Easily mineralizable carbon in manure-based biochar added to a soil influences N 2 O emissions and microbial-N cycling genes
2018 | journal article. A publication with affiliation to the University of Göttingen.
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Easily mineralizable carbon in manure-based biochar added to a soil influences N 2 O emissions and microbial-N cycling genes
Dai, Z.; Li, Y.; Zhang, X.; Wu, J.; Luo, Y.; Kuzyakov, Y. & Brookes, P. C. et al. (2018)
Land Degradation & Development, 30(4) pp. 406-416. DOI: https://doi.org/10.1002/ldr.3230
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Details
- Authors
- Dai, Zhongmin; Li, Yong; Zhang, Xiaojie; Wu, Jianjun; Luo, Yu; Kuzyakov, Yakov ; Brookes, Philip C.; Xu, Jianming
- Abstract
- Abstract Manure‐based biochar is an effective amendment to increase both carbon sequestration and the fertility of degraded soils, whereas the responses of N 2 O emissions and microbial‐N cycling genes to its application and the underlying mechanisms are poorly understood. Here, four biochars were produced under two pyrolysis temperatures (300 and 700°C) and with two organic C extraction procedures (water and acetone extraction). The resulting biochars were either with relative enrichment or depletion in easily mineralizable carbon (EMC) compared with recalcitrant C. We added biochars, with urea and sodium nitrate, to a degraded red soil and incubated the amended soils at moisture levels of 60% and 130% field capacity. All the biochars decreased nitrification gene abundance, that is, amoA. Biochars with EMC had greater stimulatory effects on the abundance of denitrification genes (nirK, nirS, and nosZ) and N 2 O emission, regardless of moisture level and N form, compared with biochar without EMC. Biochar‐induced microbial activity, biochar aliphatics, and alkyl groups correlated positively with N 2 O emission and denitrification gene abundance. The water dissolved organic C of biochar facilitated the conversion of N 2 O to N 2 , whereas the acetone extractable C fraction postponed the completion of denitrification. In conclusion, the N 2 O emission and denitrification gene abundance increased with decreasing biochar aromaticity and increasing EMC content. Our study emphasizes that the EMC supply in manure‐based biochars also importantly mediates soil N 2 O emission and microbial N cycling genes, adding to current understanding of influencing factors such as biochar pH, porosity, N availability, and redox property.
- Issue Date
- 2018
- Journal
- Land Degradation & Development
- ISSN
- 1085-3278
- ISSN
- 1085-3278
- eISSN
- 1099-145X
- Language
- English
- Sponsor
- Project 211 https://doi.org/10.13039/501100012176
National Natural Science Foundation of China https://doi.org/10.13039/501100001809
China Postdoctoral Science Foundation https://doi.org/10.13039/501100002858