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Maine Potato Breeding Program2010 Growing Season
Final Report • January 2011
Gregory Porter • Garland Grounds • Tammy Mills
Department of Plant, Soil & Environmental Sciences
University of MaineOrono, ME 04469
Aroostook Research Farm
59 Houlton Road
Presque Isle, ME 04769
AF3362-1
AF4545-1
Harvest and Selection, Second-year Russets and
Longs, 2010
Seedling Tuber Harvest, Fall 2010
Harvest of Second-year Russets and Longs
Description of Advanced Selections from the University of Maine Potato Breeding
Program (updated January 2011):
Current Top Advanced Prospects for Commercialization. Seed of these clones is
currently available from the Maine Seed Potato Board, Maine seed growers, and/or
Aroostook Research Farm. Additional clones in each marketing class will become
available over the coming years. For more information on these clones, seed availability,
or research results please contact Greg Porter; 5722 Deering Hall, Room 114; University
of Maine, Orono, ME 04469-5722; (207)581-2943; [email protected]
AF0338-17 (AF303-5 x SA8211-6), a widely-adapted, mid-season, high yielding,
round white for out-of-field chipping and fresh market. It has performed well in
the S.E. and mid-Atlantic states with U.S.#1 yields averaging 96% of Atlantic.
Specific gravity has averaged 4 points lower than Atlantic. AF0338-17 has
chipped well from the field and has had much lower incidence of internal defects
than Atlantic. It is moderately susceptible to scab, but has verticillium resistance.
Seed Availability: Maine Seed Potato Board N2 seed (19 cwt) and disease-free
plantlets or minitubers; ~30 cwt of University of Maine seed.
AF2291-10 (SA8211-6 x EB8109-1), a chipping prospect for northern areas.
AF2291-10 has high specific gravity, moderate scab resistance, and medium-late
to late vine maturity. It has chipped from June storage in Ontario trials and may
be named and released in 2011. It can be prone off shapes and has blackspot
bruise susceptibility similar to Snowden. It is not well adapted to production in
the S.E. states. Seed Availability: Maine certified seed (see ME seed book),
Maine Seed Potato Board N2 (81 cwt) seed tubers and disease-free plantlets or
minitubers; ~190 cwt of University of Maine seed.
AF2574-1 (AF2153-2 OP), a fresh-market white with moderate late blight
resistance. AF2574-1 is late maturing and has good internal quality and high
yields. U.S.#1 yields have averaged ~120% of standard round-white varieties
(Atlantic and Katahdin) in Maine trials. Tuber sizing is good, but external
appearance has been inconsistent. It is not well adapted to production in the S.E.
and mid-Atlantic states. AF2574-1 is moderately susceptible to scab. It has been
commercially tested in Northern Me for two years with good results. Seed
Availability: Maine Seed Potato Board N2 seed (17 cwt) and disease-free
plantlets or minitubers; ~60 cwt of University of Maine seed.
AF3001-6 (Silverton Russet x AF1668-60), a widely adapted, late maturing, long-
white with netted skin, very good fry color, and high yields. AF3001-6 is very
good baked, boiled, and mashed. U.S.#1 yields have averaged ~127% of standard
russeted varieties (usually Russet Burbank) in Maine trials. Specific gravity is
moderate (average of 1.086 in ME trials) and fry color from storage has been
excellent. It is moderately susceptible to scab, but has good verticillium
resistance. Seed Availability: Maine Seed Potato Board N2 seed (13 cwt) and
disease-free plantlets or minitubers; ~35 cwt of University of Maine seed.
1
AF3317-15 (AWN86514-2 x Reeves Kingpin), a long russet with late blight
resistance and potential for fresh market and processing. AF3317-15 is very good
baked and mashed. AF3317-15 has very late vine maturity and long tubers with
russeted skin. It can yield well when given a long growing season, but needs a lot
of time to develop and mature tubers. Specific gravity is moderate (average of
1.085 in ME trials) and fry color from storage has been fair to good. It has
resistance to late blight, common scab, and pink rot. Seed Availability: Maine
Seed Potato Board disease-free plantlets or minitubers; ~16 cwt of University of
Maine seed.
