The effect of reducing the heating set point on the photosynthesis, growth, yield and fruit quality in greenhouse tomato production

In growing greenhouse tomato (Lycopersicon esculentum Mill.) using the nutrient film technique (NFT), HNO3 or H3PO4 is usually added to offset the increase in pH of the recirculating solution. For economic and environmental reasons, HCl would be a possible substitute for either HNO3 or H3PO4. Therefore, experiments were initiated to evaluate HCl as an alternative acid in controlling the pH of the recirculating solution in NFT-grown greenhouse tomato. The effects of HNO3, H3PO4, and HCl on the growth, fruit yield, and fruit quality were quantified. In 1995, these effects were tested using `Trust' and `BST 7804' at a recirculating solution pH of 5.5, 6.0, or 6.5; in 1996, only `Trust' was grown at a recirculating solution pH of 6.2. In the 1995 experiment, genotypic differences in marketable fruit yield tended to be smaller when HCl was used to control the recirculating solution pH at 6.0 than when either H3PO4 or HNO3 was used. In `Trust', at a pH of 5.5 under the HCl treatment, fruit quality tended to be higher than in other treatment combinations. In 1996, over a 45-day period, the concentration of Cl− that accumulated in the recirculating solution from added HCl was 313 mg·L−1 (313 ppm). There were no significant effects of the treatments on the growth, fruit quality, or yield of the crop. The total marketable yield was better when HCl had been used, likely due to high fruit production at the early part of the harvesting period. Potential savings for the season can be achieved if HCl is substituted for H3PO4 to regulate the nutrient solution pH in NFT-based greenhouse tomato production.

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Effect of active solar heating system on microclimate, development, yield and fruit quality in greenhouse tomato production

Renewable Energy ◽

10.1016/j.renene.2020.11.007 ◽

2021 ◽

Vol 165 ◽

pp. 237-250

Author(s):

A. Bazgaou ◽

H. Fatnassi ◽

R. Bouharroud ◽

K. Ezzaeri ◽

L. Gourdo ◽

...

Keyword(s):

Fruit Quality ◽

Heating System ◽

Solar Heating ◽

Tomato Production ◽

Greenhouse Tomato

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Development of an Automatic Irrigation Method Using an Image-Based Irrigation System for High-Quality Tomato Production

Agronomy ◽

10.3390/agronomy12010106 ◽

2022 ◽

Vol 12 (1) ◽

pp. 106

Author(s):

Fei Zhao ◽

Hideo Yoshida ◽

Eiji Goto ◽

Shoko Hikosaka

Keyword(s):

Water Stress ◽

Fruit Quality ◽

Irrigation System ◽

Growth Yield ◽

Threshold Value ◽

High Quality ◽

Tomato Production ◽

Irrigation Method ◽

Recovery Treatment

In this study, we developed an automatic irrigation method using an image-based irrigation system for high-quality tomato production in a greenhouse by investigating effects of a diurnal periodic cycle of irrigation on the photosynthesis, growth, yield, and fruit quality of tomatoes. The diurnal periodic cycle in a moderate wilting–full recovery treatment (MR) with a medium threshold value was more frequent than that in a severe wilting–full recovery treatment (SR) with a high threshold value. Mean daily maximum wilting ratios for MR and SR were 7.2% and 11.3%, respectively, when wilting ratios were set to threshold values of 7% and 14%, respectively. Total irrigation amounts in MR and SR were similar and lower than that in the untreated control. Net photosynthetic rate decreased under water stress, with values in MR being higher than that in SR, and recovered rapidly to more than 90% of its maximum value following irrigation. Plant growth and fruit yield per plant in MR and SR were lower than that in the control. Water stress treatment could improve fruit quality when it commenced at the anthesis stage or early fruit development stage. Total irrigation amount was a more important parameter than the threshold value for controlling the growth, yield, and fruit quality of tomatoes.

