3
7.132
.932
6839
297
RENK
RK7
24RR
98P2
501
52.6
22.8
12.0
9278
.426
.147
.955
.07.4
27.4
3025
3622
0RE
NK R
K771
100
P250
CONV
.43
.424
.710
.799
78.2
27.0
49.0
55.6
7.326
.430
0632
237
RENK
9S-1
09-3
110
102
1,2,4,
642
.124
.910
.599
76.4
29.2
50.8
53.5
7.929
.428
9232
149
VIKI
NG O
.82-9
5P95
C250
Conv
.59
.720
.512
.399
81.5
20.0
39.2
58.4
8.138
.632
8140
282
VIKI
NG O
.69-0
1P10
1C2
50Co
nv.
43.2
27.0
11.6
9879
.223
.343
.757
.17.2
34.4
3118
3329
9VI
KING
O.51
-04P
GS10
4C2
50Co
nv.
47.0
22.4
10.6
9980
.222
.243
.854
.77.3
31.6
3156
3070
6AV
ERAG
E52
.123
.612
.198
79.2
24.8
46.3
55.5
7.531
.330
8937
186
HIGH
EST
78.3
29.5
15.6
100
81.8
32.1
55.3
58.5
8.139
.232
9054
028
LOW
EST
39.2
17.3
10.1
9273
.819
.638
.952
.56.8
18.6
2647
2944
6CV
(%)
8.46.3
10.4
34.1
8.47.2
4.35.7
7.06
7LS
D (5
%)
5.11.7
1.53
3.82.4
3.92.8
0.52.6
214
3264
MILK
2006
Ingha
m - E
arly
Ottaw
a - E
arly
YIEL
D%
QUAL
ITYMI
LK 20
06YI
ELD
% QU
ALITY
DT/A
DT/A
Drop
ped L
ocati
on
-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
2019
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
ARM
OUR
AA10
810
108
C250
1,2,4
43.4
26.6
11.5
9980
.423
.143
.354
.87.8
30.5
3127
3342
338
.628
.411
.010
182
.520
.038
.454
.57.8
37.4
3344
3236
2DA
IRYL
AND
SEED
HiD
F-34
07RA
107
P500
1,2,3,
439
.328
.511
.210
077
.624
.946
.054
.66.6
29.7
3012
3327
837
.230
.011
.110
081
.719
.838
.855
.66.8
35.5
3295
3658
1DA
IRYL
AND
SEED
HiD
F-33
08AM
108
P500
1,2,4
33.2
30.5
10.2
9879
.426
.846
.657
.37.6
27.9
3171
3108
432
.430
.29.9
9880
.824
.444
.954
.37.5
28.2
3181
2888
3DA
IRYL
AND
SEED
DS-
4816
AMXT
108
P500
1,2,3,
436
.530
.311
.010
079
.226
.946
.054
.98.1
28.4
3042
3301
632
.932
.410
.610
079
.624
.143
.453
.18.2
32.7
3131
3117
2DA
IRYL
AND
SEED
DS-
5018
Q11
0P5
001,2
,3,4
38.0
28.3
10.6
9981
.422
.344
.356
.57.6
34.1
3232
3599
036
.430
.110
.899
80.1
23.9
43.7
54.5
7.531
.531
5535
619
DYNA
GRO
D47S
S29
107
P500
1,2,3,
446
.428
.112
.6**
101
79.7
23.6
42.7
55.4
7.731
.631
1240
528
44.9
29.1
12.6
**10
683
.317
.336
.353
.87.8
41.2
3406
4523
4DY
NAGR
O D4
9SS7
010
9P5
001,2
,3,4
38.6
28.7
11.0
100
80.7
22.3
42.9
54.7
7.534
.032
0935
645
33.9
30.2
10.3
101
81.9
19.8
38.6
53.0
7.436
.633
0535
941
GOLD
EN H
ARVE
ST G
08M2
0-312
010
8C5
001,2
,443
.527
.211
.8*
9981
.121
.541
.455
.87.9
35.1
3240
3729
538
.629
.211
.210
081
.019
.738
.254
.07.7
37.8
3258
3455
1GO
LDEN
HAR
VEST
G09
A86-3
110
109
C500
1,2,4,
640
.027
.510
.997
78.1
25.4
46.5
53.0
7.630
.130
2032
078
38.1
29.0
11.0
9879
.022
.243
.852
.17.4
33.3
3096
3406
5GO
LDEN
HAR
VEST
G09
Y24-3
220A
109
C500
1,2,4,
6,16
36.8
31.1
11.5
9781
.023
.644
.655
.77.3
30.7
3206
3852
434
.432
.211
.198
81.3
20.4
40.9
54.2
7.135
.332
5136
108
GOLD
EN H
ARVE
ST G
10T6
3-312
011
0C5
001,2
,437
.832
.011
.8*
9978
.026
.147
.253
.47.8
28.3
3017
3540
936
.232
.311
.7*
9979
.423
.543
.752
.87.8
30.1
3117
3647
6GO
LDEN
HAR
VEST
G12
J11-3
220A
112
C500
1,2,4,
6,16
35.3
30.4
10.6
100
76.3
25.2
49.3
50.3
7.931
.729
0330
954
31.8
32.3
10.2
100
76.1
24.8
47.1
49.3
7.930
.328
9929
595
INTE
GRA
5500
STP
105
P500
1,2,3,
443
.824
.410
.696
80.0
23.4
43.5
54.0
7.732
.131
6632
274
40.2
26.2
10.5
9781
.121
.640
.653
.47.7
35.0
3240
3390
9Kin
gFish
er 57
T81
107
141
.927
.811
.397
80.1
24.9
45.4
56.3
7.530
.331
5534
417
34.4
29.0
10.0
9883
.120
.138
.856
.57.1
36.4
3377
3165
5LE
GACY
SEE
DS L-
6047
SSX
105
A500
1,2,3,
442
.829
.012
.4*
9681
.023
.744
.153
.37.5
31.6
3212
3885
140
.329
.511
.8*
9581
.422
.642
.954
.17.4
31.6
3237
3832
8LG
SEE
DS LG
5525
VT2R
IB10
5P5
001,2
46.3
26.8
12.3
*98
82.0
20.4
41.3
56.2
7.337
.132
9740
461
39.9
28.0
11.2
9782
.919
.037
.554
.47.5
38.5
3376
3767
6LG
SEE
DS LG
58C7
7VT2
RIB
108
P500
1,239
.626
.910
.694
80.0
22.5
42.5
53.4
7.733
.631
9233
799
38.0
29.3
11.1
9580
.920
.237
.150
.37.7
36.3
3302
3705
0LG
SEE
DS LG
59C6
6VT2
RIB
109
P500
1,241
.929
.612
.4*
100
77.6
26.3
48.1
53.4
7.727
.629
8836
911
36.6
31.2
11.4
100
78.8
24.2
44.1
51.9
7.531
.630
7934
986
LOCA
L SEE
D LC
0657
SSX
RIB
106
R500
1,2,3,
443
.127
.511
.8*
9780
.922
.243
.155
.67.9
33.3
3218
3873
138
.030
.211
.5*
9880
.321
.041
.652
.67.7
35.5
3186
3882
2LO
CAL S
EED
LC08
77 V
T2PR
IB10
8R5
001,2
44.1
27.7
12.2
*95
81.3
23.5
44.0
55.6
7.833
.932
3040
457
41.3
29.3
12.1
*94
81.5
21.2
40.5
54.5
7.935
.032
6739
388
LOCA
L SEE
D ZS
1098
3330
EZ11
0R5
001,2
,4,6
42.9
28.1
11.8
*97
79.4
25.1
47.1
55.7
7.530
.330
9435
486
39.4
27.6
10.8
9980
.424
.246
.256
.57.4
30.8
3144
3196
0LO
CAL S
EED
LC13
49 S
SXRI
B11
3R5
001,2
,3,4
38.9
29.2
11.5
9978
.722
.745
.052
.88.0
31.9
3079
3681
036
.829
.711
.297
80.3
20.6
41.5
52.7
8.033
.131
9035
528
MAST
ERS
CHOI
CE M
CT-56
6310
6C2
501
40.7
28.1
11.2
9679
.625
.746
.253
.77.4
29.6
3114
3558
938
.629
.410
.994
79.5
24.0
43.8
53.3
7.430
.531
2333
858
MAST
ERS
CHOI
CE M
C-57
9010
7C2
50CO
NV.
