教材与著作 1、 曹凑贵、李成芳等,《低碳稻作原理与实践》,科学出版社,2014 2、 李成芳,《保护性耕作稻田温室气体减排原理与实践》,中国农业出版社,2020 3、 Li Chengfang, Cao Cougui. 2015. Chapter 9 The Ecological Effects of No-Tillage Rice in the Middle and Lower Reaches of the Yangtze River. In: Shiming and Gliessman (Eds). Agroecology in China: Science, Practice and Sustainable. Taylor & Francis. pp. 221-258. 4、 Li Chengfang, Cao Cougui, Luo Shiming. 2018. Method 3 Rice-rice-milk Vetch Rotation System. In: Luo Shiming (ed.) Agroecological Rice Production in China: Restoring Biological Interactions. Food and Agriculture Organization of the United Nations, Rome, pp.19-26. 5、 李成芳参编,稻田土壤培肥与丰产增效耕作理论和技术(张卫建、张俊等),科学出版社,2021 6、 李成芳参编,稻田秸秆还田技术手册(张俊、张卫建等),中国农业出版社,2020 学术论文 1. Chen BP, Guo LJ, Tang JC, Li YS, Li CF*. Comprehensive impacts of different integrated rice-animal co-culture systems on rice yield, nitrogen fertilizer partial factor productivity and nitrogen losses: A global meta-analysis. Science of the Total Environment, 2024, 915:169994. 2. Ding ZJ, Li JT, Huang F, Hu R, Peng SB, Huang JL, Hou J*, Zhou JL, Li CF*, Su B, Xu MJ. One-time root-zone fertilization of controlled-release urea increases nitrogen use efficiency while reducing nitrogen loss risk in a ratoon rice field under two irrigation practices. Nutrient Cycling in Agroecosystems, 2024, 128:13–33. 3. Guo LJ, Lin W, Cao CG, Li CF*. Integrated rice-crayfish farming system does not mitigate the global warming potential during rice season. Science of the Total Environment, 2023, 867:161520. 4. Du XZ, Hao M, Guo LJ, Li SH, Hu WL, Sheng F*, Li CF*. Integrated assessment of carbon footprint and economic profit from paddy fields under microbial decaying agents with diverse water regimes in central China. Agricultural Water Management, 2022, 262:107403. 5. Hao M, Guo LJ, Du XZ, Wang HL, Sheng F*, Li CF*. Integrated effects of microbial decomposing inoculant on greenhouse gas emissions, grain yield and economic profit from paddy fields under different water regimes. Science of the Total Environment 2022, 805:150295 6. Fan DJ, Cao CG, Li CF*. Integrated organic‐inorganic nitrogen fertilization mitigates nitrous oxide emissions by regulating ammonia‐oxidizing bacteria in Purple Caitai fields. Agriculture, 2022, 12:723. 7. Guo L, Shi J, Lin W, Liang J, Lu Z, Tang X, Liu Y, Wu P, Li C*. Soil bacteria mediate soil organic carbon sequestration under different tillage and straw management in rice-wheat cropping systems. Agriculture, 2022, 12:1552. 