The biochar effect on soil respiration and nitrification

Šlapáková, Barbora; Jeřábková, Julie; Voříšek, K.; Tejnecký, Václav; Drábek, Ondřej

doi:10.17221/13/2018-pse

“…In general, BC-chicken presented higher CO 2 emissions in the three soils under study, comparing with BC-cow and BC-pig. Similarly, Šlapáková et al [43] show not effect on soil respiration in soils amended with a BC of digestate from Zea mays (80%) and cellulose fibre (20%) in two soils incubated during 1-year. On the other hand, the higher levels of CO 2 emissions obtained from BC-chicken could be produced by the release of carbonates contained in the BC which could be higher in acidic soils according to Sheng and Zhu [44], who reported higher CO 2 emissions from an acidic Ferrasols (pH 5.19) rather than Phaeozems (pH 7.81).…”

Section: Ghg Emissionsmentioning

confidence: 85%

Variation of Greenhouse Gases Fluxes and Soil Properties with Addition of Biochar from Farm-Wastes in Volcanic and Non-Volcanic Soils

Muñoz

¹

,

Ginebra

²

,

Zagal

³

2019

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The decomposition of organic wastes contributes to greenhouse gas (GHG) emissions and global warming. This study evaluated the effect of biochar (BC) produced from different farm wastes (chicken, pig and cow manures) on greenhouse gas emissions and soil chemical and biological properties in different grassland soils (volcanic and non-volcanic soils). A 288-day laboratory experiment was carried out, monitoring CO2, N2O and CH4 emissions and evaluating total C, soil pH, microbial biomass and enzymatic activity in three grassland soils. The results varied depending on the soil type and feedstock of BC produced. BC-cow decreased emissions of CO2 and CH4 fluxes for volcanic and non-volcanic soils, probably due to decreases in β-glucosidase activity. Biochars from cow and pig manures increased soil C content, favouring the persistence of C into the soil at 288-days of incubation. Soil pH increased with the application of BC in the soils.

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“…Similarly, Paz-Ferreiro et al (2012) reported that soils amended with 4% biochar demonstrated lower respiration rate compared to 2% biochar and unamended control treatments. Typically, the addition of biochar into soils significantly increase respiration rate compared to untreated control, and the ideal respiration rate should be >0.7 mg CO2 g ˗1 dry soil (Wang et al, 2017;Moebius-Clune et al, 2017;Slapakova et al, 2018).…”

Section: Effects Of Sewage Sludge Derived Biochar Amendments On Soil ...mentioning

confidence: 99%

Sewage Sludge Biochar Enhances Soil Health and Crop Productivity in Strongly Acidic Soil

Junior

¹

,

Guo

²

2022

Preprint

0

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Amending soils with sewage sludge biochar is a promising waste management strategy and value-added approach to reuse the waste while minimizing environmental contamination risks. Soil pot experiment was conducted to examine the effect of a 300°C sludge-biochar in soil health and crop productivity using a strongly acidic soil. Three treatments of the soil pots were included: 1% biochar-(10 g kg-1 biochar/soil ratio), 2% biochar-(20 g kg-1 biochar/soil ratio), and control (soil without biochar). Winter wheat (Triticum aestivum L.), spinach (Spinacia oleracea), and mung bean (Vigna radiata) were grown sequentially in the soil pots over 9 months under greenhouse and field conditions. Plant biomass and soil health parameters were assessed. Soils amended with 2% biochar demonstrated higher biomass in winter wheat, spinach, and mung bean compared to unamended control treatments. The effect of sludge biochar was not observed in soil bulk density; however, soil aggregates stability was higher in soils amended with 2% biochar (24.17%) compared to control (21.38%). Soil acidity was corrected in soils amended with 2% biochar (pH value 6.5) compared to control (5.8), electric conductivity (EC) was higher in 1% biochar (0.25 dS m-1) compared to control (0.20 dS m-1). Respiration rate was higher in 1% biochar (0.52 mg CO2 g-1 dry soil) compared to control (0.43 mg CO2 g-1), and total organic carbon (TOC) was lower in soils amended with biochar compared to control. Sewage sludge derived biochar improved crop production and soil health in strongly acidic soils and should be adopted in commercial agriculture. SEWAGE SLUDGE BIOCHAR ENHANCES SOIL HEALTH AND CROP PRODUCTIVITY IN STRONGLY ACIDIC SOIL Core Ideas• Adoption of sewage sludge derived biochar in agriculture in search for an efficient sludge management technique that minimize environmental contamination risks.• Assessing the effect of sewage sludge derived biochar in crop production and crop productivity.• Comprehend the efficacy of sewage sludge derived biochar on enhancing soil physical, chemical, and biological properties, and overall soil health.

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Sewage Sludge Biochar Enhances Soil Health and Crop Productivity in Strongly Acidic Soil

Junior

¹

,

Guo

²

2022

Preprint

0

View full text Add to dashboard Cite

Amending soils with sewage sludge biochar is a promising waste management strategy and value-added approach to reuse the waste while minimizing environmental contamination risks. Soil pot experiment was conducted to examine the effect of a 300°C sludge-biochar in soil health and crop productivity using a strongly acidic soil. Three treatments of the soil pots were included: 1% biochar-(10 g kg-1 biochar/soil ratio), 2% biochar-(20 g kg-1 biochar/soil ratio), and control (soil without biochar). Winter wheat (Triticum aestivum L.), spinach (Spinacia oleracea), and mung bean (Vigna radiata) were grown sequentially in the soil pots over 9 months under greenhouse and field conditions. Plant biomass and soil health parameters were assessed. Soils amended with 2% biochar demonstrated higher biomass in winter wheat, spinach, and mung bean compared to unamended control treatments. The effect of sludge biochar was not observed in soil bulk density; however, soil aggregates stability was higher in soils amended with 2% biochar (24.17%) compared to control (21.38%). Soil acidity was corrected in soils amended with 2% biochar (pH value 6.5) compared to control (5.8), electric conductivity (EC) was higher in 1% biochar (0.25 dS m-1) compared to control (0.20 dS m-1). Respiration rate was higher in 1% biochar (0.52 mg CO2 g-1 dry soil) compared to control (0.43 mg CO2 g-1), and total organic carbon (TOC) was lower in soils amended with biochar compared to control. Sewage sludge derived biochar improved crop production and soil health in strongly acidic soils and should be adopted in commercial agriculture. SEWAGE SLUDGE BIOCHAR ENHANCES SOIL HEALTH AND CROP PRODUCTIVITY IN STRONGLY ACIDIC SOIL Core Ideas• Adoption of sewage sludge derived biochar in agriculture in search for an efficient sludge management technique that minimize environmental contamination risks.• Assessing the effect of sewage sludge derived biochar in crop production and crop productivity.• Comprehend the efficacy of sewage sludge derived biochar on enhancing soil physical, chemical, and biological properties, and overall soil health.

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The biochar effect on soil respiration and nitrification

Cited by 15 publications

References 13 publications

Variation of Greenhouse Gases Fluxes and Soil Properties with Addition of Biochar from Farm-Wastes in Volcanic and Non-Volcanic Soils

Variation of Greenhouse Gases Fluxes and Soil Properties with Addition of Biochar from Farm-Wastes in Volcanic and Non-Volcanic Soils

Sewage Sludge Biochar Enhances Soil Health and Crop Productivity in Strongly Acidic Soil

Sewage Sludge Biochar Enhances Soil Health and Crop Productivity in Strongly Acidic Soil

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