张成武



张成武,博士、教授、博士生导师
Email:
tzhangcw@jnu.edu.cn 


主要从事海洋和淡水微藻生物资源和生物活性物质的开发与利用、微藻生物质综合炼制、微藻特殊代谢产物的合成与代谢调控机制研究、以及微藻在食品、农业、水产和废水处理中的应用等研究主持或参加20多项国家和省级科研项目,主持十二·”“863项目利用微藻清洁制备生物燃料关键技术”,任项目首席科学家参与完成十一·”“863项目CO2-油藻-生物柴油关键技术研究十二·”“973项目微藻能源规模化制备的科学基础1992年获中国科学院科技进步二等奖(主要参加者),1995年获国家科学技术进步三等奖(主要参加者),1996年,获江苏省普通高校优秀青年骨干教师称号,2010年作为第四单位参加者获得科技部十一五国家科技计划执行优秀团队奖。已发表论文150余篇,其中60余篇论文被SCI收录,并获11项发明专利授权 

  

――― 研究兴趣及研究方向―――

       特殊产油微藻油脂代谢调控、油脂代谢相关功能基因和酶的分析以及功能基因克隆、氮调控产油微藻积累油脂的转录组分析、特殊产油微藻全基因组序列分析、产油微藻细胞内碳流分配机制;

      ●  产长链多不饱和脂肪酸微藻的生长生理、光合生理和营养代谢方式转换及其转变过程的代谢变化规律;

        微藻生物活性成分分析与制备技术;

        光生物反应器系统设计与微藻规模化培养技术;

        微藻对水体污染的响应机制。

――― 教育经历 ―――

1990.09 ~ 1994.07     南京大学生命科学与技术系(藻类生物化学)博士研究生

1986.09 ~ 1989.07     中国科学院武汉植物研究所(藻类细胞学)硕士研究生

1982.09 ~ 1986.07     南京大学生物学系植物学专业本科

  

――― 工作经历 ―――

2007.11 ~              暨南大学生态学系(水生生物研究中心)教授

2007.04 ~2008.02    美国亚利桑那州立大学科学与技术学院应用生物科学系 (Department of Applied Biological SciencesPolytechnic Campus, Arizona State University, U.S.A.) 任助理研究教授(Assistant Research Professor

2006.01 ~ 2007.03   美国亚利桑那州立大学生命科学学院 (School of Life ciences, Arizona State University, U. S. A. ) 任研究助理(Faculty Research Associate

2002.10 ~ 2005.02   澳大利亚科廷科技大学生物医学科学学院 (School of Biomedical Sciences,Curtin University of Technology, Australia) 进行访问合作研究

2000.11 ~ 2007.10   南京师范大学生命科学学院副教授、教授

1998.03 ~ 2000.10   以色列-本古里昂大学沙漠研究所 (Ben-Gurion University of the Negev, the Jacob Blaustein Institute for Desert Research, Israel) 从事微藻生物学技术博士后研究工作

1994.08 ~ 1998.02   南京化工大学生物工程与科学系讲师、副教授

1989.09 ~1990.08    中国科学院武汉植物研究所研究实习员

 

――― 近期发表的文章 ――― 

1.    Feifei Wang, Ying Zhou, Baoyan Gao, Chengwu Zhang* 2021. Physicochemical characteristics of cellulose nanocrystals derived from the residue of filamentous microalga Tribonema utriculosum. Applied Biochemistry & Biotehnology https://doi.org/10.1007/s12010-021-03495-y

2.    ZiJun Xu, Qing He, Yingchun Gong, Yao Wang, Qing Lei Chi, GuoXiang Liu, ZhengYu Hu, ChengWu Zhang, Qiang Hu*2021. Assessment of a novel oleaginous filamentous microalga Klebsormidium sp. Lgx80 (Streptophyta, Klebsormidiales) for biomass and lipid production. Journal of Phycology doi:10.1111/jpy.13137

3.    Wei Zhao, Hao-Hang Fang, Zhen-Zhou Liu, Jiamin Chen, Cheng-Wu Zhang, Bao-Yan Gao*, Jin Niu* 2021. Response in growth performance, antioxidant capacity, immunity and the health of liver and intestinal after dietary supplementation of Porphyridium sp. in juvenile golden pompano (Trachinotus ovatus). Aquaculture Nutrition, https://doi.org/10.1111/anu.13214