8. Guo LJ, Zhang L, Liu L, Sheng F, Cao CG, Li CF*. Effects of long-term no tillage and straw return on greenhouse gas emissions and crop yields from a rice-wheat system in central China. Agriculture, Ecosystems and Environment, 2021, 322:107650 9. Tianqi Liu, Lijin Guo, Cougui Cao, Wenfeng Tan, Chengfang Li*. Long-term rice-oilseed rape rotation increases soil organic carbon by improving functional groups of soil organic matter. Agriculture, Ecosystems and Environment, 2021, 319:107548 10. Shi-hao Li, Li-jin Guo, Cou-gui Cao, Cheng-fang Li*. Integrated assessment of carbon footprint, energy budget and net ecosystem economic efficiency from rice fields under different tillage modes in central China. Journal of Cleaner Production, 2021, 295:126398 11. Feng ZY, Qin T, Du XZ, Sheng F*, Li CF*. Effects of irrigation regime and rice variety on greenhouse gas emissions and grain yields from paddy fields in central China. Agricultural Water Management, 2021, 250:106830 12. Li SH, Guo LJ, Cao CG*, Li CF*. Effects of straw returning levels on carbon footprint and net ecosystem economic benefits from rice-wheat rotation in central China. Environmental Science and Pollution Research, 2021, 28:5742-5754 13. Wang L, Wang T, Liu TQ, Guo LJ, Li CF*, Zhai ZB. Inclusion of microbial inoculants with straw mulch enhances grain yields from rice fields in central China. Food and Energy Security, 2020, e230. 14. Liu Tianqi, Li Shihao, Guo Lijin, Cao Cougui, Li Chengfang*, Zhai Zhongbing, Zhou Jiyong, Mei Yumin, Ke Hongjin. Advantages of nitrogen fertilizer deep placement in greenhouse gas emissions and net ecosystem economic benefits from no-tillage paddy fields. Journal of Cleaner Production, 2020, 263:121322 15. Fan DJ, Liu TQ, Sheng F, Li SH, Cao CG, Li CF*. Nitrogen deep placement mitigates methane emissions by regulating methanogens and methanotrophs in no-tillage paddy fields. Biology and Fertility of Soils, 2020, 56:711-727. 16. Daijia Fan, Haoran Zhang, Tianqi Liu, Cougui Cao, Chengfang Li*. Control Effects of Chelonus munakatae Against Chilo suppressalis and Impact on Greenhouse Gas Emissions From Paddy Fields. Frontiers in Plant Science, 2020, doi: 10.3389/fpls.2020.00228 17. Hu QY, Liu TQ, Jiang SS, Cao CG*, Li CF*, Chen B, Liu JB. Combined Effects of Straw Returning and Chemical N Fertilization on Greenhouse Gas Emissions and Yield from Paddy Fields in Northwest Hubei Province, China. Journal of Soil Science and Plant Nutrition, 2020, 20:392–406. 18. Tianqi Liu, Jinfeng Huang, Kaibin Chai, Cougui Cao, Chengfang Li*. Effects of N Fertilizer Sources and Tillage Practices on NH3 Volatilization, Grain Yield, and N Use Efficiency of Rice Fields in Central China. Frontiers in Plant Science, 2018, 9, 385. 