Mineralization of Nitrogen and Carbon From Organic Compost From Animal Production Waste

Araújo, Maria Diana Melo; Feitosa, M. M.; Primo, Anaclaudia Alves; Taniguchi, Carlos Alberto Kenji; Souza, Henrique Antunes de

doi:10.1590/1983-21252020v33n204rc

Cited by 9 publications

(7 citation statements)

References 28 publications

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“…A predominance of nitrate over ammonium contents was also observed (Figure 1), indicating that the nitrification process was not limited (Sahrawat, 2008), mainly at high organic compost rates (from 45.2 t ha -1 upwards). A similar result was described by Rogeri et al (2015), in a study with poultry litter applied to a Cambisol (Inceptisol/Cambissolo Húmico), and by Araújo et al (2020), with the same organic compost as in this study, in a laboratory experiment.…”

Section: Discussionsupporting

confidence: 87%

“…Similar results were found in a laboratory study on mineralization, where organic compost from residues of goat and sheep production and slaughter increased the concentrations of inorganic nitrogen and organic carbon, with increments of 70 and 69 % at rates of 7.5 and 30 Mg ha -1 , respectively (Araújo et al, 2020). Thus, this organic compostis rapidly mineralized in the soil, with a half-life of 45.8 days for carbon and 44.1 days for nitrogen, due to its low C/N ratio (7.4:1) (Araújo et al, 2020). Given the results of the above mineralization study and our results under field conditions, the application of organic compost is only interesting for one growth period in cut forages but could be an interesting option to improvenutrient cycling in livestock systems.…”

Section: Discussionsupporting

confidence: 85%

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Soil fertility and nutritional status of elephant grass fertilized with organic compost from small ruminant production and slaughter systems

Pereira

Primo

Meneses

et al. 2020

Revista Brasileira De Ciência Do Solo

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The application of organic composts derived from animal husbandry or agro-industry is a promising option to improve nutrient cycling and supply of soils and, consequently, forage production. The objective of this study was to evaluate the soil chemical properties and the nutritional state of elephant grass in response to rates of organic fertilizer composted from the waste of small ruminant production and slaughter systems. The experiment was conducted on a Fluvisol of a forage field with elephant grass var. Cameroon, and was arranged in a randomized block design with split-plots with repeated measures over time. Six rates of organic compost (0, 13.3, 26.6, 39.9, 52.3, and 79.8 t ha-1 , in plots) and an additional treatment with mineral fertilizers were evaluated in four growth periods (60, 120, 180, and 240 days, in subplots) with four replications, resulting in a total of 28 plots. Soil fertility was evaluated after the fourth growth period, while leaf analysis was determined in every 60-day period. The increasing rates of organic compost increased the concentrations of OM, NH 4 + , NO 3-, NH 4 + + NO 3-, P and base saturation, while the H+Al values decreased and the N and P contents increased in the plants. Compared with mineral fertilization, soil inorganic nitrogen and phosphorus increased by 34 and 97 % in response to the application of organic compost. In response to the application of organic compost, the leaf contents of all studied nutrients remained adequate in all studied periods, except for the macronutrient N and micronutrient Mn.

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Section: Discussionsupporting

confidence: 87%

Section: Discussionsupporting

confidence: 85%

Soil fertility and nutritional status of elephant grass fertilized with organic compost from small ruminant production and slaughter systems

Pereira

Primo

Meneses

et al. 2020

Revista Brasileira De Ciência Do Solo

Self Cite

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“…If we extend the time frame of the carbon foot print analysis and consider the fate of the carbon contained in either compost or biochar once added to soil then a slightly different picture emerges. The half-life of compost can be as low as 45 days (Araújo et al 2020).…”

Section: Resultsmentioning

confidence: 99%

Low tech biochar production could be a highly effective nature-based solution for climate change mitigation in the developing world

Aquije

Schmidt²,

Draper

et al. 2021

Plant Soil

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AimTo compare the climate change mitigation bene ts of nature-based solutions for management of municipal green waste with conventional management. MethodsThis study analyzed the carbon footprint of managing one ton of municipal green waste (MGW) in Lima Peru under 4 different scenarios: 1) Final disposal in authorized land ll, 2) Final disposal in informal land ll, 3) composting and 4) biochar production using a low-cost low tech Kon-Tiki reactor. ResultsThe results demonstrate the very clear potential for climate change mitigation from biochar production using low tech and therefore accessible technology in a typical developing world context. The carbon footprint of producing biochar was lower than for composting and biochar and compost both had carbon footprints signi cantly lower than waste management achieved via land lling. ConclusionWe argue that the standards used by nascent platforms for trading carbon removal credits generated by biochar should be expanded to include small scale market participants in the so-called developing world. Waste management in the developing world presents signi cant challenges but often starts from a very low base which means there is very large potential for reducing emissions as well as sequestering carbon.

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“…The C/N ratio of the substrate influences their decomposition during carbon mineralization. High C/N rates of the compost (9.93) and biochar (13.08), and the temperature and humidity (27 °C and 60%, respectively), probably promoted favorable conditions for microbial activity and, consequently, for carbon mineralization in the soil (Araújo, Feitosa, Primo, Taniguchi, & Souza, 2020). During the 61-day period, the daily C-CO 2 evolution, independent of the applied treatments, occurred at a rapid rate in the beginning of the incubation, followed by a lower rate, in the last evaluation period, corroborating the results of Andrade, Bibar, Coscione, Pires and Soares (2015).…”

Section: C-co 2 Evolution Ratementioning

confidence: 99%

Organic carbon mineralization of the biochar and organic compost of poultry litter in an Argisol

Tito

Fernandes

Chaves

et al. 2021

Semina: Ciênc. Agrár.

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The dynamics of the organic residues added to the soil are closely related to its mineralization rate. Therefore, the present study aimed to evaluate the organic carbon mineralization in soil samples incubated with different doses of biochar and organic compost from poultry litter. Carbon mineralization was evaluated experimentally by measuring the C-CO2 liberated by incubating 200 g of soil mixed with different doses 0, 5, 10, 15, and 20 t ha-1 of both biochar and organic compost for 61 days. The soil microbial activity, and consequently the carbon mineralization, increased with the application of doses of biochar and organic compost from the poultry litter. The highest C-CO2 mineralization was observed in the treatments that received organic compost. The carbon mineralization process followed chemical kinetics with two simultaneous reactions. The greatest amount of released and accumulated C-CO2 was observed in the soil incubated with 15 and 20 t ha-1 of organic compost from the poultry litter. The doses of biochar did not influence the content of mineralized carbon; this behavior was not verified with the use of this compost, whose highest content corresponded to 85.69 mg kg-1, applying 20 t ha-1.

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Mineralization of Nitrogen and Carbon From Organic Compost From Animal Production Waste

Cited by 9 publications

References 28 publications

Soil fertility and nutritional status of elephant grass fertilized with organic compost from small ruminant production and slaughter systems

Soil fertility and nutritional status of elephant grass fertilized with organic compost from small ruminant production and slaughter systems

Low tech biochar production could be a highly effective nature-based solution for climate change mitigation in the developing world

Organic carbon mineralization of the biochar and organic compost of poultry litter in an Argisol

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