高CO浓度对稻田CO排放影响的初步分析

[1] 稻麦作物呼吸作用与植株氮含量、生物量和温度的定量关系 [J]. 生态学报, 2005, (05) : 1152 - 1158

[2] 开放式空气CO2浓度升高对水稻土壤可溶性C、N和P的影响 [J]. 土壤, 2004, (04) : 392 - 397

[3] 作物生长和氮含量对土壤-作物系统CO_2排放的影响[J] 孙文娟;黄耀;陈书涛;杨兆芳;郑循华 环境科学 2004, 03

[4] 水稻植株对稻田甲烷排放的影响 [J]. 应用生态学报, 2003, (11) : 2049 - 2053

[5] 稻麦轮作FACE系统平台Ⅰ.系统结构与控制 [J]. 应用生态学报, 2002, (10) : 1253 - 1258+1235

[6] Age at flowering differentially affects vegetative and reproductive responses of a determinate annual plant to elevated carbon dioxide[J] James D. Lewis;Xianzhong Wang;Kevin L. Griffin;David T. Tissue Oecologia 2003,

[7] Effects of increased atmospheric CO<Subscript>2</Subscript>; temperature; and soil N availability on root exudation of dissolved organic carbon by a N-fixing tree (<Emphasis Type="Italic">Robinia pseudoacacia</Emphasis> L.)[J] Shauna M. Uselman;Robert G. Qualls;Richard B. Thomas Plant and Soil 2000,

[8] Carbon and nitrogen allocation in Lolium perenne in response to elevated atmospheric CO2 with emphasis on soil carbon dynamics[J] J.H. van Ginkel;A. Gorissen;J.A. van Veen Plant and Soil 1997,

[9] Effect of elevated CO 2 on carbon and nitrogen distribution within a tree ( Castanea sativa Mill.) — soil system[J] H. Rouhier;G. Billès;A. Kohen;M. Mousseau;P. Bottner Plant and Soil 1994,

[10] Elevated atmospheric CO 2 and feedback between carbon and nitrogen cycles[J] Donald R. Zak;Kurt S. Pregitzer;Peter S. Curtis;James A. Teeri;Robert Fogel;Diana L. Randlett Plant and Soil 1993,

[1] 稻麦作物呼吸作用与植株氮含量、生物量和温度的定量关系 [J]. 生态学报, 2005, (05) : 1152 - 1158

[2] 开放式空气CO2浓度升高对水稻土壤可溶性C、N和P的影响 [J]. 土壤, 2004, (04) : 392 - 397

[3] 作物生长和氮含量对土壤-作物系统CO_2排放的影响[J] 孙文娟;黄耀;陈书涛;杨兆芳;郑循华 环境科学 2004, 03

[4] 水稻植株对稻田甲烷排放的影响 [J]. 应用生态学报, 2003, (11) : 2049 - 2053

[5] 稻麦轮作FACE系统平台Ⅰ.系统结构与控制 [J]. 应用生态学报, 2002, (10) : 1253 - 1258+1235

[6] Age at flowering differentially affects vegetative and reproductive responses of a determinate annual plant to elevated carbon dioxide[J] James D. Lewis;Xianzhong Wang;Kevin L. Griffin;David T. Tissue Oecologia 2003,

[7] Effects of increased atmospheric CO<Subscript>2</Subscript>; temperature; and soil N availability on root exudation of dissolved organic carbon by a N-fixing tree (<Emphasis Type="Italic">Robinia pseudoacacia</Emphasis> L.)[J] Shauna M. Uselman;Robert G. Qualls;Richard B. Thomas Plant and Soil 2000,

[8] Carbon and nitrogen allocation in Lolium perenne in response to elevated atmospheric CO2 with emphasis on soil carbon dynamics[J] J.H. van Ginkel;A. Gorissen;J.A. van Veen Plant and Soil 1997,

[9] Effect of elevated CO 2 on carbon and nitrogen distribution within a tree ( Castanea sativa Mill.) — soil system[J] H. Rouhier;G. Billès;A. Kohen;M. Mousseau;P. Bottner Plant and Soil 1994,

[10] Elevated atmospheric CO 2 and feedback between carbon and nitrogen cycles[J] Donald R. Zak;Kurt S. Pregitzer;Peter S. Curtis;James A. Teeri;Robert Fogel;Diana L. Randlett Plant and Soil 1993,