童再康

作者:时间:2017-09-18点击数:

童再康,男,1963年生,教授,博士生导师,南京林业大学林木遗传育种博士,中国林学会林木遗传育种分会常务理事,浙江省遗传学会森林遗传学分会主任委员,浙江省农业科技突出贡献者,享受国家特殊津贴人才。主要从事林木新品种选育与定向培育研究工作,先后主持国家“863”子课题、国家重点研发专项子课题、国家自然科学基金项目、国家“948”项目、浙江省竹木育种专项、省科技厅重大项目等科研项目30余项。发表学术论文100余篇,其中发表于《Plant Communications》、《Science of the Total Environment》、《Forest Ecology and Management》、《Forestry Research》等SCI论文48篇。获浙江省科学技术奖一等奖、二等奖、三等奖等5项。

研究领域方向

珍贵树种、观赏植物新品种选育与资源定向培育(方向一:珍贵树种品种选育与定向培育、方向二:观赏植物新品种选育)。

教学工作

先后担任《林木遗传育种学》、《群体与论文数量遗传学》、《高级林木遗传学》、等本科与硕士、博士研究生等课程。

主要在研项目

1.浙江杉木人工林近自然改造技术,国家重点研发计划子课题,300万,2021-2024,主持。

2.闽楠种群生态适应性基因组学基础与未来气候下的种质保育,国家自然科学基金面上项目,75万,2022-2025,主持。

3.杉竹材用林珍贵化改培关键技术推广与示范,中央财政林业科技推广示范项目,100万,2022-2023,主持。

近五年主要学术论文

1. Xiao Han#, Junhong Zhang#, Shuang Han, Sun Li Chong, Guanliang Meng, Minyan Song, Yang Wang, Shengcai Zhou, Chengcheng Liu, Luhuan Lou,Xiongzhen Lou, Longjun Cheng, Erpei Lin, Huahong Huang, Qi Yang*,Zaikang Tong*.The chromosome-scale genome ofPhoebe bourneireveals contrasting fates of terpene synthase (TPS)-a and TPS-b subfamilies.Plant Communications, 2022, 3, 100410.

2.Kai Ding#, Yuting Zhang#, Haiyan Liu, Xiuxin Yang, Junhong Zhang*,Zaikang Tong*. Soil bacterial community structure and functions but not assembly processes are affected by the conversion from monospecificCunninghamia lanceolataplantations to mixed plantations,Applied Soil Ecology, 2023, 185, 104775.

3. Miao Zhang, Xinyi Chen, Xiongzhen Lou, Yuting Zhang, Xiao Han, Qi Yang,Zaikang Tong*,Junhong Zhang*.Identification of WUSCHEL-related homeobox (WOX) gene family members and determination of their expression profiles during somatic embryogenesis inPhoebe bournei.Forestry Research, 2023, 3:5.

4. Kai Ding#, Yuting Zhang#, Li Wang#, Siyu Ge, Yiman Zhang, Qi Yang, Huahong Huang,Zaikang Tong*, Junhong Zhang*. Forest conversion from pure to mixedCunninghamia lanceolataplantations enhances soil multifunctionality, stochastic processes, and stability of bacterial networks in subtropical southern China.Plant and Soil, 2023,https://doi.org/10.1007/s11104-023-05983-y.

5. Li Wang#, Qiguang Wang#, Ningning Fu, Minyan Song, Xiao Han , Qi Yang, Yuting Zhang,Zaikang Tong*, Junhong Zhang*. Cyanidin-3-O-glucoside Contributes to Leaf Color Change by Regulating Two bHLH Transcription Factors inPhoebe bournei.International Journal of Molecular Sciences, 2023, 24, 3829.

6. Yue Pan#, Xiaoshan Xu#, Lei Li, Qinglin Sun, Qiguang Wang, Huahong Huang,Zaikang Tong*, Junhong Zhang*. Melatonin-mediated development and abiotic stress tolerance in plants,Frontiers in Plant Science, 2023, 1100827.