42.8
27.3
11.6
9981
.623
.042
.655
.17.9
29.4
3178
3602
838
.228
.310
.899
81.9
21.8
39.9
54.8
7.831
.431
8734
315
VIKI
NG O
.48-08
PGS
108
C250
Conv
.43
.626
.411
.495
82.5
21.1
40.4
56.6
7.237
.133
3737
313
45.2
26.5
11.7
*92
85.4
16.7
33.9
56.9
7.543
.135
5341
666
VIKI
NG O
.74-10
PGS
110
C250
Conv
.40
.826
.710
.997
80.7
21.1
42.6
55.9
7.934
.232
1035
594
39.4
27.4
10.8
9682
.119
.041
.354
.57.7
37.3
3293
3680
6AV
ERAG
E40
.828
.311
.498
79.9
23.7
44.5
54.8
7.631
.731
4535
767
37.7
29.5
11.0
9881
.021
.441
.153
.77.6
34.5
3230
3548
2HI
GHES
T46
.432
.012
.610
182
.526
.949
.357
.38.1
37.1
3337
4052
845
.232
.412
.610
685
.424
.847
.156
.98.2
43.1
3553
4523
4LO
WES
T33
.224
.410
.294
76.3
20.4
40.4
50.3
6.627
.629
0330
954
31.8
26.2
9.992
76.1
16.7
33.9
49.3
6.828
.228
9928
883
CV (%
)8.3
6.69.7
43.6
8.97.8
4.45.3
9.75
68.0
6.48.2
42.7
7.96.8
4.45.5
7.74
6LS
D (5%
)2.8
1.60.9
32.4
1.72.9
2.00.3
2.513
318
233.6
2.21.1
52.6
2.03.3
2.80.5
3.116
725
69
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
% QU
ALITY
MILK
2006
YIEL
DMI
LK 20
06DT
/AYI
ELD DT
/A%
QUAL
ITYLa
te - T
RIAL
AVE
RAGE
Huro
n - La
te
- 39 -
2019
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
ARM
OUR
AA10
810
108
C250
1,2,4
48.3
24.8
11.9
9778
.326
.348
.255
.17.8
23.5
2910
3448
5DA
IRYL
AND
SEED
HiD
F-34
07RA
107
P500
1,2,3,
441
.526
.911
.310
073
.530
.053
.253
.76.4
24.0
2730
2997
5DA
IRYL
AND
SEED
HiD
F-33
08AM
108
P500
1,2,4
34.0
30.8
10.4
9877
.929
.348
.460
.37.7
27.7
3162
3328
5DA
IRYL
AND
SEED
DS-
4816
AMXT
108
P500
1,2,3,
440
.128
.311
.410
178
.829
.748
.756
.88.1
24.2
2954
3486
0DA
IRYL
AND
SEED
DS-
5018
Q11
0P5
001,2
,3,4
39.6
26.6
10.4
9882
.720
.744
.858
.57.7
36.7
3308
3636
1DY
NAGR
O D4
7SS2
910
7P5
001,2
,3,4
47.9
27.1
12.5
*96
76.1
30.0
49.2
57.1
7.522
.028
1935
822
DYNA
GRO
D49S
S70
109
P500
1,2,3,
443
.327
.311
.899
79.5
24.9
47.1
56.4
7.531
.331
1335
348
GOLD
EN H
ARVE
ST G
08M2
0-312
010
8C5
001,2
,448
.525
.212
.4*
9981
.123
.344
.557
.58.1
32.4
3223
4003
8GO
LDEN
HAR
VEST
G09
A86-3
110
109
C500
1,2,4,
641
.926
.010
.995
77.1
28.6
49.3
53.8
7.826
.929
4330
091
GOLD
EN H
ARVE
ST G
09Y2
4-322
0A10
9C5
001,2
,4,6,1
639
.330
.012
.096
80.7
26.7
48.2
57.1
7.626
.231
6240
939
GOLD
EN H
ARVE
ST G
10T6
3-312
011
0C5
001,2
,439
.431
.711
.899
76.6
28.8
50.7
53.9
7.926
.529
1634
342
GOLD
EN H
ARVE
ST G
12J1
1-322
0A11
2C5
001,2
,4,6,1
638
.828
.511
.110
076
.625
.651
.551
.37.9
33.1
2906
3231
3IN
TEGR
A 55
00 S
TP10
5P5
001,2
,3,4
47.4
22.6
10.8
9579
.025
.246
.354
.77.8
29.1
3092
3064
0Kin
gFish
er 57
T81
107
149
.426
.612
.7*
9677
.229
.852
.156
.28.0
24.2
2932
3718
0LE
GACY
SEE
DS L-
6047
SSX
105
A500
1,2,3,
445
.428
.512
.9*
9780
.624
.845
.352
.57.6
31.7
3186
3937
4LG
SEE
DS LG
5525
VT2R
IB10
5P5
001,2
52.6
25.7
13.5
**10
081
.021
.945
.157
.97.1
35.6
3218
4324
7LG
SEE
DS LG
58C7
7VT2
RIB
108
P500
1,241
.224
.510
.193
79.1
24.7
48.0
56.6
7.731
.030
8230
548
LG S
EEDS
LG59
C66V
T2RI
B10
9P5
001,2
47.3
28.1
13.5
**10
076
.528
.452
.054
.97.9
23.6
2897
3883
6LO
CAL S
EED
LC06
57 S
SXRI
B10
6R5
001,2
,3,4
48.2
24.9
12.0
9781
.623
.444
.558
.78.0
31.2
3251
3863
9LO
CAL S
EED
LC08
77 V
T2PR
IB10
8R5
001,2
46.9
26.2
12.4
*96
81.1
25.7
47.4
56.8
7.732
.731
9441
525
LOCA
L SEE
D ZS
1098
3330
EZ11
0R5
001,2
,4,6
46.3
28.7
12.8
*96
78.4
26.0
47.9
55.0
7.629
.930
4539
012
LOCA
L SEE
D LC
1349
SSX
RIB
113
R500
1,2,3,
441
.128
.811
.910
177
.224
.948
.452
.88.0
30.7
2969
3809
2MA
STER
S CH
OICE
MCT
-5663
106
C250
142
.926
.811
.697
79.7
27.4
48.5
54.1
7.428
.831
0537
321
MAST
ERS
CHOI
CE M
C-57
9010
7C2
50CO
NV.
