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国家自然科学基金(41006072)

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海水溶解磷酸盐氧同位素组成的测定
生物磷酸盐和水分子间的氧同位素分馏主要受温度和生物活动控制,因此磷酸盐氧同位素组成既可以测量古温度又可以示踪磷循环。近年来磷酸盐氧同位素研究受到较多关注,除了传统的生物体磷灰石古温度测量外,这些研究大多是关于磷循环的。磷...
卢阳阳郑珍珍尹希杰陈志刚蔡毅华刘广山黄奕普
关键词:氧同位素
南日群岛东部海域岩芯沉积物有机碳含量和δ^(13)C_(TOC)值的变化特征及古气候环境意义被引量:2
2014年
2008年在南日群岛东部海域用钻机采集长度为1 004 cm的岩芯样品,测试沉积物中总有机碳(TOC)含量、稳定碳同位素比值(δ13CTOC)、碳氮比值(C/N)、碳酸盐含量以及14C数据,分析其垂直剖面上的变化特征,阐明其沉积环境和古气候的指示意义.沉积物TOC含量变化范围为0.44%~0.74%,垂直剖面上总体显示出末次冰期和全新世中期TOC含量较高,全新世早期相对稳定,而全新世中后期TOC波动范围明显增大.C/N值在5.3~14.9之间变化,平均值为8.1;δ13CTOC值范围为-23.07‰^-21.04‰,表明沉积物中的有机质以海洋自生为主,同时混有部分陆源有机质.碳酸盐含量在3.3%~10.9%之间.TOC含量、C/N比值、δ13CTOC值在岩芯垂直剖面上具有很好的相关性.14C测年数据以及各要素测值在垂直剖面上的变化特征表明:自11 250 aBP以来该海域附近古气候有可能经历了以下4个演化阶段:①11 500~9 000 aBP期间气候寒冷、海平面下降,采样点可能为浅水区或潮间带;②9 000~8 000 aBP期间为升温期,气候由寒冷转向温暖;③8 000~4 300 aBP期间,为相对稳定的暖湿期,在后期气候出现小幅的波动;④4 300 aBP至今,气候进入明显的周期性波动期,暖湿和干冷气候多次交替变化;4 300~3 000 aBP期间为相对寒冷的时期;3 000~1 800 aBP期间为较稳定温暖期,1 800~1 000 aBP期间气温快速降低,标志着研究区进入一个新的寒冷阶段,但是自1 000 aBP以来,气候又再次出现转暖的趋势.
尹希杰许江赵绍华邵长伟
关键词:海洋地质学古气候
Growth model of a hydrothermal low-temperature Si-rich chimney:Example from the CDE hydrothermal field,Lau Basin被引量:4
2012年
The CDE hydrothermal field was first discovered during a Chinese cruise to the East Lau Basin Spreading Centre in 2007. Apart from significant amounts of loose Fe-Si-Mn (oxyhydr) oxide (referred to as oxide below) precipitates, a small Si-rich oxide chimney was also recovered on this cruise. In this study, we report on the mineralogical and geochemical analyses of this chimney and a model for its growth that has been developed. Based on the mineralogy and O isotope results, the chimney walls can be divided into four growth generations (layers) from the inner to the outer layers: amorphous opal and barite layer (pre- cipitation temperature 68.5℃ based on oxygen isotope determinations), a rod-like amorphous layer (precipitation temperature 39.6℃), a filamentous Fe-Si oxide layer, and an outer Fe-Mn oxide layer. Investigations based on SEM and EDS showed that neutrophilic Fe-oxidizing bacteria play an important role in the formation of this chimney, particularly in the outer two genera- tions. In the first stage, the metabolic activity of the microbes results in the pervasive precipitation of the filamentous Fe-rich oxides inside a ring formed by some amorphous opal and barite; therefore, a loose porous layer forms. In the second stage, amorphous opal then precipitates inside this wall as a result of conductive cooling and gradually controls the mixing between the hydrothermal fluids and ambient seawaters. In the third stage, barite and some amorphous opal form from the higher tem- perature fluids at the summit of the chimney growth history. In the last stage, the chimney wall becomes thicker and denser and the exchange of hydrothermal fluids and seawater ceases. As a result, a Fe-Mn oxide layer precipitates onto the outer surface of the chimney wall as neutrophilic Fe-oxidizing bacteria reoccupy the surface of the chimney. This mineral sequence and the resultant growth generations are confirmed by the chemical characteristics of the chimney wall. Sr isotopes extracted from the Fe oxides of
SUN ZhiLeiZHOU HuaiYangYANG QunHuiYIN XiJieWANG HuYAO HuiQiangDONG CongFang
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