AF3362-1 (Reeves Kingpin x Silverton Russet), a mid-season, long russet with
good yields, processing potential, and fair to good appearance. AF3362-1 is very
good baked and mashed. U.S.#1 yields have averaged ~110% of standard
russeted varieties (usually Russet Burbank) in Maine trials. Specific gravity is
moderate (average of 1.084 in ME trials) and fry color from storage has been
mostly good. It has moderate scab resistance. AF3362-1 is susceptible to internal
heat necrosis and should not be grown in the S.E. states or other areas where this
defect is frequently observed. Seed Availability: Certified Maine Seed (see ME
seed book), Maine Seed Potato Board disease-free plantlets or minitubers; ~50
cwt of University of Maine seed.
2
2010 University of Maine Potato Breeding Program
Aroostook Research Farm
Presque Isle, ME 04769
Personnel. Greg Porter, Ph.D., Agronomist and Maine Potato Breeding Program Project
Leader, University of Maine, Orono, ME 04469-5722 ([email protected]). Garland
Grounds, Scientific Technician, Aroostook Research Farm. Tammy Mills, Scientific
Technician, Aroostook Research Farm.
Introduction. The University of Maine Potato Breeding Program uses traditional plant
breeding to create, select, and develop new potato varieties for Maine and elsewhere.
The objective of this research is to develop and select new potato varieties which will
provide those opportunities to the Maine Potato Industry. During 2010, our research
effort by market category was as follows: 60% russets and long-whites for processing
and/or fresh market; 30% whites for chipping and/or fresh market; and 10% reds and
specialty varieties. The Maine breeding program is the only eastern U.S. program with
an emphasis on russets and long-whites with processing and fresh market potential.
Priorities in the area of disease resistance were: late blight, scab, and pink rot. Although
these diseases were our top priorities, our work on disease and pest resistance also
included efforts to develop varieties with resistance to: PVY, PLRV, verticillium wilt,
fusarium dry rot, nematodes, bruising, internal defects, insects, etc.
Progress on Russets/Long White. We have four advanced clones (AF3000-1, AF3001-6,
AF3317-15, and AF3362-1) in processing trials with McCain Foods and more than a
dozen promising candidate clones immediately behind these. McCain Foods provides
key collaboration in the selection phase, through processing quality evaluations at their
technology center, and to champion adoption of the most promising clones. More
detailed information on three of these clones is provided later in the report.
Progress on Whites and Chippers. AF0338-17 is being tested as an alternative to
Atlantic in the S.E. states. It combines high yields, good out-of-field chipping, and much
less internal heat necrosis and hollow heart than Atlantic. AF2291-10 is completing its
third year in the national snack food trials. It is a “northern chipper” and has high
gravity, good early blight resistance, moderate scab resistance, and generally good yields.
AF2574-1 is in its second year of commercial trials in northern Maine. It is a fresh-
market white with very high yields, good internal quality, and late blight resistance.
Additional promising clones are coming along behind these three clones. More detailed
information on three of these clones is provided later in the report.
Progress on Reds and Specialty Types. Growers have expressed a strong interest in new
red varieties that have smooth skin, attractive appearance when grown on our soils, and
the ability to hold their color in storage. Reds are a critical component of the seed potato
market and new, well-adapted reds will provide opportunities for our seed growers,
especially in VA, NC, FL, and other southern states. Varieties in these classes provide
an opportunity for market differentiation and new, higher-value markets for Maine
potatoes. This is a new component of the breeding program which was established based
3
on grower input. Red-skinned, greenhouse-grown seedling tubers brought in from WI,
ND, and ID have been screened in ME since 2008 and entered testing in FL, NC, and NJ
during 2010. Several are showing excellent potential and the most promising will be
advanced to expanded research trials during 2011. I hope to have the very best of these
out into grower trials within a few years. Yellow-fleshed and other specialty types are
also in various stages of selection and development. Progress of Disease Resistance. Advanced clones in our program typically have
resistance to several important potato pests. As examples, McCain Foods had three of
our clones in 2010 commercial strip trials: AF3362-1 has resistance to scab as well as
excellent bruise resistance; AF3001-6 has excellent verticillium resistance, while
AF3317-15 has very good resistance to late blight, scab, and pink rot. AF2574-1, a
round-white in commercial trials since 2009 has good late blight resistance and very high
yields. Progress in breeding for late blight resistance has been dramatic. We currently
have 58 late blight resistant, third-year or more advanced clones moving through the
program and more coming behind them. The clones will be moved forward based on
field performance and either developed for commercial release or used as breeding
material to produce future commercially valuable cultivars with good field resistance to
late blight. These cultivars would reduce the vulnerability of the crop to losses from late
blight and would potentially allow growers to reduce their fungicide costs. Screening for
late blight resistance is a collaborative effort between our program and Dr. Barbara
Christ’s program at Penn State.
