Soil Chemistry after Irrigation with Treated Wastewater in Semiarid Climate

Oliveira, Pedro Carlos Pacheco de; Gloaguen, Thomas Vincent; Gonçalves, Roberta Lins; Santos, Dionei Lima; Couto, Carolina Fonsêca

doi:10.1590/18069657rbcs20140664

Cited by 18 publications

(15 citation statements)

References 41 publications

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“…Similar result was found by Santos et al (2017) in successive maize, cotton, and common bean crops. SOM is usually altered by TTW after several years of use (XU et al, 2010); however, the use of high wastewater rates (150% of the maximum water demand) in semiarid regions can raise the SOM (OLIVEIRA et al, 2016). The results of the present study showed an increase in SOM when compared to that before the experiment implementation (Table 1), presenting averages of 20.8% (0.0-0.2 m layer) and 28.6% (0.2-0.4 m layer); this can be explained by the decomposition of plant residues, such as leaves and stems of banana trees in the experimental area.…”

Section: Resultsmentioning

confidence: 99%

Soil Chemical Properties in Banana Crops Fertigated With Treated Wastewater

et al. 2019

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Determining the effects of using wastewater as fertilizer on soil chemical properties allows a safe reuse of this effluent in agriculture. This study evaluated the effects of fertigation with tertiary treated wastewater (TTW) from the Janaúba sewage treatment plant on chemical properties of a Latosol (Oxisol) with banana crops of the Prata-Anã cultivar in the semiarid region of Brazil. A randomized complete block design with four replications was used to test four TTW rates (70%, 130%, 170%, and 200% of the limit of 150 kg ha-1 year-1 of Na that can be applied to the soil) and compare them to a control without TTW. Soil samples from the 0.0-0.2, 0.2-0.4, 0.4-0.6, and 0.6-0.8 m layers were collected at the end of the first crop cycle to evaluate soil chemical properties-pH, soil organic matter (SOM), P, K, Na, Ca, Mg, Al, potential acidity (H+Al), base saturation, B, Cu, Fe, Mn, Zn, remaining P, and electrical conductivity (EC). The use of TTW increases soil pH and decreases exchangeable Al content, thus, reduces the need for liming. However, Na contents increased faster than EC in the soil, indicating that the use of TTW tends to alter soil physical properties over time. The use of TTW had no effect on the soil OM, P, Ca, Mg, and micronutrients contents, potential acidity, and base saturation. The changes in soil chemical attributes observed at the end of the first crop cycle were not limiting to the banana crop.

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Section: Resultsmentioning

confidence: 99%

Soil Chemical Properties in Banana Crops Fertigated With Treated Wastewater

et al. 2019

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“…The observed high pH in August could have been due to the increase in temperature, which could have promoted higher rates of chemical reactions in water (Barron et al, 2006). In contrast the high values of pH could be beneficial in soils experiencing low pH, as it affects mobility of nutrients (Oliveira et al, 2016). Normally, the safe pH range in water is 6.5 to 8.4 (Jeong et al, 2016), but this could vary according to soil type.…”

Section: Discussion Ph and Electrical Conductivitymentioning

confidence: 99%

Suitability of treated wastewater with respect to pH, electrical conductivity, selected cations and sodium adsorption ratio for irrigation in a semi-arid region

Kgopa

Mashela

Manyevere

2018

WSA

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Increasing incidents of drought spells in most Sub-Saharan African countries call for exploration of innovative alternative sources of water for irrigation. A study was conducted to investigate the cation concentrations for different disposal points of treated wastewater and for borehole water. A 4 × 5 factorial experiment included a borehole as a reference sampling site plus three other sampling sites along the wastewater disposal system over 5 months. Monthly collected water samples were analysed for pH, EC, Ca, Mg, Na and K, with sodium adsorption ratio (SAR) computed and compared with those of water from the borehole, the FAO-desired ranges and the South African (SA) quality standards for irrigation water. Except at two sampling sites during one month, pH values were within the FAO-desired range. Relative to the FAO desired ranges and SA water quality standards, most variables in treated wastewater were much lower, suggesting that the test treated wastewater was suitable for irrigation.

