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Review Article
One Ecosystem 9: e109657
https://doi.org/10.3897/oneeco.9.e109657 (02 Jan 2024)
https://doi.org/10.3897/oneeco.9.e109657 (02 Jan 2024)
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Introduction
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Methodology
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Paddy field and harvesting areas
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Compilation of published CH4 and N2O emission data from flooded paddy fields in various regions in Indonesia
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Analysis of the characterisation of CH4 emission from the paddy field in Indonesia
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Analysis N fertiliser-induced N2O emission (FIE)
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The potential of rice straw biochar (RSB) and rice husk biochar (RHB) to reduce CH4 and N2O emissions and estimating rice straw (RS), rice husk (RH), RSB and RHB production from paddy fields in Indonesia
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Results and Discussion
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Paddy fields and rice harvested area in Indonesia
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The compiled data of CH4 and N2O emissions from continuously flooded paddy fields in Indonesia
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Analysis of several factors influencing CH4 emission from flooded paddy fields
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The soil type of paddy fields
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Rice variety
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Organic amendment and chemical fertiliser
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Analysis of N fertiliser-induced N2O emission (FIE)
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The potential of RSB and RHB in improving paddy field properties and reducing CH4 and N2O emission
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The benefit of RSB and RHB on the paddy field properties
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The benefit of RSB and RHB in reducing CH4 emission from the flooded paddy field
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The benefit of RSB and RHB in reducing N2O emission from the flooded paddy field
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Estimation of RS, RH, RSB and RHB production from the paddy fields in Indonesia
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The constraints to convert the RS and RH to RSB and RHB
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Rice straw and husk are by-products with economic value
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Biochar production emits synthesis gas (syngas)
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Encouraging factors to use biochar to control emissions from flooded paddy fields
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Conclusions
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Acknowledgements
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References
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