Pink rot resistance screening is conducted by Dr. Dave Lambert using an inoculated, field
evaluation procedure. Five of 13 advanced AF clones has moderate to good pink rot
resistance in 2010 trials. These clones were: AF2291-10, AF3325-1, AF3317-15,
AF3327-28, and AF4047-2. Dr. Lambert and Dr. Benildo de los Reyes continue to work
on developing inheritance and marker-based selection information for pink rot resistance
using several breeding families generated and maintained by our breeding program.
Many of the parents used in our crosses have resistance to golden nematode (Ro1).
Screening for golden nematode (Ro1) resistance is conducted by Dr. Xiaohong Wang
from the USDA-ARS, Ithaca, NY. During 2010, 92 of 110 fourth-year and more
advanced AF clones had resistance to golden nematode (Ro1). Screening for bacterial
ring rot symptom expression is conducted by Dr. Dave Lambert, University of Maine.
The results of all of the disease screening trials are used to help determine which clones
to advance toward cultivar release and which clones to use as parents in our crossing
program.
Common scab resistance is a high priority for the breeding program. Resistance
screening is conducted each year in inoculated trials. During 2010, 26 of 93 clones
screened were rated either MR or R to common scab. Verticillium wilt resistance
screening is conducted each year in inoculated trials. During 2010, 119 of 243 clones
screened were rated either MR or R to verticillium wilt.
Processing and Cooking Quality Screening Trials. Chip color and French fry quality
evaluations are conducted by the breeding program staff. Tuber glycoalkaloid screening
is conducted by Brian Perkins, University of Maine Department of Food Science and
4
Human Nutrition. Advanced selections are screened for boiled quality (after-cooking
darkening and sloughing) by the Department of Food Sciences and Human Nutrition
(M.E. Camire, A. Bushway, and K.Davis Dentici). They also conduct baked quality
evaluations using sensory panels.
Breeding and Selection Approach. Crossing takes place at Aroostook Research Farm
using parents from our program, Cornell University, USDA-ARS, as well as named
varieties. We generate true potato seed from the crosses and use these seeds to produce
greenhouse seedling tubers. Excess greenhouse tubers are exchanged with the USDA-
ARS Idaho, North Dakota, and Wisconsin breeding programs to gain access to russets,
reds, and chippers that will strengthen our program’s ability to provide new varieties for
the Maine industry.
Field selection initially takes place in Northern Maine; however, second- through fourth-
year material is quickly advanced to multi-site field testing in ME, NY, NJ, PA, OH, NC,
FL, and beyond to determine the range of adaptation and assure relatively consistent
performance over production environments. We work with growers and processors to
commercially test the most promising clones and determine which merit commercial
release.
Crosses conducted in the Aroostook Research Farm greenhouse during spring 2010
resulted in 112 families and 73,000 true potato seed (TPS). The top priorities
represented in the 2010 crosses were improved russet, processing, and chipping clones,
especially with late blight resistance. Seedling tubers (44,674) from prior ME crosses
and from germplasm exchanges with other breeding programs (WI, USDA-ARS, VA,
and ND) were planted in the field and selected for performance under ME growing
conditions. We selected 1407 (3.1%) for continued evaluation in 2011. By category the
selections were as follows: 643 (45%) round to oblong white-skinned potatoes for fresh
and/or chipping markets; 191 (14%) red- or purple-skinned potatoes for fresh market or
processing; and 573 (41%) long-tuber-type whites and russets for fresh and/or processing
markets. The selection of 14% red- or purple-skinned potatoes is a marked change for
the program and reflects grower interest in developing red-skinned varieties with
excellent appearance under ME conditions.
