[2009-07-31]李成道博士:澳大利亚农业及大麦遗传育种研究
来源:农业中心
时间:2009-07-28
附:李成道博士简历
CURICULUM VITAE
Name: Dr. Chengdao Li
Principal Molecular Geneticist;
Principal Plant Breeder - Barley;
Fund Manager of Grain Biotechnology;
Adjunct Professor of Murdoch University;
Adjunct A/Professor of University of Western Australia;
Adjunct Professor of Zhejiang University;
Adjunct Professor of Huazhong Agricultural University;
Cuitian Special Professor of Yangtze University
Panel member of the China’s Natural Science Foundation;
Australian member of the UN FAO/IAEA Regional Technical Cooperation projects;
Steering committee member of Australian winter cereal genetic analysis program;
Editorial board member of Journal of Triticale Crop.
Education
Ph D: Plant Molecular Genetics, University of Adelaide, Australia (1998)
M S: Plant Genetics and Breeding, Zhejiang Agriculture University, China (1989)
Released Barley Varieties
Breeder of barley varieties: Baudin, Hamelin, Vlamingh, Roe, Hannan and Lockyer
Research projects in the last five years
1.Barley grain defects: pre-harvest sprouting, kernel discoloration and black point (GRDC, 2009-2012, Supervisor, Total Funding: $902,000)
2.Australia-China barley germplasm development (GRDC, 2008-2012, Supervisor, Total funding: $730,000)
3.Barley Breeding Australia –West, marker assisted selection (GRDC, 2007-2012, supervisor, total funding: $1.1 million)
4.Gene interaction of Al tolerance between Australian and Chinese barley germplasm (DEST and China NSF, 2007-2012, supervisor, total funding: $150,000)
5.Australian Winter Cereal Molecular Marker Program – Genetic analysis (GRDC, 2004-2008, co-supervisor, total funding: $900,000)
6.Australian Winter Cereal Molecular Marker Program – Marker validation/implementation (GRDC, 2004-2007, Supervisor, total funding: $405,000)
7.Improvement of barley pre-harvest sprouting tolerance through biotechnology (CRC Molecular Breeding, 2004-2007, co-supervisor, total funding: $540,000)
8.Barley Breeding Australia – Western Region (GRDC, 2007-2012, breeder for medium and low rainfall region, total funding: $7.0 million)
9.Improving crop quality and abiotic stresses affecting quality through biotechnology (FAO & IAEA, 2006-2010, supervisor)
National collaborative projects
1.Dr Evan Evans, University of Tasmania. Project: Market optimization and targeting – Fermentability of Australian malting barley;
2.Dr Wendy Lawson, Department of Primary Industry QLD. Project: Barley grain defects: pre-harvest sprouting, kernel discoloration and black point;
3.Dr Meixue Zhou, Tasmanian Institute of Agricultural Research. Project: Australia-China barley germplasm development;
4.Professor Mark Southland, University of South Queensland. Project: Barley grain defects: pre-harvest sprouting, kernel discoloration and black point;
5.Dr Guijun Yan, University of Western Australia. Project: Gene interaction of Al tolerance between Australian and Chinese barley germplasm.
6.Professor Peter Langridge, Australian Centre for Functional Genomics, University of Adelaide. Project: Identification of genes controlling plump barley grain under drought.
7.Professor Zed Rengel, University of Western Australia. Improved nitrogen use efficiency.
8.Dr Hugh Wallwork, SARDI. Australian winter cereal molecular marker program – genetic analysis.
Dr Frank Gubler, CSIRO, Using next generation sequencing to link phenotypes with molecular variation.
