Effect of dolomite and biochar addition on N2O and CO2 emissions from acidic tea field soil

Oo, Aung Zaw; Sudo, Shigeto; Akiyama, Hiroko; Win, Khin Thuzar; Shibata, Akira; Yamamoto, Akinori; Sano, Tomohito; Hirono, Yuhei

doi:10.1371/journal.pone.0192235

Cited by 50 publications

(35 citation statements)

References 52 publications

(69 reference statements)

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“…This result was also supported by correlation analysis that N 2 O emission was inversely related with soil C/N ratio in this experiment ( Figure 7). Ernfors et al [44] and Oo et al [24] also reported that soil C/N ratio was negatively correlated with N 2 O emission, although no significant correlation was observed by Feng and Zhu [45]. Previous studies indicated that as the relative C content increases in soil, a higher proportion of ammonium is immobilized (or assimilated) by microbes instead of being nitrified (or mineralized), leading to a decrease in soil inorganic N and suppression of N 2 O emission [42].…”

Section: N 2 O Emissionsmentioning

confidence: 97%

“…Pruning residue of tea plants was about 4 t ha −1 in dry weight. Biochar was produced from carbonization of tea pruning residues under open fire using open burn kiln [24]. Pyrolysis temperature was approximately 500-600 • C and biochar yield was about 30% on a dry weight basis with this method.…”

Section: Soil and Biocharmentioning

confidence: 99%

“…However, biochar addition has been reported to have positive, negative, or negligible effects on soil N 2 O emissions [19][20][21][22][23][24]. This apparent inconsistency might be due to differences in biochar types and properties of the soils used.…”

Section: N 2 O Emissionsmentioning

confidence: 99%

“…Studies have reported that biochar amendment affects C and N turnover by influencing microbial community structure and biomass [17], and hence alters CO 2 and N 2 O emissions from soil [18]. Biochar addition has been reported to have positive, negative, or negligible effects on soil N 2 O emissions [19][20][21][22][23][24]. This apparent inconsistency might be due to differences in biochar types and properties of the soils used.…”

Section: Introductionmentioning

confidence: 99%

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Returning Tea Pruning Residue and Its Biochar Had a Contrasting Effect on Soil N2O and CO2 Emissions from Tea Plantation Soil

Sudo

Win

et al. 2018

Atmosphere

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Abstract:A laboratory incubation experiment is conducted for 90 days under controlled conditions where either pruning residue or its biochar is applied to determine which application generates the lowest amount of greenhouse gas from tea plantation soil. To study the effect of incorporation depth on soil N 2 O and CO 2 emissions, experiment 1 is performed with three treatments: (1) control; (2) tea pruning residue; and (3) residue biochar mixed with soil from two different depths (0-5 cm and 0-10 cm layers). In experiment 2, only the 0-10 cm soil layer is used to study the effect of surface application of tea pruning residue or its biochar on soil N 2 O and CO 2 emissions compared with the control. The results show that biochar significantly increases soil pH, total C and C/N ratio in both experiments. The addition of pruning residue significantly increases soil total C content, cumulative N 2 O and CO 2 emissions after 90 days of incubation. Converting pruning residue to biochar and its application significantly decreases cumulative N 2 O emission by 17.7% and 74.2% from the 0-5 cm and 0-10 cm soil layers, respectively, compared to their respective controls. However, biochar addition increases soil CO 2 emissions for both the soil layers in experiment 1. Surface application of biochar to soil significantly reduces both N 2 O and CO 2 emissions compared to residue treatment and the control in experiment 2. Our results suggest that converting pruning residue to biochar and its addition to soil has the potential to mitigate soil N 2 O emissions from tea plantation.

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Section: N 2 O Emissionsmentioning

confidence: 97%

Section: Soil and Biocharmentioning

confidence: 99%

Section: N 2 O Emissionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Returning Tea Pruning Residue and Its Biochar Had a Contrasting Effect on Soil N2O and CO2 Emissions from Tea Plantation Soil

Sudo

Win

et al. 2018

Atmosphere

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“…Recently, biochar has received attention for possible use in agricultural soils. Conversion of crop residue into biochar and its application in soil as a soil amendment is a novel approach as a soil improver, as well as for carbon sequestration, improved soil fertility and crop production [15] and decreased greenhouse gas emission [16][17][18][19]. However, no difference or even an increase in soil N 2 O emissions after biochar application was observed in other studies [20,21].…”

Section: Introductionmentioning

confidence: 96%

Aerated Irrigation and Pruning Residue Biochar on N2O Emission, Yield and Ion Uptake of Komatsuna

Sudo

Matsuura

et al. 2018

Horticulturae

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After irrigation in intensive vegetable cultivation, the soil is filled with water leading to reduced oxygen content of the soil air which will affect vegetable growth and soil N2O emission. In this study, the effect of aerated irrigation and residue biochar on soil N2O emission, yield, and ion uptake of komatsuna grown in Andosol was explored. The experiment included four treatments; control (tap water irrigation), aerated water irrigation, pruning residue biochar with tap water irrigation, and a combination of aerated irrigation and biochar. The results showed that aerated irrigation had no effect on plant growth, but it also increased N2O emission by 12.3% for several days after planting. Plant ion uptake was not affected by aerated irrigation. Biochar amendment increased shoot dry weight and significantly reduced soil N2O emission by 27.9% compared with the control. Plant uptake of N and K also increased with biochar. This study showed that pruning residue biochar has the potential to mitigate N2O emission while increasing vegetable growth and plant nutrient uptake. However, the study soil, Andosol, already has high soil porosity with low bulk density. Thus, further injection of air through irrigation showed no effect on plant growth but increased N2O emission, hence soil aeration was not a limiting factor in Andosol.

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Role of Biochar in Carbon Sequestration and Greenhouse Gas Mitigation

Gupta

Dubey

et al. 2020

Biochar Applications in Agriculture and Environment Management

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Effect of dolomite and biochar addition on N2O and CO2 emissions from acidic tea field soil

Cited by 50 publications

References 52 publications

Returning Tea Pruning Residue and Its Biochar Had a Contrasting Effect on Soil N2O and CO2 Emissions from Tea Plantation Soil

Returning Tea Pruning Residue and Its Biochar Had a Contrasting Effect on Soil N2O and CO2 Emissions from Tea Plantation Soil

Aerated Irrigation and Pruning Residue Biochar on N2O Emission, Yield and Ion Uptake of Komatsuna

Role of Biochar in Carbon Sequestration and Greenhouse Gas Mitigation

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