47.4
26.4
12.5
*10
081
.224
.245
.255
.47.9
27.4
3169
3774
1VI
KING
O.48
-08PG
S10
8C2
50Co
nv.
42.0
26.3
11.0
9879
.625
.446
.956
.46.9
31.2
3121
3296
0VI
KING
O.74
-10PG
S11
0C2
50Co
nv.
42.2
26.1
11.0
9979
.323
.143
.957
.28.1
31.1
3128
3438
2AV
ERAG
E44
.027
.011
.898
78.9
26.1
47.9
55.8
7.729
.030
5936
052
HIGH
EST
52.6
31.7
13.5
101
82.7
30.0
53.2
60.3
8.136
.733
0843
247
LOW
EST
34.0
22.6
10.1
9373
.520
.743
.951
.36.4
22.0
2730
2997
5CV
(%)
7.16.4
8.93
4.47.6
7.74.4
4.98.7
66
LSD
(5%)
3.72.1
1.24
4.12.3
4.32.9
0.53.0
210
2636
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
MILK
2006
Ingha
m - L
ateOt
tawa -
Late
YIEL
D%
QUAL
ITYMI
LK 20
06YI
ELD
% QU
ALITY
DT/A
DT/A
Loca
tion D
roppe
d
-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
2019
- 20
18BR
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-
3197
RA97
P500
1,2,
3,4
49.0
21.3
10.5
**94
81.7
20.1
39.4
54.2
8.1
39.4
3281
3440
146
.320
.39.
4*
9783
.818
.736
.354
.08.
340
.334
2932
612
DAIR
YLAN
D SE
ED H
iDF-
3099
RA99
P500
1,2,
3,4
40.2
25.0
10.0
*95
80.9
20.5
39.0
52.8
7.9
38.0
3218
3225
739
.123
.29.
1*
9681
.420
.237
.953
.08.
236
.432
4029
946
LEGA
CY S
EEDS
L-5
350
3122
104
CM25
01,
2,3,
4,6
36.7
25.0
9.2
9381
.820
.639
.953
.57.
437
.932
8030
110
32.9
23.8
7.8
9481
.822
.442
.253
.17.
335
.732
6024
317
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
42.3
23.6
10.0
*94
81.8
19.5
39.5
52.6
7.5
39.0
3286
3279
040
.922
.29.
2*
9483
.017
.935
.352
.97.
541
.533
9531
089
NK B
rand
NK9
227-
3220
A92
C250
1,2,
4,6,
1643
.922
.29.
796
81.6
19.5
38.1
53.2
8.1
37.2
3265
3176
641
.621
.79.
0*
9882
.617
.936
.453
.98.
137
.633
1429
658
RENK
RK7
24RR
98P2
501
41.9
24.6
10.3
*92
81.6
20.7
40.3
53.7
7.5
34.9
3258
3332
138
.224
.99.
6**
9283
.817
.535
.454
.27.
739
.034
2732
852
AVER
AGE
42.3
23.6
9.9
9481
.620
.139
.453
.47.
837
.732
6532
441
39.8
22.7
9.0
9582
.719
.137
.353
.57.
938
.433
4430
079
HIGH
EST
49.0
25.0
10.5
9681
.820
.740
.354
.28.
139
.432
8634
401
46.3
24.9
9.6
9883
.822
.442
.254
.28.
341
.534
2932
852
LOW
EST
36.7
21.3
9.2
9280
.919
.538
.152
.67.
434
.932
1830
110
32.9
20.3
7.8
9281
.417
.535
.352
.97.
335
.732
4024
317
CV (%
)7.
58.
09.
54
3.1
10.0
8.4
4.3
5.9
10.4
58
7.0
7.4
8.8
32.
77.
07.
13.
25.
47.
04
7LS
D (5
%)
1.8
1.0
0.6
21.
31.
21.
91.
20.
21.
984
1530
2.4
1.5
0.7
21.
81.
12.
21.
40.
32.
211
718
29
2 Ye
ar A
vera
ges
2019
- 20
18BR
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-
3197
RA97
P500
1,2,
3,4
51.7
22.3
11.6
**91
79.6
21.5
42.4
54.4
7.9
38.6
3134
3619
1DA
IRYL
AND
SEED
HiD
F-30
99RA
99P5
001,
2,3,
441
.226
.811
.0*
9480
.420
.740
.252
.77.
739
.631
9734
567
LEGA
CY S
EEDS
L-5
350
3122
104
CM25
01,
2,3,
4,6
40.5
26.2
10.5
9281
.718
.837
.754
.07.
540
.132
9935
903
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
43.6
25.0
10.9
*95
80.6
21.1
43.7
52.4
7.6
36.6
3177
3449
0NK
Bra
nd N
K922
7-32
20A
92C2
501,
2,4,
6,16
46.2
22.6
10.4
9480
.721
.239
.852
.58.
136
.932
1533
873
RENK
RK7
24RR
98P2
501
45.7
24.3
11.0
*91
79.3
23.9
45.2
53.2
7.2
30.7
3088
3379
0AV
ERAG
E44
.824
.610
.993
80.4
21.2
41.5
53.2
7.7
37.1
3185
3480
2HI
GHES
T51
.726
.811
.695
81.7
23.9
45.2
54.4
8.1
40.1
3299
3619
1LO
WES
T40
.522
.310
.491
79.3
18.8
37.7
52.4
7.2
30.7
3088
3379
0CV
(%)
7.0
6.9
8.6
43.
57.
87.
13.
75.
48.
35
7LS
D (5
%)
2.9
1.4
0.8
32.
31.
62.
61.
70.
32.
