共和盆地开额泥炭剖面粒度敏感组分提取与全新世气候环境变化

采用粒级-标准偏差方法对青藏高原东北部共和盆地全新世KE(开额)泥炭沉积剖面进行了系统的分析,发现63～252μm(63～112和112～252μm)的粒度敏感组分可以作为区域冬季风强度变化的替代性指标,并据此重建了全新世共和盆地冬季风演化历史。结果表明:10.0～8.5cal.kaBP冬季风逐渐减弱,8.5～7.1cal.kaBP冬季风明显增强,7.1～3.8cal.kaBP冬季风强度最低,3.8～0.5cal.kaBP冬季风波动式增强,0.5cal.kaBP以来冬季风强度迅速降低;对比研究发现,区域冬季风演变历史与青藏高原和中国东部季风区及季风边缘区不同研究载体记录的气候变化过程具有良好的可比性。同时,发现区域全新世7次明显的冬季风增强时期与极地冰心和北大西洋深海沉积记录的寒冷事件具有明显的一致性,可能说明区域气候变化与全球气候变化在动力机制上有着内在的联系。

溴苯腈含量的气相色谱分析

采用气相色谱法，以 ＯＶ—１０１为固定液，正十五烷为内标测定溴苯腈含量，方法标准偏差为０．２７，变异系数０．２９％，平均回收率为１００．０６％，相关系数为０．９９９５。

Optimization of Sample Pretreatment for Determination of Polycyclic Aromatic Hydrocarbons in Estuarine Sediments by Gas Chromatography

This study examined levels of polycyclic aromatic hydrocarbons (PAHs) in estuarine sediments in Licun (Qingdao, China) by gas chromatography under optimized conditions for sample pretreatment via ultrasonic extraction, column chromatography, and thin layer chromatography. Methanol and dichloromethane (DCM)/methanol (2:1, v/v) were used in ultrasonic extraction, and DCM was used as eluate for column chromatography. The developing system consisted of n-hexane and DCM at a ratio of 9:1 (v/v), with DCM as the extraction solvent for PAHs-containing silica gel scraped off the plate. When the spiking level is 100 ng, total recoveries of spiked matrices for four target PAHs (phenanthrene, anthracene, pyrene and chrysene) were 83.7%, 76.4%, 85.8%, and 88.7%, respectively, with relative standard deviation (RSD) between 5.0% and 6.5% (n = 4). When the spiking level is 1000 ng, associated total recoveries were 78.6%, 72.7%, 82.7% and 85.3%, respectively, with RSD between 4.4% and 5.3% (n = 4). The opti-mized method was advantageous for determination of PAHs in complex matrix due to its effective sample purification.

中晚全新世泰国湾Chanthaburi海岸Welu河口区沉积物的敏感粒级组分及其对季风气候变化的指示意义

对泰国湾Chanthaburi海岸Welu河口区三根沉积物柱样(WLE08、WLE10和WLE12)进行了210Pb测年分析、AMS14C测年分析和粒度分析。粒度分析结果表明,研究区三根柱样的沉积物类型均属于粘土质粉砂,包含部分贝壳及生物碎屑,分选差,呈正偏态,属于中晚全新世以来形成的沉积物。通过粒级-标准偏差方法对沉积物敏感粒级进行提取,每根柱样各获得两个敏感粒级,分别为S_(A1)和S_(A2)、S_(B1)和S_(B2)以及S_(C1)和S_(C2)。将S_(A2)/S_(A1)、S_(B2)/S_(B1)以及S_(C2)/S_(C1)作为中晚全新世以来亚洲夏季风相对强度变化的替代指标,比值升高可以指示夏季风强度增强,反之则减弱。结合测年结果得出研究区的亚洲夏季风自中晚全新世以来经历了强盛-减弱-增强-减弱-稳定-波动的过程。其中,8.5~6.5 cal.ka BP期间S_(C2)/S_(C1)值较高,表明该时期处于亚洲夏季风强盛期,6.5~3 cal.ka BP期间S_(B2)/S_(B1)值较低且变化较小,表明该时期亚洲夏季风处于较弱的稳定期,而1.5 cal.ka BP以来S_(A2)/S_(A1)值有升高趋势表明亚洲夏季风在这一时期有所增强。此外,在8.2 cal.ka BP期间敏感粒级S_(C2)/S_(C1)值急剧下降,表明夏季风存在一次较大的衰弱期,响应了8.2 cal.ka BP全球范围的气候突变事件,这与阿曼石笋和董歌洞石笋δ^(18)O记录所显示的结果相一致,体现了气候变化具有区域性乃至全球性的联系。