Publikationen
Es wurden 5 Publikationen gefunden
Bach, M.; Wilske, B. & Breuer, L. (2016): Current economic obstacles to biochar use in agriculture and climate change mitigation. Carbon Management 0(0), 1-8
DOI: http://dx.doi.org/10.1080/17583004.2016.1213608.
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DOI: 10.1080/17583004.2016.1213608
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Abstract:
Abstract:
Biochar may become a key instrument at the nexus of managed carbon fluxes, including value added potential in soil Amelioration, climate protection, energy supply and organic waste management. This article reflects the potential use of biochar in agriculture from the perspective of the farming economy. Biochar soil amendment in crop production is regarded as a win-win Situation, both for assumed increases in cropping yields and carbon Sequestration in soil organic matter. However, an extensive review on biochar effecton crop yield has not yet been able to provide compelling arguments to foster more widespread biochar use in cropping systems. Furthermore, the half-lives of biochar are frequently shorter than commonly suggested, and other financial incentives, such as including biochar in carbon credit Systems, are not in place to compensate for the extra cost of applying biochar. As a result, we conclude with a somewhat skeptical view for a widespread use of biochar in agriculture in the near future.
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Keywords: |
climate change |
biochar |
Jeffery, S.; Verheijen, F.G.A.; Kammann, C. & Abalos, D. (2016): Biochar effects on methane emissions from soils: A meta-analysis. Soil Biology & Biochemistry 101, 251-258
DOI: http://dx.doi.org/10.1016/j.soilbio.2016.07.021.
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DOI: 10.1016/j.soilbio.2016.07.021
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Methane (CH4) emissions have increased by more than 150% since 1750, with agriculture being the major source. Further increases are predicted as permafrost regions start thawing, and rice and ruminant animal production expand. Biochar is posited to increase crop productivity while mitigating climate change by sequestering carbon in soils and by influencing greenhouse gas fluxes. There is a growing understanding of biochar effects on carbon dioxide and nitrous oxide fluxes from soil. However, little is known regarding the effects on net methane exchange, with single studies often reporting contradictory results. Here we aim to reconcile the disparate effects of biochar application to soil in agricultural systems on CH4 fluxes into a single interpretive framework by quantitative meta-analysis.
This study shows that biochar has the potential to mitigate CH4 emissions from soils, particularly from flooded (i.e. paddy) fields (Hedge's d ¼ 0.87) and/or acidic soils (Hedge's d ¼ 1.56) where periods of flooding are part of the management regime. Conversely, addition of biochar to soils that do not have periods of flooding (Hedge's d ¼ 0.65), in particular when neutral or alkaline (Hedge's d ¼ 1.17 and 0.44, respectively), may have the potential to decrease the CH4 sink strength of those soils. Global methane fluxes are net positive as rice cultivation is a much larger source of CH4 than the sink contribution of upland soils. Therefore, this meta-study reveals that biochar use may have the potential to reduce atmospheric CH4 emissions from agricultural flooded soils on a global scale.
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Keywords: |
soil |
Biochar |
Methane |
Meta-analysis |
Standardised mean difference |
Greenhouse gas |
Haider, G.; Steffens, D.; Müller, C. & Kammann, C. (2016): Standard extraction methods may underestimate nitrate stocks captured by field-aged biochar. Journal of Environmental Quality 45, 1196-1204
DOI: http://dx.doi.org/doi:10.2134/jeq2015.10.0529.
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DOI: doi:10.2134/jeq2015.10.0529
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Biochar (BC) has been shown to increase the potential for N retention in agricultural soils. However, the form of N retained and its strength of retention are poorly understood. Here, we examined if the N retained could be readily extractable by standard methods and if the amount of N retained varied with BC field ageing. We investigated soil and field-aged BC (BCaged) particles of a field experiment (sandy soil amended with BC at 0, 15, and 30 t ha-1) under two watering regimes (irrigated and rain-fed). Throughout the study, greater nitrate than ammonium retention was observed with BC addition in topsoil (0–15 cm). Subsoil (15–30 cm) nitrate concentrations were reduced in BC treatments, indicating reduced nitrate leaching (standard 2 mol L-1 KCl method). The mineral-N release of picked BCaged particles was examined with different methods: standard 2 mol L-1 KCl extraction; repeated (10×) extraction in 2 mol L-1 KCl at 22 ± 2°C and 80°C (M0); electro-ultrafiltration (M1); repeated water + KCl long-term shaking (M2); and M2 plus one repeated shaking at 80°C (M3). Nitrate amounts captured by BCaged particles were severalfold greater than those in the BC-amended soil. Compared with M0, standard 2 mol L-1 KCl or electro-ultrafiltration extractions retrieved only 13 and 30% of the total extractable nitrates, respectively. Our results suggest that “nitrate capture” by BC may reduce nitrate leaching in the field and that the inefficiency of standard extraction methods deserves closer research attention to decipher mechanisms for reactive N management.
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Keywords: |
Nitrate Stocks |
Extraction methods |
Biochar |
Bach, M.; Wilske, B. & Breuer, L. (2016): Current economic obstacles to biochar use in agriculture and climate change mitigation. Carbon Management Online, 1-8
DOI: http://dx.doi.org/10.1080/17583004.2016.1213608.
-
log in to download
-
link
-
view metadata
-
DOI: 10.1080/17583004.2016.1213608
-
Abstract:
Abstract:
Biochar may become a key instrument at the nexus of managed carbon flows, including value added potential in soil amelioration, climate protection, energy supply and organic waste management. This article reflects the potential use of biochar in agriculture from the perspective of the farming economy. Biochar soil amendment in crop production is regarded as a winwin situation, both for assumed increases in cropping yields and carbon sequestration in soil organic matter. However, an extensive review on biochar effect on crop yield has not yet been able to provide compelling arguments to foster more widespread biochar use in cropping systems. Furthermore, the half-lives of biochars are frequently shorter than commonly suggested, and other financial incentives, such as including biochar in carbon credit systems, are not in place to compensate for the extra cost of applying biochar. As a result, we conclude with a somewhat skeptical view for a widespread use of biochar in agriculture in the near future.
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Keywords: |
biochar |
crop yield |
stability |
abatement costs |
rentability |
Moser, G.; Müller, C. & Grünhage, L. (2016-01-07). Klimawandel vor der Haustür. Presented at UKL, UKL.