Phosphorus in Forage Production

Serra, Ademar Pereira; Marchetti, Marlene Estevão; Dupas, Carla Eloize Carducci Elisângela; Silva, Eulene Francisco da; Pinheiro, Elaine Reis

doi:10.5772/intechopen.70202

Cited by 4 publications

(3 citation statements)

References 62 publications

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“…Typically, these technologies are energy-efficient and resource-efficient processes that minimize the use of chemicals and other inputs and may incorporate renewable energy sources and closed-loop systems to reduce the overall environmental footprint [53]. So, some eco-innovative aspects have been found in this integrated process, namely [47,48,54]: (i) The IOSLM process (or lime precipitation) uses a single reagent (hydrated lime) of low cost and high availability; the sludge produced is stabilized, is rich in nutrients, has the potential to be used in acid soils, and is less harmful than iron/alum sludge obtained by conventional coagulationflocculation processes (the iron/alum sludges can contaminate groundwater by leaching iron and aluminum salts in acidic soils [55] and limit plant growth due to lower nutrient availability [56,57]; the destination of iron/alum sludges is landfilling disposal); (ii) The atmospheric carbonation process contributes to atmospheric CO 2 mitigation since in this process atmospheric CO 2 is used to neutralize alkaline effluent to values around neutrality, therefore, no consumption of acids and the problems associated with them occurs; (iii) Constructed wetlands are eco-friendly, and mimic natural processes that already occur in nature; and (iv) Many wastes that could end up in landfills can be used as adsorbents in industrial wastewater treatment through the adsorption process.…”

Section: Industrial Wastewater Treatment Strategiesmentioning

confidence: 99%

Integrated Process of Immediate One-Step Lime Precipitation, Atmospheric Carbonation, Constructed Wetlands, or Adsorption for Industrial Wastewater Treatment: A Review

Madeira,

Carvalho,

Almeida

et al. 2023

Water

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The transition from the linear economy paradigm to the circular economy in industrial wastewater treatment systems is on the global agenda. The search for new simple, eco-innovative, and low-cost processes for treating industrial wastewater, which can also be used by small and medium-sized industries, has been a constant challenge especially when environmental sustainability is considered. So, a new integrated industrial wastewater treatment system has been developed that includes the immediate one-step lime precipitation process (IOSLM) and atmospheric carbonation (AC), followed by constructed wetlands (CWs) or adsorption. The current review provides an overview of industrial wastewater treatment strategies for high- and low-biodegradable wastewater. A background on functionality, applicability, advantages and disadvantages, operating variables, removal mechanisms, main challenges, and recent advances are carried out for each process that makes up the IOSLM+AC+CW/adsorption integrated system. The prospects of the IOSLM+AC+CW/adsorption integrated system are also discussed. Not neglecting the improvements that still need to be made in the integrated treatment system as well as its application to various types of industrial wastewater, this review highlights that this treatment system is promising in industrial wastewater treatment and consequent by-product recovery. The IOSLM+AC integrated system showed that it can remove high amounts of organic matter, total suspended solids, oils and fats, phosphorus, and ammonium nitrogen from industrial effluents. On the other hand, constructed wetlands/adsorption can be alternatives for refining effluents still containing organic matter and nitrogen that were not possible to remove in the previous steps.

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Section: Industrial Wastewater Treatment Strategiesmentioning

confidence: 99%

Integrated Process of Immediate One-Step Lime Precipitation, Atmospheric Carbonation, Constructed Wetlands, or Adsorption for Industrial Wastewater Treatment: A Review

Madeira,

Carvalho,

Almeida

et al. 2023

Water

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“…Menegassi et al [6] observed that the treated SWW favors the production of grass in soil without the need for nitrogen supplementation. Although treated SWW has a high potential for reuse in agriculture, the sludge resulting from the treatment still needs to be stabilized and contain metallic residues that can limit plant growth due to lower nutrient availability [7,8], so its disposal is landfill. Therefore, it is necessary to rethink how SWW should be treated and then recovered.…”

Section: Introductionmentioning

confidence: 99%

Reuse of Treated Slaughterhouse Wastewater from Immediate One-Step Lime Precipitation and Atmospheric Carbonation to Produce Aromatic Plants in Hydroponics

Madeira,

Ribau Teixeira,

Nunes

et al. 2024

Water

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The transition from the linear economy paradigm to the circular economy in industrial wastewater treatment is on the global agenda. The search for new simple, eco-innovative and low-cost processes for treating industrial wastewater, which can also be used by small- and medium-sized industries, has been a constant challenge to ensure environmental sustainability in all types of industries. The present work aimed to evaluate the suitability of the treated slaughterhouse wastewater (SWW) obtained by the integrated process composed of immediate one-step lime precipitation (IOSLM) and atmospheric carbonation (AC) for the production of aromatic plants by hydroponics. Results showed a significant increase in plant height of 177 and 147% and root length of 64 and 37% for Pennyroyal and Chocolate Peppermint plants, respectively, after 26 days. No signs of toxicity or symptoms of micronutrient deficiency were detected in aromatic plants.

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“…Grasses are plants with a high phosphorus demand [42]. Cocksfoot (Dactylis glomerata L.) grass is often grown in temperate climates.…”

Section: Introductionmentioning

confidence: 99%

Effect of Zinc along with Organic Fertilizers on Phosphorus Uptake and Use Efficiency by Cocksfoot (Dactylis glomerata L.)

et al. 2022

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Scarce findings on phosphorus (P) uptake and its utilization under increased zinc (Zn) levels in organic fertilizers amended soil led to conducting research. The aim of the study was to determine the effect of increasing the application of zinc (200, 400, and 600 mg·kg−1 of soil) together with different organic fertilizers (bovine manure, chicken manure, and spent mushroom substrate) on the content and uptake of phosphorus by cocksfoot and the phosphorus use efficiency from organic fertilizers. The application of different amounts of zinc did not affect phosphorus content in the grass, but it significantly influenced its accumulation (p < 0.05). The most phosphorus uptake was accumulated by plants following zinc application at 200 mg·kg−1 of soil and the least following application of 600 mg·kg−1 of soil. The phosphorus use efficiency from organic fertilizers was increased by zinc application of 400 mg·kg−1 of soil and reduced by 600 mg·kg−1 of soil. Organic fertilizers did not significantly affect the phosphorus content in the grass but did increase its uptake. The highest phosphorus use efficiency was obtained for bovine manure. The study showed no antagonistic relationships between zinc and phosphorus, but increasing zinc application affected the coefficient of phosphorus utilization from organic fertilizers.

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Phosphorus in Forage Production

Cited by 4 publications

References 62 publications

Integrated Process of Immediate One-Step Lime Precipitation, Atmospheric Carbonation, Constructed Wetlands, or Adsorption for Industrial Wastewater Treatment: A Review

Integrated Process of Immediate One-Step Lime Precipitation, Atmospheric Carbonation, Constructed Wetlands, or Adsorption for Industrial Wastewater Treatment: A Review

Reuse of Treated Slaughterhouse Wastewater from Immediate One-Step Lime Precipitation and Atmospheric Carbonation to Produce Aromatic Plants in Hydroponics

Effect of Zinc along with Organic Fertilizers on Phosphorus Uptake and Use Efficiency by Cocksfoot (Dactylis glomerata L.)

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