scholarly journals Rowcovers and High Tunnels Enhance Crop Production in the Northeastern United States

1993 ◽  
Vol 3 (1) ◽  
pp. 92-95 ◽  
Author(s):  
Otho S. Wells ◽  
J. Brent Loy
Keyword(s):  
Return On Investment ◽  
Capital Investment ◽  
Crop Production ◽  
Environmental Control ◽  
Growing Season ◽  
Management Program ◽  
High Tunnel ◽  
High Tunnels ◽  
Season Extension ◽  
Selection Of

Crop growth is enhanced with the use of relatively inexpensive rowcovers and high tunnels. Even though these structures do not provide the same degree of environmental control as greenhouses, they modify the climate sufficiently to lengthen the growing season from 1 to 4 weeks in the spring and 2 to 8 weeks in the fall. Rowcovers generally remain over a crop for 2 to 4 weeks, whereas a high tunnel may function for an entire growing season. Both systems require a relatively low capital investment, provide a good return on investment, and improve the ability of new growers to succeed in the crop production business. The selection of either rowcovers or high tunnels will depend on the management program of a grower; however, both growing systems potentially are economically viable means of season extension.

scholarly journals Engineering Principles Impacting High-tunnel Environments

2009 ◽  
Vol 19 (1) ◽  
pp. 30-33 ◽  
Author(s):  
Gene A. Giacomelli
Keyword(s):  
Quality Improvement ◽  
Plant Growth ◽  
Control Systems ◽  
Crop Production ◽  
Environmental Control ◽  
High Technology ◽  
High Tunnel ◽  
High Tunnels ◽  
Season Extension ◽  
New Crop

High tunnels are a special type of greenhouse with primary operational goals of season extension, crop quality improvement, and new crop production opportunities to reach unique markets. From an engineering viewpoint, high tunnels have many of the same design concerns as larger, more complex greenhouses. They capitalize on the greenhouse effect as do all enclosed plant growth structures. However, less automated environmental control systems are required for the desired crop production. Tunnel designs are less complex and less expensive than large high-technology greenhouse ranges, but they must be designed and constructed with the fundamental assurance of structural stability, safety, efficient layout, appropriate environmental control, and effective crop management in mind.

scholarly journals Early-season Extension Using June-bearing ‘Chandler’ Strawberry in High-elevation High Tunnels

HortScience ◽  
2010 ◽  
Vol 45 (10) ◽  
pp. 1464-1469 ◽  
Author(s):  
Daniel Rowley ◽  
Brent L. Black ◽  
Dan Drost ◽  
Dillon Feuz
Keyword(s):  
Root Zone ◽  
Growing Season ◽  
The United States ◽  
High Elevation ◽  
Planting Dates ◽  
High Tunnel ◽  
Small Fruit ◽  
High Tunnels ◽  
Ground System ◽  
Season Extension

High tunnels have been used successfully in many areas of the world to extend the growing season for numerous crops. However, very little research has been conducted to evaluate the season extension benefits offered by high tunnels for small fruit crops in high-elevation growing areas such as the Intermountain West region of the United States. The use of high tunnels was investigated in North Logan, UT (lat. 41.766 N, elev. 1405 m, 119 freeze-free days) to extend the growing season for June-bearing strawberries. Growing systems included a fall-planted annual hill system and vertical growing systems in two different orientations. Optimum planting date for each system was determined by transplanting ‘Chandler’ plugs at 2-week intervals over 10 weeks. For the second year of the study, a field planting was also included. Over two seasons, the optimum planting dates were approximately the first week of September. The vertical systems were more susceptible to winter injury likely resulting from the temperature extremes in the root zone. Where winter injury was prevented, the vertical systems had higher yields per tunnel area than the in-ground system, but yield increases did not compensate for higher construction and management costs. The production window for the in-ground high tunnel planting was ≈4 weeks earlier than the field-grown plants and increased profitability by $13/m2 of tunnel area.

scholarly journals Alternative Strategies to Manage Weather Risk in Perennial Fruit Crop Production

2018 ◽  
Vol 47 (3) ◽  
pp. 452-476 ◽  
Author(s):  
Shuay-Tsyr Ho ◽  
Jennifer E. Ifft ◽  
Bradley J. Rickard ◽  
Calum G. Turvey
Keyword(s):  
Crop Production ◽  
Weather Data ◽  
Eastern United States ◽  
Economic Implications ◽  
High Tunnel ◽  
Wide Range ◽  
High Tunnels ◽  
Revenue Insurance ◽  
Tunnel System ◽  
Weather Insurance

