Effect of Magnetic Water Treatment on the Growth, Nutritional Status, and Yield of Lettuce Plants with Irrigation Rate

Putti, Fernando Ferrari; Vicente, Eduardo Festozo; Chaves, Prínscilla Pâmela Nunes; Mantoan, Luís Paulo Benetti; Cremasco, Camila Pires; Arruda, Bruna; Forti, Juliane C.; Silva, Josué Ferreira; Campos, Marcelo; Reis, André Rodrigues dos; Filho, Luís Roberto Almeida Gabriel

doi:10.3390/horticulturae9040504

Cited by 7 publications

(2 citation statements)

References 46 publications

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“…The increase in production parameters found in lettuce irrigated with magnetically treated water corroborates several surveys that describe technology with a high potential of reducing the volume of water applied, such as in the cultivation of celery, green beans and peas [60]; chickpeas [61]; castor beans [62]; corn [63]; tobacco [64]; peas [65]; tomatoes [66,67]; wheat [68]; and pepper [69]. Putti et al [70] also reported the beneficial effects of magnetically treated water on lettuce plants due to improvement in nutritional status and yield. However, when lettuce was irrigated with magnetically treated water, among the parameters analyzed, the leaf number and fresh shoot biomass showed a significant reduction along the crop cycle, reaching the same values when lettuce was irrigated with conventional water.…”

Section: Discussionsupporting

confidence: 78%

Fuzzy Modeling Development for Lettuce Plants Irrigated with Magnetically Treated Water

Ferrari Putti,

Cremasco,

Neto

et al. 2023

Plants

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Due to the worldwide water supply crisis, sustainable strategies are required for a better use of this resource. The use of magnetic water has been shown to have potential for improving irrigation efficacy. However, a lack of modelling methods that correspond to the experimental results and minimize error is observed. This study aimed to estimate the replacement rates of magnetic water provided by irrigation for lettuce production using a mathematical model based on fuzzy logic and to compare multiple polynomial regression analysis and the fuzzy model. A greenhouse study was conducted with lettuce using two types of water, magnetic water (MW) and conventional water (CW), and five irrigation levels (25, 50, 75, 100 and 125%) of crop evapotranspiration. Plant samples for biometric lettuce were taken at 14, 21, 28 and 35 days after transplanting. The data were analyzed via multiple polynomial regression and fuzzy mathematical modeling, followed by an inference of the models and a comparison between the methods. The highest biometric values for lettuce were observed when irrigated with MW during the different phenological stage evaluated. The fuzzy model provided a more exact adjustment when compared to the multiple polynomial regressions.

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Section: Discussionsupporting

confidence: 78%

Fuzzy Modeling Development for Lettuce Plants Irrigated with Magnetically Treated Water

Ferrari Putti,

Cremasco,

Neto

et al. 2023

Plants

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“…Further studies may be needed to explore the long-term effects of magnetic water treatment on soil pH dynamics and its implications for plant growth and nutrient availability. Some studies have indeed reported slight increases in soil pH following magnetic water treatment [42,43] and other studies reported a reduction of the pH in the soil with magnetic treatment [44].…”

Section: Chemical Properties Of the Experimental Soilmentioning

confidence: 97%

Effect of Magnetic Strength of the Water Salinity Treatment Devices on Salt Accumulation in the Root Zoon and Its Impact on Growth and Productivity of Olive Trees

Abdelwahed,

Farag,

Youssef

2024

AJAHR

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This study was conducted during the two successive seasons 2022 and 2023 at Wadi El-Natron west Nile Delta (EL-Behera governorate) to evaluate three commercial magnetic devices “Water magnetizers” of different manufacturers (Nefertari Biomagnetic 6000 Gauss, Magnolith 8000 Gauss, Delta Water 14000 Gauss), and to figure out which is more effective to reduce the negative effect of irrigating olive trees with saline water. The study examined the effect on vegetative growth, leaf mineral contents, leaf chlorophyll content, leaf proline content, and relative water content of Manzanillo olive trees. The experiment confirmed that olive trees can be irrigated with water containing 3500 ppm without causing high salt stress. Data also showed a positive effect of magnetically treated water on all vegetative growth characters (growth rate, stem diameter, number of green leaves), an increase in all elements content in experimental plant leaves except sodium and chloride, an increase in leaf chlorophyll content, decreased leaf proline content and increase relative water content. In terms of determining whether commercial devices are more effective than others, the Magnolith has been demonstrated to achieve the best results when compared to other devices, in most cases the difference between using "Delta Water" or "Nefertari" was not big enough to be significant. "Nefertari" recorded almost the lowest values of the studied vegetative growth characters, leaf chlorophyll, and relative water content. This indicates that the strength of the magnets alone is not the only thing that affects how well the device works; furthermore, it depends also on how the magnetic fields are configured and the manufacturing expertise.

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Magnetic technology to reduce the effects of saline stress on tomato plants

Putti,

Arruda,

Vicente

et al. 2024

Environmental Technology & Innovation

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Effect of Magnetic Water Treatment on the Growth, Nutritional Status, and Yield of Lettuce Plants with Irrigation Rate

Cited by 7 publications

References 46 publications

Fuzzy Modeling Development for Lettuce Plants Irrigated with Magnetically Treated Water

Fuzzy Modeling Development for Lettuce Plants Irrigated with Magnetically Treated Water

Effect of Magnetic Strength of the Water Salinity Treatment Devices on Salt Accumulation in the Root Zoon and Its Impact on Growth and Productivity of Olive Trees

Magnetic technology to reduce the effects of saline stress on tomato plants

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