19. Feng Sheng, Cougui Cao*, Chengfang Li*. Integrated rice-duck farming decreases global warming potential and increases net ecosystem economic budget in central China. Environmental Science and Pollution Research, 2018, 25:22744-22753. 20. Zhang ZS, Chen J, Liu TQ, Cao CG, Li CF*. 2016. Effects of nitrogen fertilizer sources and tillage practices on greenhouse gas emissions in paddy fields of central China. Atmospheric Environment, 144:274-281. 21. Guo LJ, Zheng SX, Cao CG, Li CF*. 2016.Tillage practices and straw-returning methods affect topsoil bacterial community and organic C under a rice-wheat cropping system in central China. Scientific Reports, 6:33155. DOI:10.1038/srep33155. 22. Guo LJ, Lin S, Liu TQ, Cao CG, Li CF*. 2016. Effects of conservation tillage on topsoil microbial metabolic characteristics and organic carbon within aggregates under a rice (Oryza sativa L.) –wheat (Triticum aestivum L.) cropping system in central China. PLoS ONE 11(1):e0146145. 23. Zhang ZS, Cao CG, Guo LJ, Li CF*. 2016. Emissions of CH4 and CO2 from paddy fields as affected by tillage practices and crop residues in central China. Paddy and Water Environment, 14(1):85-92. 24. Guo LJ, Zhang RD, Zhang ZS, Cao CG, Li CF*. 2015. Effects of different no-tillage modes on soil CO2 fluxes from paddy fields in central China. Journal of Soil Science and Plant Nutrition, 15(3):737-750. 25. Liu TQ, Fan DJ, Zhang XX, Chen J, Li CF*, Cao CG*. 2015. Deep placement of nitrogen fertilizers reduces ammonia volatilization and increases nitrogen utilization efficiency in no-tillage paddy fields in central China. Field Crops Research, 184:80-90. 26. Zhang ZS, Guo LJ, Liu, TQ, Li CF*, Cao CG*. 2015. Effects of tillage practices and straw returning methods on greenhouse gas emissions and net ecosystem economic budget in rice–wheat cropping systems in central China. Atmospheric Environment, 122:636-644. 27. Guo LJ, Zhang ZS, Wang DD, Li CF*, Cao CG*. 2015. Effects of short-term conservation management practices on soil organic carbon fractions and microbial community composition under a rice-wheat rotation system. Biology and Fertility of Soils, 51(1):65-75. 28. Zhang ZS, Cao CG, Guo LJ, Li CF*. 2014. The effects of rape residue mulching on net global warming potential and greenhouse gas intensity from no-tillage paddy fields. Scientific World Journal, 2014:1-9. 29. Zhang ZS, Cao CG, Cai ML, Li CF*. 2013. Crop yield, P uptake and soil organic phosphorus fractions in response to short-term tillage and fertilization under a rape-rice rotation in central China. Journal of Soil Science and Plant Nutrition, 13(4):871-882. 30. Li CF*, Zhang ZS, Guo LJ, Cai ML, Cao CG*. 2013. Emissions of CH4 and CO2 from double rice cropping systems under varying tillage and seeding methods. Atmospheric Environment, 80:438-444. 