Fruit producers in the Eastern United States face a wide range of weather-related risks that have the capacity to largely impact yields and profitability. This research examines the economic implications associated with responding to these risks for sweet cherry production in three different systems: high tunnels, revenue insurance, and weather insurance. The analysis considers a distribution of revenue flows and costs using detailed price, yield, and weather data between 1984 and 2013. Our results show that the high tunnel system generates the largest net return if significant price premiums exist for earlier and larger fruit.

scholarly journals Management Practices of Growers Using High Tunnels in the Central Great Plains of the United States

2010 ◽  
Vol 20 (3) ◽  
pp. 639-645 ◽  
Author(s):  
Sharon J.B. Knewtson ◽  
Edward E. Carey ◽  
M.B. Kirkham
Keyword(s):  
Great Plains ◽  
Crop Production ◽  
Management Practices ◽  
Spinacia Oleracea ◽  
Organic Soil ◽  
The United States ◽  
Limiting Factor ◽  
High Tunnel ◽  
Leafy Greens ◽  
High Tunnels

A survey was conducted of 81 growers managing 185 high tunnels in Missouri, Kansas, Nebraska, and Iowa to collect information about their high tunnel management practices. The survey was administered from 2005 to 2007 using internet-based and written forms. The average respondent had 4 years of high tunnel experience. The oldest tunnel still in use was 15 years old. Twenty-five percent of respondents grew crops in their high tunnels year-round. Tomato (Solanum lycopersicum), lettuce (Lactuca sativa), spinach (Spinacia oleracea), cucumber (Cucumis sativus), pepper (Capsicum spp.), leafy greens, and flowers were the most common crops. Organic soil amendments were used exclusively by 35% of growers, and in combination with conventional fertilizers by an additional 50% of growers. The summary of management practices is of interest to growers and the industries and university research and extension scientists who serve them. Growers typically reported satisfaction with their high tunnels. Growers with more than one high tunnel had often added tunnels following the success of crop production in an initial tunnel. Labor for crop maintenance was the main limiting factor reported by growers as preventing expanded high tunnel production.

scholarly journals Orientation of Small Hobby High Tunnels and Potential Effects on Cut Sunflowers and Fresh Herbs

2019 ◽  
Vol 29 (4) ◽  
pp. 461-467
Author(s):  
Karen L. Panter ◽  
Timmothy M. Gergeni ◽  
Casey P. Seals ◽  
Andrea R. Garfinkel
Keyword(s):  
Crop Production ◽  
Plant Growth And Development ◽  
Origanum Vulgare ◽  
Horticultural Crop ◽  
High Tunnel ◽  
Horticultural Crops ◽  
High Tunnels ◽  
Culinary Herbs ◽  
Origanum Majorana ◽  
East West

High tunnels are gaining popularity for their use in horticultural crop production. However, little is known about the effect of high tunnel orientation on plant growth and development. In this set of studies, we show tunnel orientation does not necessarily affect the production of cut sunflower (Helianthus annuus) and culinary herbs oregano (Origanum vulgare), marjoram (Origanum majorana), and garlic chive (Allium tuberosum). Two high tunnels, one with the long axis oriented north-south (NS) and the other east-west (EW), were used to test the effects of high tunnel orientation on several crops over a 5-year period: cut sunflower (2012 and 2016); marjoram, oregano, and garlic chive (2013 and 2014); and garlic chive (2015). The tunnels are 12 × 16 ft, smaller than those used in commercial production. The size would be appropriate for hobby and seasonal production of horticultural crops for local markets. Cut sunflower stems were similar lengths both years in both high tunnels. Sunflower times to harvest were different between cultivars but not between high tunnels. Oregano fresh weight yields were highest in the NS tunnel in 2013 but similar between tunnels in 2014. Marjoram fresh weights were highest in 2013 in the EW tunnel but highest in 2014 in the NS tunnel. Garlic chive fresh weights were similar between tunnels all 3 years. We show that differences are more a function of innate cultivar characteristics than which way small high tunnels are oriented.

scholarly journals Colored Bell Pepper Yields from Cultivars Grown in High Tunnels in Northern New England

2020 ◽  
Vol 30 (3) ◽  
pp. 456-462
Author(s):  
Rebecca Grube Sideman
Keyword(s):  
New England ◽  
Management Strategies ◽  
Growing Season ◽  
Bell Pepper ◽  
Marketable Yield ◽  
High Tunnel ◽  
Growing Seasons ◽  
High Tunnels ◽  
Bell Peppers ◽  
Controlled Environments