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EFFECT OF PARTIAL ROOT ZONE DRYING ON GROWTH, YIELD AND FRUIT QUALITY IN GREENHOUSE TOMATO CULTIVATION

Acta Horticulturae ◽

10.17660/actahortic.2007.747.25 ◽

2007 ◽

pp. 219-226 ◽

Cited By ~ 1

Author(s):

A. Sirigu ◽

M.G. Mameli ◽

F. Chessa ◽

S. Meloni

Keyword(s):

Fruit Quality ◽

Root Zone ◽

Growth Yield ◽

Greenhouse Tomato

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Closing the Loop: Use of Biochar Produced from Tomato Crop Green waste as a Substrate for Soilless, Hydroponic Tomato Production

HortScience ◽

10.21273/hortsci.50.10.1572 ◽

2015 ◽

Vol 50 (10) ◽

pp. 1572-1581 ◽

Cited By ~ 21

Author(s):

Samuel J. Dunlop ◽

Marta Camps Arbestain ◽

Peter A. Bishop ◽

Jason J. Wargent

Keyword(s):

Fruit Quality ◽

Growth Yield ◽

Environmental Footprint ◽

Closed Loop System ◽

Tomato Crop ◽

Tomato Production ◽

Green Waste ◽

Pine Sawdust ◽

Closing The Loop ◽

Soilless Substrate

Greenhouse tomato (Lycopersicum esculentum Mill.) producers are urged to reduce their environmental footprint. Here, the suitability of biochar produced from tomato crop green waste as a substrate for soilless, hydroponic tomato production was evaluated. Substrates containing different combinations of biochar (BC) and pine (Pinus radiata D. Don) sawdust (SD) were produced (BC0-SD100, BC25-SD75, BC50-SD50, BC75-SD25, and BC100-SD0) and characterized. The effect of these substrates on tomato growth, yield, and fruit quality was studied. Most of the measured properties of substrates containing biochar were suited to use as a soilless substrate. The electrical conductivity (EC) of substrates containing biochar was initially high (>4.6 mS·cm−1), but was easily reduced to <0.5 mS·cm−1 by rinsing with water before use. The pH of substrates containing biochar was higher than is considered acceptable for tomato production (7.5–9.3) but did not significantly (P < 0.05) affect any plant growth, yield, and fruit quality indicators measured compared with those of plants grown in pine sawdust. The results support the concept of creating a closed loop system whereby biochar produced from tomato crop green waste is used as a substrate for soilless, hydroponic tomato production, providing a sustainable means to support the growth of high-value food crops.

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Influence of Topping and Spacing on Growth, Yield, and Fruit Quality of Tomato (Solanum lycopersicum L.) Under Greenhouse Condition

Frontiers in Sustainable Food Systems ◽

10.3389/fsufs.2021.659047 ◽

2021 ◽

Vol 5 ◽

Author(s):

George Oduro Nkansah ◽

Christiana Amoatey ◽

Michael Kwaku Zogli ◽

Stella Owusu-Nketia ◽

Peter Amoako Ofori ◽

...

Keyword(s):

Fruit Quality ◽

Growth Yield ◽

Plant Spacing ◽

Tomato Production ◽

Sustainable Food ◽

Agronomic Practices ◽

Solanum Lycopersicum L ◽

Tomato Yield ◽

Randomized Design ◽

Two Factors

Tomato is an important vegetable in Ghanaian diet and contributes enormously in livelihood improvement. Tomato production is threatened by a high prevalence of biotic and abiotic stresses as well as increased postharvest losses and poor agronomic practices, thereby resulting in massive importation of tomato and its products to meet the local demands. The recent introduction of greenhouse vegetable cultivation technology in Ghana is a sustainable attempt in addressing and ensuring year-round production of vegetables including tomato. However, research on agronomic practices targeted to improving yield and fruit quality under greenhouse conditions in Ghana is scarcely available. Therefore, this study seeks to evaluate the effect of plant spacing and topping on tomato yield and fruit quality under greenhouse conditions. A 3 ×3 factorial treatment arranged in a completely randomized design (CRD) with three replications was used. Two factors, plant spacing and topping with each having three levels, were used. Thus, the levels for plant spacing were 0.15 m × 1.3 m, 0.2 m × 1.3 m, and 0.3 m × 1.3 m while topping treatments at trusses 2, 3, and 4 (control) were done. The results showed that yield was significantly influenced by plant spacing in both experiments. The interaction effect of 0.2 m × 1.3 m plant spacing and topping at truss 2 showed significantly higher yields. Furthermore, juice volume was significantly increased by plant spacing. Again, 0.2 m × 1.3 m plant spacing by truss 2 topping interaction produced the highest juice volume. Therefore, these agronomic practices could be an essential and effective approach in achieving higher tomato production with improved fruit quality under greenhouse cultivation to ensure sustainable food security.

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