 3 H; k. |3 C7 F
海洋有机地球化学实验室II
8 ` k L9 q! Y& C 1
( w4 ], h# |* \/ _ W7 E 课题组负责人及老师介绍: / S. a5 H* b; |' i, C/ U
李先国 教授,博士生导师 ' `5 i0 ?& G) G! C' u4 Y* Q
1  2 _# F+ _2 G; e& N
冯丽娟教授,硕士生导师
& P1 t |/ x2 _& [ 2  ; e$ U+ |# x# S8 u( f! j
张大海 副教授,硕士生导师
: ~4 @) \% A* a1 k+ q 3  t E+ f$ ~3 s; I
姚硕 讲师 0 c# R9 `( k5 s+ `% D! d5 L
4  
) }" Y6 p& S6 a* O! Y: x: h8 @& u 2 8 D. A4 W. _ `
课题组研究领域与方向
8 O+ j2 `* d- n' C 目前课题组主要开展四个方向的研究,分别是: 9 t/ g5 Y; v" I1 N/ C# W
(一)、陆源有机物及其沉积记录:以木质素、正构烷烃、脂质等为特征生物标志物,研究其在海洋中的沉积记录及其环境地球化学意义。
0 u7 ?7 D2 K# x, d( P3 f (二)、现代有机污染物及其转化机理:通过实验室模拟实验中降解中间产物或/和代谢产物的分析、稳定同位素分馏效应的测定以及理论计算,与现场测定结果相结合,研究典型有机污染物在环境中的来源、分布及其光降解和生物降解机理,结合定量构效关系研究,评价其生态风险。目前已经开展的污染物研究包括多环芳烃(PAH)、多氯联苯(PCB)、多溴联苯醚(PBDE)、德克隆(DP)、塑化剂(PAES)、烷基酚(NP和OP)、微塑料(MP)等。 7 _% J7 ^* u9 |* g
(三):海洋资源化学:通过分析海洋来源物质的成分、结构,确定其可能的生物能量来源,判别其使用价值,尤其是潜在价值。通过各种化学方法或手段转化为可持续资源、能源,如浒苔液化、镁盐晶须、人工海水等。针对当前环境氮、硫污染问题,从源头出发,开展气体、液体的除氮、脱硫工艺研究。 ' O$ s4 R4 ?, F5 b
(四)、微生物化学:通过分析海洋来源微生物群落结构、功能基因、次级代谢产物以及中间产物来探索小分子活性物质的生物合成途径、机理,进一步确定元素迁移路径和能量的转化方式,同时探索发现活性天然产物。通过特殊环境来源微生物的驯化,探索微生物在污染物的去除、降解方面的应用。 0 l/ T3 x. j/ x$ C
3
3 U( V6 V8 S) m: B( } 课题组重要成果
4 B2 {) a" G3 h& C0 s 1)Chanjuan Li, Dahai Zhang, Jialin Peng, Xianguo Li*.The effect of pH, nitrate, iron (III) and bicarbonate on photodegradation of oxytetracycline in aqueous solution. Journal of Photochemistry and Photobiology A: Chemistry, 2018, 356: 239–247.
$ x- T% n! [: P 2)Yanxia Lin, Wei Deng*, Shengyong Li, Jiafu Li, Guoguang Wang, Dahai Zhang, Xianguo Li*. Congener profile, distribution, sources and ecological risk of parent and alkyl-PAHs in surface sediments of Southern Yellow Sea, China. Science of the Total Environment, 2017, 580: 1309–1317. 8 R" h0 ~# A( N# e3 |! n4 d
3)Guoguang Wang, Jialin Peng, Ting Hao, Yao Liu, Dahai Zhang, Xianguo Li*. Distribution and region-specific sources of Dechlorane Plus in marine sediments from the coastal East China Sea. Science of the Total Environment, 2016, 573: 389–396.
7 ?% r% u' N h2 ~6 {# F( } 4)Guoguang Wang, Jialin Peng, Dahai Zhang, Xianguo Li*. Characterizing distributions, composition profiles, sources and potential health risk of polybrominated diphenyl ethers (PBDEs) in the coastal sediments from East China Sea. Environmental Pollution, 2016, 213: 468-481.
3 @% i$ M2 z! c* k: z$ l 5)Guoguang Wang, Jialin Peng, Xiang Xu, Dahai Zhang, Xianguo Li*. Polybrominated diphenyl ethers in sediments from the Southern Yellow Sea: Concentration, composition profile, source identification and mass inventory. Chemosphere, 2016, 144: 2097-2105. 1 }' z1 S+ j( [
6)Jiafu Li, Han Dong, Xiang Xu, Bin Han, Xianguo Li*, Chenjian Zhu, Chen Han, Shaopeng Liu, Dandan Yang, Qian Xu, Dahai Zhang*. Prediction of the bioaccumulation of PAHs in surface sediments of Bohai Sea, China and quantitative assessment of the related toxicity and health risk to humans. Marine Pollution Bulletin, 2016, 104: 92-100. 2 T# ^* d. A5 S8 n7 ~+ t
7)Jialin Peng, Guoguang Wang, Dahai Zhang, Dongmei Zhang, Xianguo Li*. Photodegradation of nonylphenol in aqueous solution by simulated solar UV-irradiation: The comprehensive effect of nitrate, ferric ion and bicarbonate. Journal of Photochemistry and Photobiology A: Chemistry, 2016, 326: 9–15. " T- a0 E. f" F! Y# O% P
8)Yan Zhang, Ying Liu, Han Dong, Xianguo Li, Dahai Zhang*. The nonylphenol biodegradation study by estuary sediment-derived fungus Penicillium simplicissimum. Environmental Science and Pollution Research, 2016, 23(15): 15122–15132.
' L5 {. c9 L& @, f1 w 4
6 I5 P* W0 P3 n5 Q. l. ` 课题组照片   
) [& x9 {& |; A5 N* I) x: l6 f+ b 编辑丨王林项
( N/ |' _. o' N! M* K# A: \* b 审核丨所芳屹
: x4 x# f- ]( m. g 长按二维码关注我们 Z8 R3 S- N( G
U. Q4 O% N! Q& W
3 O& C2 h$ D0 e- I; }6 n | 