7.Yang Wang#,Xiaohua Ma#,Yunfeng Lu,Xiange Hu, Luhuan Lou,Zaikang Tong*, Junhong Zhang*. Assessing the current genetic structureof21 remnant populationsand predicting the impacts of climate change on geographic distribution ofPhoebe sheareriin southern China.Science of the Total Environment, 2022,846:157391.

8. Kai Ding#, Yuting Zhang#, Kim Yrjälä,Zaikang Tong*, Junhong Zhang*. The introduction ofPhoebe bourneiintoCunninghamia lanceolatamonoculture plantations increased microbial network complexity and shifted keystone taxa.Forest Ecology and Management, 2022, 509, 120072.

9. Yan Lin, Sasa Chu, Xiaoshan Xu, Xiao Han, Huahong Huang,Zaikang Tong*, Junhong Zhang*. Identification of Nitrogen Starvation-responsive miRNAs to reveal the miRNA-mediated regulatory network inBetula luminifera.Frontiers in Genetics, 2022, DOI: 10.3389/fgene.2022.957505.

10. Lili Cheng#, Fangmin Wu#, Yan Lin#, Xiao Han, Xiaoshan Xu, Yuting Zhang, Qi Yang, Huahong Huang,Zaikang Tong*, Junhong Zhang*. A miR169c-NFYA10 module confers tolerance to low-nitrogen stress toBetula luminifera.Industrial Crops & Products, 2021, 113988.

11. Yuting Zhang, Kai Ding, Kim Yrjälä, Haiyan Liu,Zaikang Tong*, Junhong Zhang*. Introduction of broadleaf species into monospecificCunninghamia lanceolataplantations changed the soil Acidobacteria subgroups composition and nitrogen‑cycling gene abundances.Plant and Soil, 2021, 467:29–46.

12.Junhong Zhang*, Yan Lin, Fangmin Wu, Yuting Zhang, Longjun Cheng,Menghui Huang,Zaikang Tong*. Profiling of microRNAs and their Targets inRoots and Shoots Reveals a Potential miRNA-mediated Interaction Network inResponse to Phosphate Deficiency in the Forestry TreeBetula luminifera.Frontiers in Genetics,2021, 12: 552454.

13. Yuting Zhang#, Junhong Zhang#, Minyan Song, Xinchun Lin,Zaikang Tong*,Mingquan Ding*. Comprehensive Analysis of FivePhyllostachys edulisSQUA-like Genes and Their Potential Functions in Flower Development.Int.J.Mol. Sci. 2021, 22, 10868.

14.Junhong Zhang,Yajun Zhu, Ying Pan, Huahong Huang, Chunlong Li, Gaozhi Li,Zaikang Tong*. Transcriptomic profiling and identification of candidate genes in twoPhoebe bourneiecotypes with contrasting cold stress responses. Trees, 2018, 32: 1315–1333.

15. Xiange Hu#, Yilei Xu#, Ning Shen#, Mingtong Liu, Hebi Zhuang, Priyanka Borah,Zaikang Tong, Erpei Lin*and Huahong Huang*. Comparative physiological analyses and the genetic basis reveal heat stress responses mechanism among differentBetula luminiferapopulations. Frontiers in Plant Science,2022,13:883720.

16. Xiange Hu#, Hebi Zhuang#, Erpei Lin*, Priyanka Borah, Mingqiu Du, Shiya Gao, Tongli Wang,Zaikang Tongand Huahong Huang*. Full-Length Transcriptome Sequencing and Comparative Transcriptomic Analyses Provide Comprehensive Insight Into Molecular Mechanisms of Cellulose and Lignin Biosynthesis inCunninghamia lanceolata. Frontiers in Plant Science, 2022,13:883720.

17. Hebi Zhuang#, Sun-Li Chong#, Borah Priyanka, Xiao Han, Erpei Lin,Zaikang Tong, Huahong Huang*. Full-length transcriptomic identification of R2R3-MYB family genes related to secondary cell wall development inCunninghamia lanceolata(Chinese fir). BMC Plant Biol. 2021,21(1):581.

