司成成
生于1990年09月16日,山东济宁人,中共党员
作物学博士,生物学博士后,副教授
博士后合作导师,博士硕士生导师
联系方式:13016237372(微信同号);
邮箱:ccsi@hainanu.edu.cn
招生专业:作物学、农艺与种业
招生意向:
(1)热爱科研,专心学术,志存高远
(2)活泼开朗,吃苦耐劳,团结合作
(3)英文读写较好,英语四级以上优先
(4)学科背景相近
荣誉称号
海南省E类高层次人才,海南省三区科技人才,三亚崖州湾科技城E类人才
学术兼职
全国本科/研究生毕业论文抽检评审专家
Tropical Plants青年编委
Technology in Agronomy青年编委
热带作物学报青年编委
教育经历
2009.09.01至2018.06.30 山东农业大学 本硕博 农学/作物学
工作经历
海南大学 副教授 2023.01.01至今
中国热带农业科学院&贵州大学 联合培养博士后 2022.12.13至2024.12.12
海南大学 讲师 2018.10.08至2022.12.31
研究方向
甘薯基因功能研究和栽培技术集成
主持科研项目
(1)国家自然科学基金地区项目,32060716,氮素水平和种植密度调控甘薯块根形成的生理生态机制,2021/01/01-2024/12/31,35万
(2)海南省重点研发项目,ZDYF2025XDNY070,氮磷配施调控甘薯养分利用和块根形成的生理生态机制及高产优质栽培技术集成,2025/02/19-2028/02/18,77万
(3)海南省重点研发项目,ZDYF2022XDNY264,氮肥运筹和种植密度调控甘薯产量和商品性的机理及技术集成,2022/09/07-2025/09/07,59万
(4)海南省自然科学基金青年基金,320QN190,氮素水平和种植密度对甘薯潜在块根内源激素代谢和块根形成的影响,2020/12/26-2023/12/25,5万
(5)三亚崖州湾科技城“崖州湾”菁英人才科技专项,SCKJ-JYRC-2023-24,氮磷协同调控甘薯块根形成的根土互作机制及技术集成,2023/07/01-2025/06/30,50万
(6)海南大学协同创新中心项目,XTCX2022NYC12,缓/控释氮肥调控甘薯产量和商品性的分子生态机制,2022/09/01-2025/08/31,30万
(7)2024年配套-氮素水平和种植密度调控甘薯块根形成的生理生态机制,4.2万
(8)海南省农作物遗传育种重点实验室2024年开放课题,NAA调控甘薯块根形成的生理和分子机制,YCYZ202405,2024/06-2024/12,2万
(9)海南大学科研启动资金,KYQD(ZR)1931,2019/01-2023/12,8万
(10)2023年海南省博士后研究项目,10万
科研论文(#共同一作,*通讯作者)
(1)Hu Zhengyu, He Peixin, Li Yujie, Liu Hongjuan, Rafiq Ahmad, Izhar Ali, Si Chengcheng*. Genome-wide identification of invertase genes in sweetpotato and its response to nitrogen and planting densities. BMC Plant Biology. 2025; 25, 281.(中科院生物学2区Top)
(2)Han Shaoxuan#, Lin Yanhui #, Meng Yayi, Si Chengcheng*. Genome-Wide Identification and Analysis of SUS and AGPase Family Members in Sweet Potato: Response to Excessive Nitrogen Stress during Storage Root Formation. International Journal of Molecular Sciences. 2024; 25(15):8236. (中科院生物学2区Top)
(3)Si Chengcheng, Li Yubin, Hai Xue, Bao Cici, Zhao Jinyang, Rafiq Ahmad, Li Jing, Wang Shouchuang, Li Yan*, Yang Yaodong*. Genome-Wide Identification and Expression Analysis of MYB Transcription Factor Family in Response to Various Abiotic Stresses in Coconut (Cocos nucifera L.). International Journal of Molecular Sciences. 2024; 25(18):10048. (中科院生物学2区Top)
(4)Liu Benkui#; Xv Bingjie#; Si Chengcheng*; Shi Wenqing; Ding Guozheng; Tang Li-xue; Xv Ming; Shi, Chun-yv*; Liu, Hongjvan*. Effect of potassium fertilization on storage root number, yield, and appearance quality of sweet potato (Ipomoea batatas L.). Frontiers in Plant Science, 2024, 14:1298739. (中科院生物学2区Top)
