Biochar Decelerates Soil Organic Nitrogen Cycling but Stimulates Soil Nitrification in a Temperate Arable Field Trial

Prommer, Judith; Wanek, Wolfgang; Hofhansl, Florian; Trojan, Daniela; Offre, Pierre; Urich, Tim; Schleper, Christa; Sassmann, Stefan; Kitzler, Barbara; Soja, Gerhard; Hood‐Nowotny, Rebecca

doi:10.1371/journal.pone.0086388

Cited by 246 publications

(138 citation statements)

References 100 publications

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“…As nitrification is an acidifying process, 42 alkaline biochar may create much more favorable conditions for nitrifiers thus increasing nitrification rates due to its liming effect. 43,44 The decreased N 2 O emission and increased nitrification rates demonstrate that the relative contribution of nitrification to N 2 O emissions is much less than that of denitrification (including nitrifier denitrification) in this soil. This result shows that biochar inhibition on nitrification is unlikely to be the mechanism of N 2 O reduction in the soil.…”

Section: ■ Experimental Sectionmentioning

confidence: 90%

Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape

Wang

et al. 2014

Environ. Sci. Technol.

407

167

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Biochar has been suggested to improve acidic soils and to mitigate greenhouse gas emissions. However, little has been done on the role of biochar in ameliorating acidified soils induced by overuse of nitrogen fertilizers. In this study, we designed a pot trial with an acidic soil (pH 4.48) in a greenhouse to study the interconnections between microbial community, soil chemical property changes, and N 2 O emissions after biochar application. The results showed that biochar increased plant growth, soil pH, total carbon, total nitrogen, C/N ratio, and soil cation exchange capacity. The results of high-throughput sequencing showed that biochar application increased α-diversity significantly and changed the relative abundances of some microbes that are related with carbon and nitrogen cycling at the family level. Biochar amendment stimulated both nitrification and denitrification processes, while reducing N 2 O emissions overall. Results of redundancy analysis indicated biochar could shift the soil microbial community by changing soil chemical properties, which modulate N-cycling processes and soil N 2 O emissions. The significantly increased nosZ transcription suggests that biochar decreased soil N 2 O emissions by enhancing its further reduction to N 2 .

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Section: ■ Experimental Sectionmentioning

confidence: 90%

Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape

Wang

et al. 2014

Environ. Sci. Technol.

407

167

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“…Specifically, the microbial biomass was up to 43-125% higher in BC-rich soils than in BC-poor adjacent soils during 532 days of incubation (Liang et al, 2010). On the contrary, BC amendment did not affect the DOC and dissolved organic N (DON) in one field study (Jones et al, 2012), whereas it decreased the DOC concentration (Prommer et al, 2014) in another field study. These contradicting positive and negative effects of BC application on SOM fractions may be attributed to the specific processes governing C and N cycling under specific management practices.…”

Section: Introductionmentioning

confidence: 93%

“…The addition of BC to soil can increase the SOM level (Lehmann et al, 2006), affect C cycling (Bolan et al, 2012;Farrell et al, 2015;Liang et al, 2010), accelerate nitrogen (N) dynamics (Nelissen et al, 2012) or in some cases, even reduce organic N turnover (Prommer et al, 2014). The changes in the total SOM due to management practices are gradual because SOM is a heterogeneous mixture that contains numerous compounds varying degradability and turnover rates (Stevenson, 1994).…”

Section: Introductionmentioning

confidence: 99%

“…These contradicting positive and negative effects of BC application on SOM fractions may be attributed to the specific processes governing C and N cycling under specific management practices. These processes vary with climate, crop rotation, fertilization and soil biology characteristics and consequently result in inconsistent SOM dynamics and transformation (Demisie et al, 2014;Jones et al, 2012;Lin et al, 2012;Liang et al, 2010;Prommer et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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Biochar affects soil organic matter cycling and microbial functions but does not alter microbial community structure in a paddy soil

Tian

Wang

Dippold

et al. 2016

Science of The Total Environment

214

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“…The C/N ratios of biochars were 200.75 for BC A and 122.74 for BC B. LEHMANN and JOSEPH (2009) identified the C/N ratio lower than 20 as a ratio of good soil amendment. Although it is still unclear whether the C/N ratio criterion is directly applicable to biochars which do not decompose at the same rate as other organic amendments, applications of biochars with higher C/N ratios may lead to lower N uptake and a delay in N turnover in soil (PROMMER et al, 2014). Comparison of physicochemical properties of BC A and BC B showed the main differences in ash content, CEC and SA values.…”

Section: Characterization Of Biochar-derived Sorbentsmentioning

confidence: 99%

The Response of Artificial Aging to Sorption Properties of Biochar for Potentially Toxic Heavy Metals

Frišták¹,

Friesl-Hanl²,

Pipíška³

et al. 2014

Nova Biotechnologica Et Chimica

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This paper evaluates the effect of simulated conditions of artificial aging on sorption capacity of two types of biochar. These were produced by slow pyrolysis from different feedstock -beech wood chips (BC A) and garden green waste residues (BC B). Cadmium served as a model for potentially toxic metals. Twenty freeze-thaw cycles were used to simulate physical aging. The determination of biochar physicochemical properties showed main changes in CEC and SA values of aged sorbents. The maximum sorption capacities of aged BC A sorbent were higher by about 26 % and aged BC B sorbent by about 20% compared to Q max of non-aged biochar. Q max of aged BC B peaked at 9.4 mg g -1 whereas BC A sorbed significantly less Cd. FT-IR analyses confirmed the changes in structural composition and content of functional groups on biochar surfaces. The artificial physical aging model was assessed as an efficient tool for investigation of natural weathering conditions.

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Biochar Decelerates Soil Organic Nitrogen Cycling but Stimulates Soil Nitrification in a Temperate Arable Field Trial

Cited by 246 publications

References 100 publications

Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape

Biochar Impacts Soil Microbial Community Composition and Nitrogen Cycling in an Acidic Soil Planted with Rape

Biochar affects soil organic matter cycling and microbial functions but does not alter microbial community structure in a paddy soil

The Response of Artificial Aging to Sorption Properties of Biochar for Potentially Toxic Heavy Metals

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