18. Mo Lan, Chen Junhao, Chen Fei, Xu Qiangwei,Tong Zaikang, Huang Huahong, Dong Renhui, Lou Xiongzhen, Lin Erpei*. Induction and characterization of polyploids from seeds ofRhododendron fortuneiLindl. Journal of Integrative Agriculture, 2020, 19: 2016-2026.

19.Xiuyun Li, Erpei Lin, Huahong Huang, Mingyue Niu,Zaikang Tong*, Junhong Zhang. Molecular Characterization of SQUAMOSA PROMOTER BINDING PROTEIN-LIKE (SPL) Gene Family inBetula luminifera. Frontiers in Plant Science, 2018, 9: 608.

20. Ying Pan, Mingyue Niu, Junsheng Liang, Erpei Lin,Zaikang Tong, Junhong Zhang*. Identification of heat-responsive miRNAs to reveal the miRNA mediated regulatory network of heat stress response inBetula luminifera. Trees, 2017, 31(5): 1635–1652.

21.Yan Lin, Sasa Chu, Xiaoshan Xu, Xiao Han, Huahong Huang,Zaikang Tong*, Junhong Zhang*. Identification of Nitrogen Starvation-responsive miRNAs to reveal the miRNA-mediated regulatory network inBetula luminifera. Frontiers in Genetics, 2022, 957505.

22.Erpei Lin#, Hebi Zhuang#, Jinjian Yu, Xueyu Liu, Huahong Huang*, Muyuan Zhu,Zaikang Tong*. Genome survey of Chinese fir (Cunninghamia lanceolata): Identification of genomic SSRs and demonstration of their utility in genetic diversity analysis. Scientific Report. 2020, 10: 4698.

23.Lan Mo, Junhao Chen, Xiongzhen Lou, Qiangwei Xu, Renhui Dong,Zaikang Tong, Huahong Huang and Erpei Lin*. Colchicine-Induced Polyploidy inRhododendron fortuneiLindl. Plants (Basel) 2020, 9(4), 424.

24. Miaomiao Cai, Huahong Huang, Fei Ni,Zaikang Tong, Erpei Lin, Muyuan Zhu. RNA-Seq analysis of differential gene expression inBetula luminiferaxylem during the early stages of tension wood formation. Peer J, 2018, 6, e5427.

25.丁凯,张毓婷,张俊红,柴雄,周世水,童再康*.不同密度杉木林对林下植被和土壤微生物群落结构的影响.植物生态学报, 2021, 45 (1): 62-73.

26.杨安娜,陆云峰,张俊红,吴家森,徐金良,童再康*.杉木人工林土壤养分及酸杆菌群落结构变化.林业科学,2019,55(1):119-127.

27.方霞,柏志靓,周生财,张丽珍,吴强,张俊红,童再康*.大叶桢楠和小叶桢楠光合生理特性比较.园艺学报,2019,46 (5):964–974.

28.陆云峰,裴男才,朱亚军,柏志靓,杨安娜,张俊红,楼炉焕,童再康*.渐危植物浙江楠群落结构及叶片性状多样性.应用生态学报,2018,29(7):2101-2110.

29.魏明科,俞金健,黄晓龙,刘琼瑶,黄华宏*,林二培,童再康.杉木NAC转录因子基因ClNAC1的克隆、表达及单核苷酸多态性分析.林业科学,2018,54(09):49-59.

30.唐佳妮,林二培*,黄华宏,童再康,楼雄珍.杉木叶片原生质体分离及RNA提取体系的建立.林业科学, 2018, 54(04):38-48.

31.褚洒洒,范祥祯,邱肇凯,杨琪,张毓婷,王洋,徐晓珊,童再康,张俊红*.楠属5种植物叶片的挥发性成分的测定.园艺学报,2021,48 (8):1552–1564.

32.程丽丽,潘樱,林艳,林仕雄,童再康,张俊红*.低氮胁迫对不同光皮桦基因型苗期生长及生理生化特征的影响.核农学报, 2020,34(11): 2435-2443.


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