213
520
44
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
DT/A
DT/A
% Q
UALI
TY%
QUA
LITY
MIL
K 20
06YI
ELD DT
/AM
ILK
2006
Early
- TR
IAL
AVER
AGE
Ingh
am -
Early
Otta
wa -
Early
YIEL
D%
QUA
LITY
Huro
n - E
arly
YIEL
D DT/A
- 41 -
2 Ye
ar A
vera
ges
2019
- 20
18BR
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
DAI
RYL
AND
SEE
D H
iDF-
3407
RA
107
P500
1,2,
3,4
36.8
27.6
10.2
9779
.222
.342
.353
.47.
033
.631
2630
927
36.3
26.1
9.5
9982
.518
.437
.055
.57.
237
.433
5830
897
DYN
AGR
O D
47SS
2910
7P5
001,
2,3,
441
.626
.410
.8**
9680
.720
.639
.753
.27.
836
.432
1335
360
41.1
25.3
10.3
**99
83.1
16.8
36.3
53.4
7.8
40.9
3399
3629
3G
OLD
EN H
ARVE
ST G
09A8
6-31
1010
9C
500
1,2,
4,6
37.9
26.3
9.9
9680
.122
.042
.553
.57.
934
.031
6830
416
37.4
25.4
9.5
9981
.320
.340
.854
.47.
834
.932
5630
710
GO
LDEN
HAR
VEST
G09
Y24-
3220
A10
9C
500
1,2,
4,6,
1635
.028
.610
.194
81.3
21.2
41.4
55.3
7.6
33.0
3241
3307
633
.827
.09.
298
82.1
19.1
39.0
55.7
7.4
33.6
3303
3045
7G
OLD
EN H
ARVE
ST G
10T6
3-31
2011
0C
500
1,2,
436
.529
.110
.4*
9679
.323
.343
.552
.87.
932
.531
1331
919
36.8
26.7
9.8
*99
81.1
21.6
41.2
54.1
7.8
33.4
3238
3151
8LG
SEE
DS
LG55
25VT
2RIB
105
P500
1,2
44.1
24.2
10.7
*98
82.9
19.1
39.0
54.9
7.4
39.4
3362
3536
540
.724
.09.
7*
9983
.518
.437
.254
.97.
539
.734
1733
097
MAS
TER
S C
HO
ICE
MC
T-56
6310
6C
250
138
.426
.610
.194
81.3
22.3
41.7
54.0
7.6
34.2
3244
3361
238
.125
.39.
493
81.9
20.9
39.7
54.4
7.5
34.5
3298
3152
4AV
ERAG
E38
.627
.010
.396
80.7
21.5
41.4
53.9
7.6
34.7
3210
3295
437
.725
.79.
698
82.2
19.4
38.7
54.6
7.6
36.3
3324
3207
1H
IGH
EST
44.1
29.1
10.8
9882
.923
.343
.555
.37.
939
.433
6235
365
41.1
27.0
10.3
9983
.521
.641
.255
.77.
840
.934
1736
293
LOW
EST
35.0
24.2
9.9
9479
.219
.139
.052
.87.
032
.531
1330
416
33.8
24.0
9.2
9381
.116
.836
.353
.47.
233
.432
3830
457
CV
(%)
6.8
6.0
8.2
42.
87.
87.
03.
95.
29.
64
67.
06.
07.
84
2.4
7.5
6.7
3.8
5.3
7.8
46
LSD
(5%
)1.
50.
90.
52
1.2
0.9
1.6
1.1
0.2
1.7
7311
722.
21.
40.
73
1.6
1.3
2.2
1.7
0.3
2.3
103
1758
2 Ye
ar A
vera
ges
2019
- 20
18BR
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
DAI
RYL
AND
SEE
D H
iDF-
3407
RA
107
P500
1,2,
3,4
37.4
29.1
10.9
9576
.026
.147
.651
.36.
929
.928
9330
958
DYN
AGR
O D
47SS
2910
7P5
001,
2,3,
442
.127
.611
.4*
9378
.424
.443
.153
.17.
732
.030
2734
427
GO
LDEN
HAR
VEST
G09
A86-
3110
109
C50
01,
2,4,
638
.527
.110
.493
79.0
23.7
44.3
52.5
8.0
33.1
3080
3012
3G
OLD
EN H
ARVE
ST G
09Y2
4-32
20A
109
C50
01,
2,4,
6,16
36.2
30.1
11.0
*90
80.6
23.3
43.9
54.9
7.8
32.3
3180
3569
6G
OLD
EN H
ARVE
ST G
10T6
3-31
2011
0C
500
1,2,
436
.131
.611
.1*
9477
.525
.045
.951
.68.
031
.629
8832
321
LG S
EED
S LG
5525
VT2R
IB10
5P5
001,
247
.624
.511
.7**
9782
.219
.840
.754
.97.
339
.033
0837
633
MAS
TER
S C
HO
ICE
MC
T-56
6310
6C
250
138
.727
.910
.895
80.7
23.8
43.7
53.7
7.7
33.9
3190
3569
9AV
ERAG
E39
.528
.311
.094
79.2
23.7
44.2
53.1
7.6
33.1
3095
3383
7H
IGH
EST
47.6
31.6
11.7
9782
.226
.147
.654
.98.
039
.033
0837
633
LOW
EST
36.1
24.5
10.4
9076
.019
.840
.751
.36.
929
.928
9330
123
CV
(%)
6.1
6.1
7.7
43.
57.
56.
93.
75.
09.
35
7LS
D (5
%)
2.1
1.4
0.7
32.
31.
52.
61.
70.
32.
412
618
89
** 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
DT/A
DT/A
YIEL
D%
QUA
LITY
MIL
K 20
06YI
ELD
% Q
UALI
TYM
ILK
2006
% Q
UALI
TYM
ILK
2006
YIEL
D DT/A
Otta
wa
- Lat
e
YIEL
D%
QUA
LITY
Ingh
am -
Late
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
MIL
K 20
06DT
/A
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.
- 42 -
TABL
E 8E
.IO
SCO,
OSC
EOLA
& P
RESQ
UE IS
LE C
OUNT
Y SI
LAGE
TRI
ALS
- EAR
LY (
97 D
ay an
d Ea
rlier
)ZO
NE 4
2019
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
97R A
97P5
001,
2,3,
456
.725
.214
.9*
9581
.721
.540
.454
.58.
534
.932
9649
026
28.9
9580
.621
.239
.551
.08.
237
.3DA
IRYL
AND
SEED
HiD
F-33
97R A
97P5
001,
2,3,
455
.425
.813
.093
80.7
21.5
42.3
55.3
8.0
33.0
3198
4293
830
.691
80.2
21.5
40.2
50.6
8.0
36.6
DAIR
YLAN
D SE
ED D
S-37
15AM
97P5
001,
2,4
58.7
25.7
12.9
9483
.118
.736
.656
.37.
940
.434
3943
391
30.3
9782
.119
.837
.352
.17.
