黄耀简历
黄耀,男,研究员。1982和1986年分别获南京气象学院(现更名为南京信息工程大学)理学学士和理学硕士学位,1997年获美国莱斯大学(Rice University)哲学博士学位。1999年入选中国科学院“引进国外杰出人才计划”,并在大气物理研究所工作至2010年底;2011年初调到中国科学院植物研究所,任植被与环境变化国家重点实验室主任。主要研究兴趣为陆地生态系统碳氮循环与温室气体排放、气候变化对陆地碳氮过程和农业植被的影响等。先后主持和参加中国科学院、自然科学基金、国家有关部(委)和国际合作项目10余项。共在国内外发表科研论文160余篇,其中SCI检索论文60余篇,出版专著4部。研究成果“中国农田温室气体排放过程与模型研究”获2008年度教育部自然科学二等奖(第一完成人);“中国陆地碳收支评估的生态系统碳通量联网观测与模型模拟系统”获2010年度国家科技进步二等奖(第三完成人)。自主开发了稻田甲烷排放模型和农田碳收支模型,并分别用于编制中国政府向联合国提交的国家稻田甲烷排放清单和农田土壤有机碳变化清单,稻田甲烷排放模型是《2006年IPCC国家温室气体清单指南》Tier 3推荐引用的两个农田温室气体排放清单编制模型之一。 黄耀是国际期刊Agricultural and Forest Meteorology 和Agriculture, Ecosystems and Environment 编委, 美国奥本大学(Auburn University)客座教授。
代表性论文论著
1、近五年代表性论文(*为通信作者)
[1]Sun WJ and Huang Y*, 2012. Synthetic fertilizer management for China’s cereal
crops has reduced N2O emissions since the early 2000s, Environmental Pollution, 160: 24–27
[2]Yu YQ, Huang Y*, Zhang W, 2012. Modeling soil organic carbon change in
黄小琥资料
croplands of China, 1980–2009, Global and Planetary Change, 82–83:115–128 [3]Sun W and Huang Y*, 2011. Global warming over the period 1961–2008 did not
increase high-temperature stress but did reduce low-temperature stress in irrigated rice across China, Agricultural and Forest Meteorology, 151:1193–1201
[4]Chen J, Huang Y*, Tang YH, 2011. Quantifying economically and ecologically
optimum nitrogen rates for rice production in south-eastern China, Agriculture,
Ecosystems and Environment,doi:10.1016/j.agee.2011.05.005
[5]Huang Y*, Sun WJ, Zhang W, Yu YQ, Su YH and Song CC, 2010. Marshland
conversion to cropland in northeast China from 1950 to 2000 reduced the greenhouse effect. Global C
hange Biology, 16:680–695
[6]Huang Y*, Tang YH, 2010. An estimate of greenhouse gas (N2O and CO2)
mitigation potential under various scenarios of nitrogen use efficiency in Chinese croplands. Global Change Biology, 16:2958–2970
[7]Huang Y*, Sun WJ, Zhang W &Yu YQ, 2010. Changes in soil organic carbon of
terrestrial ecosystems in China: A mini-review. Science China Life Sciences,
53(7):766–775
[8]Sun WJ, Huang Y*, Zhang W, Yu YQ, 2010. Carbon sequestration and its potential
in agricultural soils of China. Global Biogeochemical Cycles,24, GB3001,
doi:10.1029/2009GB003484
[9]Qin ZC & Huang Y*, 2010. Quantification of soil organic carbon sequestration
potential in cropland: A model approach. Science China Life Sciences,
53(7):868–884
[10]Z ou JW, Lu YY, Huang Y*, 2010. Estimates of synthetic fertilizer N-induced direct
nitrous oxide emission from Chinese croplands during 1980–2000. Environmental Pollution, 158:631–635
[11]J iang JY, Hu ZH, Sun WJ, Huang Y*, 2010. Nitrous oxide emissions from Chinese
cropland fertilized with a range of slow-release nitrogen compounds. Agriculture, Ecosystems and Environment, 135:216–225
[12]L i TT, Huang Y*, Zhang W and Song CC, 2010. CH4MOD wetland: A biogeophysical
model for simulating methane emission from natural wetlands. Ecological Modelling, 221:666–680
[13]P iao SL, Ciais P, Huang Y, Shen ZH, Peng SS, Li JS, Zhou LP, Liu HY, Ma YC,
Ding YH, Friedlingstein P, Liu CZ, Tan K, Yu YQ, Zhang TY, and Fang JY, 2010.
The impacts of climate change on water resources and agriculture in China. Nature, 467:43–51
[14]H uang Y*, Yu YQ, Zhang W, Sun WJ, Liu SL, Jiang J, Wu JS, Yu WT, Wang Y,
Yang ZF, 2009. Agro-C: A biogeophysical model for simulating the carbon budget of agroecosystems. Agricultural and Forest Meteorology, 149(1):106–129
[15]P iao SL, Fang JY, Ciais P, Peylin P, Huang Y, Sitch S & Wang T, 2009. The carbon
balance of terrestrial ecosystems in China. Nature, 458:1009–1013
[16]H uang Y*, Zhang W, Sun WJ, Zheng XH, 2007. Net primary production of Chinese
croplands from 1950 to 1999, Ecological Applications, 17(3):692−701
2、专著
[1]黄耀,周广胜,吴金水,延晓冬 (著),中国陆地生态系统碳收支模型. 北京:科
学出版社,2008
[2]陈泮勤,黄耀,于贵瑞 (编著),地球系统碳循环. 北京:科学出版社,2004
[3]黄耀(著),地气系统碳氮交换—从实验到模型. 北京:气象出版社,2003