The plant availability of phosphorus from thermo-chemically treated sewage sludge ashes as studied by 33P labeling techniques

Nanzer, Simone; Oberson, Astrid; Berger, Leslie; Berset, Estelle; Hermann, Ludwig; Frossard, Emmanuel

doi:10.1007/s11104-013-1968-6

Cited by 95 publications

(96 citation statements)

References 57 publications

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“…Over time, Mg-P reacts in soil to the plant available trimagnesium phosphate, while Ca-P converts to the plant unavailable hydroxyapatite (Vogel et al 2013). In addition, the chlorine donor (CaCl 2 ) used during thermochemical treatment of the Ca-SSA resulted in the formation of poor soluble P compounds, which were not completely decomposed by the partial H 2 SO 4 treatment (Nanzer et al 2014). This was visible in the low concentration of citric acid soluble P (plant-available proportions of P t ) of the Ca-SSA (Table 1).…”

Section: Resultsmentioning

confidence: 99%

Phosphorus effects of recycled products from municipal wastewater on crops in a field experiment

Vogel¹,

Eichler‐Löbermann²,

Nelles³

2017

Plant Soil Environ.

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In this study, the phosphorus (P) fertilizing effects of struvite, one thermochemical-treated sewage sludge ash (SSA) based on Ca-P (Ca-SSA) and one full sulfuric acid-digested SSA based on Al-P (Al-SSA) were analysed in comparison to triple superphosphate (TSP) and a control treatment (CON) without P application in a two-year field experiment. In the field experiment, the effects of the recycling products on crop yield, P uptake and labile soil P fractions were analysed. In addition, the effect of nitrogen and magnesium contained in struvite was investigated in the second year of the experiment compared to TSP and CON. In the first year, spring barley was cultivated in the field experiment; and in the second year, it was forage rye followed by sorghum. In the second year, the relative P effectiveness (forage rye, sorghum) of the recycling products compared to TSP increased in the order: Ca-SSA (81%, 91%) ≤ Al-SSA (91%, 96%) = struvite (102%, 110%). In addition, an magnesium fertilizing effect of struvite could be demonstrated. The results show that the recycling products from wastewater treatment are appropriate to substitute rock phosphate-based fertilizers.

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Section: Resultsmentioning

confidence: 99%

Phosphorus effects of recycled products from municipal wastewater on crops in a field experiment

Vogel¹,

Eichler‐Löbermann²,

Nelles³

2017

Plant Soil Environ.

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“…by 32P-or 33P-labeled fertiliser, to measure the nutrient uptake from the fertiliser directly (Achat et al, 2014). By comparing the specific activity (SA, ratio of the radioisotope and the stable isotope) in the plant to the SA of the labeled fertiliser, the amount of P derived from the fertiliser taken up by the plant can be assessed (Nanzer et al, 2014). For complex fertilisers containing multiple P species, an indirect labelling approach, where plant available soil P is labeled, can be used.…”

Section: System and Synthetic Biology For Improving Biological P Recomentioning

confidence: 99%

“…For complex fertilisers containing multiple P species, an indirect labelling approach, where plant available soil P is labeled, can be used. The indirect labeling method is based on the plant available soil P can be labeled homogeneously and that any dilution of the SA comes from the (unlabeled) P fertiliser (Nanzer et al, 2014). In this case, P derived from the fertiliser is assessed by comparing the SA of a fertilized plant to the SA of an unfertilized plant grown on the same soil (Fardeau et al, 1996).…”

Section: System and Synthetic Biology For Improving Biological P Recomentioning

confidence: 99%

New perspectives for the design of sustainable bioprocesses for phosphorus recovery from waste

Tarayre

Clercq

Charlier

et al. 2016

Bioresource Technology

121

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“…Faster release of easily biodegradable organic matter means savings from mass and volume reduction (Maroušek 2013) and represents new financial opportunities linked with easier dewatering (Ruiz-Hernando et al 2013), stabilization and byproduct recycling (Strong et al 2011). In particular, reuse of phosphorus (Nanzer et al 2014) is the main reason why fermentation residues from sewage sludge are still used for agronomical purposes in some developing countries. In developed countries, due to higher concentrations of microorganisms and harmful substances, such as heavy metals, poorly biodegradable organic compounds, bacteria, viruses, pharmaceuticals, hormones and dioxins, the sewage sludge fermentation residues are routinely processed by combustion or pyrolysis (Magdziarz and Werle 2014).…”

Section: Introductionmentioning

confidence: 99%

Appraisal of changes in sewage sludge management

Vochоzka

Maroušková

Váchal

et al. 2016

Int. J. Environ. Sci. Technol.

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A positive energy balance caused by accelerated production of CH 4 and additional financial benefits associated with shorter retention times, reduction in volumes, easier dewatering, enhanced hygiene, etc., are the reasons why most modern wastewater treatment plants are newly equipped with hydrothermal pretreatment units. This study examined how the changes in composition of the pretreated sewage sludge fermentation residues manifested themselves in subsequent processing by pyrolysis, both in terms of technology and financial impacts. It has been found that concentrations of heavy metals and other hazardous inhibitors might increase; however, the overall biotoxicity is lower due to their immobilization in the charred mass. Moreover, charring of the fermentation residues results in significant financial as well as technological benefits.

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The plant availability of phosphorus from thermo-chemically treated sewage sludge ashes as studied by 33P labeling techniques

Cited by 95 publications

References 57 publications

Phosphorus effects of recycled products from municipal wastewater on crops in a field experiment

Phosphorus effects of recycled products from municipal wastewater on crops in a field experiment

New perspectives for the design of sustainable bioprocesses for phosphorus recovery from waste

Appraisal of changes in sewage sludge management

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