High tunnels can facilitate production of ripe colored bell peppers (Capsicum annuum) in locations with short growing seasons by extending the length of the growing season and protecting fruit from biotic and abiotic stressors. We grew 10 cultivars of bell pepper over 3 years in a high tunnel in Durham, NH. Yields of marketable colored fruit ranged from 1576 to 2285 g/plant in 2015, from 1194 to 1839 g/plant in 2016, and 1471 to 2358 g/plant in 2017. Significant differences in marketable yield among cultivars existed only in 2015 and 2017. Of the 10 cultivars evaluated, those developed for controlled environments produced greater marketable yields than those developed for production in the field or unheated tunnels (P < 0.0001). The seasonal production patterns were similar among cultivars in all 3 years: a single peak in production occurred between 159 and 175 days after seeding, followed by much lower but steady production until frost ended each growing season. Our results demonstrate that reasonable yields of colored bell peppers can be produced in high tunnels in locations with short growing seasons. We suggest that further work may be needed to identify optimal pruning and canopy management strategies to maximize yields and fruit quality.

scholarly journals (84) Producing Cut Flowers in High Tunnels and Open Fields

HortScience ◽  
2006 ◽  
Vol 41 (4) ◽  
pp. 1067D-1067
Author(s):  
H. Chris Wien
Keyword(s):  
Warm Season ◽  
Single Layer ◽  
Stem Length ◽  
Pest Species ◽  
Cut Flowers ◽  
Eustoma Grandiflorum ◽  
High Tunnel ◽  
High Tunnels ◽  
Season Extension ◽  
Choice Of Species

Flowering plants grown and marketed locally as cut flowers have become economically important in recent years, concentrating on species that are too delicate to ship long distances. Although the bulk of this production is done outdoors, extending the season at both ends by using high tunnels (unheated greenhouse structures covered with a single layer of polyethylene), has become popular. To determine the advantages and drawbacks of using high tunnels as season extension structures for cut flowers, variety trials of seven and four flower species were conducted in 2004 and 2005, respectively, both in a high tunnel and in an adjacent field. In the cool, rainy 2004 season, plants in the tunnel were ready for harvest 20 days sooner than the same varieties outside. Outside plants had 25% more stems than tunnel-grown plants, but there was no difference in average stem length. In the dry, warm season of 2005, tunnel-grown plants were 8 days earlier, and had 58% more stems, which were increased in length by 16% over field-grown plants. Lisianthus (Eustoma grandiflorum) and snapdragons (Antirrhinum) were grown in both seasons, and gave similar results both times. Tunnel-grown lisianthus showed a 34% increase in stems per plant, and an 8% increase in stem length, and the stems could be harvested 8 days earlier. Snapdragons were 9 days earlier in the tunnel both years, but tunnel-grown plants produced 22% fewer stems. Disease and insect pressures occurred in both locations, but pest species causing problems differed. With careful choice of species to be grown in tunnels, cut flower production in this environment can be optimized.

scholarly journals Influence of High Tunnel Microclimate on Fruit Quality and Calcium Concentration in ‘Santina’ Sweet Cherries in a Mediterranean Climate

Agronomy ◽  
2021 ◽  
Vol 11 (6) ◽  
pp. 1186
Author(s):  
Victor Blanco ◽  
Juan Pablo Zoffoli ◽  
Marlene Ayala
Keyword(s):  
Fruit Quality ◽  
Mediterranean Climate ◽  
Growing Season ◽  
Fruit Yield ◽  
Soluble Solids ◽  
Postharvest Quality ◽  
High Tunnel ◽  
Fruit Cracking ◽  
High Tunnels ◽  
Sweet Cherries