A total of 219 second-year clones were selected during fall 2010 (219 out of 966, 22.7%).
Of the selections, 88 (40%) were russets or long whites. There were 92 round-whites
selections (42%) and 39 (18%) were red-skinned or specialty clones. Many of these
clones were derived from parents with late blight and/or other key disease resistance
traits. Chip/fry color was used as a selection criterion for the whites and russets. The
219 selected second-year clones will be advanced to 3rd
year testing during 2010.
Fifteen of 33 (45%) advanced selections (6th
year or older clones) were retained for
further evaluation in ME and elsewhere during 2011. The advanced clones that have
been selected to date are distributed as follows: 9 russets and long whites (60%), 5 round-
whites (33%), and 1 yellow-fleshed (7%). Nineteen of 29 (66%) intermediate selections
(5th
year clones) were retained for further evaluation during 2011. These were distributed
as follows: 8 russets and long whites (42%), 11 round-whites (58%), and 0 colored skin
or specialty clones (0%). Thirty-three of 68 (48%) 4th
year clones were retained for
5
further evaluation during 2011. These were distributed as follows: 18 russets and long
whites (55%), 14 round-whites (42%), and 1 colored skin or specialty clone (3%).
Eighty-five of 153 (56%) 3rd
year clones were retained for further evaluation during
2011. These were distributed as follows: 28 russets and long whites (33%), 38 round-
whites (45%), and 18 colored skin or specialty clone (21%).
Minitubers, N1, or N2 seed of the following advanced clones are available from the
Maine Seed Potato Board or will become available after the 2011 harvest: AF2291-10,
AF2574-1, AF0338-17, AF3001-6, AF3317-15, and AF3362-1.
Licensing/Royalties/Commercialization. Most releases to date have been Public
Releases (the exception was Reeves Kingpin, licensed initially to McCain Foods).
Policies of U.S. Breeding Programs have changed dramatically with Plant Variety
Protection and most are now protected and require licensing and royalties. Most future
releases from the Maine Breeding Program are likely to be via licensing with highly
favorable terms for Maine growers and/or companies. I have worked with stakeholders
and my potato breeding advisory committee to develop a licensing and release plan for
our varieties. Several advanced clones are nearing release pending successful
commercial trials and sufficient grower interest to warrant release.
Acknowledgements. This 2010 research was made possible by funding from the USDA-
CSREES Special Grants Program for Potato Research, the Maine Potato Board, the US
Potato Board, and the University of Maine. We greatly appreciate the input provided by
our cooperators in the NE1031 Regional Project (Potato Breeding and Variety
Development in the Eastern United States) and by our grower and industry cooperators.
We also appreciate the active collaboration provided by the USDA-ARS Potato Breeding
Programs (Aberdeen, ID; Beltsville, MD), the University of Wisconsin Potato Breeding
Program, the North Carolina State University Potato Breeding Program, The North
Dakota State University Potato Breeding Program, and The Cornell University Potato
Breeding Program. We appreciate the many potato breeding and germplasm
improvement programs in North America and Europe that share plant materials that are
used in our crossing program. These include the International Potato Center, the USDA-
ARS Potato Germplasm Collection in Sturgeon Bay (WI) and USDA potato germplasm
improvement programs in Wisconsin and elsewhere.
Assistance from researchers at the University of Maine is greatly appreciated including:
Dave Lambert, Benildo de los Reyes, Andrei Alyokhin, Gary Sewell, Randy Smith, Paul
Ocaya, Aroostook Research Farm Staff, and members of the Department of Food Science
and Human Nutrition (Al Bushway, Mary Ellen Camire, Brian Perkins, Kathy Davis
Dentici, Michael Dougherty, and others). The tissue and seed propagation services
provided by the Maine Seed Potato Board are greatly appreciated.
Finally, Dr. Zenaida Ganga’s leadership of the Maine Potato Breeding Program from
August 2002 to June 2007 is greatly appreciated. We also gratefully acknowledge the
leadership provided long-time potato breeder Dr. Alvin Reeves, who passed away in May
2001.
