刘胜浩,1980年6月生,辽宁鞍山人,博士,研究员。现为自然资源部第一海洋研究所海洋生态研究中心副主任,硕士生导师。本人2006年毕业于国家海洋局第一海洋研究所海洋生物学专业获硕士学位,同年入职海洋一所从事科研工作,2015年毕业于山东大学细胞生物学专业获博士学位;本人曾于2007年11月-2008年2月赴韩国海洋研究院极地研究所开展短期合作研究,2009年7月-2010年6月赴加拿大多伦多大学附属圣迈克尔医院进修、2015年10月-2016月10月获国家公派访问学者赴美国韦恩州立大学化学院开展合作研究。
目前主要研究领域为深海微生物和环境适应机制、海洋生物多样性保护、海洋生物地理区划与环境影响评估。主持国家自然科学基金面上项目、科技部重点研发专项子课题、山东省自然科学基金项目、海洋生态保护修复等多项科研项目。已经累计在国内外学术期刊发表论文50余篇,其中第一作者/通讯作者sci论文25篇,主编出版专著1部,编写团体标准1项,获授权国家发明专利2项。我们课题组是国内从事海洋生物多样性保护研究的优势团队,培养的研究生多次获评国家奖学金和山东省优秀毕业生。
[1] shenghao liu, shuo fang, bailin cong, tingting li, dan yi, zhanghui zhang, linlin zhao*, pengying zhang*. the antarctic moss pohlia nutans genome provides insights into the evolution of bryophytes and the adaptation to extreme terrestrial habitats. frontiers in plant science, 2022, 13:920138. https://doi.org/10.3389/fpls.2022.920138. (sci, if: 6.627, 中科院二区, top)
[2] shenghao liu1, pengying zhang1, chengcheng li, guangmin xia*. the moss jasmonate zim-domain protein pnjaz1 confers salinity tolerance via crosstalk with the abscisic acid signalling pathway. plant science, 2019, 280:1-11. https://doi.org/10.1016/j.plantsci.2018.11.004. (sci, if: 5.363, 中科院二区)
[3] shenghao liu, tingting li, shuo fang, pengying zhang, dan yi, bailin cong, zhaohui zhang, linlin zhao*. metabolic profiling and gene expression analyses provide insights into cold adaptation of an antarctic moss pohlia nutans. frontiers in plant science, 2022, 13:1006991. https://doi.org/10.3389/fpls.2022.1006991. (sci, if: 6.627, 中科院二区, top)
[4] shenghao liu, tingting li, pengying zhang, linlin zhao, dan yi, zhaohui zhang, bailin cong. insights into the jsmonate signaling in basal land plant revealed by the multi-omics analysis of an antarctic moss pohlia nutans treated with opda. international journal of molecular sciences, 2022, 23(21), 13507. https://doi.org/10.3390/ijms232113507 (sci, 中科院二区, top)
[5] shenghao liu, shuo fang, chenlin liu, linlin zhao, bailin cong, zhaohui zhang*. transcriptomics integrated with metabolomics reveal the effects of uv-b radiation on flavonoid biosynthesis in antarctic moss. frontiers in plant science, 2021, 12:788377. https://doi.org/10.3389/fpls.2021.788377. (sci, if: 6.627, 中科院二区, top)
[6] shenghao liu, jing wang, kaoshan chen, zhaohui zhang*, pengying zhang*. the l-type lectin receptor-like kinase (pnlecrlk1) from the antarctic moss pohlia nutans enhances chilling-stress tolerance and abscisic acid sensitivity in arabidopsis. plant growth regulation, 2017, 81:409-418. https://doi.org/10.1007/s10725-016-0217-4. (sci, if: 3.242, 中科院三区)
[7] huijuan wang1, shenghao liu1, tailin wang, hongwei liu, xinhui xu, kaoshan chen, pengying zhang*. the moss flavone synthase i positively regulates the tolerance of plants to drought stress and uv-b radiation. plant science, 2020, 298: 110591. https://doi.org/10.1016/j.plantsci.2020.110591. (sci, if: 5.363, 中科院二区)
[8] chengcheng li1, shenghao liu1, wei zhang, kaoshan chen, pengying zhang*. transcriptional profiling and physiological analysis reveal the critical roles of ros-scavenging system in the antarctic moss pohlia nutans under ultraviolet-b radiation. plant physiology and biochemistry, 2019, 134:113-122. https://doi.org/10.1016/j.plaphy.2018.10.034. (sci, if: 5.437, 中科院二区)
