程谊

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安徽徽州绩溪人,博士,副研究员,硕士生导师。主要从事土壤氮循环及其农业与生态环境效应研究。以第一作者发表SCI论文17篇(1区期刊10篇,2区Top期刊1篇)。

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2010/10—2012/06,中国科学院南京土壤研究所,理学博士  

2009/12—2010/09,加拿大埃尔伯塔大学,访问

2007/09—2009/11,中国科学院南京土壤研究所,硕博连读

2003/09—2007/06,安徽大学资源与环境工程学院,理学学士

2016/07—至今,中国科学院南京土壤研究所,副研究员

2012/07—2016/06,中国科学院南京土壤研究所,助理研究员

(1) 国家自然科学基金面上项目:外源碳对旱地土壤硝态氮同化速率的影响及其作用机理,主持,在研(2017.01-2020.12);
(2) 德国 EuroChem Agro GmbH技术资助项目:新型肥料及硝化抑制剂的农学和环境效应评价,主持,在研(2017.01-2018.12);
(3) 国家重点研发计划项目:肥料氮素迁移转化过程与损失阻控机制,骨干,在研(2017.07-2020.12);
(4) 国家重点研发计划项目:农田氮磷径流流失污染与防控机制,骨干,在研(2017.07-2020.12).

  1. Cheng Y, Wang J, Wang JY, Scott X. Chang, Wang SQ*. The quality and quantity of exogenous organic carbon input control microbial NO3- immobilization: A meta-analysis. Soil Biology and Biochemistry, 2017, 115, 357-363.
  2. Cheng Y, Zhang JB, Zhu JG, Liu G, Zhu CW*, Wang SQ*. Ten years of elevated atmospheric CO2 doesn’t alter soil nitrogen availability in a rice paddy, Soil Biology and Biochemistry, 98, 99-108, 2016.
  3. Cheng Y, Wang J, Bruno M, Zhang JB, Cai ZC*, Chang SX*, Soil pH has contrasting effects on gross and net nitrogen mineralization neighboring forest and grassland soils in Canada. Soil Biology and Biochemistry, 57, 848-857, 9, 2013.
  4. Cheng Y, Wang J, Zhang JB, Müller C, Wang SQ*, Mechanistic insights into the effects of N fertilizer application on N2O-emission pathways in acidic soil of a tea plantation. Plant and Soil, 389, 45-57, 11, 2015.
  5. Cheng Y, Wang J, Zhang JB, Bruno M, Cai ZC*. The mechanisms behind reduced NH4+ and NO3- accumulation due to litter decomposition in the acidic soil of subtropical forest. Plant and Soil, 378, 295-308, 1, 2014.
  6. Cheng Y, Cai ZC*, Zhang JB, Lang M, Bruno M, Chang SX*, Soil moisture effects on gross nitrification differ between adjacent grassland and forested soils in central Alberta, Canada. Plant and Soil, 352, 289-301, 9, 2012.
  7. Cheng Y, Cai ZC*, Zhang JB, Chang SX*, Gross N transformations were little affected by 4 years simulated N and S depositions in an spen-white spruce dominated boreal forest in Alberta, Canada. Forest Ecology and Management, 262, 571-578, 5, 2011.
  8. Cheng Y, Cai YJ, Wang SQ*, Yak and Tibetan sheep dung return enhance soil N supply and retention in two alpine grasslands in the Qinghai-Tibetan Plateau. Biology and Fertility of Soils, 52, 413-422, 1, 2016.
  9. Cheng Y, Zhang JB, Müller C, Wang SQ*, 15N tracing study to understand the N supply associated with organic amendments in a vineyard soil. Biology and Fertility of Soils, 51, 983-993, 8, 2015.
  10. Cheng Y, Wang J, Wang SQ, Zhang JB, Cai ZC*, Effects of soil moisture on gross N transformations and N2O emission in acid subtropical forest soils. Biology and Fertility of Soils, 50, 1099-1108, 6, 2014.
  11. Cheng Y, Cai ZC*, Chang SX*, Wang J, Zhang JB, Wheat straw and its biochar have contrasting effects on inorganic N retention and N2O emission in a cultivated Black Chernozemic soil. Biology and Fertility of Soils, 48, 941-946, 4, 2012.
  12. Cheng Y, Xie W, Huang R, Yan XY, Wang SQ*. Extremely high N2O but unexpectedly low NO emissions from a highly organic and chemical fertilized peach orchard system in China. Agriculture, Ecosystems and Environment, 246, 202-209, 2017.
  13. Cheng Y, Zhang JB, Wang J, Cai ZC, Wang SQ*. Soil pH is a good predictor of the dominating N2O production processes under aerobic conditions. Journal of Plant Nutrition and Soil Science, 178, 370-373, 3, 2015.