840
.5G
OLD
EN H
ARVE
ST G
90Y0
4-31
10A
92C2
501,
2,4,
6,16
54.2
26.1
13.1
9782
.420
.439
.755
.48.
236
.632
8942
960
29.9
9983
.417
.534
.351
.68.
743
.2G
OLD
EN H
ARVE
ST G
95D3
2-32
2 095
C250
1,2,
4,6
52.5
23.2
11.6
9883
.117
.535
.855
.08.
241
.533
5239
622
27.1
100
84.7
15.4
31.1
50.7
8.4
46.9
King
Fish
er 3
4C30
84Co
nv.
59.2
23.0
13.4
8883
.518
.335
.454
.28.
839
.634
3443
511
24.7
8883
.317
.733
.450
.08.
943
.5Ki
ngFi
sher
43C
4093
Conv
.63
.822
.412
.495
81.6
20.7
39.8
53.6
8.7
34.7
3225
3956
528
.199
82.0
18.9
36.3
50.3
8.7
40.4
LG S
EEDS
LG
5410
VT2R
IB91
P500
1,2
51.7
27.6
13.2
9982
.219
.940
.055
.47.
835
.933
2545
143
31.8
101
81.8
19.1
36.8
51.0
8.0
41.0
LG S
EEDS
LG
42C6
3VT2
RIB
92P5
001,
254
.424
.312
.295
84.6
17.6
35.1
55.8
8.5
40.5
3469
4240
827
.496
85.2
16.4
31.4
52.7
8.3
48.2
LG S
EEDS
LG
44C2
7VT2
RIB
94P5
001,
263
.925
.715
.9**
9783
.619
.338
.156
.08.
039
.034
1554
453
27.9
9983
.719
.036
.752
.77.
940
.8LG
SEE
DS L
G54
65VT
2RIB
97P5
001,
253
.826
.813
.499
84.4
16.8
34.3
56.3
8.4
41.9
3475
4651
330
.210
184
.714
.130
.053
.18.
547
.8LO
CAL
SEED
ZS9
598
5222
E Z95
R500
1,2,
4,6
60.9
25.9
14.1
9782
.018
.539
.354
.28.
236
.433
6446
245
31.0
9980
.317
.737
.349
.88.
339
.5LO
CAL
SEED
ZS9
796
3220
EZ97
R500
1,2,
4,6
64.1
24.0
15.0
*99
82.4
17.7
36.8
54.7
7.8
40.0
3335
5012
926
.398
83.0
14.7
32.5
51.6
7.9
45.8
AVER
AGE
57.6
25.1
13.5
9682
.719
.138
.055
.18.
238
.033
5545
070
28.8
9782
.717
.935
.151
.38.
342
.4HI
GHE
ST64
.127
.615
.999
84.6
21.5
42.3
56.3
8.8
41.9
3475
5445
331
.810
185
.221
.540
.253
.18.
948
.2LO
WES
T51
.722
.411
.688
80.7
16.8
34.3
53.6
7.8
33.0
3198
3956
524
.788
80.2
14.1
30.0
49.8
7.8
36.6
CV (%
)10
.25.
611
.74
2.8
9.5
8.3
3.2
4.7
8.5
46
3.7
32.
49.
88.
03.
14.
18.
2LS
D (5
%)
4.9
1.0
1.3
31.
61.
22.
11.
20.
32.
212
522
801.
34
2.4
2.1
3.4
1.9
0.4
4.2
2 Ye
ar A
vera
ges
2019
- 20
1 8BR
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
DAIR
YLAN
D SE
ED H
iDF-
3197
R A97
P500
1,2,
3,4
45.2
22.6
10.9
**96
82.3
20.3
39.3
55.1
8.5
35.6
3287
3565
223
.697
82.9
18.0
35.5
53.8
7.9
41.2
DAIR
YLAN
D SE
ED D
S-37
15AM
97P5
001,
2,4
47.4
21.9
9.6
9583
.617
.334
.855
.18.
241
.534
2832
293
25.4
9783
.815
.731
.951
.87.
646
.3G
OLD
EN H
ARVE
ST G
95D3
2-32
2 095
C250
1,2,
4,6
44.6
21.2
9.2
9883
.317
.235
.153
.48.
540
.734
0131
448
23.8
9983
.816
.632
.750
.58.
044
.7Ki
ngFi
sher
43C
4093
Conv
.50
.020
.89.
795
82.3
18.7
37.6
52.6
8.8
35.0
3298
3163
424
.099
82.4
16.9
34.1
49.2
8.6
38.6
LG S
EEDS
LG
5465
VT2R
IB97
P500
1,2
44.4
23.3
10.1
9884
.117
.335
.756
.28.
540
.034
4034
813
25.7
9984
.815
.532
.853
.98.
145
.9AV
ERAG
E46
.322
.09.
996
83.1
18.1
36.5
54.5
8.5
38.6
3371
3316
824
.598
83.5
16.5
33.4
51.9
8.0
43.3
HIG
HEST
50.0
23.3
10.9
9884
.120
.339
.356
.28.
841
.534
4035
652
25.7
9984
.818
.035
.553
.98.
646
.3LO
WES
T44
.420
.89.
295
82.3
17.2
34.8
52.6
8.2
35.0
3287
3144
823
.697
82.4
15.5
31.9
49.2
7.6
38.6
CV (%
)8.
86.
110
.34
2.7
9.1
7.8
4.2
5.5
8.6
46
4.3
32.
68.
77.
85.
34.
58.
9LS
D (5
%)
2.7
0.8
0.7
21.
20.
91.
51.
20.
21.
887
1438
0.9
21.
81.
32.
22.
30.
33.
2
** 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 1 M
issin
g da
ta d
ue to
equ
ipm
ent m
alfu
nctio
n
TRIA
L AV
ERAG
E
TRIA
L AV
ERAG
EIo
sco
- Ear
lyM
ILK
2006
Iosc
o - E
arly
1
% Q
UALI
TY
% Q
UALI
TY
YIEL
D DT/A
YIEL
D DT/A
MIL
K 20
06
% Q
UALI
TYM
ILK
2006
DT/A
YIEL
D DT/A
YIEL
D%
QUA
LITY
MIL
K 20
06
- 43 -
2019
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
HiD
F-31
97R A
97P5
001,2
,3,4
55.5
20.4
14.1
9682
.321
.441
.957
.78.6
34.9
3330
4705
957
.926
.315
.6**
9482
.122
.039
.754
.98.7
32.5
3261
5099
4DA
IRYL
AND
SEED
HiD
F-33
97R A
97P5
001,2
,3,4
69.3
20.0
14.0
9381
.421
.342
.759
.57.7
34.1
3278
4811
341
.527
.011
.995
80.5
21.8
44.1
55.7
8.228
.231
1837
764
DAIR
YLAN
D SE
ED D
S-37
15AM
97P5
001,2
,471
.722
.114
.391
83.8
19.2
38.4
60.4
7.639
.234
4649
382
45.6
24.8
11.5
9583
.417
.034
.156
.48.2
41.5
3433
3740
0GO
LDEN
HAR
VEST
G90
Y04-3
110 A
92C2
501,2
,4,6,1
659
.622
.513
.494
82.7
20.0
40.8
60.0
8.036
.933
6544
908
48.9
25.9
12.8
9881
.223
.644
.154
.68.0
29.7
3213
4101
2GO
LDEN
HAR
VEST
G95
D32-3
220
95C2
501,2
,4,6
49.2
19.6
10.0
9582
.418
.738
.360
.48.0
40.0
3361
3539
355
.822
.913
.199
82.4
18.5
38.1
53.8
8.337
.833
4343
852
KingF
isher
34C3
084
Conv
.59
.321
.312
.689
83.1
20.9
40.3
58.0
8.732
.033
8942
703
59.1
22.9
14.3
8684
.016
.332
.554
.59.0
43.3
3478
4431
9Kin
gFish
er 43
C40
93Co
nv.
