Effect of irrigation frequency on growth and production of a cucumber crop under soilless culture.
TLDR
In this article, three irrigation frequencies were applied on a soilless cucumber crop, in a greenhouse located in the coastal area of southern Cyprus, in order to study the effects of irrigation frequency on cucumber crops, multiple measurements were taken; the fresh and dry weight of plant organs (i.e., leaves, stem and fruit), marketable fresh yield production, and microclimate variables for a 75 day period, beginning in April and ending in June.Abstract:
Three irrigation frequencies were applied on a soilless cucumber crop, in a greenhouse located in the coastal area of southern Cyprus. Irrigation scheduling was based on solar radiation and performed whenever accumulated solar radiation energy outside the greenhouse reached 1.3 MJ m-2 [High Irrigation Frequency (HIF)], 1.9 MJ m-2 [Medium Irrigation Frequency (MIF)] and 3.0 MJ m-2 [Low Irrigation Frequency (LIF)]. The amount of water applied was 0.192 Kg m-2, 0.288 Kg m-2 and 0.448 Kg m-2 for high, medium and low irrigation frequencies, respectively. Appropriately, the total volume of water applied was identical in each of the three cases. In order to study the effects of irrigation frequency on cucumber crops, multiple measurements were taken; the fresh and dry weight of plant organs (i.e. leaves, stem and fruit), marketable fresh yield production, and microclimate variables for a 75 day period, beginning in April and ending in June. The results revealed that the irrigation frequency did not influence the cucumber crop’s growth and production. Plants at LIF were facing water stress conditions, as estimated from leaf temperature and stem micro variation measurements. However, HIF increased the transpiration rate of the plants, resulting in less water and nutrient losses.read more
Citations
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Implementing Sustainable Irrigation in Water-Scarce Regions under the Impact of Climate Change
TL;DR: A comprehensive review of the literature dealing with sustainable irrigation for open-field and protected cultivation systems under the impact of climatic change in vulnerable areas, including the Mediterranean region, is presented in this article.
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Irrigation of Greenhouse Crops
TL;DR: This article presents a comprehensive review of the literature, which deals with irrigation scheduling approaches applied for soil and soilless greenhouse production systems, and outlines the need for further development of neural networks systems.
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Environmental and Cultivation Factors Affect the Morphology, Architecture and Performance of Root Systems in Soilless Grown Plants
TL;DR: In this paper, the effect of root restriction, nutrient solution, irrigation frequency, root zone temperature, oxygenation, vapour pressure deficit, lighting, rootzone pH, root exudates, CO2, and beneficiary microorganisms on the functionality and performance of the root system are discussed.
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Effects of Cooling Systems on Greenhouse Microclimate and Cucumber Growth under Mediterranean Climatic Conditions
TL;DR: In this paper, two experiments were conducted in different cropping seasons under Mediterranean climatic conditions to investigate the impact of two cooling systems (fan-pad evaporative as opposed to fan ventilation) on greenhouse microclimate and soilless cucumber growth.
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Water footprint and irrigation use efficiency of important crops in Northern Cyprus from an environmental, economic and dietary perspective.
TL;DR: The results showed that reshaping the distribution of crops based on their water consumption would reduce the use of water resources while continuing to feed the population.
References
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The effect of water availability and quality on photosynthesis and productivity of soilless-grown cut roses
Michael Raviv,Theo Blom +1 more
TL;DR: In this article, the authors studied the effect of low matric and to a lesser extent osmotic potential on the water uptake by plant roots in a greenhouse rose and found that the plant's ability to make osmotics adjustments in order to lower the shoot and prevent excessive water losses from the leaves thus maintaining the plant turgidity.
Journal ArticleDOI
A step towards new irrigation scheduling strategies using plant-based measurements and mathematical modelling
TL;DR: In this article, a real-time water flow and storage model is used to predict the stem water potential. But, only sap flow and stem diameter variation measurements are needed for online simulation and daily model calibration.
Journal ArticleDOI
Effect of Irrigation Frequency on Rose Flower Production and Quality
TL;DR: In this article, the effects of irrigation frequency on the quality and fresh and dry weight of a rose crop were investigated in a closed hydroponic system in a greenhouse located near Volos, on the continental area of eastern Greece.
Journal ArticleDOI
Interactions between salinity and irrigation frequency in greenhouse pepper grown in closed-cycle hydroponic systems
Dimitrios Savvas,E. Stamati,I.L. Tsirogiannis,N. Mantzos,Pantelis Barouchas,Nikolaos Katsoulas,Constantinos Kittas +6 more
TL;DR: In this article, two different irrigation regimes with two different salinity levels were applied to peppers (Capsicum annum L.) grown in closed hydroponic systems in a glasshouse.
Journal ArticleDOI
Linking stem diameter variations to sap flow, turgor and water potential in tomato
Tom De Swaef,Kathy Steppe +1 more
TL;DR: Tomato stems, in contrast with trees, seemed to maintain growth while transpiring because a large difference between turgor pressure and the yield threshold was maintained and the simultaneous response of D and FH2O on irrigation events showed a possibility to detect water shortages.