The Benefit of Using Drainage Water of Fish Farms for Irrigation: Field and Modelling Study Using the SALTMED Model

Abdelraouf, R. E.; Ragab, R.

doi:10.1002/ird.2180

Cited by 13 publications

(7 citation statements)

References 27 publications

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“…These findings may be due to the additional amount of dissolved biological nitrogen and other nutrients inherent in waste water of fish farm. These results are in accordance with those obtained by Abdelraouf and Ragab (2017) how found that the yield under waste water of fish farm was higher than the yield under well ground water.…”

Section: Stalk Length and Diameter (Cm)supporting

confidence: 93%

“…A Reuse waste water of fish farming as a new resource for irrigation and rich with organic matter can improve soil quality and crops productivity and reduce the total costs of fertilizers by adding minimum doses from mineral fertilizers and reduce the pollution in soil. Abdelraouf and Ragab (2017) found that the yield under waste water of fish farm (WWFF) was higher than the yield under the canal fresh water (IW) by 11 and 51% in 2014 and 8 and 38% in 2015 seasons.…”

Section: Introductionmentioning

confidence: 99%

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The Influence of Gibberellic Acid and Different Irrigation Resources on Morphological, Quality and Yield Parameters of some Sweet Sorghum Varieties in New Reclaimed Area

El-Kady

Helmy

El-Zeny

2019

Alexandria Science Exchange Journal

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A field experiment was conducted in sandy soil at Wadi El-Natrun region, Egypt (30°23'19.89˝ N latitude and 30°21'41.06˝ E longitude) during 2018 and 2019 seasons to evaluate growth, quality, productivity and water use efficiently of four sweet sorghum varieties (Sorghum Bicolor L. Moench) under the influence of two types of irrigation sources (fish farm waste water and well ground water irrigation) in addition to study the effect of spraying three concentration of gibberellic acid (zero, 200 and 400 ppm). The results revealed that fish farm waste water irrigation was significantly more efficient than well ground water irrigation on vegetative characters (stalk length and diameters (cm)), yield (gross and stripped stalk yields (ton/fed)) and water use efficiency (WUE of gross and stripped yields (kg/m 3 )) in both seasons. Vice versa, the irrigation by well ground water surpassed the irrigation by waste water fish farm in quality parameters (juice and syrup extraction %) and (sucrose and purity %), in addition significant increases were detected in vegetative characters, yield and water use efficiency by increasing gibberellic acid (GA3) concentrations from zero up to 400 ppm during both seasons. On the other hand, quality parameters of sweet sorghum plants decreased by increasing gibberellic acid (GA3) concentrations from zero up to 400 ppm in both seasons. Sweet sorghum AGSC3 variety over passed the other varieties with respect to stalk length and diameters (cm), yields of gross and stripped stalks yield (ton/fed) and water use efficiency (WUE) of gross and stripped stalks yield (kg/m 3 ) in both seasons. While, results showed that Ramada variety surpassed significantly the other studied varieties under this study in respect to juice and syrup extraction (%) as well as sucrose and purity (%) in both seasons.Keywords: fish farm waste water, gibberellic acid, new reclaimed area, sweet sorghum, water resources.

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Section: Stalk Length and Diameter (Cm)supporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

The Influence of Gibberellic Acid and Different Irrigation Resources on Morphological, Quality and Yield Parameters of some Sweet Sorghum Varieties in New Reclaimed Area

El-Kady

Helmy

El-Zeny

2019

Alexandria Science Exchange Journal

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“…These results are in accordance with these obtained by (Elnwishy et al, 2006) who stated that, recycling the drainage water of fish farming, rich with organic matter for agriculture use can improve soil quality and crops productivity. In addition, Abdelraouf and Ragab (2017) found that the yield under waste water of fish farm was higher than the yield under well ground water. On the other hand, Gibberellic acid has the ability of effect on yield by modifying the growth pattern by affecting the cell elongation and cell division, biosynthesis of enzymes, protein, and carbohydrates contents (Gupta andChakrabarty, 2013 andMilne et al, 2013).…”

Section: Yieldsmentioning

confidence: 99%

Effect of Fish Farm Waste Water Irrigation and Growth Regulators on Growth, Yield and Quality of Sugar Beet Crop