6
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P1.0
96
4.0
4.3
30.6
10.3
07
75
4
Yukon G
old
OR
WhN
YF
-M
310
280
95
SU
P1.0
96
4.0
4.2
59.3
5.8
07
64
6
Av
era
ge
316
276
94
1.0
88
4.3
4.0
56.5
8.3
4.9
8
2010 In
term
ed
iate
Yie
ld T
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ear
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nes s
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acin
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AF
Clo
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Mat.
cw
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t/A
ST
DS
TD
Gra
vC
hip
B's
>2-1
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HC
ol
Tx
Sh
pA
pp
AF
4108-3
AF
1758-7
AK
209-8
1O
WhN
SM
L411
389
141
SU
P1.0
79
6.0
0.7
83.2
4.7
87
65
5
AF
4121-3
LB
9709-1
AF
84-4
OR
WhN
RL
289
254
92
SU
P1.0
72
4.5
3.2
68.8
9.4
86
54
5
AF
4122-3
LB
9709-1
AF
1953-4
RO
WhN
(YF
)R
L313
291
106
SU
P1.0
83
5.1
5.7
41.2
1.7
36
53
5
R. B
urb
ank
LR
us
SL
372
291
100
RB
1.0
89
5.7
11.5
9.3
10.5
05
47
5
AF
4125-1
Atlantic
SA
8211-6
RW
hN
SM
312
289
105
SU
P1.0
88
3.1
3.4
61.3
4.1
20
76
26
AF
4127-3
SC
8805-1
2R
ed L
asoda
RO
PurN
SM
355
342
114
DR
N1.0
86
3.8
3.8
45.2
0.0
01
63
6
AF
4129-2
AF
1753-1
2A
F1953-4
RO
WhN
SL
336
298
108
SU
P1.0
95
3.6
8.6
38.2
3.0
06
53
5
AF
4130-3
Pik
eA
F1953-4
RW
hN
SM
L381
350
127
SU
P1.0
94
5.3
7.5
31.0
1.1
36
52
5
Snow
den
RO
WhN
SM
L275
237
86
SU
P1.0
98
3.0
8.4
30.9
5.2
86
53
4
AF
4130-7
Pik
eA
F1953-4
RO
WhN
SM
L347
317
115
SU
P1.0
93
5.1
4.9
44.2
3.7
36
53
5
AF
4130-1
3P
ike
AF
1953-4
OR
Wh
SM
270
240
87
SU
P1.0
87
3.6
2.8
62.6
8.5
07
74
6
AF
4138-8
SA
9707-6
AF
1953-4
RW
hS
M339
310
113
SU
P1.0
78
4.3
6.2
40.5
2.4
07
72
6
Atlantic
RO
WhN
SM
L245
206
75
SU
P1.1
03
4.1
2.6
66.7
13.2
23
65
35
AF
4139-1
AH
x5076
AF
1953-4
RO
WhN
SE
M347
301
109
SU
P1.0
96
3.9
12.5
21.1
2.1
37
63
6
AF
4145-1
AW
N8652
W18136-3
Rus
RO
WhN
SM
L300
278
101
SU
P1.0
97
3.7
2.4
52.0
5.6
06
53
5
AF
4147-1
B0564-8
?N
D860-2
RW
hN
SE
M324
286
104
SU
P1.0
93
3.5
9.6
24.8
2.2
06
62
5
AF
4147-4
B0564-8
?N
D860-2
RO
WhN
SE
M437
405
147
SU
P1.0
93
4.2
4.8
51.4
2.4
36
63
6
Shepody
LW
hN
SM
249
188
65
RB
1.0
87
4.6
10.8
24.9
14.5
07
67
4
AF
4148-1
Lib
era
tor
W2504-9
RO
Wh
SL
409
383
139
SU
P1.1
00
3.3
4.5
49.2
2.1
57
73
6
AF
4149-1
MS
G227-2
Dakota
Pearl
RO
WhN
SM
L360
337
123
SU
P1.0
95
3.5
4.9
49.3
1.7
56
63
6
AF
4157-6
Y. C
