Production of dimethylsulfide and acrylic acid from dimethylsulfoniopropionate during growth of three marine microalgae     

刘春颖  高彩霞  张海波  陈烁  邓平  岳新安  郭肖依 《中国海洋湖沼学报》2014,32(6):1270-1279

We measured the concentrations of dimethylsulfide （DMS）, acrylic acid （AA）, and dimethylsulfoniopropionate （DMSP） during growth of three microalgae： Prorocentrum micans, Gephyrocapsa oceanica, and Platymonas subcordiformis. The DMSP, AA, and DMS concentrations in culture media varied significantly among algal growth stages, with the highest concentrations in the late stationary growth stage or the senescent stage. In the stationary growth stage, the average DMSP concentration per cell in P. micans （0.066 5 pmol/cell） was 1.3 times that in G. oceanica （0.049 5 pmol/ cell） and 20.2 times that in P. subcordiformis （0.003 29 pmol/cell）. The average concentrations of AA were 0.044 6, 0.026 9, and 0.003 05 pmol/cell in P. micans, G. oceanica, and P. subcordiformis, respectively, higher than the concentrations of DMS （0.272, 0.497, and 0.086 2 fmol/cell, respectively）. There were significant positive correlations between cell density and AA, DMSP, and DMS concentrations. The ratios of DMS/AA and AA/（DMSP＋AA） in the three algae differed significantly over the growth cycle. In all three microalgae, the DMS/AA ratios were less than 25% during the growth period, suggesting that the enzymatic cleavage pathway, which generates DMS, was not the main DMSP degradation pathway. The changes in the DMS/AA ratio indicated that there was a higher rate of enzymatic breakdown of DMSP in the early growth period and a lower rate during senescence. In all three microalgae, the AA/（DMSP＋AA） ratio （degradation ratio of DMSP） decreased during the exponential growth phase, and then increased. The variations in these ratios can approximately indicate the cleavage mechanism of DMSP at different stages of algal growth.  相似文献   

雅浦海沟沉积物的生物地球化学特征及其海洋学意义     

岳新安  闫艺心  丁海兵  孙承君  杨桂朋 《中国海洋大学学报(自然科学版)》2018,(3)

通过对雅浦海沟4 500和6 500m两个深度的柱状沉积物的含水率、总有机碳和多种地球化学元素含量的测定,总结分析了这些参数的垂向变化规律,采用元素比值法追溯沉积物的物质来源和氧化还原环境变化,并结合扫描电镜确定了沉积物中的生物化石组成,探讨了化石分布特征与地形结构、深海环流及板块运动之间的关系。结果表明,位于碳酸盐补偿深度以上的4 500m深度深渊沉积物自上而下由含硅质黏土逐渐向钙质软泥过渡,其中的沉积断层可能与深海环流或滑坡有关;位于碳酸盐补偿深度之下的6 500m深度超深渊沉积物属于硅质软泥,可能是重力流导致的表层沉积物堆积,这种沉积作用有利于有机碳的埋藏。该区域沉积物主要来自海洋生物源、陆源和火山源;底层流属于氧化环境,可能有南极底层水的流入。第四纪以来,雅浦海沟应无大规模火山喷发,而海沟东侧的卡罗琳海岭由于板块俯冲作用在不断下沉。  相似文献   

雅浦海沟北部深渊和超深渊沉积物的物质组成、来源和形成过程研究     

郑成  孙承君  金红  黄玉环  岳新安  杨桂朋  丁海兵 《地学前缘》2022,29(5):73-87

为探究雅浦海沟北部深渊、超深渊沉积物的组成、来源和形成特征,以1 cm分层对采自该海域不同深度的五根柱状沉积物样品的0~8 cm沉积层进行了扫描电子显微镜(SEM)观察和X射线能谱(EDS)分析,并且分析了这些样品的含水率,锰结核含量, Al、Ca、Fe、Mn、Ti、Mg等6种常量金属和Ba、Co、Cr、Ni、Pb、Sr、V、Cu、Zn等9种微量金属元素含量,以及总有机碳(TOC)含量等参数。结果表明,研究区域沉积物主要为深海软泥沉积,是不同年代沉积物的复杂混合,包含以盘星石为代表的颗石藻、海绵骨针、放射虫和硅藻等多种微体古生物化石以及辉石、重晶石、钛铁矿、长石等多种矿物。沉积组分主要来自生物源、火山源、陆源和海底热液,其中陆源沉积出现于海沟东侧深渊区。海沟西侧崖壁的沉积物比东侧崖壁的沉积物更容易发育锰结核。研究区域沉积物含水率较高并且颗粒较大,其含水率随深度增加呈减少趋势。研究区域超深渊站位沉积物的TOC和微体古生物化石含量均高于深渊站位,存在明显的漏斗效应。整体上海沟西侧崖壁沉积物含水率和TOC含量低于东侧崖壁的沉积物。自更新世以来,雅浦海沟北部的碳酸钙补偿深度(CCD)线从4 568 m以深变为4 435 m至4 568 m之间。研究区域的沉积环境为氧化环境,其0~8 cm沉积层的古老沉积物与现代沉积物发生了混合和再沉积作用,形成年代跨度极大。研究区域沉积物的形成受到海沟坡度、水动力环境、重力滑塌、浊流沉积、火山活动、漏斗效应等多种因素的显著影响。  相似文献