Combined Influence of Grafting and Type of Protected Environment Structure on Agronomic and Physiological Traits of Single- and Cluster-Fruit-Bearing Cucumber Hybrids

Combined Influence of Grafting and Type of Protected Environment Structure on Agronomic and Physiological Traits of Single- and Cluster-Fruit-Bearing Cucumber Hybrids

Protected vegetable cultivation is a fast-growing sector in which grafting plays a crucial role for success. Cucumber is predominantly grown under protected conditions. The popular slicing (mini) cucumber comprises two segments, single- and cluster-fruit-bearing. In the present study, the performanc...

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Bibliographic Details
Published in:Agronomy (Basel) Vol. 11; no. 8; p. 1604
Main Authors: Khapte, Pratapsingh Suresh, Kumar, Pradeep, Panwar, Nav Raten, Burman, Uday, Rouphael, Youssef, Kumar, Praveen
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-08-2021
Subjects:
Agricultural production
Air temperature
Arid regions
Arid zones
Chlorophyll
Clusters
Cucumbers
Cucumis sativus L
Cucurbita rootstock
Experiments
Fluorescence
Fruits
Grafting
Greenhouses
Humidity
Hybrids
Insects
leaf mineral status
Low cost
Microclimate
Parameters
Physiology
Plant growth
Plant water potential
Polyethylene
Productivity
protected cultivation
Radiation
Residential areas
Scions
Seeds
Slicing
Vegetables
Ventilation
Water potential
water productivity
Water use
yield
United States > US
India
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Summary:Protected vegetable cultivation is a fast-growing sector in which grafting plays a crucial role for success. Cucumber is predominantly grown under protected conditions. The popular slicing (mini) cucumber comprises two segments, single- and cluster-fruit-bearing. In the present study, the performance of select fruit-bearing hybrids grafted as scions onto commercial Cucurbita hybrid rootstock ‘NS-55’ was evaluated under three different low-cost protected structures in arid regions. With respect to type of protected structure, cucumber performance was superior under a naturally ventilated polyhouse (NVP) than an insect net house (INH) or a shade net house (SNH). Micro-climate parameters inside NVP (air temperature, RH and PAR) were more congenial for cucumber than those in net houses, thereby facilitating improved physiology (chlorophyll fluorescence, chlorophyll and plant water potential) and leaf mineral status. Grafting invariably improved growth and yield parameters under all protected structures. Overall plant performance was better in the grafted cluster-fruit-bearing hybrid ‘Terminator’ than the single-fruit-bearing hybrid ‘Nefer’ or their non-grafted counterparts. Furthermore, NVP was found to be superior to net houses for water productivity, and grafted plants were more water use efficient than their counterpart non-grafted plants. Thus, NVP can be considered a suitable low-cost protected structure in conjunction with grafting to boost cucumber crop and water productivity in arid regions.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy11081604