4.   Baoyan Gao, Luodong Huang, Chengwu Zhang* 2021. Biomass, lipid accumulation kinetics, and the transcriptome of heterotrophic oleaginous microalga Tetradesmus bernardii under different carbon and nitrogen sourcesBiotechnology for Biofuels14, 4, https://doi.org/10.1186/s13068-020-01868-9

5.    Wei Zhao, Hao-Hang Fang, Miao-Qin Huang, Min Su, Chengwu Zhang, Gao Baoyan*, Jin Niu* 2020. A newly isolated strain ofHaematococcus pluvialis JNU35 improved the growth performance, antioxidant capacity, immunity and the health of liver and intestinal of golden pompano (Trachinotus ovatus). Aquaculture Nutrition, DOI: 10.1111/anu.13188

6.    Feifei Wang, Jiamin Chen, Chengwu Zhang, Baoyan Gao* 2020. Resourceful treatment of cane sugar industry wastewater by Tribonema minus towards valuable biomass production. Bioresource Technology,316: 123902 https://doi.org/10.1016/j.biortech.2020.123902

7.    Wei Zhao, Hao-Hang Fang, Bao-Yan Gao, Chen-Min Dai, Zhen-Zhou Liu, Cheng-Wu Zhang*, Jin Niu* 2020. Dietary Tribonema sp. supplementation increased growth performance, antioxidant capacity, immunity and improved hepatic and intestinal health in golden pompano (Trachinotus ovatus). Aquaculture 529735667.  https://doi.org/10.1016/j.aquaculture.

8.    Feifei Wang, Baoyan Gao, Chenming Dai Min Su, Chengwu Zhang* 2020. Comprehensive utilization of the filamentous oleaginous microalga Tribonema utriculosum for the production of lipids and chrysolaminarin in a biorefinery concept. Algal Research. 50:101973

9.    Baoyan Gao, Luodong Huang, Xueqing Lei, Ge Meng, Jianguo Liu, Chengwu Zhang* 2020. Evaluation and transcriptome analysis of the novel oleaginous microalga Lobosphaera bisecta (Trebouxiophyceae, Chlorophyta) for arachidonic acid production. Marine Drugs. 18, 229;doi:10.3390/md18050229

10.   Hu Jin, Hu Zhang, Zhiwei Zhou, Kunpeng Li, Guoli Hou, Quan Xu, Wenhua Chuai, Chengwu Zhang,Danxiang Han, Qiang Hu 2020.  Ultrahighcelldensity heterotrophic cultivation of the unicellular green microalga Scenedesmus acuminatus and application of the cells to photoautotrophic culture enhance biomass and lipid production. Biotechnology & Bioengineering. 117: 96-108.

11.  Feifei Wang, Baoyan Gao, Min Su, Chenming Dai, Luodong Huang, Chengwu Zhang2019. Integrated biorefinery strategy for tofu wastewater biotransformation and biomass valorization with the filamentous microalga Tribonema minus. Bioresource Technology. 292: 121938

12.  Feifei Wang, Baoyan Gao, Manman Wu, Luodong Huang, Chengwu Zhang* 2019. A novel strategy for ultrahigh cell density of photoautotrophic culture and high astaxanthin productivity of Haematococcus pluvialis JNU35. Algal Research. 34: 101466, https://doi.org/10.1016/j.algal.2019.101466

13.   Baoyan Gao, Luodong Huang, Feifei Wang, Chengwu Zhang* 2019. Trachydiscus guangdongensis sp. nov., a new member of the Eustigmatophyceae isolated from China: Morphology, fatty acid profile, pigment and cell wall composition. Hydrobiologia. 835: 37-47.

14.   Luodong Huang, Baoyan Gao, Feifei Wang, Wei Zhao, Chengwu Zhang* 2019. The complete chloroplast genome of an edaphic oleaginous microalga Vischeria stellata SAG 33.83 (Eustigmatophyceae). Mitochondrial DNA Part B: Resources. 4(1): 1041-1043.

