Dependence of Wheat and Rice Respiration on Tissue Nitrogen and the Corresponding Net Carbon Fixation Efficiency Under Different Rates of Nitrogen Application

To quantitatively address the role of tissue N in crop respiration under various agricultural practices, and to consequently evaluate the impact of synthetic fertilizer N application on biomass production and respiration, and hence net carbon fixation efficiency （Encf）, pot and field experiments wer...

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Veröffentlicht in:	Advances in atmospheric sciences 2007-01, Vol.24 (1), p.55-64
1. Verfasser:	孙文娟黄耀陈书涛邹建文郑循华
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Schlagworte:	Agricultural practices Agrochemicals Biomass Carbon Carbon fixation Cereal crops Cropping systems Fertilizers Field tests Nitrogen Planting density Respiration Rice Studies Tissues Wheat 植物自养呼吸氮肥施用量碳固定效率组织氮
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description	To quantitatively address the role of tissue N in crop respiration under various agricultural practices, and to consequently evaluate the impact of synthetic fertilizer N application on biomass production and respiration, and hence net carbon fixation efficiency （Encf）, pot and field experiments were carried out for an annual rotation of a rice-wheat cropping system from 2001 to 2003. The treatments of the pot experiments included fertilizer N application, sowing date and planting density. Different rates of N application were tested in the field experiments. Static opaque chambers were used for sampling the gas. The respiration as CO2 emission was detected by a gas chromatograph. A successive biomass clipping method was employed to determine the crop autotrophic respiration coefficient （Ra）. Results from the pot experiments revealed a linear relationship between Ra and tissue N content as Ra = 4.74N-1.45 （R^2= 0.85, P 〈 0.001）. Measurements and calculations from the field experiments indicated that fertilizer N application promoted not only biomass production but also increased the respiration of crops. A further investigation showed that the increase of carbon loss in terms of respiration owing to fertilizer N application exceeded that of net carbon gain in terms of aboveground biomass when fertilizer N was applied over a certain rate. Consequently, the Encf declined as the N application rate increased.
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The treatments of the pot experiments included fertilizer N application, sowing date and planting density. Different rates of N application were tested in the field experiments. Static opaque chambers were used for sampling the gas. The respiration as CO2 emission was detected by a gas chromatograph. A successive biomass clipping method was employed to determine the crop autotrophic respiration coefficient （Ra）. Results from the pot experiments revealed a linear relationship between Ra and tissue N content as Ra = 4.74N-1.45 （R^2= 0.85, P 〈 0.001）. Measurements and calculations from the field experiments indicated that fertilizer N application promoted not only biomass production but also increased the respiration of crops. A further investigation showed that the increase of carbon loss in terms of respiration owing to fertilizer N application exceeded that of net carbon gain in terms of aboveground biomass when fertilizer N was applied over a certain rate. 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The treatments of the pot experiments included fertilizer N application, sowing date and planting density. Different rates of N application were tested in the field experiments. Static opaque chambers were used for sampling the gas. The respiration as CO2 emission was detected by a gas chromatograph. A successive biomass clipping method was employed to determine the crop autotrophic respiration coefficient （Ra）. Results from the pot experiments revealed a linear relationship between Ra and tissue N content as Ra = 4.74N-1.45 （R^2= 0.85, P 〈 0.001）. Measurements and calculations from the field experiments indicated that fertilizer N application promoted not only biomass production but also increased the respiration of crops. A further investigation showed that the increase of carbon loss in terms of respiration owing to fertilizer N application exceeded that of net carbon gain in terms of aboveground biomass when fertilizer N was applied over a certain rate. 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density</subject><subject>Respiration</subject><subject>Rice</subject><subject>Studies</subject><subject>Tissues</subject><subject>Wheat</subject><subject>植物自养呼吸</subject><subject>氮肥施用量</subject><subject>碳固定效率</subject><subject>组织氮</subject><issn>0256-1530</issn><issn>1861-9533</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GNUQQ</sourceid><recordid>eNpdkc9qGzEQxkVpoa7bB-hN9FDoYdPRav_5GJykKYQUTEKPQiuNbDmOtJbWJOnD9Fk7zpYUCho0DL_5PmaGsY8CTgRA-zUDyLYpKKWo66J6xWaia0SxqKV8zWZQ1k0haglv2buct0QvZCdm7PcZDhgsBoM8Ov5zg3rkOli-8lRZYR580qOPgdO78TkfkF_7McU1hmdu3CBfxpSIjMH6sObXOPKlTj01XPjHqfncOW88uTzxW3JL_Mw7hwnDyFd6xHz0fpE9HYadN8-N79kbp3cZP_z95-z24vxmeVlc_fj2fXl6VRjZVGNhXCOssSj60rYdiL7T0IOpWiOg77UGq8GBbGTdUMhOSmjLqlpIaWWnhZVz9mXSfdDB6bBW23hIgRyV3d89bn8pLGm1QKtuiP08sUOK-wPmUd37bHC30wHjIasSyq7tZEvgp__AF9W6lFBWgrA5ExNkUsw5oVND8vc6PSkB6nhaNZ1WHdPjaVX1T9hsYljvaemq1-bO-R2qkqakMWv5Bzygovk</recordid><startdate>20070101</startdate><enddate>20070101</enddate><creator>孙文娟黄耀陈书涛邹建文郑循华</creator><general>Springer 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subjects	Agricultural practices Agrochemicals Biomass Carbon Carbon fixation Cereal crops Cropping systems Fertilizers Field tests Nitrogen Planting density Respiration Rice Studies Tissues Wheat 植物自养呼吸氮肥施用量碳固定效率组织氮
title	Dependence of Wheat and Rice Respiration on Tissue Nitrogen and the Corresponding Net Carbon Fixation Efficiency Under Different Rates of Nitrogen Application
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