El-Kady

Helmy

2020

Egyptian Journal of Agricultural Sciences

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In line with the sustainable agriculture, a field experiment was carried out at the Research Station of Water Management Research Institute, Wadi El-Natrun, Eg altitude 25.5 m) during 2018/2019 and 2019/2020 seasons to evaluate growth, quality, productivity and net returns of sugar beet crop under effect of two protocols of irrigation (fish farm waste water (Aqua) or ground water irrigation (well)), and spraying two concentrations (100 and 300 ppm) of each of gibberellic acid (GA 3 ) and indole acetic acid (IAA) compared to zero ppm application. The results revealed that fish farm waste water irrigation (Aqua) was significantly more efficient than ground water irrigation on growth traits (crop growth rate (CGR), relative growth rate (RGR) and net assimilation rate (NAR)) as well as root yield (ton/fed) in both seasons. Vice versa, ground water irrigation surpassed fish farm wastewater irrigation in quality parameters (sucrose, purity and extractable sugar (ES) percentages). Significant increases in growth traits and yield were detected for growth regulators especially 300 ppm of gibberellic acid concentrations compared to control unit (zero ppm) during both seasons. On the other hand, quality parameters of sugar beet plants were enhanced under the control unit (zero ppm) followed by the application of 300 ppm of indole acetic acid compared to other growth regulators treatments in both seasons. The maximum net return (11488 LE/fed) was achieved with fish farm waste water (Aqua) irrigation with spraying sugar beet plants by 300 ppm of indole acetic acid during 2019/2020 seasons.

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“…The study results reveal that watering with fishpond water for almost two decades has positively affected grape yields compared to irrigating with just ditchwater (Figure 2), which is consistent with similar studies from other locations and systems. In different studies, fishpond water increased paddy rice [21,22,28] and wheat [29] yields. The positive yield effects from fishponds relate to soil fertility and health improvements, as observed by others [28,29], which is also consistent with the findings of this study.…”

Section: Discussionmentioning

confidence: 98%

Fishpond Water Potential on Vineyard Soil Health: An Exploratory Study of a Circular System

Mpanga,

Ijato,

Dapaah

et al. 2024

Horticulturae

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Climate variabilities continue to hinder sustainable food production with an increasing need to use resources such as water and soil efficiently. The quest for these efficiencies in agriculture systems drives innovations among farmers. However, limited data on farm practices, such as irrigating with fishpond water and their effects on soil health, hinder their adoption as climate-smart innovations. In a nearly twenty-year-old vineyard with two distinct irrigation practices (irrigation with recycled fishpond water and irrigation with ditch water), this study was carried out as an exploratory study to investigate the influence of recycling fishpond water on soil health parameters and yield. Soil samples were taken from two different irrigation fields in summer and winter for lab analysis on soil health parameters (organic matter and carbon, nitrogen, phosphorus, microbial biomass, and microbial respiration). Averages over the two seasons of field measurements indicate that long-term irrigation using recycling fishpond water increased the measured soil health parameters (organic matter (13%), organic carbon (30%), nitrogen (17%), phosphorus (46%), microbial biomass (18%), and microbial respiration (56%)) in both summer and winter months when compared to fields receiving just ditchwater irrigation. Using water in a way that can improve soil health increases biodiversity and improves the efficiency of our limited water resources in semi-arid agricultural lands, and this strategy is a climate-smart tool that can help reduce water risks in dry agricultural regions such as Arizona.

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The Benefit of Using Drainage Water of Fish Farms for Irrigation: Field and Modelling Study Using the SALTMED Model

Cited by 13 publications

References 27 publications

The Influence of Gibberellic Acid and Different Irrigation Resources on Morphological, Quality and Yield Parameters of some Sweet Sorghum Varieties in New Reclaimed Area

The Influence of Gibberellic Acid and Different Irrigation Resources on Morphological, Quality and Yield Parameters of some Sweet Sorghum Varieties in New Reclaimed Area

Effect of Fish Farm Waste Water Irrigation and Growth Regulators on Growth, Yield and Quality of Sugar Beet Crop

Fishpond Water Potential on Vineyard Soil Health: An Exploratory Study of a Circular System

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