  14. Cheng Y, Wang J, Liu Y, Cai ZC*. Litter decomposition reduces either N2O or NO production in strongly acidic coniferous and broad-leaved forest soils under anaerobic conditions. Journal of Soils and Sediments, 14, 549-557, 10, 2014.
  15. Cheng Y, Cai ZC*, Chang SX*, Wang J, Zhang JB, Effects of soil pH and salt on N2O production in adjacen,t forest and grassland soils in central Alberta, Canada. Journal of Soils and Sediments, 13, 863-868, 2, 2013.
  16. Cheng Y, Wang J, Zhang JB, Wang SQ, Cai ZC*, The different temperature sensitivity of gross N transformations between the coniferous and broad-leaved forests in subtropical China. Soil Science and Plant Nutrition, 61, 506-515, 11, 2014.
  17. Cheng Y, Wang J, Wang L, Wang SQ, Cai ZC*, The effects of temperature change and tree species composition on N2O and NO emissions in acidic forest soils of subtropical China. Journal of Environmental Sciences, 26, 1-9, 7, 2014.
  18. Wang J, Cheng Y, Zhang JB, Müller C, Cai ZC, Soil gross nitrogen transformations along a secondary succession transect in the north subtropical forest ecosystem of southwest China. Geoderma, 280, 88-95, 2016.
  19. Wang J, Cheng Y, Zhang JB, Jiang YJ, Sun B, Fan JB, Zhang JB, Müller C, Cai ZC, Effects of 14 years of repeated pig manure application on gross nitrogen transformation in an upland red soil in China. Plant and Soil, 415, 161–173, 2017.
  20. Ma L, Cheng Y, Wang JY, Yan XY, Mechanical insights into the effect of fluctuation in soil moisture on nitrous oxide emissions from paddy soil. Paddy Water Environ 15, 359–369, 2017.
  21. Cai YJ, Chang SX*, Cheng Y, Greenhouse gas emissions from excreta patches of grazing animals and their mitigation strategies. Earth-Science Reviews 171, 44-57, 2017.
  22. Wang JY, Chadwick DR, Cheng Y, Yan XY*. Global analysis of agricultural soil denitrification in response to fertilizer nitrogen. Science of the Total Environment 616–617 (2018) 908–917.
  23. Zhang JB, Cai ZC, Cheng Y, Zhu TB. Denitrification and total nitrogen gas production from forest soils of Eastern China. Soil Biology and Biochemistry, 41, 2551-2557, 10, 2009.
  24. Zhang JB, Cai ZC, Cheng Y, Zhu TB, Immobilization of Nitrate in anaerobic Forest Soils along a North South Transect in East China. Soil Science Society of American Journal, 74, 1193-1200, 6, 2010.
  25. Cai ZC, Zhang JB, Zhu TB, Cheng Y, Stimulation of NO and N2O emissions from soils by SO2 Global Change Biology, 18, 2280-2291, 2, 2012.
  26. Zhang JB, Müller C, Zhu TB, Cheng Y, Cai ZC. Heterotrophic nitrification is the predominant NO3- production mechanism in coniferous but not broad-leaf acid forest soil in subtropical China. Biology and Fertility of Soils, 47, 533-542, 2011.
  27. 程谊,黄蓉,余云飞,王慎强*.应重视硝态氮同化过程在降低土壤硝酸盐浓度中的作用. 土壤学报, 2017,DOI:10.11766/trxb201706010145.
  28. 程谊,贾云生,汪玉,赵旭,杨林章,王慎强*.太湖竺山湾小流域果园养分投入特征及其土壤肥力状况分析,农业环境科学学报,2014, 33(10),1940-1947.
  29. 程谊,蔡祖聪*,张金波,15N同位素稀释法测定土壤氮素总转化速率研究进展, 土壤, 2009, 41(2), 165-171.
  30. 程谊,张金波,蔡祖聪*,土壤中无机氮的微生物同化和非生物固定作用研究进展, 土壤学报, 2012, 49 (5), 1030-1036.
  31. 崔静雅, 颜明娟, 吴晓荣, 王慎强, 倪康, 蔡祖聪, 张金波*, 程谊*,林地改为茶园对土壤净硝化速率及N2O排放的影响,土壤,2017, 49(4): 738–744.
  32. 吴晓荣,张蓓蓓*, 余云飞,黄蓉,颜明娟,倪康,崔静雅,王慎强,程谊*,硝化抑制剂对典型茶园土壤尿素硝化过程的影响。农业环境科学学报,2017,36(10):2063-2070.
  33. 王敬,程谊,蔡祖聪,张金波,长期施肥对农田土壤氮素关键转化过程的影响,土壤学报, 2016, 53 (2), 16-28.
  34. 党琦,于涌杰,程谊,张金波,过硫酸钾氧化法测定溶解性有机氮含量和15N 丰度方法研究,土壤, 2013, 45(6), 999-1002.

《农业环境科学学报》 2015年度优秀审稿专家