74.4
20.6
15.1
9280
.324
.744
.856
.28.3
27.8
3103
4678
553
.318
.59.7
9482
.618
.538
.254
.39.1
35.9
3348
3234
5LG
SEE
DS LG
5410
VT2R
IB91
P500
1,258
.124
.414
.298
82.0
20.8
43.2
58.4
7.533
.633
0746
711
45.3
26.7
12.2
9982
.719
.740
.157
.08.1
33.0
3343
4357
5LG
SEE
DS LG
42C6
3VT2
RIB
92P5
001,2
59.3
21.7
12.2
9385
.217
.036
.759
.88.4
38.1
3542
4328
049
.623
.712
.295
83.2
19.4
37.3
55.1
8.835
.433
9541
535
LG S
EEDS
LG44
C27V
T2RI
B94
P500
1,271
.624
.817
.7**
9385
.018
.838
.360
.97.8
39.9
3519
6238
056
.224
.514
.199
82.1
20.0
39.4
54.5
8.336
.333
1046
526
LG S
EEDS
LG54
65VT
2RIB
97P5
001,2
60.1
23.3
14.6
9783
.720
.539
.859
.08.1
36.9
3428
5012
247
.627
.012
.210
084
.815
.833
.156
.88.6
41.1
3522
4290
3LO
CAL S
EED
ZS95
98 52
22E Z
95R5
001,2
,4,6
78.6
22.1
17.3
*94
83.4
18.8
39.8
58.2
8.237
.434
1256
869
43.3
24.8
10.8
9982
.419
.040
.954
.68.0
32.3
3316
3562
2LO
CAL S
EED
ZS97
96 32
20E Z
97R5
001,2
,4,6
66.7
21.6
15.1
9982
.320
.041
.157
.27.5
34.9
3344
5059
361
.524
.115
.0*
9981
.918
.536
.755
.58.0
39.2
3326
4966
6AV
ERAG
E64
.121
.914
.294
82.9
20.2
40.5
58.9
8.035
.833
7148
023
51.2
24.5
12.7
9682
.619
.238
.355
.28.4
35.9
3339
4211
6HI
GHES
T78
.624
.817
.799
85.2
24.7
44.8
60.9
8.740
.035
4262
380
61.5
27.0
15.6
100
84.8
23.6
44.1
57.0
9.143
.335
2250
994
LOW
EST
49.2
19.6
10.0
8980
.317
.036
.756
.27.5
27.8
3103
3539
341
.518
.59.7
8680
.515
.832
.553
.88.0
28.2
3118
3234
5CV
(%)
8.16.1
5.85
2.97.6
7.43.4
4.57.9
46
6.35.6
7.73
2.97.2
7.82.5
5.26.3
56
LSD
(5%)
6.21.6
1.06
2.81.8
3.62.4
0.43.4
176
3272
3.81.6
1.24
2.81.7
3.61.7
0.52.7
183
3261
2 Yea
r Ave
rage
s 201
9 - 20
1 8BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%STD
IVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIV
DAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIR
YLAN
D SE
ED H
iDF-
3197
R A97
P500
1,2,3,
444
.322
.611
.1*
9681
.821
.942
.356
.08.7
33.2
3285
3566
946
.121
.710
.8**
9682
.221
.140
.055
.48.9
32.5
3289
3563
4DA
IRYL
AND
SEED
DS-
3715
AM97
P500
1,2,4
55.2
21.7
11.3
*92
83.6
18.3
36.5
57.5
8.339
.334
4038
790
39.5
18.6
7.896
83.3
17.9
36.0
56.1
8.839
.034
1525
796
GOLD
EN H
ARVE
ST G
95D3
2-322
095
C250
1,2,4,
643
.521
.69.3
9783
.217
.235
.755
.98.6
40.5
3417
3269
945
.618
.39.0
9782
.917
.937
.053
.98.8
37.0
3385
3019
6Kin
gFish
er 43
C40
93Co
nv.
54.9
22.3
11.8
**92
82.0
20.9
40.2
54.9
8.633
.132
6838
638
45.1
16.2
7.596
82.5
18.3
38.7
53.7
9.333
.333
2824
630
LG S
EEDS
LG54
65VT
2RIB
97P5
001,2
47.8
23.4
11.5
*97
83.3
19.4
39.1
57.9
8.535
.933
9739
117
40.9
20.9
8.698
84.4
16.9
35.2
56.8
9.138
.134
8230
508
AVER
AGE
49.1
22.3
11.0
9582
.819
.538
.856
.58.5
36.4
3361
3698
343
.519
.18.7
9683
.118
.437
.455
.29.0
36.0
3380
2935
3HI
GHES
T55
.223
.411
.897
83.6
21.9
42.3
57.9
8.740
.534
4039
117
46.1
21.7
10.8
9884
.421
.140
.056
.89.3
39.0
3482
3563
4LO
WES
T43
.521
.69.3
9281
.817
.235
.754
.98.3
33.1
3268
3269
939
.516
.27.5
9682
.216
.935
.253
.78.8
32.5
3289
2463
0CV
(%)
7.27.5
6.75
2.58.0
6.83.3
6.67.5
46
5.65.8
7.33
2.57.9
7.73.9
5.87.2
46
LSD
(5%)
3.41.4
0.74
1.71.3
2.21.6
0.52.3
108
1979
2.21.0
0.72
1.71.3
2.51.8
0.42.1
112
1771
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
YIEL
D DT/A
YIEL
D DT/A
YIEL
D DT/A
YIEL
D
% QU
ALITY
MILK
2006
% QU
ALITY
MILK
2006
DT/A
Osce
ola - E
arl y
Pres
que I
sle - E
arly
% QU
ALITY
MILK
2006
Osce
ola - E
arly
Pres
que I
sle - E
arly
% QU
ALITY
MILK
2006
- 44 -
TABL
E 8L
.IO
SCO,
OSC
EOLA
& P
RESQ
UE IS
LE C
OUNT
Y SI
LAGE
TRI
ALS
- LAT
E (9
8 Day
and
Late
r)ZO
NE 4
2019
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
99P5
001,
2,3,
443
.828
.411
.593
81.9
20.6
39.6
54.2
8.3
36.7
3333
3837
032
.696
81.5
19.3
37.1
50.1
8.3
40.6
DAIR
YLAN
D SE
ED D
S-43
18AM
XT10
4P5
001,
2,3,
446
.728
.912
.099
83.7
19.3
38.0
58.4
7.9
37.0
3555
4254
535
.210
180
.522
.140
.451
.78.
