教育经历：

1965年10月出生江西省九江市。

1982年－1986年，兰州大学，生物系，理学学士。

1986年－1989年，兰州大学，生物系，理学硕士。

1999年－2005年，荷兰格罗宁根大学，生物系，理学博士。

工作简历：

1989年－1996年，天津市农业科学院，土壤肥料研究所，研究实习员，助理和副研究员，副所长。

1996年－1999年，荷兰DLO-CPRO（PRI），植物繁育系，访问学者。

2004年－2008年，英国洛桑研究所，植物与微生物系，博士后，高级研究员。

2008年至今，中国科学院，植物研究所资源植物重点实验室分子设计研究组组长、科研处处长。

目前指导博士后2人，在读博士生6人，硕士生3人，联合培养博士生和硕士生1人。

主要研究方向：

目前主要开展甜高粱和玉米生物质能源性状的分子遗传研究。探索甜高粱糖代谢与生物量积累的发育调控，解析对非生物与生物逆境胁迫的分子应答，阐述抗逆性和糖代谢与生物量积累的关系，为分子设计育种拓宽植物抗逆性，提高光能利用率，增加和稳定生物量提供理论依据、基因资源和种质材料。近五年发表相关SCI论文和章节20篇，主持科学院、基金委、转基因重大专项、中英国际合作项目和中非国际项目等16个项目。

主持和参加的科研项目：

[1] “农作物优良性状控制基因的鉴定”中国科学院海外科教基地建设计划（2013.08-2015.12），资助金额80万元，主持人景海春

[2] “江西贵溪镉铜污染土壤修复技术示范/生物质能源植物培育及相关工程化模式参数获取”中国科学院科技服务网络计划（STS计划）（2014.05-2016.04），资助金额70万元，主持人景海春

[3] “高产抗逆纤维类能源植物新品种选育/高粱种质资源收集、筛选与新种质创制”国家科技支撑计划课题（2013.01-2016.12），资助金额90万元，主持人景海春

[4] “玉米成株期耐旱分子模块解析”中国科学院战略性先导科技专项（A类）（2013.01-2017.12），资助金额1257万元，主持人景海春

[5] “保健型异构蔗糖富集甜高粱新种质创制”中国科学院-昆士兰州合作科学基金（2014.07-2016.06），资助金额75万元，主持人景海春

[6] “C4模式作物高粱干旱与独脚金杂草抗性基因的克隆及气候变化适应研”国际（地区）合作与交流项目（2015.01-2019.12），资助金额240万元，主持人景海春

[7] “甜高粱茎秆含汁量调控基因JRG的图位克隆与功能分析”面上项目（2015.01-2018.12），资助金额90万元，主持人景海春

[8] “边境土地改良和可持续利用的糖类能源植物规模种植技术”“十二五”农村领域国家科技支撑计划课题（2015.04-2019.09），资助金额135万元，主持人景海春

[9] “呼伦贝尔垦区高值农牧生态技术集成与示范”中国科学院科技服务网络计划（STS计划）（2015.01-2015.12），资助金额130万元，主持人景海春

[10] “高粱基因组大片段缺失的结构变异分析及其功能研究”国家自然科学基金委员会基金面上项目（2013.01-2016.12），资助金额80万元，主持人景海春

[11] “重离子诱变机理研究”中国科学院知识创新工程重要方向项目（2011.01-2014.12），资助金额60万元，课题主持人景海春

[12] “氮高效利用转基因玉米新品种培育”转基因生物新品种培育重大专项项目（2009.06-2011.12），资助金额437万元，主持人景海春

[13] “甜高粱耐盐碱育种新材料的培育”中国科学院知识创新工程重要方向项目（2009.01-2011.12），资助金额200万元，主持人景海春

研究论文及著作（注*为通讯作者）：

2018

Zhang LM, Leng CY, Luo H, Wu XY, Liu ZQ, Zhang YM, Zhang H, Xia Y, Shang L, Liu CM, Hao DY, Zhou YH, Chu CC, Cai HW*, Jing HC*. 2018. Sweet sorghum originated through selection of Dry, a plant-specific NAC transcription factor gene. Plant Cell, 30: 2286-2307.

