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Changes in fertilizer-induced direct N2O emissions from paddy fields during rice-growing season in C

发布时间:2010-09-17 点击次数:

期刊名称:Global Change Biology 卷、期、页:10.1111/j.1365-2486.2008.01775.x(DOI) 作者:JIANWEN ZOU*, YAO HUANG, YANMEI QIN, SHUWEI LIU, QIRONG SHEN, GENXING PAN, YANYU LU, and QIAOHUI LIU

摘要:

Nitrogen fertilizer-induced direct N2O emissions depend on water regimes in paddy fields, such as seasonal continuous flooding (F), flooding-midseason drainage-reflooding (F-D-F), and flooding-midseason drainage-reflooding-moist intermittent irrigation but without water logging (F-D-F-M). In order to estimate changes in direct N2O emission from paddy fields during the rice growing season in Mainland of China between the 1950s and the 1990s, the country-specific emission factors of N2O-N under different water regimes combined with rice production data were adopted in the present study. Census statistics on rice production showed that water management and nitrogen input regimes have changed in rice paddies since the 1950s. During the 1950s-1970s, about 20-25% of the rice paddy was continuously waterlogged, and 75-80% under the water regime of F-D-F. Since the 1980s, about 12-16%, 77% and 7-12% of paddy fields were under the water regimes of F, F-D-F, and F-D-F-M, respectively. Total nitrogen input during the rice growing season has increased from 87.5 kg N ha-1 in the 1950s to 224.6 kg N ha-1 in the 1990s. The emission factors of N2O-N were estimated to be 0.02%, 0.42% and 0.73% for rice paddies under the F, F-D-F and F-D-F-M water regimes, respectively. Seasonal N2O emissions have increased from 9.6 Gg N2O-N each year in the 1950s to 32.3 Gg N2O-N in the 1990s, which is accompanied by the increase in rice yield over the period 1950s-1990s. The uncertainties in N2O estimate were estimated to be 59.8% in the 1950s and 37.5% in the 1990s. In the 1990s, N2O emissions during the rice growing season accounted for 8-11% of the reported annual total of N2O emissions from croplands in China, suggesting that paddy rice development could have contributed to mitigating agricultural N2O emissions in the past decades. However, seasonal N2O emissions would be increased given that saving-water irrigation and nitrogen inputs are increasingly adopted in rice paddies in China.




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