hip
per
Dakota
Pearl
RO
WhN
SE
M408
358
130
SU
P1.1
00
3.5
7.1
30.0
5.0
07
53
6
AF
4113-2
Silv
ert
on R
.A
75188-3
LW
hS
ML
372
325
112
RB
1.0
95
4.9
7.4
28.4
6.6
07
77
5.5
DR
Norland
OR
RedN
SE
M346
301
100
DR
N1.0
81
4.8
2.9
60.6
10.2
13
26
46
AF
4116-9
CS
79228-1
Silv
ert
on R
.LR
us
SM
302
272
94
RB
1.0
84
4.4
2.2
61.1
7.9
05
37
7
AF
4124-4
A8469-5
SC
9512-4
LW
hN
SM
273
218
75
RB
1.0
87
4.5
8.6
34.7
11.2
36
57
4
AF
4124-7
A8469-5
SC
9512-4
LR
us
SM
L344
290
100
RB
1.0
94
4.3
6.1
43.7
9.9
05
47
5
AF
4145-3
AW
N8652
W18136-3
Rus
LR
us
RL
319
168
58
RB
1.1
03
4.3
9.9
22.0
37.3
05
37
4
Superior
OW
hN
SE
297
275
100
SU
P1.0
90
3.7
2.6
30.3
4.3
07
65
4
AF
4167-1
A96023-6
A97214-4
LO
Rus
SM
L343
278
96
RB
1.0
96
3.3
15.7
5.5
4.4
35
36
6
9
2010 In
term
ed
iate
Yie
ld T
rial (5
th-y
ear
clo
nes s
ele
cte
d f
rom
th
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ill p
lots
) 20 h
ills
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ep
s, 10"
sp
acin
g, 140 lb
s N
Pla
nte
d M
ay 1
8. V
inekill
ed A
ugust 23 (
97 D
AP
). H
arv
este
d S
epte
mber
13.
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%N
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Ped
igre
e:
LB
LV
ine
To
tal
US
#1
%S
pec
50F
%%
Ext.
%T
ub
er
Co
des:
AF
Clo
ne#
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ale
Male
Typ
eT
est
Mat.
cw
t/A
cw
t/A
ST
DS
TD
Gra
vC
hip
B's
>2-1
/2D
efs
.H
HC
ol
Tx
Sh
pA
pp
AF
4172-2
A95523-1
2A
92158-3
LR
us
SM
390
320
110
RB
1.1
00
3.6
13.1
15.5
5.2
05
37
6
AF
4185-1
A81386-1
A82542-2
3F
RLR
us
SM
L357
277
95
RB
1.0
79
4.2
17.2
8.9
5.2
05
37
5
AF
4191-2
AO
97044-1
7A
95154-1
LR
us
RM
374
246
84
RB
1.0
86
4.9
25.2
4.1
9.5
05
37
5
Yukon G
old
OR
WhY
FS
M392
355
129
SU
P1.0
98
4.9
4.2
58.2
5.3
07
74
6
Av
era
ge
339
293.2
104
1.0
91
4.2
7.3
39.4
6.7
3.2
10
2010 P
relim
inary
Yie
ld T
rial (4
th-y
ear
clo
nes s
ele
cte
d f
rom
th
e 2
009 n
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60-h
ill p
lots
) 20 h
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ep
s, 10"
sp
acin
g, 120 lb
s N
Pla
nte
d M
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8. V
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ugust 20 (
94 D
AP
). H
arv
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d S
epte
mber
13.
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E1031
Ped
igre
e:
LB
LV
ine
To
tal
US
#1
%S
pec
50F
%%
Ext.