Chen J, Zhang LM, Zhu MJ, Han LJ, Lv Y, Liu YS, Li P, Jing HC*, Cai HW*. 2018. Non-dormant Axillary Bud 1 regulates axillary bud outgrowth in sorghum. J. Integr. Plant Biol., 60: 938-955.

景海春*, 刘智全, 张丽敏, 吴小园. 2018. 饲草甜高粱分子育种与产业化. 科学通报, 63: 1664-1676.

2016

Luo Hong, Zhao Wenming, Wang Yanqing, Xia Yan, Wu Xiaoyuan, Zhang Limin, Tang Bixia, Zhu Junwei, Fang Lu,Du Zhenglin, Bekele Wubishet A., Tai Shuaishuai, Jordan David R.,Godwin Ian D., Snowdon Rod J., Mace Emma S., Luo Jingchu*, Jing Haichun*. 2016. SorGSD: A sorghum genome SNP database. Biotechnology for Biofuels, 9: 6.

Wu Xiaoyuan, Hu Weijuan, Luo Hong, Xia Yan, Zhao Yi, Wang Lidong, Zhang Limin, Luo Jingchu*, Jing Haichun*. 2016. Transcriptome profiling of developmental leaf senescence in sorghum (Sorghum bicolor). Plant Molecular Biology, 92(4): 555-580.

2015

Schippers JH, Schmidt R, Wagstaff C, Jing HC (Co-first author) .2015. Living to die and dying to live: The survival strategy behind leaf senescence. Plant Physiol, DOI:10.1104/pp.15.00498.

Zheng L, Shang L, Chen X, Zhang L, Xia Y, Smith C, Bevan MW, Li Y, Jing HC* .2015. TANG1, Encoding a Symplekin_C Domain-Contained Protein, Influences Sugar Responses in Arabidopsis. Plant Physiol, 168(3): 1000-1012.

Shen X, Liu ZQ, Mocoeur Anne, Xia Y, Jing HC* .2015. PAV markers in Sorghum bicolour: Genome pattern, affected genes and pathways, and genetic linkage map construction. Theoretical and Applied Genetics, 128(4): 623-637.

Anami SE, Zhang LM, Xia Y, Zhang YM, Liu ZQ, Jing HC* .2015. Sweet sorghum ideotypes: genetic improvement of the biofuel syndrome. Food and Energy Security, DOI: 10.1002/fes3.63.

Anami SE, Zhang LM, Xia Y, Zhang YM, Liu ZQ, Jing HC*.2015. Sweet sorghum ideotypes: genetic improvement of stress tolerance. Food and Energy Security, 4(1): 3-24.

Wu L, Li M, Huang J, Zhang H, Zou W, Hu S, Li Y, Fan C, Zhang R, Jing HC, Liang CP, Sheng QF*. 2015. A near infrared spectroscopic assay for stalk soluble sugars, bagasse enzymatic saccharification and wall polymers in sweet sorghum. Bioresource technology, 177: 118-124.

Mocoeur A, Zhang YM, Liu ZQ, Shen X, Zhang LM, Rasmussen SK, Jing HC*. 2015. Stability and genetic control of morphological, biomass and biofuel traits under temperate maritime and continental conditions in sweet sorghum (Sorghum bicolour). Theor Appl Genet, 128: 1685–1701.

罗洪, 张丽敏, 夏艳, 吴小园, 王聪, 刘智全, 景海春*. 2015. 能源植物高粱基因组研究进展. 科技导报, Vol.33 (16): 17-26.

Sylvester EA, Jing HC*. 2015. Sorghum genome sequencing and its impact generated through public and private efforts. COMPENDIUM OF PLANT GENOMES: SORGHUM. (Submitted).

Sylvester EA, Yu M, Jing HC*. 2015. Sorghum transformation: Current status and future target traits. CABI-Biotechnology of Major Cereals. (Submitted).

