Copper and zinc accumulation and fractionation in a clayey Hapludox soil subject to long-term pig slurry application
Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain an...
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| Published in | The Science of the total environment Vol. 536; pp. 831 - 839 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Netherlands
Elsevier B.V
01.12.2015
Elsevier |
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| Online Access | Get full text |
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| Abstract | Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates – 50, 100 and 200m3ha−1year−1 – were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0–5cm soil layer for the 50 and 100m3ha−1year−1 (PS50 and PS100) treatments, and up to 10–15cm for the 200m3ha−1year−1 (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0–5cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0–5cm layer.
•We assessed the impact of 11-year pig slurry spreading at three different rates.•Heavy metals (HM) accumulated within the upper soil layers.•Exogenous Cu was mainly detected in the organic matter (OM) fraction.•Exogenous Zn was distributed between the OM and the adsorbed fractions. |
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| AbstractList | Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates -50, 100 and 200 m(3) ha(-1) year(-1) - were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0-5 cm soil layer for the 50 and 100 m(3) ha(-1) year(-1) (PS50 and PS100) treatments, and up to 10-15 cm for the 200 m(3) ha(-1) year(-1) (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0-5 cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0-5 cm layer. (C) 2015 Elsevier B.V. All rights reserved. Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates – 50, 100 and 200m3ha−1year−1 – were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0–5cm soil layer for the 50 and 100m3ha−1year−1 (PS50 and PS100) treatments, and up to 10–15cm for the 200m3ha−1year−1 (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0–5cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0–5cm layer. Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates – 50, 100 and 200m3ha−1year−1 – were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0–5cm soil layer for the 50 and 100m3ha−1year−1 (PS50 and PS100) treatments, and up to 10–15cm for the 200m3ha−1year−1 (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0–5cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0–5cm layer. •We assessed the impact of 11-year pig slurry spreading at three different rates.•Heavy metals (HM) accumulated within the upper soil layers.•Exogenous Cu was mainly detected in the organic matter (OM) fraction.•Exogenous Zn was distributed between the OM and the adsorbed fractions. Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates--50, 100 and 200m3 ha(-1)year(-1)--were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0-5 cm soil layer for the 50 and 100 m3 ha(-1) year(-1) (PS50 and PS100) treatments, and up to 10-15 cm for the 200 m3 ha(-1)year(-1) (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0-5 cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0-5 cm layer. Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates - 50, 100 and 200m3 ha-1 year-1 - were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0-5cm soil layer for the 50 and 100m3 ha-1 year-1 (PS50 and PS100) treatments, and up to 10-15cm for the 200m3 ha-1 year-1 (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0-5cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0-5cm layer. Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates--50, 100 and 200m3 ha(-1)year(-1)--were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0-5 cm soil layer for the 50 and 100 m3 ha(-1) year(-1) (PS50 and PS100) treatments, and up to 10-15 cm for the 200 m3 ha(-1)year(-1) (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0-5 cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0-5 cm layer.Pig slurry (PS) recycling as fertilizer is commonly practiced as an option for minimizing livestock waste. Successive PS applications on the soil can lead to crop toxicity and environmental risk. Despite extensive investigation of macronutrient behavior, the fate of trace metals remains uncertain and only a few long-term field studies have been reported to date. This study was designed to assess the impact of 11-year continuous PS spreading on Cu and Zn accumulation and fractionation in a Brazilian clayey Hapludox soil. Three different PS application rates--50, 100 and 200m3 ha(-1)year(-1)--were monitored at six soil depths in comparison to a non-amended control soil. The modified Geological Survey of Canada sequential extraction protocol was applied. A statistically significant increase in Cu and Zn total concentration (assessed by the sum of fractions) was noted only within the 0-5 cm soil layer for the 50 and 100 m3 ha(-1) year(-1) (PS50 and PS100) treatments, and up to 10-15 cm for the 200 m3 ha(-1)year(-1) (PS200) treatment. The mass balance, determined for the 22 PS amendments over the period, confirmed the overall exogenous Cu and Zn accumulation within the surface layers. More than 70% of the natural heavy metal content was originally in the residual fraction. However, this was the only fraction not influenced by the PS amendments. After PS input, the exogenous Cu was mainly detected in the fraction bound to organic matter (66.4%) within the PS200 0-5 cm soil layer. Exogenous Zn was mainly distributed between the adsorbed fraction (36.7%) and the organic matter fraction (32.0%) within the PS200 0-5 cm layer. |
| Author | Mallmann, Fábio Joel Kochem Pinheiro, Adilson da Veiga, Milton dos Santos, Danilo Rheinheimer Doelsch, Emmanuel Bender, Marcos Antonio Formentini, Thiago Augusto Fernandes, Cristovão Vicente Scapulatempo |
| Author_xml | – sequence: 1 givenname: Thiago Augusto surname: Formentini fullname: Formentini, Thiago Augusto email: formentini@gmail.com organization: Department of Hydraulics and Sanitation, Federal University of Parana, 81531-980 Curitiba, PR, Brazil – sequence: 2 givenname: Fábio Joel Kochem surname: Mallmann fullname: Mallmann, Fábio Joel Kochem organization: CAPES Foundation, Ministry of Education of Brazil, 70040-020 Brasilia, DF, Brazil – sequence: 3 givenname: Adilson surname: Pinheiro fullname: Pinheiro, Adilson organization: Environmental Engineering Program, Regional University of Blumenau, 89030-000 Blumenau, SC, Brazil – sequence: 4 givenname: Cristovão Vicente Scapulatempo surname: Fernandes fullname: Fernandes, Cristovão Vicente Scapulatempo organization: Department of Hydraulics and Sanitation, Federal University of Parana, 81531-980 Curitiba, PR, Brazil – sequence: 5 givenname: Marcos Antonio surname: Bender fullname: Bender, Marcos Antonio organization: Department of Soils, Federal University of Santa Maria, 97105-900 Santa Maria, RS, Brazil – sequence: 6 givenname: Milton surname: da Veiga fullname: da Veiga, Milton organization: EPAGRI, P.O. Box 116, 89620-000 Campos Novos, SC, Brazil – sequence: 7 givenname: Danilo Rheinheimer surname: dos Santos fullname: dos Santos, Danilo Rheinheimer organization: Department of Soils, Federal University of Santa Maria, 97105-900 Santa Maria, RS, Brazil – sequence: 8 givenname: Emmanuel orcidid: 0000-0002-7478-4296 surname: Doelsch fullname: Doelsch, Emmanuel organization: CIRAD, UPR Recyclage et risque, F-34398 Montpellier, France |
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| Keywords | Organic waste Sequential extraction Trace elements Soil amendment |
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| SubjectTerms | Agriculture - methods Animals application rate Brazil Canada Copper Copper - analysis ecotoxicology Environmental Monitoring Environmental Sciences fertilizers field experimentation Fractionation Hapludox heavy metals organic matter Organic waste pig manure recycling Risk Sequential extraction Slurries Soil Soil (material) Soil amendment soil depth Soil Pollutants - analysis surveys Sus scrofa Toxicity Trace elements Waste Disposal, Fluid - methods Zinc Zinc - analysis |
| Title | Copper and zinc accumulation and fractionation in a clayey Hapludox soil subject to long-term pig slurry application |
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