15.   Luodong Huang#, Baoyan Gao#, Feifei Wang, Manman Wu, Chengwu Zhang* 2019. Comparative transcriptome analysis of a longtime span twostep culture process reveals a potential mechanism for astaxanthin and biomass hyperaccumulation in Haematococcus pluvialis JNU35. Biotechnology for Biofuels. 12:18  https://doi.org/10.1186/s13068-019-1355-5  

16.   Luodong Huang,Baoyan Gao, Feifei Wang, Chengwu Zhang* 2019. The complete mitochondrial genome of an oleaginous microalga Vischeria stellata strain SAG 33.83 (Eustigmatophyceae). Mitochondrial  DNA  Part  B:  Resources. 4(1): 301-302.

17.  Baoyan Gao, Ailing Chen, Luodong Huang, Feifei Wang, Chengwu Zhang* 2019. Bilateral simultaneous accumulation of lipid and biomass in a novel oleaginous green microalga Tetradesmus bernardii under mixotrophic culture. Algal Research. 37:64-73. 

18.  Feifei Wang, Baoyan Gao, Luodong Huang and Chengwu Zhang* 2018. Evaluation ofoleaginous eustigmatophycean microalgae as a potential biorefinery feedstock for production of palmitoleic acid and biofuel. Bioresource Technology. 270: 30-37. 

19.  Feifei Wang#, Luodong Huang#, Baoyan Gao and Chengwu Zhang* 2018. Optimum production conditions, purification, identification, and antioxidant activity of violaxanthin from microalga Eustigmatos cf. polyphem (Eustigmatophyceae). Marine Drugs. 16(190):1-13.  doi:10.3390/md16060190. 

20.  Song Xia, Baoyan Gao, Jiaqi Fu, JihaiXiong, Chengwu Zhang* 2018. Production of fucoxanthin, chrysolaminarin, and eicosapentaenoic acid (EPA) by Odontella aurita under different nitrogen supply regimes. Journal of Bioscience & Bioengineering.126(6):723-729.  doi.org/10.1016/j.jbiosc.2018.06.002.

21.   Baoyan Gao, Jing Liu, Chengwu Zhang, Dedmer B. Van de Waal 2018. Biological stoichiometry of microalgal lipid synthesis: the impact of N:P supply ratios and growth rate on microalgal elemental and biochemical composition. Algal Research. 32:353-361.

22.   Baoyan Gao, Song XIA, Xueqing LEI, Chengwu Zhang* 2018. Combined effects of different nitrogen sources and levels and light intensities on growth and fatty acid and lipid production of oleaginous eustigmatophycean microalga Eustigmatos cf. polyphem. Journal of Applied Phycology. 30:215-229.  

23.   Yao Wang, YingChun Gong, Lili Dai, Milton Sommerfeld, Chengwu Zhang*, Qiang Hu*. 2018. Identification of harmful protozoa in outdoor cultivation of Chlorella and the use of ultrasonication to control contamination. Algal Research. 31: 298-310.

24.  Wenyuan Zhang#, Feifei Wang#, Baoyan Gao#, Luodong Huang, Chengwu Zhang*.  2018. An integrated biorefinery process-Stepwise extraction of fucoxanthin, eicosapentaenoic acid and chrysolaminarin from the same Phaeodactylum tricornutum biomass.  Algal Research. 32: 193-200.   

 


――― 授权专利 ―――

1、国家发明专利:一种平板式光生物反应器(ZL201110006738.5

2、国家发明专利:一种外置加固内连通式平板光生物反应器(ZL201110207405.9

3、国家发明专利:一种实现藻液内外循环的光生物反应器ZL201110251491.3

4国家发明专利:一种实现二氧化碳高效固定的光生物反应器ZL201110251208.7

5国家发明专利:一种实现产油微藻规模化培养的光生物反应器系统ZL20110251480.5

6国家发明专利:一种实现微藻规模化培养的跑道池光生物反应器(ZL201110253992.5

7.  国家发明专利:一种利用类波氏真眼点藻生产EPA的方法(ZL201210109898.7

8.  国家实用新型专利:一种内置拉筋式平板光生物反应器(ZL 2011 2 0009663. 1

9.  国家实用新型专利:一种耦合式光生物反应器(ZL 2011 2 0319661. 2

10. 国家实用新型专利:一种跑道池光生物反应器(ZL 2011 2 0319618. 6

11. 国家实用新型专利:一种耦合式光生物反应器系统(ZL 2011 2 0319637. 9

12. 国家实用新型专利:一种喷淋式光生物反应器(ZL 2011 2 0319664.6

13. 国家实用新型专利:一种新型平板光生物反应器(ZL 2011 2 0262494.X

 

 

 
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