035
.3Ki
ngFi
sher
49C
6099
Conv
.61
.422
.912
.397
84.7
18.9
36.2
58.7
8.1
39.5
3534
4340
327
.897
84.1
18.8
34.9
54.5
8.1
40.8
LG S
EEDS
LG5
1C48
VT2P
RO10
1P5
001,
243
.630
.412
.610
083
.319
.438
.856
.97.
935
.734
5243
660
33.5
102
82.1
19.8
38.3
53.3
7.9
36.9
LG S
EEDS
LG5
4C04
104
P500
Conv
.50
.724
.010
.596
83.9
18.5
37.5
58.3
8.2
37.3
3418
3512
029
.899
83.7
17.7
35.1
53.6
8.4
41.2
LOCA
L SE
ED L
C988
8 VT
2PRI
B98
R500
1,2
62.1
22.2
12.6
9882
.818
.537
.654
.28.
738
.633
9142
078
25.5
9882
.516
.533
.751
.48.
842
.8LO
CAL
SEED
LC0
657
SSXR
IB10
6R5
001,
2,3,
454
.027
.813
.8**
9781
.421
.541
.855
.48.
231
.632
5643
502
32.5
9881
.419
.639
.252
.68.
436
.5LO
CAL
SEED
LC0
877
VT2P
RIB
108
R500
1,2
46.3
28.7
12.4
9682
.621
.542
.257
.38.
032
.333
3540
033
31.2
9782
.221
.239
.154
.58.
235
.7LO
CAL
SEED
ZS1
098
3330
EZ11
0R5
001,
2,4,
645
.228
.611
.996
80.2
23.0
44.3
55.3
8.2
28.7
3146
3680
033
.896
78.0
24.1
44.6
50.7
8.4
29.8
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
46.1
27.7
12.0
9482
.121
.041
.355
.47.
932
.332
0940
146
30.9
9682
.918
.235
.852
.28.
139
.1AV
ERAG
E50
.027
.012
.297
82.7
20.2
39.7
56.4
8.1
35.0
3363
4056
631
.398
81.9
19.7
37.8
52.5
8.3
37.9
HIGH
EST
62.1
30.4
13.8
100
84.7
23.0
44.3
58.7
8.7
39.5
3555
4366
035
.210
284
.124
.144
.654
.58.
842
.8LO
WES
T43
.622
.210
.593
80.2
18.5
36.2
54.2
7.9
28.7
3146
3512
025
.596
78.0
16.5
33.7
50.1
7.9
29.8
CV (%
)9.
67.
111
.13
2.3
8.1
6.6
3.0
4.1
8.3
47
5.5
22.
18.
57.
03.
03.
77.
7LS
D (5
%)
4.0
1.3
1.1
21.
31.
11.
81.
20.
22.
011
222
562.
13
2.1
2.0
3.2
1.9
0.4
3.5
2 Ye
ar A
vera
ges
2019
- 20
18BR
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
P500
1,2,
3,4
38.6
24.7
9.2
9582
.619
.137
.853
.98.
537
.922
3920
704
27.4
9682
.917
.835
.051
.18.
042
.60
0
1 Miss
ing d
ata
due
to e
quipm
ent m
alfun
ction
2019
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
99P5
001,
2,3,
448
.326
.512
.892
82.7
19.7
41.1
57.9
7.9
36.8
3378
4319
239
.326
.010
.292
81.5
22.9
40.8
54.5
8.8
32.6
3287
3354
8DA
IRYL
AND
SEED
DS-
4318
AMXT
104
P500
1,2,
3,4
58.7
25.3
14.4
*97
85.1
17.7
36.9
62.6
7.6
40.5
3547
5123
534
.726
.49.
598
85.7
18.1
36.8
61.0
8.3
35.1
3563
3385
6Ki
ngFi
sher
49C
6099
Conv
.65
.822
.514
.9**
9684
.818
.739
.962
.07.
736
.335
1052
132
57.1
18.5
9.8
9985
.219
.233
.859
.58.
441
.335
5734
674
LG S
EEDS
LG5
1C48
VT2P
RO10
1P5
001,
247
.929
.514
.0*
9884
.917
.537
.759
.97.
838
.735
3149
391
39.4
28.4
11.3
100
82.9
20.8
40.3
57.5
8.0
31.6
3373
3793
0LG
SEE
DS L
G54C
0410
4P5
00Co
nv.
59.4
21.5
12.8
9284
.717
.336
.862
.28.
141
.235
2243
338
41.9
20.6
8.1
9883
.420
.740
.759
.18.
329
.433
1426
901
LOCA
L SE
ED L
C988
8 VT
2PRI
B98
R500
1,2
77.2
18.0
14.6
*97
83.6
20.3
40.7
57.3
8.4
36.9
3429
4663
746
.923
.110
.798
82.3
18.9
38.4
54.0
9.0
36.1
3354
3751
9LO
CAL
SEED
LC0
657
SSXR
IB10
6R5
001,
2,3,
458
.925
.414
.9**
9681
.821
.943
.057
.77.
931
.132
8248
965
49.2
25.5
12.6
**98
81.0
23.1
43.1
55.9
8.3
27.3
3229
3803
9LO
CAL
SEED
LC0
877
VT2P
RIB
108
R500
1,2
51.8
26.1
13.0
9384
.122
.144
.160
.17.
732
.834
2344
372
40.8
28.9
11.9
*97
81.5
21.2
43.5
57.5
8.1
28.5
3247
3569
3LO
CAL
SEED
ZS1
098
3330
EZ11
0R5
001,
2,4,
651
.625
.613
.5*
9581
.621
.843
.457
.57.
933
.832
9744
441
38.8
26.5
10.3
9881
.123
.244
.957
.98.
422
.629
9529
159
MAS
TERS
CHO
ICE
MCT
-545
410
4C2
501,
2,3,
4,6
49.7
26.0
12.9
9682
.521
.142
.458
.77.
934
.233
5644
723
42.6
26.1
11.1
9180
.923
.945
.855
.37.
823
.430
6335
569
AVER
AGE
56.9
24.6
13.8
9583
.619
.840
.659
.67.