[9] shuo fang, tingting li, pengying zhang, chenlin liu, bailin cong, shenghao liu*. integrated transcriptome and metabolome analyses reveal the adaptation of antarctic moss pohlia nutans to drought stress. frontiers in plant science, 2022. https://doi.org/10.3389/fpls.2022.924162. (sci, 中科院二区)
[10] shuo fang, bailin cong, linlin zhao, chenlin liu, zhaohui zhang, shenghao liu*. genome-wide analysis of long non-coding rnas related to uv-b radiation in the antarctic moss pohila nutans. international journal of molecular sciences.2023, 24(6), 5757. https://doi.org/10.3390/ijms24065757. (sci, 中科院二区)
[11] wei zhang, shenghao liu*, chengcheng li, pengying zhang, peiyu zhang. transcriptome sequencing of antarctic moss under salt stress emphasizes the important roles of the ros-scavenging system. gene, 2019, 696: 122-134. https://doi.org/10.1016/j.gene.2019.02.037. (sci, if: 3.913, 中科院三区)
[12] bailin cong, shuang li, shenghao liu, wenying mi, shengfa liu*, zhaohui zhang*, and zhiyong xie. source and distribution of emerging and legacy persistent organic pollutants in the basins of the eastern indian ocean. environmental science & technology, 2022, 56 (7), 4199-4209. https://doi.org/10.1021/acs.est.1c08743. (sci, if: 11.35, 中科院一区, top)
[13] linlin zhao, shenghao liu, shouqiang wang, tianyan yang, qi liu, tianxiang gao*. chromosomal assembly of the hexagrammos agrammus genome via third-generation dna sequencing and hi-c technology. frontiers in marine science, 2022. https://doi.org/10.3389/fmars.2022.923005. (sci, if: 5.247, 中科院二区, top)
[14] huijuan wang, shenghao liu, fenghua fan, qian yu, pengying zhang*. a moss 2-oxoglutarate/fe(ii)-dependent dioxygenases (2-odd) gene of flavonoids biosynthesis positively regulates plants anthocyanin accumulation and abiotic stress tolerance. frontiers in plant science, 2022, 13:850062. https://doi.org/10.3389/fpls.2022.850062. (sci, if: 6.627, 中科院二区, top)
[15] jing wang, shenghao liu, hongwei liu, kaoshan chen, pengying zhang*. pnsag1, an e3 ubiquitin ligase of the antarctic moss pohlia nutans, enhanced sensitivity to salt stress and aba. plant physiology and biochemistry, 2019, (141): 343-352. https://doi.org/10.1016/j.plaphy.2019.06.002. (sci, if: 5.437, 中科院二区).
[16] 刘胜浩,赵林林,刘玮,王波,张朝晖*. 基于初级生产力的海洋生物资源承载力评估−以日照近岸海域为例[j]. 海洋学报,2019,41(12):121-133.
[17] 刘胜浩、郝林华、赖敏、余云军、张朝晖、杨梦婵著,《海洋资源资产负债表与资源环境承载力研究》,河北科技出版社,2013.12.
主持项目
1. 国家重点研发计划项目子课题:深海多金属结核采矿环境影响修复功能微生物筛选与应用研究(2023yfc2811402),2024.01-2028.12。
2.中国-印尼深海生境调查研究能力建设合作项目:生物多样性保护研究(wj1424002),2024.1-2026.12。
3. 财政部海洋生态保护修复资金项目:烟台长岛区大黑山海域海藻场修复区生态状况评估(g-2022-017-3),2022.01-2022.12。
4. 国家自然科学基金面上项目:南极藓类植物中类黄酮合成途径的进化解析及其在植物抗逆中的作用(41976225),2020.01-2023.12。
5.国家自然科学基金面上项目:十八碳烷酸途径在南极苔藓(pohlia nutans)适应极端生态环境中的作用及其机理研究(41476174),2015.01-2018.12。
6.中央级公益性科研院所基本科研业务费:南极苔藓类黄酮代谢途径的系统进化分析及其在强紫外辐射环境中的作用(2019q05),2018.01-2020.12。
最新进展
1. 通过研究深海微生物的环境适应机制、微生物群落生态与功能的维持机制,研发深海采矿生态修复微生物的高效筛选技术,定向筛选矿区中具有修复环境污染功能的微生物菌株,发展深海采矿环境的高效修复关键技术。
2. 基于公共数据库和生态模型,构建生物多样性分布图集,结合系统保护规划方法,开展世界大洋的生物地理区域划分和濒危物种的保护空缺分析。
3. 海洋船舶噪声、重金属、新型有机污染物等对生物及栖息地的环境影响评估。