31. Zhou DN, Zhang FP, Duan ZY, Liu ZW, Yang KL, Guo R, Yuan FY, Tian YX, Li CF*. 2013. Effects of heavy metal pollution on microbial communities and activities of mining soils in central Tibet, China. Journal of Food, Agriculture & Environment, 11(1):676-681. 32. Cheng-Fang Li, Dan-Na Zhou, Zhi-Kui Kou, Zhi-Sheng Zhang, Jin-Ping Wang, Ming-Li Cai, Cou-Gui Cao. 2012. Effect of tillage and N fertilizers on CH4 and CO2 emissions and soil organic carbon in paddy fields of central China. PLoS ONE, 7(5):e34642. 33. Cheng-fang Li, Li-xin Yue, Zhi-kui Kou, Zhi-sheng Zhang, Jin-ping Wang, Cou-gui Cao. 2012. Short–term effects of conservation management practices on soil labile organic carbon fractions under a rape–rice rotation in central China. Soil & Tillage Research,119:31-37. 34. Zhang Jian-she, Zhang Fu-ping, Yang Jin-hua, Wang Jin-ping, Cai Ming-li, Li Cheng-fang*, Cao Cou-gui.2011. Emissions of N2O and NH3, and nitrogen leaching from direct seeded rice under different tillage practices in central China. Agriculture, Ecosystems and Environment, 140(1-2):164-173. 35. Li Cheng-fang, Kou Zhi-kui, Yang Jin-hua, Cai Ming-li, Wang Jin-ping, Cao Cou-gui. 2010. Soil CO2 fluxes from direct seeding rice fields under two tillage practices in central China. Atmospheric Environment, 44:2696-2704. 36. Li Cheng-fang, Yang Jing, Zhang Chuan, Zhang Zhi-sheng, Zheng Min, Ahmad Shahrear, Cao Cou-gui. 2010. Effects of short-term tillage and fertilization on grain yields and soil properties of rice production systems in central China. Journal of Food, Agriculture & Environment, 8(2):577-584. 37. Zhang Fu-ping#, Li Cheng-fang#, Tong Le-ga, Yue Li-xin, Li Ping, Ciren Yang-jin, Cao Cou-gui. 2010. Response of microbial characteristics to heavy metal pollution of mining soils in central Tibet, China. Applied Soil Ecology, 45:144-151. 38. Ahmad Shahrear#, Li Cheng-fang#,Dai Guang-zhao, Zhan Ming, Wang Jin-ping, Pan Sheng-gang, Cao Cou-gui. 2009. Greenhouse gas emission from direct seeding paddy field under different rice tillage systems in central China. Soil & Tillage Research, 106:54-61. 39. Li Cheng-fang, Cao Cou-gui, Wang Jin-ping, Zhan Ming, Yuan Wei-ling, Shahrear Ahmad. 2009. Nitrous oxide emissions from wetland rice–duck cultivation systems in southern China. Archives of Environmental Contamination and Toxicology, 56(1):21-29. 40. Li Cheng-fang, Cao Cou-gui, Wang Jin-ping, Zhan Ming, Yuan Wei-ling, Shahrear Ahmad. 2008. Nitrogen losses from integrated rice–duck and rice–fish ecosystems in southern China. Plant and Soil, 307:207-217. 41. 李延实, 李成芳*. 