Wu XY, Hu WJ, Luo H, Xia Y, Zhao Y, Zhang LM, Luo JC, Jing HC* .2015. Transcriptome of developmental leaf senescence in Sorghum bicolour. (In preparation)

Luo H, Zhao WM, Wang YQ, Xia Y, Wu XY, Zhang LM, Tang BX, Zhu JW, Chi LJ, Du ZL, Bekele WA, Snowdon RJ, Godwin ID, Tai SS, Mace ES, Jordan DR, Luo JC, Jing HC*. 2015. SorGSD: a Sorghum Genome SNP Database. (In preparation)

2014

Wang TT, Ren ZJ, Liu ZQ, Feng X, Guo RQ, Li BG, Li LG, Jing HC*. 2014. SbHKT1; 4, a member of the high-affinity potassium transporter gene family from Sorghum bicolor, functions to maintain optimal Na+/K+ balance under Na+ stress. Journal of IntegrativePlant Biology, 56: 315-332.

Zhang LM, Luo H, Liu ZQ, Zhao Y, Luo JC, Hao DY, Jing HC*. 2014. Genome-wide patterns of large-size presence/absence variants in sorghum. Journal of Integrative Plant Biology, 56: 24-37.

Luo H, Mocoeur A, Jing HC*. 2014. Next-Generation Sequencing Technology for Genetics and Genomics of Sorghum. Genetics, Genomics and Breeding of Sorghum2014: 226. (Book chapter)

Li M, Feng S, Wu L, Li Y, Fan C, Zhang R, Zou W, Tu Y, Jing HC, Li S*. 2014. Sugar-rich sweet sorghum is distinctively affected by wall polymer features for biomass digestibility and ethanol fermentation in bagasse. Bioresource technology, 167: 14-23.

生物质能源产业科技创新发展战略. 化学工业出版社 2014. 参编

2013

Zhang LM, Liu XG, Qu XN, Yu Y, Han SP, Dou Y, Xu YY, Jing HC*, Hao DY*. 2013. Early Transcriptomic Adaptation to Na2CO3 Stress Altered the Expression of a Quarter of the Total Genes in the Maize Genome and Exhibited Shared and Distinctive Profiles with NaCl and High pH Stresses. Journal of Integrative Plant Biology, 55: 1147-1165.

Tahir J, Watanabe M, Jing HC, Hunter DA, Tohge T, Nunes‐Nesi A, Brotman Y, Fernie AR, Hoefgen R, Dijkwel PP* (2013). Activation of R-mediated innate immunity and disease susceptibility is affected by mutations in a cytosolic O-acetylserine (thiol) lyase in Arabidopsis. The Plant Journal, 73: 118-130.

2012

Jing HC, Nam HG. 2012. Leaf Senescence in Plants: From Model Plants to Crops, Still so Many Unknowns. Journal of Integrative Plant Biology, 54(8): 514-515.

Wu XY, Kuai BK, Jia JZ, Jing HC*. 2012. Regulation of Leaf Senescence and Crop Genetic Improvement. Journal of Integrative Plant Biology, 54: 936-952.

Li FC, Ren SF, Zhang W, Xu ZD, Xie GS, Chen Y, Tu YY, Li Q, Zhou SG, Li Y, Tu F, Liu L, Wang YT, Jiang JX, Qin JP, Li SZ, Li QW, Jing HC, Zhou FS, Gutterson N，Peng LC. 2012. Arabinose substitution degree in xylan positively affects lignocellulose enzymatic digestibility after various NaOH/H2SO4 pretreatments in Miscanthus. Bioresour Technol, 130(0): 629-637.

张丽敏, 刘智全, 陈冰嬬, 郝东云, 高士杰, 景海春. 2012. 我国能源甜高粱育种现状及应用前景.中国农业大学学报, 17(6): 78-82.

2011

Zheng LY, Guo XS, He B, Sun LY, Peng Y, Dong SS, Liu TF, Jiang SY, Ramachandran S, Liu CM and Jing HC*. 2011. Genome data from sweet and grain sorghum (Sorghum bicolour). GigaScience, http://dx.doi.org/10.5524/100012.