(5)Meng Yayi; Wang Ning; Zhang Haiyan; Xu Ran; Si Chengcheng*. Genome-Wide Analysis of Sweet Potato Ammonium Transporter (AMT): Influence on Nitrogen Utilization, Storage Root Development and Yield. International Journal of Molecular Sciences. 2023, 24, 17424. (中科院生物学2区top)
(6)Si Chengcheng#*; Li Yujie#; Liu HongJuan; Zhang Haiyan; Meng Yayi; Wang Ning; Shi Chunyu*. Impact of paclobutrazol on storage root number and yield of sweet potato (Ipomoea batatas L.). Field Crops Research, 2023, 300,109011. (中科院农林科学1区Top)
(7)Si Chengcheng#*; Liang Qinggan#; Liu Hongjuan#; Wang Ning;Sunjeet Kumar; Chen Yanli; Zhu Gguopeng*. Response Mechanism of Endogenous Hormones of Potential Storage Root to Phosphorus and Its Relationship With Yield and Appearance Quality of Sweetpotato. Frontiers in Plant Science. 2022, 13:872422. (中科院植物科学1区)
(8)Meng Yayi#; Wang Ning#; Si Chengcheng*. The Application of Nitrogen Source in Regulating Lignin Biosynthesis, Storage Root Development and Yield of Sweet Potato. Agronomy, 2022, 12, 2317. (中科院农林科学2区)
(9)Si Chengcheng#; Shi Chunyu*; Liu Hongjuan#; Zhan Xiangdong; Liu Yongchen. Effects of Nitrogen Forms on Carbohydrate Metabolism and Storage-root Formation of Sweet Potato. Journal of Plant Nutrition and Soil Science, 2018(181): 419~428. (中科院农林科学2区)
(10)Si Chengcheng#; Shi Chunyu*; Liu Hongjuan#; Zhan Xiangdong; Liu YongChen; Wang Dandan; Meng Di; Tang Lixue. Influence of Two Nitrogen Forms on Hormone Metabolism in Potential Storage Roots and Storage Root Number of Sweetpotato. Crop science, 2018, 58(6): 2558-2568. (中科院农林科学3区)
(11)Liu Hongjuan#; Si Chengcheng#; Shi Chunyu*; Wang Shuyun; Sun Zhe; Shi Yanxi. Switch from Apoplasmic to Symplasmic Phloem Unloading during Storage Roots Formation and Bulking of Sweetpotato. Crop science, 2019, 59(2), 675-683. (中科院农林科学3区)
专利
(1)国家发明专利,一种具有株距调节功能的智能施肥种植装置,ZL 2024 1 1635102.0,排序1
(2)国家发明专利,一种甘薯施肥用定点装置,ZL 2024 1 0413767.0,排序1
(3)国家发明专利,一种薯类种植用起垄工具,ZL 2023 1 0791485.X,排序1
(4)实用新型专利,一种甘薯栽苗器,ZL 2021 2 2162908.0,排序1
软件著作权
(1)甘薯氮肥运筹生长检测系统V1.0,2020SR1083104
(2)甘薯种质资源管理信息系统软件V1.0,2021SR1689224
(3)甘薯氮素和密度运筹管理系统软件V1.0,2023SR0679222
(4)甘薯氮磷养分高效管理系统V1.0,2024SR0391120
获奖情况
(1)2023 年度齐鲁农业科技奖技术推广奖,三等奖,鲜食甘薯品种选育及产业化配套技术集成与推广应用,2023-JT020-3,排位2
(2)2023年日照市科技创新成果奖,三等奖,优质鲜食甘薯品种选育及配套栽培技术研究应用推广,排位2
(3)2024年日照市农业技术推广成果优选计划,一等奖,优质鲜食甘薯品种选育及产业化配套技术开发与推广,RZNJYX2024-1-2-R3,排位3
海南大学
南繁研究院
