This presentation was given at the Horticulture Industries Show in Fort Smith, Arkansas in January 2015. We describe modifications made to high tunnels to improve the production of blackberries and raspberries, based on research conducted at the University of Arkansas in Fayetteville.

1. Modifying High Tunnels for Improved
Performance
Jason McAfee
Curt Rom, Luke Freeman, Heather Friedrich, Spencer Fiser, Julia Stover
Donn Johnson, Barbara Lewis, Jennie Popp, Elena Garcia

2. Background
High Tunnels are being studied and used for
• Season extension of berry crops
• Advance the spring crop
• Extend the fall crop
• Environmental protection
• Freezes, frosts, rains
• Pest exclusion

3. The Need for High Tunnel
Modifications/Additions
• More heating in early spring and late fall to extend harvest
• More protection in early spring and late fall to protect flowers/fruit
• Less heat in the summer months
• Cooling options for late summer months

4. Sub-studies for Potential Tunnel
Modifications/Additions to Extend, Protect Crops
1. Tunnels in Tunnels (TnT)
• Build temporary TnT in order to provide additional environmental
modification of the tunnel system in spring and fall to provide more heat
2. Summer Shading
• Apply shade over plant canopies to reduce heat stress and potentially delay
flowering in primocane fruiting blackberry and raspberry
3. Overhead Mist Systems (not being presented)
• Install overhead mist lines as an add-on to existing irrigation line to help cool
during severe heat

5. Spring Frosts by Region
 One single layer of poly provides one hardiness zone of protection
Source: www.hightunnels.org

6. Sub-study 1. Tunnels in Tunnels (TnT)
Research and Objectives
• Spring Production Systems – Floricane berries
1. Increase heat unit accumulation to advance the crop
2. Provide increased frost/freeze protection during freezing events during early
season bloom – protecting flowers
• Fall Production Systems – Primocane berries
1. Increase heat unit accumulation to maintain flowering longer through the season
2. Increase heat unit accumulation to sustain fruit maturation
3. Provide increased frost/freeze protection during freezing events during fruit
ripening – protecting fruit

7. Effect of TnT on Spring ‘Natchez’ Blackberry Yield
0
2000
4000
6000
8000
10000
12000
14000
16000
18000
20000
6/13 6/18 6/23 6/28 7/3 7/8 7/13 7/18 7/23 7/28
CumulativeYield(gper10ftplot)
Date
2013
TNT
HT
FD
19,363 lbs/A
15,549 lbs/A
3,766 lbs/A
0
5000
10000
15000
20000
25000
30000
5/26 6/5 6/15 6/25 7/5 7/15 7/25 8/4
CumulativeYield(gper10ftplot)
Date
2014
TNT
HT
FD
10,030 lbs/A
22,897 lbs/A
28,334 lbs/A

8. Effect of TnT on Spring ‘Natchez’ Blackberry Quality
0.0
2.0
4.0
6.0
8.0
10.0
12.0
14.0
FD HT TNT FD HT TNT
2013 2013 2013 2014 2014 2014
grams
Treatment
Berry Weight (g)
N=3
0
20
40
60
80
FD HT TNT FD HT TNT
2013 2013 2013 2014 2014 2014
%
Treatment
Marketable Yield (%)
N=3
0.0
2.0
4.0
6.0
8.0
10.0
12.0
14.0
FD HT TNT FD HT TNT
2013 2013 2013 2014 2014 2014
brix
Treatment
Soluble Solids
N=3

9. Effect of TnT on Fall ‘Prime-Ark 45’ Blackberry Yield
0
1000
2000
3000
4000
5000
6000
7000
8000
7/20 8/9 8/29 9/18 10/8 10/28
CumulativeYield(gramsper10ftplots)
Date
2014
TNT
HT
FD
= ~7,446 lbs/A
= ~7,030 lbs/A
= ~4,672 lbs/A
*lbs/A calculated at 8 ft row spacing
0
2000
4000
6000
8000
10000
12000
14000
7/25 8/14 9/3 9/23 10/13 11/2 11/22 12/12
CumulativeYield(gramsper10ftplots)
Date
2013
TNT
HT
FD
= ~12,308 lbs/A
= ~11,889 lbs/A
= ~7,090 lbs/A
*lbs/A calculated at 8 ft row spacing

10. Effect of TnT on Fall ‘Prime-Ark 45’ Blackberry Quality
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
FD HT TNT FD HT TNT
2013 2013 2013 2014 2014 2014
grams
Treatment
Berry Weight (g)
N=3
0
10
20
30
40
50
60
70
80
FD HT TNT FD HT TNT
2013 2013 2013 2014 2014 2014
%
Treatment
Marketable Yield (%)
N=3
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
10.0
FD HT TNT FD HT TNT
2013 2013 2013 2014 2014 2014
brix
Treatment
Soluble Solids
N=3