不同再生稻栽培模式氮足迹及经济效益评估. 中国生态农业学报(中英文), 2024, DOI: 10.12357/cjea.20240005. 42. 饶怡晴,岳子钦,汪金平,李成芳*. 不同氮肥类型对稻-油轮作氨挥发和氮肥利用率的影响. 中国生态农业学报(中英文), 2024, DOI: 10.12357/cjea.20230594. 43. 吴梦琴,曹凑贵,刘天奇,李成芳*. 长期有机无机氮肥配施对玉米-豇豆复种土壤团聚体碳含量和官能团分子结构的影响. 土壤学报, 2023, 60(6):1824–1833. 44. 周浩之,吴梦琴,罗喜秀,陈淯琨,刘天奇,李成芳*. 不同再生稻栽培模式碳足迹与经济效益评估. beat365正版唯一官网必一学报, 2023, 42(2):71‐78. 45. 樊代佳,李成芳*,曹凑贵*. 氮肥深施对免耕稻田土壤有机质化学特性和胞外酶活性的影响. 农业环境科学学报, 2021, 40(3): 621-630. 46. 向伟,王雷,刘天奇,李诗豪,翟中兵,李成芳*. 生物炭与无机氮配施对稻田温室气体排放及氮肥利用率的影响. 中国农业科学,2020,53(22): 4634-4645. 47. 冯珺珩, 黄金凤,刘天奇, 曹凑贵,李成芳*. 耕作与秸秆还田方式对稻田N2O 排放、水稻氮吸收及产量的影响. 作物学报,2019, 45(8): 1250-1259. 48. 邓桥江, 曹凑贵, 李成芳*. 不同再生稻栽培模式对稻田温室气体排放的影响. 农业环境科学学报, 2019, 38(6):1373-1380. 49. 帅艳菊, 刘天奇, 曹凑贵, 李成芳*. 有机无机肥配施对玉米-豇豆种植系统土壤N2O 排放的影响. 中国生态农业学报, 2018, 26(12): 1613-1623. 50. 李诗豪,刘天奇,马玉华, 李成芳*. 耕作方式与氮肥类型对稻田氨挥发、氮肥利用率和水稻产量的影响. 农业资源与环境学报, 2018, 35(5): 447-454. 51. 李成芳,胡红青,曹凑贵,黄见良,周勇,朱建强,秦鱼生,杭晓宁,尧水红,张卫建. 中国再生稻田土壤培肥途径的研究与实践. 湖北农业科学,2017, 56 (14) :2666-2669. 52. 马玉华, 刘兵, 张枝盛, 郑大, 周亮, 曹凑贵, 李成芳*. 免耕稻田氮肥运筹对土壤NH3挥发及氮肥利用率的影响. 生态学报, 2013, 33(18):5556-5564.(*通讯作者) 53. 郭梨锦, 曹凑贵, 张枝盛, 刘天奇, 李成芳*. 耕作方式和秸秆还田对稻田表层土壤微生物群落的短期影响.农业环境科学学报, 2013, 32(8):1577-1584.(*通讯作者) 54. 王丹丹, 周亮, 黄胜奇, 李成芳*, 曹凑贵*. 耕作方式与秸秆还田对表层土壤活性有机碳组分与产量的短期影响.农业环境科学学报,2013, 32(4):735-740.(*通讯作者) 55. 李成芳*, 寇志奎, 张枝盛, 曹凑贵, 吴海亚, 梅金安, 翟中兵, 张丛德, 魏坦雄, 刘诗晴, 夏起昕. 秸秆还田对免耕稻田温室气体排放及土壤有机碳固定的影响.农业环境科学学报,2011,30(11):2362-2367.(*通讯作者) 56. 苗全安,曹凑贵,汪金平,高超,李成芳*.丹江口库区坡耕地不同作物对土壤溅蚀的影响.中国水土保持科学.2011,9(5):11-14.(*通讯作者) 57. 张涪平,曹凑贵,李苹,次仁央金,通乐嘎,李成芳*.藏中矿区重金属污染对土壤微生物学特性的影响.农业环境科学学报,2010,29(4):698-704.(*通讯作者) 58. 张涪平,曹凑贵,李苹,次仁央金,高超,通乐嘎,李成芳*.藏中矿区重金属污染土壤的微生物活性变化.生态学报,2010,30(16):4452-4459.(*通讯作者) 59. 李成芳,曹凑贵,汪金平,翟中兵,梅少华.不同耕作方式下稻田土壤CH4和CO2的排放及碳收支估算.农业环境科学学报, 2009,28(12):2482-2488. 60. 李成芳,曹凑贵,汪金平,展茗,潘圣刚.稻鸭、稻鱼共作生态系统土壤可溶性N的动态.生态学报,2009,29(5):2541-2550. 61. 李成芳,曹凑贵,汪金平,展茗,蔡明历.稻鸭、稻鱼共作对稻田P素动态变化的影响.长江流域资源与环境, 2009,18(2):126-131. 62. 李成芳,曹凑贵,展茗,汪金平,袁伟玲,代光照.稻鸭共作生态系统氧化亚氮排放及温室效应评估.中国农业科学,2008,41(9):2895-2901. 63. 李成芳,曹凑贵,汪金平,展茗,袁伟玲,潘圣刚,黄丰,代光照.稻鸭共作生态系统稻田土壤固定态铵含量及有效性的研究.生态学报,2008,28(6):2729-2737. 64. 李成芳,曹凑贵,汪金平,叶威,叶成,刘凯,曾金凤.稻鸭、稻鱼共作生态系统中稻田田面水N素动态变化及淋溶损失.环境科学学报,2008,28(10):2125-2132. 65. 李成芳,曹凑贵,徐拥华,汪金平,展茗,杨学伟,庞海东.稻鸭与稻鱼生态系统土壤微生物量N和土壤酶活性动态变化.生态学报, 2008, 28(8):3905-3912. 66. 李成芳,曹凑贵,汪金平,展茗,袁伟玲,高超,潘圣刚.稻鸭、稻鱼共作生态系统N素平衡的研究.农业环境科学学报,2008,27(4):1326-1334. 67. 李成芳,曹凑贵,展茗,汪金平.稻鸭共作对稻田氮素变化及土壤微生物的影响.生态学报,2008,28(5):2115-2122. 68. 曹凑贵,李成芳,展茗,汪金平.稻田管理措施对土壤碳排放的影响.中国农业科学,2011,44(1):93-98. 69. 通乐嘎,李成芳,杨金花,汪金平,曹凑贵,吴海亚,梅少华,梅金先,翟中兵.免耕稻田田面水磷素动态及其淋溶损失.农业环境科学学报,2010,29(3):527-533. 70. 曹凑贵,李成芳,寇志奎,杨金花,汪金平.不同类型氮肥和耕作方式对稻田土壤氨挥发的影响.江西农业大学学报,2010,32(5):0881-0886. 71. 代光照,李成芳,曹凑贵,展茗,通乐嘎,梅少华,翟中兵,范端阳.免耕施肥对稻田甲烷与氧化亚氮排放及其温室效应的影响.应用生态学报,2009,20(9):2166-2172. |