%T
ub
er
Co
des:
AF
Clo
ne
Fem
ale
Male
Typ
eT
est
Mat.
cw
t/A
cw
t/A
ST
DS
TD
Gra
vC
hip
B's
>2-1
/2D
efs
.H
HC
ol
Tx
Sh
pA
pp
AF
4203-4
Cam
pbell
13
AF
875-1
7O
RW
hN
MS
ML
287
257
86
SN
1.0
93
5.0
2.9
59.3
7.3
57
54
5
AF
4205-1
Lehig
hA
F1611-9
OR
WhY
FS
ME
302
283
95
SN
1.0
87
6.4
6.3
28.7
0.9
07
74
6
AF
4220-4
AF
522-5
AF
1611-9
RW
hN
SM
385
333
111
SN
1.0
88
7.6
6.9
38.9
6.7
07
62
7
AF
4222-4
AF
522-5
B5052-7
RW
hS
M307
297
99
SN
1.1
05
4.0
2.3
53.2
0.9
07
72
6
AF
4227-2
AF
875-1
7C
am
pbell1
3R
WhN
SM
320
293
98
SN
1.0
83
4.0
4.4
42.7
4.0
10
65
26
AF
4227-4
AF
875-1
7C
am
pbell1
3R
WhN
SM
E279
248
83
SN
1.0
90
3.0
8.5
35.1
2.5
06
52
5
AF
4236-1
SC
9013-1
Cam
pbell1
3R
OW
hN
SM
269
243
81
SN
1.0
84
4.0
9.7
27.4
0.0
07
63
6
AF
4240-3
SC
9512-4
AF
290-5
RO
Wh
SM
L277
263
88
SN
1.0
98
3.0
3.7
58.3
1.3
07
73
6
AF
4241-1
SC
9512-4
B6116-1
8R
OW
hN
SM
L295
282
94
SN
1.0
85
4.0
4.0
43.2
0.4
06
63
6
DR
Norland
OR
RedN
E
318
304
100
DR
N1.0
83
5.0
4.5
17.4
0.0
02
64
6
AF
4245-2
AS
201-1
0A
F290-5
RW
hN
SM
L320
271
91
SN
1.0
97
3.6
13.7
14.8
1.9
57
62
6
AF
4252-5
MN
99352-2
AF
290-5
RW
hN
RM
L214
190
63
SN
1.0
93
4.0
9.2
24.8
2.3
06
52
5
AF
4254-2
A8469-5
AF
290-5
RO
WhN
SM
L358
311
104
SN
1.1
01
4.0
5.1
36.6
8.0
07
53
6
AF
4280-1
LB
R9
AF
875-1
7R
WhN
RM
263
230
77
SN
1.0
95
3.6
12.2
3.2
0.5
06
52
5
AF
4307-1
A97070-5
1LB
A95162-1
OR
WhN
RM
L357
309
103
SN
1.1
00
4.0
13.7
5.3
0.0
07
64
5
AF
4360-5
A91790-1
3W
1151R
uss
RO
Wh
SE
367
325
109
SN
1.0
83
5.4
5.5
43.8
5.8
08
73
6
AF
4363-2
A91790-1
3W
2309-7
RO
Wh
SM
341
307
103
SN
1.1
03
3.0
7.6
34.0
2.2
08
83
6
AF
4363-5
A91790-1
3W
2309-7
OR
Wh
SL
318
288
96
SN
1.0
97
3.0
6.1
31.6
3.3
08
74
6
AF
4372-2
W3145-5
Marc
yO
Wh
MS
L348
300
100
SN
1.0
90
4.4
7.6
41.7
6.7
08
75
4
AF
4198-2
A8469-5
R. K
ingpin
LR
us
SM
L427
387
134
RB
1.0
95
4.4
9.5
8.7
0.0
05
47
5
AF
4200-5
R. K
ingpin
MN
99352-2
LO
WhN
RM
330
276
96
RB
1.0
99
4.4
13.6
6.0
2.7
07
56
5
AF
4222-5
AF
522-5
B5052-7
LR
us
SM
L298
248
86
RB
1.0
82
6.8
12.8
16.2
4.1
05
37
6
R. B
urb
ank
LR
us
L343
289
100
RB
1.0
92
6.4
13.5
6.1
2.3
06
47
4
AF
4248-1
PI6
19151
Monta
nosa
OW
hY
FM
RM
L278
154
53
RB
1.1
01
4.6
45.1
4.2
1.8
08
85
5
AF
4260-2
AN
D9552-4
AF
235-5
LO
Rus
SL
289
246
85
RB
1.0
92
5.0
6.7
36.7
8.2
05
26
6
AF
4281-3
A98083-9
A91814-5
LO
Rus
SL
451
422
146
RB
1.0
98
4.2
6.0
20.2
0.7
06
46
5
AF
4283-1
A98084-6
A92030-5
LR
us
SL
351
248
86
RB
1.0
94
5.6
13.5
8.5
17.7
06
47
6
AF
4296-3
A99081-8
A96095-3
LR
us
SM
L328
275
95
RB
1.0
91
5.2
6.6
13.3
9.5
05
37
4
Snow
den
RW
hN
ML
334
299
100
SN
1.1
01
4.0
8.6
29.5
2.1
06
52
5
11
2010 P
relim
inary
Yie
ld T
rial (4
th-y
ear
clo
nes s
ele
cte
d f
rom
th
e 2
009 n
ew
60-h
ill p
lots
) 20 h
ills
, 2 r
ep
s, 10"
sp
acin
g, 120 lb
s N
Pla
nte
d M
ay 1
8. V
inekill
ed A
ugust 20 (
94 D
AP
). H
arv
este
d S
epte
mber
13.