Zheng LY, Guo XS, He B, Sun LJ, Peng Y, Dong SS, Liu TF, Jiang SY, Ramachandran S, Liu CM, Jing HC* .2011. Genome-wide patterns of genetic variation in sweet and grain sorghum (Sorghum bicolor). Genome Biology, 12.

Parry MA, Jing HC*. 2011. Bioenergy plants: hopes, concerns and prospectives. Journal of Integrative Plant Biology, 53: 94-95.

2010及以前

Shirzadian-Khorramabad R, JingHC (Co-first author), Everts GE, Schippers JHM, Hille J and Dijkwel PP. 2010. A mutation in the cytosolic O-acetylserine (thiol) lyase induces a genome-dependent early leaf death phenotype in Arabidopsis. BMC Plant Biology, 10: 80 doi:10.1186/1471-2229-10-80.

Jing HC*, Bayon C, Kanyuka K, Berry S, Wenzl P, Huttner E, Kilian A and Hammond-Kosack KE. 2009. DArT markers: diversity analyses, genomes comparison, mapping and integration with SSR markers in Triticum monococcum. BMC Genomics, 10: 458, doi:10.1186/1471-2164-10-458.

Hofinger BJ, Jing HC, Hammond-Kosack KE and Kanyuka K. 2009. High-resolution melting analysis of cDNA-derived PCR amplicons for rapid and cost-effective identification of novel alleles in barley. Theor Appl Genet, 119(5): 851-865.

Jing HC, Hebeler R, Oeljeklaus S, Sitek B, Stühler K, Meyer HE, Sturre MJG, Hille J, Warscheid B, Dijkwel PP. 2008. Early leaf senescence is associated with an altered cellular redox balance in Arabidopsiscpr5/old1 mutants.Plant Biology, 10 Suppl 1: 85-98. (Plant Senescence Special Issue)

JingHC and Dijkwel PP. 2008. CPR5, a jack of all trades in plants. Plant Signaling & Behavior, 3: 562–563.

Jing HC, Lovell D, Gutteridge R, Jenk D, Kornyukhin D, Mitrofanova OP, Kema GHJ and Hammond-Kosack K. 2008. Phenotypic and genetic analysis of Triticum monococcum-Mycosphaerella graminicola interaction. New Phytologist, 179: 1121-1132.

Jing HC, Anderson L, Sturre MJG, Hille J and Dijkwel PP. 2007. Arabidopsis CPR5 is a senescence-regulatory gene with pleiotropic functions as predicted by the evolutionary theory of senescence. J. Exp. Bot, 58: 3885-94.

Jing HC, Kornyukhin D, Kanyuka K, Orford S, Zlatska A, Mitrofanova OP, Koebner R and Hammond-Kosack K. 2007. Identification of variation in adaptively important traits and genome wide analysis of trait-marker associations in Triticum monococcum.J. Exp. Bot., 58: 3749-64.

Schippers JHM, Jing HC (Co-first author), Hille J, and Dijkwel PP. 2006. Developmental and hormonal regulation of leaf senescence. In Senescence Processes in Plants. Blackwell publisher. (Book chapter)

Jing HC, Lovell D, Kornyukhin D, Kanyuka K, Tearall K, Phillips A, Orford S, Koebner R, Mitrofanova OP, and Hammond-Kosack K. 2005. New approaches for durable disease resistance in wheat. Proceeding of the BCPC International Congress & Exhibition – Crop Science & Technology, 963-970.

Jing HC, Schippers JHM, Hille J, and Dijkwel PP. 2005. Ethylene-induced leaf senescence depends on age-related changes and OLDgenes in Arabidopsis. J. Exp. Bot., 56: 2915-23.

Jing HC, Hille J and Dijkwel PP. 2003. Ageing in plants: conserved strategies and novel pathways. Plant Biology, 5: 455-464.

Jing HC, Sturre MJG, Hille J and Dijkwel PP. 2002. Arabidopsis onset of leaf death mutants identify a regulatory pathway controlling leaf senescence. The Plant Journal, 32: 51-64.