Influence of Biosolids Rate on Chemical Properties of an Oxisol in São Paulo, Brazil

Alves, Marlene Cristina; González, Antônio Paz; Colodro, Gilberto; Perecin, Helio; Vázquez, Eva Vidal

doi:10.1080/00103620600820204

Cited by 7 publications

(4 citation statements)

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“…Su disposición final se ha convertido en un problema ambiental que viene en aumento desde la última década del Siglo XX (Gavalda et al, 2005). Las opciones para disponer los biosólidos incluyen la incineración, el depósito en rellenos sanitarios y el reciclaje como abonos orgánicos para uso agrícola (Alves et al, 2006). La utilización de biosólidos como mejoradores de suelos agrícolas puede ser viable ambiental y económicamente, y se considera una opción sostenible para su disposición final.…”

Section: Introductionunclassified

“…Their final disposal has become an environmental problem that has been increasing since the last decade of the 20th century (Gavalda et al, 2005). The options to dispose of biosolids include incineration, landfill and recycling as organic fertilizers for agricultural use (Alves et al, 2006). The use of biosolids as agricultural soil improvers may be environmentally and economically viable and is considered a sustainable option for final disposal.…”

Section: Introductionmentioning

confidence: 99%

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Evaluación de dosis de biosólidos urbanos en maíz bajo condiciones de invernadero

González-Flores

Ramos-Barragán

Tornero-Campante

et al. 2017

Remexca

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Los biosólidos poseen características que pueden mejorar la fertilidad de los suelos. Generalmente, las estrategias para el uso agrícola de biosólidos no están basadas en estudios que respalden las dosis aplicadas a cultivos específicos. Es necesario realizar investigación previa para aplicar biosólidos en un determinado cultivo; los efectos que se produzcan dependen del clima, tipo de suelo y calidad de los biosólidos. El objetivo de este estudio fue evaluar, bajo condiciones de invernadero, los efectos que diferentes dosis de biosólidos producen sobre la calidad de la planta de maíz, el contenido de metales pesados en la misma y las características químicas del suelo de la zona sur del municipio de Puebla. El estudio se desarrolló en 2013 bajo condiciones de invernadero; tuvo una duración de 120 días. Se utilizó un diseño experimental completamente al azar con seis tratamientos y cuatro repeticiones. Los tratamientos fueron diferentes dosis de biosólidos: T1= 100 t ha-1, T2= 200 t ha-1, T3= 300 t ha-1, T4= 400 t ha-1, T5= 500 t ha-1, TC= suelo sin biosólidos. Se midieron variables vegetativas, propiedades químicas del suelo y metales pesados en raíz, tallo y hojas de la planta. Para las variables vegetativas no existe diferencia estadística entre los tratamientos. Las propiedades químicas del suelo mejoran y son adecuadas en los tratamientos con dosis más altas. Los contenidos de metales pesados en las diferentes partes de la planta son adecuados para su desarrollo y el contenido de plomo no representa riesgo de toxicidad.

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Section: Introductionunclassified

Section: Introductionmentioning

confidence: 99%

Evaluación de dosis de biosólidos urbanos en maíz bajo condiciones de invernadero

González-Flores

Ramos-Barragán

Tornero-Campante

et al. 2017

Remexca

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“…To maintain a reasonably goodconditioned soil for growing crops, the soil should be amended at saturated soil condition followed by the application of BS at 33 t ha -1 . The BS was also reported effective in increasing soil pH as well as maintaining favorable soil conditions (Abbaspour et al 2004;Alves et al 2006;Khan et al 2006b). …”

Section: Resultsmentioning

confidence: 91%

Effects of incubation times and moisture regimes on pH values and exchangeable cations in acid sulfate soils as influenced by application rates of basic slag

Shamim

Khan

Akae

2009

Paddy Water Environ

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Severe acidifications in acid sulfate soils (ASSs) have occurred worldwide due to sulfuric acidity, which requires sustainable measures for their reclamation. Accordingly, an incubation study was conducted with the topsoil of two different ASSs (Cheringa and Badarkhali) to evaluate the effects of basic slag (BS; size \1 mm, pH 9.6, Ca 20.8%, Mg 9.8%, etc.), on reduction of acidity and changes in exchangeable cations. It is noted that BS is a byproduct of steel industry in Bangladesh and can be collected almost free of charge. These soils received BS at the rate of 0 (T 0 ), 11 (T 1 ), 22 (T 2 ) and 33 (T 3 ) t ha -1 under various moisture regimes (saturated condition M 1 , , i.e., 100% moisture content, wetting-drying cycles of 100 and 50% moisture M 2, and moisture at field condition M 3 , i.e., 50%). The impacts of these treatments on some selected parameters in these soils were studied within 180 days of incubation. The application of BS was found to increase the pH of soils from 3.6 to 5.1 for Cheringa, 3.9 to 5.2 for Badarkhali soils at the end of incubation. These increments were more striking with the highest doses of BS under saturated moisture conditions in both of the soils. The ECe of the soils was not much influenced by the application of BS regardless of time. The treatments exerted significant (P B 0.05) effects on exchangeable cations in different periods of incubation. The striking changes were recorded for the rate of increments of Ca 2? and Mg 2? , which were about 2-3 times higher for Ca and more than 2 times higher for Mg 2? compared with the control after 180 days of incubation. These results suggest that the application of BS not only increased the Ca 2? to the higher amount than that of the increment of Mg 2? in the soils, but also improved one of the important criteria of Ca 2? and Mg 2? ratio in the soils.

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“…Throughout the incubation period, it was noticed that the potentiality of basic slag as a liming material will be effective for reducing the acidity of acid sulfate soil for long time. Abbaspour et al (2004); Alves et al (2006) and Khan et al (2006) reported that the basic slag was also effective in increasing soil pH as well as maintained favorable soil conditions. The effects of basic slag and duration of incubation time on the changes in EC of supplied acid sulfate soil is represented in Fig.…”

Section: Resultsmentioning

confidence: 99%

Assessment of long-term effects of basic slag in reclaiming acid sulfate soil

Ara

Khan

Nessa

et al. 2014

Bangladesh J. Sci. Res.

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A long term incubation study was carried out to ascertain the effects of basic slag on acid sulfate soil. Four treatment levels of basic slag (0, 30, 40 and 50 t/ha) were selected to find out their response on pH, EC, as well as on various water soluble and exchangeable cations (Na, K, Ca, Mg and Fe) with incubation period. In most of the cases, the results showed significant effects of basic slag on pH and cations. The highest pH and EC were recorded with the largest doses of basic slag at the final stage of incubation period. In addition, this research did not find any negative impacts concerning basic slag on the supplied soil and suggested that basic slag could be used on agricultural land. DOI: http://dx.doi.org/10.3329/bjsr.v26i1-2.20225 Bangladesh J. Sci. Res. 26(1-2): 1-9, December-2013

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Influence of Biosolids Rate on Chemical Properties of an Oxisol in São Paulo, Brazil

Cited by 7 publications

References 7 publications

Evaluación de dosis de biosólidos urbanos en maíz bajo condiciones de invernadero

Evaluación de dosis de biosólidos urbanos en maíz bajo condiciones de invernadero

Effects of incubation times and moisture regimes on pH values and exchangeable cations in acid sulfate soils as influenced by application rates of basic slag

Assessment of long-term effects of basic slag in reclaiming acid sulfate soil

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