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Effects of nitrogen fertilizer on CH 4 emission from rice fields: multi-site field observations
There is an ongoing discussion of the possible effects of nitrogen (N) application on methane (CH4) emission from rice fields. However, the Intergovernmental Panel on Climate Change (IPCC) methodologies for estimating the national inventory of CH4 emission from paddy rice production do not consider...
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| Published in: | Plant and soil 2010-01, Vol.326 (1/2), p.393-401 |
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| Main Authors: | , , , , , , , , , , , |
| Format: | Article |
| Language: | English |
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| container_end_page | 401 |
| container_issue | 1/2 |
| container_start_page | 393 |
| container_title | Plant and soil |
| container_volume | 326 |
| creator | Xie, Baohua Zheng, Xunhua Zhou, Zaixing Gu, Jiangxin Zhu, Bo Chen, Xin Shi, Yi Wang, Yiyong Zhao, Zhichun Liu, Chunyan Yao, Zhisheng Zhu, Jianguo |
| description | There is an ongoing discussion of the possible effects of nitrogen (N) application on methane (CH4) emission from rice fields. However, the Intergovernmental Panel on Climate Change (IPCC) methodologies for estimating the national inventory of CH4 emission from paddy rice production do not consider the effects of N addition. To assess the lack of knowledge about N addition effects on inventory estimates, we recently launched a multi-site observation campaign in major rice cultivation regions of China. The observations showed that, across various climate zones, the application of ammonium-based fertilizers at the commonly-adopted levels for fields in China (150 or 250 kg N ha-1) generally inhibited accumulative CH4 emission during rice season (by 28–30% on average) as compared to no N addition. An increase in application from the moderate level of 150 kg N ha-1 to the high rate of 250 kg N ha-1 did not significantly modify CH4 emission. Our results suggest that disregarding the effect of N fertilization by the IPCC methodologies may not significantly bias CH4 inventory estimates of China. In regions with much lower N addition levels, however, disregarding the effect of N fertilization may result in the underestimation of regional CH4 emission, since these emissions were mainly derived from studies in regions with relatively high N addition rates. |
| doi_str_mv | 10.1007/s11104-009-0020-3 |
| format | article |
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However, the Intergovernmental Panel on Climate Change (IPCC) methodologies for estimating the national inventory of CH4 emission from paddy rice production do not consider the effects of N addition. To assess the lack of knowledge about N addition effects on inventory estimates, we recently launched a multi-site observation campaign in major rice cultivation regions of China. The observations showed that, across various climate zones, the application of ammonium-based fertilizers at the commonly-adopted levels for fields in China (150 or 250 kg N ha-1) generally inhibited accumulative CH4 emission during rice season (by 28–30% on average) as compared to no N addition. An increase in application from the moderate level of 150 kg N ha-1 to the high rate of 250 kg N ha-1 did not significantly modify CH4 emission. Our results suggest that disregarding the effect of N fertilization by the IPCC methodologies may not significantly bias CH4 inventory estimates of China. 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However, the Intergovernmental Panel on Climate Change (IPCC) methodologies for estimating the national inventory of CH4 emission from paddy rice production do not consider the effects of N addition. To assess the lack of knowledge about N addition effects on inventory estimates, we recently launched a multi-site observation campaign in major rice cultivation regions of China. The observations showed that, across various climate zones, the application of ammonium-based fertilizers at the commonly-adopted levels for fields in China (150 or 250 kg N ha-1) generally inhibited accumulative CH4 emission during rice season (by 28–30% on average) as compared to no N addition. An increase in application from the moderate level of 150 kg N ha-1 to the high rate of 250 kg N ha-1 did not significantly modify CH4 emission. Our results suggest that disregarding the effect of N fertilization by the IPCC methodologies may not significantly bias CH4 inventory estimates of China. 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However, the Intergovernmental Panel on Climate Change (IPCC) methodologies for estimating the national inventory of CH4 emission from paddy rice production do not consider the effects of N addition. To assess the lack of knowledge about N addition effects on inventory estimates, we recently launched a multi-site observation campaign in major rice cultivation regions of China. The observations showed that, across various climate zones, the application of ammonium-based fertilizers at the commonly-adopted levels for fields in China (150 or 250 kg N ha-1) generally inhibited accumulative CH4 emission during rice season (by 28–30% on average) as compared to no N addition. An increase in application from the moderate level of 150 kg N ha-1 to the high rate of 250 kg N ha-1 did not significantly modify CH4 emission. Our results suggest that disregarding the effect of N fertilization by the IPCC methodologies may not significantly bias CH4 inventory estimates of China. In regions with much lower N addition levels, however, disregarding the effect of N fertilization may result in the underestimation of regional CH4 emission, since these emissions were mainly derived from studies in regions with relatively high N addition rates.</abstract><pub>Springer</pub><doi>10.1007/s11104-009-0020-3</doi><tpages>9</tpages></addata></record> |
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| ispartof | Plant and soil, 2010-01, Vol.326 (1/2), p.393-401 |
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| language | eng |
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| source | Springer Link; Access via JSTOR |
| subjects | Agricultural site preparation Fertilizers International environmental cooperation Methane Oxidation Pollutant emissions Rice Rice soils Soil air Soil biochemistry |
| title | Effects of nitrogen fertilizer on CH 4 emission from rice fields: multi-site field observations |
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