11. TnT Study Seasonal Summary
Spring
• TnT has potential to increase yields 1-2 weeks earlier than HT, 2-3 weeks earlier than field
• Growers may want to consider having a combination of both TnT and HT when considering windows of production
in spring
• Both TnT and HT protect the crop during poor weather conditions such as wet springs, late frosts
• TnT can limit pollination
• HT significantly increased berry weight across two growing seasons, TnT increased for one
• TnT and HT both significantly increased marketable yield percentage compared to field both seasons
• Field showed significantly greater sugar content in both seasons
Fall
• TnT and HT significantly increased yield by ~40% for an extended fall season
• TnT and HT significantly increased yields on average 30-40% for a short fall season (early frost)
• TnT and HT showed increased berry weight although variable between seasons
• HT significantly increased sugar content for both growing seasons, TnT showed greater than field in one season

12. TnT Schematic

13. Methanol
chafing dish
burners
1/50sqft
Burn 6-7 hrs

14. Effect of high tunnel and tunnel in tunnel (TnT) on daily average temperature over a 1 month period October-November, 2013.
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11/25
TempoC
Time
Field High Tunnel TnT

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TempoC
Time
Field High Tunnel TnT
Effect of high tunnel and tunnel in tunnel on daily low temperature over a 1 month period October-November, 2013.
Heating No Heating

16. Effect of high tunnel and tunnel in tunnel on ambient temperature difference over a 1 month period October-November, 2013.
-10
-5
0
5
10
TempoC
Time
Field High Tunnel TnT
Heating
Heating
No Heating

17. Effect of high tunnel and tunnel in tunnel on temperatures over a 1 month period October-November, 2013.
Avg. Temp
(oC)
Avg. Minimum Temp
(oC)
Ambient Temp Difference
(oC)
Freeze Exposure
(hrs/day)
Trt N Mean N Mean N Mean N Mean
TnT 96 14.3 aZ 96 6a 96 1.8 a 96 0.4 b
HT 96 12.1 b 96 4.3 b 96 0.1 b 96 1.2 ab
Field 96 10.6 c 96 4.2 b 96 0 b 96 2 a
Prob > F <0.0001 0.035 0.0004 <0.0001
Z
Mean separation using LSD for comparisons and means followed by different letters are significantly different,
α=0.05.

18. Effect of high tunnel and tunnel in tunnel on temperature with supplemental heating over a 48 hour period November 12-13,
2013.
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-5
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40
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19:00
20:00
21:00
22:00
23:00
TempoC
Time
Field High Tunnel TnT
Heat Started
Daytime

19. Effect of high tunnel and tunnel in tunnel on ambient temperature difference with supplemental heating over a 48 hour period
November 12-13, 2013.
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-5
0
5
10
15
20
25
0:00
1:00
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23:00
TempoC
Time
Field High Tunnel TnT
Heat Started
Daytime

20. Table 3. Effect of high tunnel and tunnel in tunnel on temperatures with supplemental heating over a 48 hour period
November 12-13, 2013.
Avg. Temp (oC) Avg. Minimum Temp (oC)
Ambient Temp Difference
(oC) Freeze Exposure (hrs)
Trt N Mean N Mean N Mean N Mean
TnT 6 15.1 aZ 6 1.3 a 6 7.1 a 6 0.5 b
HT 6 9.8 b 6 -3.1 b 6 2.8 b 6 4.3 a
Field 6 4.4 c 6 -5.8 b 6 0 c 6 7.7 b
Prob > F <0.0001 0.0009 <0.0001 0.003
Z
Mean separation using LSD for comparisons and means followed by different letters are significantly different,
α=0.05.

21. Effect of high tunnel and tunnel in tunnel on temperature with no supplemental heating over a 48 hour period November 23-24,
2013.
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-5
0
5
10
15
20
25
0:00
1:00
2:00
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15:00
16:00
17:00
18:00
19:00
20:00
21:00
22:00
23:00
TempoC
Time
Field High Tunnel TnT
Daytime

22. Effect of high tunnel and tunnel in tunnel on ambient temperature difference with no supplemental heating over a 48 hour period
November 23-24, 2013.
-10
-5
0
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10
15
20 0:00
1:00
2:00
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18:00
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23:00
TempoC
Time
Field High Tunnel TnT
Daytime

23. Table 4. Effect of high tunnel and tunnel in tunnel on temperatures with no supplemental heating over a 48 hour
period November 23-24, 2013.
Avg. Temp
(oC)
Avg. Minimum Temp
(oC)
Ambient Difference Temp
(oC)
Freeze Exposure
(hrs)
Trt N Mean N Mean N Mean N Mean
TnT 6 5.1 aZ 6 -1.6 a 6 3.4 a 6 6
HT 6 2.5 ab 6 -4 ab 6 1.1 b 6 7
Field 6 -0.3 b 6 -5.1 b 6 0 c 6 14
Prob > F 0.007 0.03 <0.0001 ns
Z
Mean separation using LSD for comparisons and means followed by different letters are significantly different,
α=0.05.

