Changling Huang
Changling Huang
Head of the Research Group of Research Group of Maize High Yield Breeding
Center for Crop Genetics and Breeding
Institute of Crop Sciences
No.12 Zhongguancun South Street
Beijing, 100081, China
Tel:86-10-82108738
Fax:86-10-82108738
Email:huangchangling@caas.cn
Educations
- 1985.09-1988.06, M.S. in Crop Genetics and Breeding, Beijing Agricultural University, Beijing, China
- 1981.09-1985.07, B.S. in Crop Genetics and Breeding, Beijing Agricultural University, Beijing, China
- 1992.01-1992.06, Visiting Scholar in Maize Genetics and Breeding, CIMMYT, EI Batan. Mexico
Working Experience
- 2017.01-now, Director, Center for Crop Genetics and Breeding, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences
- 2011.01-2016.12 Professor/Deputy Director, Center for Crop Genetics and Breeding, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences
- 2005.01-2010.12, Professor, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences
- 2003.01-2004.12, Associate Professor, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences
- 1997.01-2002.12 Associate Professor/Deputy Director, Institute of Crop Breeding and Cultivation, Chinese Academy of Agricultural Sciences
- 1991.01-1996.12 Assistant Professor, Institute of Crop Breeding and Cultivation, Chinese Academy of Agricultural Sciences
- 1988.07-1990.12 Internship Professor, Institute of Crop Breeding and Cultivation, Chinese Academy of Agricultural Sciences
Research Interests
- Maize Genetics and Breeding
- Establishment of Maize Modern Industrial Technology System
Academic Qualifications
- Deputy Director, Corn Committee of the Third National Crops Variety Examination and Approval Committee of China (Aug. 2012-July 2017)
- Committee Member, Corn Committee of the Second/Third National Crops Variety Examination and Approval Committee of China (Aug. 2007-July 2017)
- Committee Member, New Plant Variety Review Committee of Ministry of Agriculture and Rural Affairs of China (Oct. 2014-Sept. 2017)
- Deputy Secretary-general, Corn Committee of Crop Science Society of China (Oct. 2007-Sept. 2017)
- Vice Chairman, Corn Industry Technology Innovation Strategic Union (Sept. 2012- )
- Committee Member, the Eighth Beijing Crops Variety Examination and Approval Committee (May 2012-Apr. 2017)
- Committee Member, Corn Committee of the Seventh/Eighth Beijing Crops Variety Examination and Approval Committee (May 2007-Apr. 2017)
- Editor, Crops (Oct. 2014- )
- Editor, China Seed Industry (Dec. 2006- )
- Committee Member, the Beijing Agricultural Technology Qualifications Committee for Professional and Technical Qualifications (Jan. 2012-Dec. 2014)
- Deputy Director , Academy Committee of Institute of Crop Sciences, Chinese Academy of Agricultural Sciences (Jan. 2017-Now)
Selected Publications (*corresponding authors)
Liu X, Wang H, Wang H, Guo Z, Xu X, Liu J, Wang S, Li WX, Zou C, Prasanna BM, Olsen MS, Xu Y, and Huang C*. 2018. Factors affecting genomic selection revealed by empirical evidence in maize.Crop J. 6: 341-352.
Wang H, Liang Q, Li K, Hu X, Wu Y, Wang H, Liu Z, and Huang C*. 2017. QTL analysis of ear leaf traits in maize (Zea mays L.) under different planting densities.Crop J.5: 387-395.
Hu X, Wang H, Li K, Wu Y, Liu Z*, Huang C*. 2017. Genome-wide proteomic profiling reveals the role of dominance protein expression in heterosis in immature maize ears. Sci. Rep. 7: 16130.
Li K, Wang H, Hu X, Ma F, Wu Y, Wang Q, Liu Z, Huang C*. 2017. Genetic and Quantitative Trait Locus Analysis of Cell Wall Components and Forage Digestibility in the Zheng58 × HD568 Maize RIL Population at Anthesis Stage. Front. Plant Sci.8:1472.
Wang H, Li K, Hu X, Liu Z, Wu Y, and Huang C*.2016. Genome-wide association analysis of forage quality in maize mature stalk. BMC Plant Biol.16: 227.
Li K, Wang H, Hu X, Liu Z, Wu Y, and Huang C*.2016. Genome-wide association study reveals the genetic basis of stalk cell wall components in maize.PLoS One.11: e0158906.
Hu X, Wang H, Diao X, Liu Z, Li K, Wu Y, Liang Q, Wang H, andHuang C*.2016. Transcriptome profiling and comparison of maize ear heterosis during the spikelet and floret differentiation stages.BMC Genomics.17: 959.
Members of Research Group