Award Winner
Premier’s Award for innovation 2002/2003;
Excellence Award for innovation 2002/2003;
Excellence Award for publication 2003/2004;
New malting barley variety Hamelin 2003;
New malting barley variety Baudin 2003
Excellence Award for external Fund 2005
Peer-refereed papers
Behzad Sadeghzadeh, Zed Rengel, Chengdao Li (2009) Molecular marker linked to a chromosome region regulating seed Zn accumulation in barley. Molecular Breeding, in press
Shu XL, Jia LM, Ye HX, Li CD, Wu DX (2009) Digestion properties of rice different in resistant starch. Journal of Agricultural and Food Chemistry, in press
Yang Y, R. Lin, D. Renshaw, C. Li, G. Thomas, K. Adhikari, B.J. Buirchell, M.W. Sweetingham and G. Yan (2009) Development of sequence-specific PCR markers linked to QTLs for MAS using a modified selective genotyping strategy: a case study on anthracnose disease resistance in white lupin (Lupinus albus L.). Plant Breeding, in press
Qiaojun Jia, Jingjuan Zhang, Sharon Westcott, Xiao-Qi Zhang, Mathew Bellgard, Reg Lance, Chengdao Li (2009) GA-20 oxidase as a candidate for the semi-dwarfing gene sdw1/denso in barley. Functional & Integrative Genomics, DOI: 10.1007/s10142-009-0120-4
Cakir M, Gupta S, Li C, Eckermann P, Hayden M, Ablett G, Platz G, Broughton S, Mather CD, Chalmers K, Loughman R, Appels R, Jones MGK, Galwey N, Lance R (2009) Genetic map construction and QTL analysis of the disease traits in the barley population Baudin x AC Metcalfe. Molecular Breeding
Gupta S, Li CD, Loughman R, Cakir M, Lance RCM and Appels R (2009) Gene identification and epistatic interactions in barley conferring resistance to net type net blotch (pyrenophora teres f. teres) pathotypes. Plant Breeding, in press
Evan Evans, Chengdao Li, Jason Eglinton (2009) Improved prediction of malt fermentability by the measurement of the diastatic power enzymes, b-amylase, a-amylase and limit dextrinase. III. Impact of barley genetics, growing environment and gibberellin on levels of a-amylase and limit dextinase in malts. Journal of the American Society of Brewing Chemists 67(1):14-22
Yang XQ, Westcott S, Gong X, Evans E, Zhang XQ, Lance R, Li CD (2009) Alleles of limit dextrinase gene associated with the enzyme thermostability in barley. Molecular breeding 23: 61-74
Evan Evans, Chengdao Li, Jason Eglinton (2008) Improved prediction of malt fermentability by the measurement of the diastatic power enzymes, β-amylase, α-amylase and limit dextrinase. II. Survey of the levels of diastatic power enzymes in commercial malts. Journal of the American Society of Brewing Chemists. J. Am. Soc. Brew. Chem. 66(4):223-232
Zhang Xiao-qi, Chengdao Li, Amy Tay, Reg Lance, Daryl Mares, Judie Cheong, Rudolf Appels (2008) Development of a new PCR-based marker on wheat chromosome 4AL for pre-harvest sprouting. Molecular Breeding 22: 227-236
Bonnardeaux Y, Li CD, R Lance, XQ Zhang, K Sivasithamparam and Appels R (2008) Seed dormancy in barley: genetic, epistatic and environmental interaction
Boersma JG, Pallotta M, Li CD, Buirchell BJ, Sivasithamparam K and Yang H (2005) Construction of a genetic linkage map using mflp, and identification of molecular markers linked to domestication genes in narrow-leafed lupin (Lupinus angustifolius L). Cellular & Molecular Biology Letters 10(2):331-44
Li CD, Peixiang Ni, Michael Francki, Adam Hunter, Yong Zhang, David Schibeci, Heng Li, Allen Tarr, Jun Wang, Mehmet Cakir, Jun Yu, Matthew Bellgard, Reg Lance and Rudi Appels (2004) Genes controlling seed dormancy and pre-harvest sprouting in rice-wheat-barley comparison. Functional & Integrative Genomics 4: 84-93
Li CD, Langridge P, Zhang XQ, Eckstein PE, Rossnagel BG, Lance RCM, Lefol EB, Lu MY, Harvey BL, Scoles GJ (2001) Mapping of alleles of beta-amylase in barley (Horduem vulgare L.) in which an amino acid substitution determines both beta-amylase isoenzyme type and the level of free beta-amylase. Journal of Cereal Science, 35(1):39-50
Li CD, Eckstein PE, Lu MY, Rossnagel BG, Scoles (2001) Targeted development of a multiple-allele microsatellite marker associated with a true loose smut resistance gene in barley. Molecular Breeding, 8(3):235-242
Li CD, Fatokun CA, Rossnagel BG, Benjamin UBI, Singh BB, Scoles GJ (2001) Determining genetic similarities and relationships of the breeding lines/cultivars in cowpea (Vigna unguiculata) using microsatellite markers. Crop Science, 41(1):189-197
Li CD, Rossnagel B, Scoles GJ (2000) Tracing the progenitor of the hexaploid Avena sativa using satellite DNAs. Crop Science 40(6): 1755-1763
Li CD, Rossnagel B, Scoles GJ (2000) The development of oat microsatellite markers and their application in identifying Avena species and cultivars. Theor Appl Genet 101 (8): 1259-1268