24. TnT Study Summary
• Tunnels provide increased daily heat accumulation
• Tunnels provide minimal heat conservation during a frost
• Tunnels with supplemental heat had some temperature increase
• TnT provide increased daily heat accumulation over tunnels
• TnT provide increased heat conservation during a frost
• TnT with supplemental heat had significant temperature increase

25. Sub-study 2. High Tunnel Shading of Brambles
Research Objectives
• Focus: Fall high tunnel study
• Place shade structures over plant canopies of both blackberry and
raspberry ~July 1 for 30 days to reduce heat stress and delay
flowering
• Delaying flowering and reducing heat stress may have potential to
increase marketable yields

26. Effects of Shade on ‘Prime-Ark 45’Blackberry
Yield
0
1000
2000
3000
4000
5000
6000
7000
8/14 9/3 9/23 10/13 11/2 11/22 12/12
CumulativeYield(gper10ftplots)
Date
2013
No Shade
Shade
N=3
= ~6,809 lbs/A
= ~4,360 lbs/A
*lbs/A calculated at 8 ft row spacing
0
1000
2000
3000
4000
5000
6000
7000
8000
7/20 8/9 8/29 9/18 10/8 10/28
CumulativeYield(gper10ftplots)
Date
2014
No Shade
Shade
N=3
= ~7,588 lbs/A
= ~5,604 lbs/A
*lbs/A calculated at 8 ft row spacing

27. Effects of Shade on ‘Prime-Ark 45’Blackberry
Quality
0
1
2
3
4
5
6
7
8
NoShade Shade NoShade Shade
2013 2013 2014 2014
grams
Treatment
Berry Weight (g)
N=3
0
20
40
60
80
100
NoShade Shade NoShade Shade
2013 2013 2014 2014
%
Treatment
Marketable Yield (%)
N=3
0
2
4
6
8
10
NoShade Shade NoShade Shade
2013 2013 2014 2014
brix
Treatment
Soluble Solids
N=3

28. Effects of Shade on Raspberry Yield
0
500
1000
1500
2000
2500
7/5 7/25 8/14 9/3 9/23 10/13 11/2 11/22 12/12
CumulativeYield(gper10ftplots)
Date
2013
No Shade
Shade
N=3
= ~2,471 lbs/A
= ~1,787 lbs/A
*lbs/A calculated at 8 ft row spacing

29. Effects of Shade on ‘Nantahala’ Raspberry Quality
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
NoShade Shade
grams
Treatment
Berry Weight (g)
0.0
10.0
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30.0
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50.0
60.0
70.0
80.0
NoShade Shade
%
Treatment
Marketable Yield (%)
N=3
0.0
1.5
3.0
4.5
6.0
7.5
9.0
10.5
12.0
NoShade Shade
brix
Treatment
Soluble Solids
N=3
N=3

30. HT Shade Study Summary and Conclusions for
Blackberry
• Shading ~1 month before fruiting showed no effect on reducing heat
during flowering
• Shade significantly reduced flowering (not pollination)
• Shade significantly increased cumulative yield on average 30-40%
over two growing seasons
• Shade increased berry weight in blackberry but could be contributed
to lower yields (further statistical analysis needed)
• Shade significantly increased marketable yield percentage in one
growing season but not enough to justify cost and labor of shading
• Shade had no effect on sugar content

31. HT Shade Study Summary for Raspberry
• Shading ~1 month prior to expected yields significantly increased
yield in ‘Nantahala’ raspberry by ~30% for one growing season
• Additional season of data needed to conclude effect on yield
• Shade reduced overall raspberry quality by significantly reducing
berry size and marketable yield percentage
• Shade did not have any effect on sugar content of raspberry
• Reducing the amount of shade may have potential to increase fruit
quality

32. What have we learned?
• TnT can be a good tool for growers for enhancing and protecting seasonal
bramble yields
• Growers should consider TnT as a tool for increasing early spring yields
• TnT has potential to be a good tool in the fall for protecting and extending
harvest but will vary by year
• TnT is not outperforming HT in fall production
• HT can serve as a form of crop insurance for growers during seasonal
occurrence of bad weather (wet springs, late frosts)
• Shading mid-late summer for fall primocane producing blackberry is NOT
recommended
• Shading mid-late summer for fall raspberry production should be
considered and additional seasons of data needed to confirm

33. Thank you!
Questions?