Dec
%N
E1031
Ped
igre
e:
LB
LV
ine
To
tal
US
#1
%S
pec
50F
%%
Ext.
%T
ub
er
Co
des:
AF
Clo
ne
Fem
ale
Male
Typ
eT
est
Mat.
cw
t/A
cw
t/A
ST
DS
TD
Gra
vC
hip
B's
>2-1
/2D
efs
.H
HC
ol
Tx
Sh
pA
pp
AF
4303-1
A95053-6
1A
C93026-9
LR
us
RL
343
265
92
RB
1.0
92
6.0
11.5
8.3
11.3
55
47
5
AF
4305-1
A96764-1
9A
O96893-3
LO
RusY
FM
RL
279
231
80
RB
1.0
87
4.0
16.6
10.2
0.8
05
36
5
AF
4310-2
Stirlin
gA
98292-2
OR
us
RL
378
324
112
RB
1.0
86
6.0
11.4
21.9
2.9
55
45
5
AF
4320-7
A99081-8
A97214-4
LR
us
SL
307
252
87
RB
1.0
91
5.0
8.7
11.3
9.1
05
37
6
AF
4320-1
5A
99081-8
A97214-4
LR
us
SL
387
299
103
RB
1.1
03
4.0
13.5
11.8
9.4
05
47
5.5
AF
4320-1
7A
99081-8
A97214-4
LO
Rus
SM
308
252
87
RB
1.0
92
4.0
14.2
8.8
4.4
05
36
7
AF
4322-5
A95061-9
3LB
A96095-3
LO
Rus
SM
E336
304
105
RB
1.0
84
6.0
7.0
18.4
2.7
05
36
6
AF
4323-7
A96814-6
5LB
A97214-4
LO
Rus
SE
313
184
64
RB
1.1
01
3.0
23.5
2.8
17.6
05
36
6
AF
4329-4
A00487-2
2LB
A92030-5
LO
Rus
MR
M284
211
73
RB
1.0
92
5.0
24.1
2.2
1.2
05
46
6
AF
4329-7
A00487-2
2LB
A92030-5
LO
Rus
RM
L366
290
100
RB
1.0
88
6.6
13.2
7.1
7.6
05
46
6
AF
4342-3
A97214-4
A98295-3
LR
us
SL
302
265
92
RB
1.0
96
4.0
3.1
39.8
9.1
05
37
4
AF
4347-1
Ranger
Rus.
A98295-3
LO
Rus
SL
422
375
130
RB
1.0
95
7.0
6.0
26.1
4.9
05
36
4
AF
4352-2
Wallo
w R
us.
A98328-4
LO
Rus
MS
L324
302
104
RB
1.0
96
4.4
6.2
17.5
0.7
06
46
4
AF
4357-2
A00444-4
LB
A99032-2
TE
LO
WhN
YF
RM
299
234
81
RB
1.1
03
4.0
18.5
7.5
3.1
06
56
5
AF
4359-1
0B
lazer
R.
W1836-3
RU
SLW
hN
SM
L345
288
100
RB
1.0
92
4.8
9.0
13.7
7.4
06
57
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