Abstract
During the past few decades, vertical farming has attracted a lot of interest as an alternative food production method. Vertical farms use engineered growth environments and hydroponic cultivation techniques for growing plants indoors. One of the important factors in vertical farming for the cultivation of different plants is the amount of nutrients, which can be measured as electrical conductivity (EC). Studying the optimal EC is important for avoiding nutrient loss and deficiency in vertical farms. In this study, we investigated the effect of five EC levels (2, 1.2, 0.9, 0.7, and 0.5 dS m−1) of Hoagland nutrient solution on the growth and development of basil cultivar ‘Emily’ and lettuce cultivar ‘Batavia-Caipira’. During the study, the environmental parameters were kept fixed using an automatic dosing machine. The experiment was done in automatic vertical farms using the hydroponic ebb–flow cultivation technique with a temperature of 20 ± 1 °C, relative humidity of 50–60%, CO2 concentration of 450 ppm, pH = 6, the PPFD (photosynthetic photon flux density) of 215 ± 5.5 μmol m−2 s−1, and the photoperiod of 16:8 h (day/night). Each treatment was replicated four times. We studied the effects on several growth parameters (including the dry and fresh weight of leaves and roots, number of leaves, and leaf area) as well as the chlorophyll and nitrogen concentration of the leaves. According to the results, the basil and lettuce growth parameters among the five treatments have been significantly higher in the treatment with EC of 1.2 and 0.9 dS m−1. These EC values are lower than the recommended EC value given as the optimum in the previous studies. However, the concentration of chlorophyll and nitrogen show different trends and were higher in full strength of nutrient solution with EC = 2 dS m−1.
Highlights
We present the first findings of a research project on precision vertical farming
We conclude that the optimal electrical conductivity (EC) level for the growth and developments of basil in ebb-and-flow systems is 1.2 dS m−1, and for lettuce, the optimal EC level is
Our analysis concludes that keeping the EC value of nutrient solution at a higher level than the identified optimal EC value will have less negative impact on the growth parameters of lettuce and basil than keeping the EC values lower than the optimal level
Summary
The population of the world is projected to increase more than 25% by 2050 [1]. The scarcity of land and water resources is pushing the current food production practices to their limits [2]. Feeding the growing world population without depleting natural resources requires alternative and more resource-efficient food production practices [3,4,5]. Vertical farming is an innovative cultivation methods that has attracted a lot of interest among young entrepreneurs and farmers [6]. Vertical farms or vertical controlled environment agriculture has seen extensive expansion, technical innovations, prolific growth, and upscaling taking place worldwide [7,8]
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