宋有洪，博士，教授； 澳洲昆士兰大学兼职副教授

研究领域：作物生理生态——逆境作物高产生理生物学基础      联系方式：y.song@ahau.edu.cn
    中国农业大学农学博士、澳洲纽卡斯尔大学理学博士，在国内外有多年博士后经验：2003-04年中国科学院植物研究所 (IBCAS)；2004-05年法国国际农业研究中心(CIRAD)；2006-08年澳洲昆士兰大学(UQ)，因此也建立了广泛的国内外合作关系。于2015年6月回国，目前也兼职澳洲昆士兰大学（UQ）副教授(2015.06-)。澳洲农学学会、澳洲植物科学学会和国际植物结构-功能模拟协会会员。并为多个国际杂志如Plant Cell Reports, PLoS One and Journal of Science of Food and Agriculture等审稿。

 主要研究兴趣

气候变化引起更频繁的极端环境条件，作物生长在逆境条件将大大减产；与此同时，世界人口持续增长，2050年将超过90亿，这要求作物逆境下（高低温、干旱/、高密等）保持高生产力。主要研究着眼点在于探讨作物抗逆的农学、生理和分子基础并挖掘抗逆性状，以辅助指导育种或转基因的作物改良。生殖生长是作物产量形成的关键，对环境条件尤其敏感。我们将应用多学科手段（生理，分子和模型）重点探讨生殖过程对逆境的反应与适应机理。研究作物种类主要是玉米和小麦，也涉及豆科与水稻。

1) 作物产量形成基础

作物产量形成的种子生物学基础和形态结构与生理功能基础

2）作物产量形成与环境关系

作物产量形成与干旱/渍水、高温（高湿）/冷害、种植密度等关系；应用作物结构与功能分析和挖掘逆境高产生理特征

3) 作物生长模拟

应用作物结构-功能模型FSPM分析与模拟逆境下作物生产力，辅助分析挖掘抗逆形态和生理特征；连接FSPM与生物化学模型

关键词：作物高产，非生物逆境，作物生理，作物生物学，应用植物科学，作物结构与功能模拟，性状挖掘

Dr. Youhong Song, PhD (CAU, UoN), Professor; Adjunct Associate Professor at The University of Queensland, Australia; Member in Australian Society of Agronomy, Australian Society of Plant Scientists, Functional-Structural Plant Modelling

Research interest

Climate change will induce more frequent extreme weather such as high/low temperature, drought/waterlogging. Meanwhile world population keeps growing, and will reach over 9.0 billion as estimated by 2050. This requires sustaining high crop productivity under abiotic stress. My research is mainly investigating agronomic, physiological and molecular basis of crop high yielding under abiotic stress and discovering traits in aiding breeding or plant transformation. In particular, the reproductive growth as the key process to crop yield is sensitive to abiotic stress. Multi-discipline (physiology, modelling and molecular) skills will be applied to explore reproductive response and adaptation to abiotic stress.

Crop high yielding under optimal and abiotic stress

Role of crop morphology in grain yield formation; Crop reproductive process by drought/waterlogging, heat/coldness, interplant competition; Crop morphology by drought/waterlogging, heat/coldness, interplant competition; Analyse and screen reproductive traits resilient to abiotic stress with functional-structural methods

Crop modelling and assisted-analysis of crop adapting abiotic stress

Applying Functional-Structural Plant Models (FSPMs) to simulate crop growth, development, productivity and Assist to analyse and discover morpho-physiological traits for breeding; Linking functional-structural plant models with biochemical models

Key words: high yielding, abiotic stress, crop eco-physiology, crop biology, applied plant science, crop modelling, trait discovery, pre-breeding, plant phenotyping

代表性论文论著/ Selected publications

Y Song, C Birch, Y Rui and J Hanan (2015) Allometric relationships of maize organ development under different water regimes and plant densities. Plant Production Sci. 18: 1-10.

KE Nolan, Y Song, Liao S, Saeed NA, Zhang X, Rose R (2014) An Unusual Abscisic Acid and Gibberellic Acid Synergism Increases Somatic Embryogenesis, Facilitates Its Genetic Analysis and Improves Transformation in Medicago truncatula. PLoS ONE 9(6): e99908. doi:10.1371/journal.pone.0099908.

S Kurdyukov, Y Song, MB Sheahan and RJ Rose (2013) Transcription factor expression in relation to embryo development in the seed of the model legume Medicago truncatula. Plant Cell Reports, 33(2): 349-362.

F Dreccer, SC Chapman, AR Rattey, J Neal, Y Song, JT Christopher, M Reynolds (2013) Tillering and water soluble carbohydrate accumulation in wheat (Triticum aestivum L.): interactions of genotypic and environmental effects on development and growth. Journal of Experimental Botany, 64(1): 143–160.

Y Song, K Nolan and RJ Rose (2013) Stable Transformation of Medicago truncatula cv. Jemalong for Gene Analysis Using Agrobacterium tumefaciens. A Book Chapter in LEGUME GENOMICS Methods and Protocols, Methods in Molecular Biology Series, Vol 1069 DOI: 10.1007/978-1-62703-613-9 Publisher: Humana Press, Springer, New York, ISBN: ISBN 978-1-62703-612-2.

X-D Wang, Y Song*, MB Sheahan, ML Garg and RJ Rose (2012) From embryo sac to oil and protein bodies: embryo development in the model legume Medicago truncatula. New Phytologist, 193: 327–338. (*Co-first author).

Y Song, CJ Birch, S Qu, A Doherty, J Hanan (2010) Analysis and modelling of the effects of water stress on maize growth and grain production in dryland conditions. Plant Production Science, 13(2): 199–208.

Y Song, CJ Birch, J Hanan (2010) Maize canopy production under contrasted water regimes. Annals of Applied Biology, 157(1): 111–123.

Y Song, CJ Birch, J Hanan (2008) Analysis of maize canopy development under water stress and incorporation into the ADEL-Maize model. Functional Plant Biology, 35: 925–935.

D Luquet, Y Song, S Elbelt, D This, A Clément-Vidal, C Périn, D Fabre, M Dingkuhn (2007) Model-Assisted Physiological Analysis of Phyllo, a Rice Architectural Mutant. Functional Plant Biology, 34, 11–23.