936
.234
2846
843
43.1
25.0
10.5
9782
.521
.240
.857
.28.
330
.832
9834
289
HIGH
EST
77.2
29.5
14.9
9885
.122
.144
.162
.68.
441
.235
4752
132
57.1
28.9
12.6
100
85.7
23.9
45.8
61.0
9.0
41.3
3563
3803
9LO
WES
T47
.918
.012
.892
81.6
17.3
36.8
57.3
7.6
31.1
3282
4319
234
.718
.58.
191
80.9
18.1
33.8
54.0
7.8
22.6
2995
2690
1CV
(%)
8.3
7.1
8.7
42.
67.
45.
93.
24.
16.
54
77.
88.
49.
83
2.2
6.5
6.1
2.7
4.5
8.3
46
LSD
(5%
)5.
72.
11.
55
2.7
1.8
2.9
2.3
0.4
2.8
160
3845
4.0
2.5
1.2
42.
11.
73.
01.
90.
53.
116
325
12
2 Ye
ar A
vera
ges
2019
- 20
18BR
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
P500
1,2,
3,4
41.3
26.7
11.0
9483
.517
.937
.355
.68.
039
.634
3937
692
36.0
20.2
7.5
9681
.521
.741
.154
.99.
531
.532
7924
422
DT/A
YIEL
D
DT/A
YIEL
D DT/A
YIEL
D
% Q
UALI
TY
% Q
UALI
TYM
ILK
2006
% Q
UALI
TYM
ILK
2006
DT/A
YIEL
D DT/A
MIL
K 20
06
MIL
K 20
06
YIEL
D DT/A
YIEL
D DT/A
MIL
K 20
06%
QUA
LITY
% Q
UALI
TYM
ILK
2006
% Q
UALI
TYM
ILK
2006
% Q
UALI
TY
TRIA
L AV
ERAG
E
TRIA
L AV
ERAG
E
YIEL
D DT/A
YIEL
D
Iosc
o - L
ate
Osce
ola
- La
tePr
esqu
e Is
le -
Lat
e
% Q
UALI
TYM
ILK
2006
Iosc
o - L
ate1
Osce
ola
- La
tePr
esqu
e Is
le -
Lat
e
- 45 -
TABL
E 6E
- Co
ntin
ued
from
pag
e 33.
2 Ye
ar A
vera
ges
201
9 - 2
018
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-34
07R A
107
P500
1,2,
3,4
41.9
24.7
10.4
*88
82.0
18.9
37.5
52.7
7.1
40.2
3341
3509
644
.825
.911
.8**
9481
.618
.637
.251
.87.
340
.833
3839
906
DAIR
YLAN
D SE
ED H
iDF-
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1
- 46 -- 46 -
TAR SPOT OF CORN Martin Chilvers, Associate Professor,
Department of Plant, Soil and Microbial Sciences Michigan State University
Tar spot of corn is native to Central and South America andwas first described back in 1904.TarspotwasfirstfoundintheU.S.inIndianaandIllinoisin 2015, and was confirmed in Allegan County,Michigan in 2016. 2018 saw a widespread epidemic of corn tar spot across the western side of the state withlossesof50bu/Ainparticularfields.Thefungus(Phyllachora maydis) responsible for disease is able to overwinter on corn residue and release spores to initiate new infections. The 2019 season saw a late onset of disease as compared to 2018. However, there was continued rapid spread of the disease to a number of new counties across the Midwest. In Michigan,diseasewasconfirmedlateintheseasonacross many counties in the thumb. Surprisingly, tar spot was also confirmed in a large number ofcounties in Iowa all the way to the west side of that state. The spread of inoculum sets up the potential for significant yield losses if conditions for diseaseare favorable in the future, as the fungus that causes the disease can survive on infested corn residue.
In terms of identifying tar spot, it is relatively distinct with a hard black raised spot (1/16 – 3/4 inch) that will not rub off the leaf surface. Tar spot lesions form on the top side of the leaf but will often protrude through the bottom side of the leaf. There was some confusion of insect frass (bug poop) for tar spot, however these are easy to distinguish as frass will dissolve and wipe off the leaf with some water, and tar spot will not. Late season rust pustules can also take on a dark color and look similar to tar spot, but upon close inspection rust pustules erupt through the leaf leaving a torn margin, and rust spores will wipe offtheleafontoyourfinger.Ifindoubtsendasampleinto the MSU Plant and Pest Diagnostic Services https://pestid.msu.edu/.
Tar spot has the ability to progress rapidly within afield.Itappearsthatonceaplantisinfectedittakesabout 10 days to 2 weeks for the tar spot structure to develop and new spores to be released. Conditions that favor disease include moderate temperatures andleafmoisture.Irrigatedfieldsareatparticularriskto disease due to increased number of leaf wetness events. We have noted higher levels of disease development in fields frequently irrigated vs thoseirrigatedlessfrequently,andinfieldsirrigatedatnightvs during the day, presumably due to a longer leaf wetness period. Tillage and crop rotation offers little protection from the disease, as inoculum can move in fromsurroundingfields.
Managing disease should start with selection of the most resistant hybrids available; however, no hybrid is completely resistant, so it will be important to talk with your seed dealer in selecting the most resistant hybrids available. It should also be understood that even using a partially resistant hybrid it is still possible to incur losses if conditions favor the disease. The same is true of fungicide use. A fungicide applied at the most optimal timing will reduce disease and protect leaves for a couple of weeks, but it is not a silver bullet. To date the best fungicide timings appear to be those at reproductive stages, and some producers have reported positive results. We are working with colleagues to screen fungicides for efficacy, develop disease predictionmodels and optimize fungicide application timing.
This work was supported in part by the Corn Marketing Program of Michigan, Project GREEEN, and the Foundation for Food and Agriculture Research.
- 47 -
Figure:Tarspotconfirmationsin2019.https://corn.ipmpipe.org/tarspot/
Notes
IntroductionTHANK YOU TO OUR FARM COOPERATORS:
ZONE 1Blaine Baker, Clayton
George Brossman, VandaliaBrian Nunemaker, Bronson
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
Bryan Geerlings, FennvilleTim, David and Daniel VanDyke, Marne
ZONE 3Scott Karnatzs, Greenville
Ron, Ed and Chris McCrea, Bad AxeRobert Oshe & Jacob Zwagerman, Custer
ZONE 4Jeremy, Tim and Roger Beebe, Whitmore
John Bode, CadillacPaul Ponik, Posen
UP Charlie Meintz, Stephenson
THANK YOU TO THOSE WHO HELPED:
KalvinCanfieldKatlin FusilierHarkirat KaurThomas SilerLori Williams
Steve AndersonLucas FenelonAaron Hagman
Kelli IshGordon WigginsGrace NewlandPaige Pickett
MSU isanaffirmative-action,equal-opportunityemployer,committed toachieving 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