The use of protective covers, such as high tunnels, is recognized as an effective technology to reduce rain-induced fruit cracking in sweet cherries; however, there is a lack of information concerning the effects of this production system on the fruit’s mineral concentration, quality, and postharvest life. This study assesses the feasibility of using high tunnels on ‘Santina’ sweet cherries under the Mediterranean climate of the Central Valley of Chile to obtain earlier harvests of high-quality fruit with long storage life. The study included two plots: Plot 1 during the 2018/2019 growing season, and Plot 2 during the 2019/2020 growing season. High temperatures and relative humidity inside the high tunnels during bloom and fruit set decreased fruit yield, particularly in Plot 1. On average, trees inside the high tunnels were harvested 11 days earlier than those in the open. Fruit from covered trees were significantly larger (13%) and softer (10%) than those from the outside. Fruit quality characteristics, such as soluble solids concentration and titratable acidity, were not affected by high-tunnel-protected cultivation. Fruit from covered and uncovered trees maintained the firmness differences obtained at harvest between treatments, but showed similar postharvest quality after 45 days at 0 °C and a further 3 days at 20 °C on the other characteristics. The covered fruit had lower Ca concentrations (7.7 mg 100 g−1) and higher K:Ca, Mg:Ca, and N:Ca ratios. Significant relationships were found between Ca or K:Ca and fruit firmness at harvest. Lower Ca concentrations in the fruit may explain the lower firmness of fruit grown under plastic covers. There were no differences between covered and uncovered cherries in either cracking susceptibility or induced pitting. ‘Santina’ cherries were very sensitive to pitting damage, but this is not associated with the fruit’s Ca concentration. The results obtained show that high tunnels influenced fruit yield, development, and quality, and emphasize that the fruit’s Ca concentration under this growing condition plays a significant role in the firmness of ‘Santina’ sweet cherries.

scholarly journals Economic Evaluation of Implementing Strawberry Season Extension Production Technologies in the U.S. Intermountain West

HortScience ◽  
2015 ◽  
Vol 50 (3) ◽  
pp. 395-401 ◽  
Author(s):  
Tiffany L. Maughan ◽  
Kynda R. Curtis ◽  
Brent L. Black ◽  
Daniel T. Drost
Keyword(s):  
Climatic Conditions ◽  
Production Costs ◽  
Intermountain West ◽  
High Tunnel ◽  
Net Returns ◽  
Study Results ◽  
High Tunnels ◽  
Season Extension ◽  
Low Tunnels ◽  
The U.S

Strawberry production in the U.S. Intermountain West is limited by harsh climatic conditions and competition from domestic producers and imports. Using season extension methods to combat climatic conditions may be effective but generally increases production costs. This study evaluates the economic returns to implementing high tunnels, low tunnels, and in-ground supplemental heating to strawberry production (Seascape and Chandler cultivars) in northern Utah. The high tunnel provided a net return of $1,943.57 or $15,548.56 per hectare assuming eight high tunnels per hectare. The addition of low tunnels within the high tunnel led to a positive increase in net returns for ‘Seascape’ but not for ‘Chandler’ production. Supplemental in-ground heating increased net returns by up to 50% for both cultivars, primarily as a result of higher pre-season yield and market pricing. Study results find that season extension technologies can successfully increase net returns to strawberry production through early and increased yields, when strawberries are sold primarily through local direct markets.

scholarly journals High Tunnel and Field Production of Organic Heirloom Tomatoes: Yield, Fruit Quality, Disease, and Microclimate

HortScience ◽  
2012 ◽  
Vol 47 (9) ◽  
pp. 1283-1290 ◽  
Author(s):  
Suzanne O’Connell ◽  
Cary Rivard ◽  
Mary M. Peet ◽  
Chris Harlow ◽  
Frank Louws
Keyword(s):  
Fruit Quality ◽  
Gray Leaf Spot ◽  
High Tunnel ◽  
Horticultural Crops ◽  
Fruit Cracking ◽  
Weather Events ◽  
High Tunnels ◽  
Season Extension ◽  
Blossom End Rot ◽  
Field Systems

Organic and heirloom tomatoes are high-value products with growing demand but there are many challenges to successful cultivation. A systems comparison study was carried out to evaluate the production of the popular heirloom tomato ‘Cherokee Purple’ (Solanum lycopersicum L.) under high tunnel and open field systems in North Carolina from 2007 to 2008. Management of the high tunnel (i.e., temperature and irrigation), weather events as well as pest and disease pressure influenced crop quality and yield. The high tunnel and field systems achieved similar total yields (100 t·ha−1) the first season but yields were 33% greater in the high tunnel system than the field system in the second year (100 t·ha−1 and 67 t·ha−1, respectively). Both years, the tomatoes were planted in high tunnels 1 month earlier and harvested 3 weeks earlier than the field. The accumulation of ≈1100 growing degree-days (GDD) was required in both systems before 50% of the fruit was harvested. Fruit cracking, cat-facing, blossom-end rot, and insect damage were the major categories of defects in both systems. Incidence of both Tomato Spotted Wilt Virus (TSWV) and Gray Leaf Spot (GLS) were lower in the high tunnel compared with the field in 2007 and 2008, respectively. Results of this study suggest that with proper management techniques, high tunnels can optimize yields, increase fruit quality, and provide season extension opportunities for high-value horticultural crops.

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