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“…Similar results regarding the accumulation of magnesium in the soil due to the use of wastewater were also observed by Bourazanis et al (2016), when they tested the application of domestic effluents in the hydraulic conductivity of the soil and by Abegunrin et al (2016), when they evaluated the use of different types of effluents in the chemical and physical properties of the soil in relation to the water supply, both concluded that the domestic effluent can be an alternative of Mg to the soil. On the other hand, opposing these results and working with Cucurbita maxima Duch, irrigated with wastewater, Oliveira et al (2016) verified a reduction of Mg levels in the soil. Thus, it can be concluded that the nutrient intake of the wastewater varies for each condition and it is necessary to pay attention to the requirement of the crop.…”

Section: /7mentioning

confidence: 94%

Cultivation of sunflower irrigated with domestic sewage treated in Quartzarenic Neosol

Dantas

Silva

Dantas

et al. 2018

Agraria

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ABSTRACT:The use of domestic sewage treated in irrigation as an alternative in arid regions. However, due to the high concentration of nutrients, the use these waters can soil degradation. The objective of this study was to evaluate the effect of the use of these waters on soil attributes. The experimental design was a randomized complete block design (4 x 2 x 3) in subdivided plots with four replications. The treatments consisted of three factors, four water sources in the irrigation (A 1 -sewage treated by UASB reactor, A 2 -treated sewage treated with anaerobic filtration, A 3 -treated sewage by anaerobic filtration and A 4 -water supply); two irrigation depths (L 1 -equal to crop evapotranspiration and L 2 -20% higher than crop evapotranspiration) and three soil layers (0-0.2, 0.2-0.4 and 0.4-0.6 m), the three soil layers were considered as subplots. The use of water sources A 1 and A 2 provided lower concentrations of sodium in the saturation extract. The use of domestic sewage treated in the irrigation provided an increase in the levels of Ca 2+ and Mg 2+ solubles in the soil and the EC without reach it saline. Greater nutrient accumulation was verified in the shallow layer of 0-0.20 m being influenced by the effective depth of the root system as well as by the climatic conditions of the region.Key words: seawage treatament; sodicity; soil salinity; water reuse Cultivo de girassol irrigado com esgoto doméstico tratado em Neossolo QuartzarênicoRESUMO: A utilização de esgotos domésticos tratados na irrigação desponta como uma alternativa em regiões áridas. Entretanto, devido à elevada concentração de nutrientes, o uso dessas águas pode ocasionar degradação do solo. Desse modo, objetivou-se avaliar o efeito da utilização destas águas nos atributos do solo. O delineamento experimental utilizado foi o casualizado em blocos em esquema fatorial (4 x 2 x 3) em parcelas subdivididas com quatro repetições. Os tratamentos consistiram de três fatores, quatro fontes de águas (A 1 -esgoto tratado por reator UASB, A 2 -esgoto tratado por decanto digestor associado à filtragem anaeróbia, A 3 -esgoto tratado por filtragem anaeróbia e A 4 -água de abastecimento); duas lâminas de irrigação (L 1 -igual à evapotranspiração da cultura e L 2 -20% superior à evapotranspiração da cultura) e três camadas de solo (0-0,2; 0,2-0,4 e 0,4-0,6 m), considerou-se as três camadas de solo como sub-parcelas. O uso das fontes de águas A 1 e A 2 proporcionaram menores concentrações de sódio no extrato de saturação. O uso de esgotos domésticos tratados na irrigação, elevou os teores de solúveis de Ca 2+ e Mg 2+ do solo e a CEes sem torná-lo salino. Maior acúmulo de nutrientes foram verificados na camada superficial de 0-0,20 m sendo influenciado pela profundidade efetiva do sistema radicular como também pelas condições climáticas da região.Palavras-chave: tratamento de esgoto doméstico; sodicidade; salinização do solo; reúso de água Cultivation of sunflower irrigated with domestic sewage treated in Quartzarenic Neosol Rev. Bras.

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Soil Chemistry after Irrigation with Treated Wastewater in Semiarid Climate

Cited by 18 publications

References 41 publications

Soil Chemical Properties in Banana Crops Fertigated With Treated Wastewater

Soil Chemical Properties in Banana Crops Fertigated With Treated Wastewater

Suitability of treated wastewater with respect to pH, electrical conductivity, selected cations and sodium adsorption ratio for irrigation in a semi-arid region

Cultivation of sunflower irrigated with domestic sewage treated in Quartzarenic Neosol

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