鄂西地区早期人类和巨猿生存环境研究

本文重点研究了湖北建始高坪龙骨洞早期人类和巨猿生存时期的气候和环境。通过孢粉、氧化物、磁化率、哺乳动物化石研究表明,高坪地区在早更新世早期气候比较温暖湿润,但存在较大幅度的波动,植被为针叶-阔叶混交林。古人类生存时的气温比现今高,但降雨量比现今少,而且在1.95~2.14MaBP和2.15MaBP发生两次比较明显的降温事件,降温幅度可达5~9℃。     

中更新世气候转型时期南海生态环境的南北差异

中更新世气候转型在南海浮游有孔虫、氧同位素和其它生物记录上主要反映在900 ka BP前后发生高频率变化,特别是指示表层水骤然降温。北部冬季表层水温从24~25℃降至17~28℃,而南部也从26~27℃降至23~24℃。总的降温趋势与开放西太平洋一致,直接反映了西太平洋暖池在900 ka BP之后MIS22期间有明显的减弱。表层水大幅度降温还发生在后继的MIS 20、18、16几大冰期,说明主要冰期旋回周期由41 ka转变为100 ka经历了长达400 ka的过渡时期,并且冬季风增强也在过渡时期的后半段最明显。南海南北生物组合和δ18O值的差异,突出了中更新世气候转型期边缘海区南北气候梯度反差和冬季风在冰期增强的讯号。结论是：生态环境系统反应总体表现与冰期旋回一致的同时,还包含了独特的地区性系统演变特征。但是,南海—西太平洋地区在0.9 Ma BP前后表层海水盐度因东亚冬季风和海平面下降的定量变化,以及这些变化对气候转型时期海—气耦合过程和生态环境系统的影响,尚缺乏足够的资料和证据。     

青藏高原多期次隆升的环境效应

青藏高原隆升对中国西部环境变迁起着决定性影响。通过对柴达木、吐鲁番—哈密、塔里木盆地的演化及其与青藏高原隆升的耦合研究,以柴达木盆地为时空坐标,认为高原隆升可分为三大阶段:(1)古近纪期间青藏高原隆升仅限于冈底斯山一带。当时,受行星纬向气候带控制,中国西北地区为干旱亚热带草原和热带雨林环境,大面积准平原化、泛盆地化,在构造上处于伸展-夷平的拉张环境,与现今亚洲大陆东部相似;(2)青藏高原整体的初次隆升发生在中新世早—中期(23~11·7Ma)。因青藏高原和大兴安岭的阻隔,古近纪的纬向气候带逐渐转变为中亚季候风,古黄土(22Ma)、三趾马动物群的发育,说明高原北缘当时为干旱的荒漠草原环境。同时,这次隆升引起中—晚中新世中国西部广袤地域古地形-构造面貌的变化;(3)形成现今高原面貌的末次快速隆升发生在0·9~0·8Ma。早更新世晚期,印度洋快速扩张,印度板块向中亚大陆脉冲式(A型)陆内俯冲,使得高原快速挤压隆升。这次隆升不仅使高原本身的环境骤变,出现第四纪以来最大的冰川,形成世界上最大的高寒草原,而且引起了全球气候的变化,促使北极圈冰盖的形成。同时,高原隆升使高原内部和周边出现强烈的挤压构造变形,如柴达木、河西走廊、塔里木、吐鲁番—哈密、准噶尔等诸盆地内几万米厚度中—新生界的构造变形与昆仑山、祁连山、天山、阿尔泰山的挤出式双向推覆隆升,形成了中国西北的盆-山地貌。现今,随着青藏高原的持续隆升,高寒草原开始退化,造成中国西北地区大面积的荒漠化,成为制约我国西部生态环境的重要因素。     

南京汤山驼子洞洞穴堆积及其意义

通过对南京汤山驼子洞洞穴堆积观察描述和样品分析测试,结合前人研究成果和汤山地区地质地貌演化的历史,讨论了驼子洞堆积的时代、堆积过程和方式,并对其蕴含的构造、地貌、气候和生物进化等古环境信息进行了合理的挖掘。初步研究表明驼子洞堆积可能是跨早更新世与中更新世早期的地层,其上部含哺乳动物化石的堆积可能反映了偏暖的气候环境。     

黄河口现代海洋沉积高分辨率地震地层学研究

本文运用地震地层学的知识,结合KDG2和S3钻孔资料,对2002年得到的现代黄河口地区的浅地层地震剖面进行了分析解释,共划分出中更新世以来11个地震地层单元,对每个地震地层单元进行了地震相的有关描述,对剖面上出现的地质现象给予了合理推测和详细分析,并结合相邻的钻孔资料,与全球冰期进行对比,构筑了黄河口地区晚第四纪以来地层的沉积模式。     

吉林大椅子山火山年代学、地球化学特征及其排气量的估算

利用铀系组分法测得龙岗大椅子山火山喷发时间为距今71±9ka,属于晚更新世。各类喷发物的岩石化学、地球化学特征表明 ,它们形成于同一岩浆源。根据岩石学方法 ,结合Thordarson(1996)等人的排气模型 ,估算此次喷发向大气层输送的HCl、HF总量分别为7.36Mt和5.21Mt。     

pT-effects of Pleistocene glacial periods on permafrost,gas hydrate stability zones and reservoir of the Mittelplate oil field,northern Germany

During the past two million years low surface temperatures as well as episodically advancing ice sheets from Scandinavia acted on the subsurface pT-regime of northern Germany. Their likely effects on the petroleum system of Schleswig-Holstein were investigated. For the entire Quaternary mean annual ground temperature (MAGT) was reconstructed at a resolution of 1000 years by calibrating oxygen isotope records from ODP-site 659 to the climate of northern Germany of the past 120 kyr. The resulting MAGT trend served as input to an ice sheet model and a permafrost model along a 2D section crossing the petroleum bearing south-western part of Schleswig-Holstein. Here advances and retreats of the Scandinavian ice sheet during Saalian and Elsterian glaciation Stages were reconstructed. Maximum ice thicknesses of up to 1700 m and up to 20 periods of regional permafrost in northern Germany were reconstructed for the past 1.25 million years. Based on a basal heat flow of 50 mW/m² permafrost thicknesses exceeded 100 m during most of these periods, temporarily extending down to depths of more than 300 m. Favourable surface temperatures and long durations of cold periods provided favourable conditions for onshore gas hydrate stability zones at Mittelplate. Implementing these glacial dynamics into 2D basin modelling (PetroMod, IES, Aachen, Germany) of the Mittelplate oil field reveals five phases of gas hydrate stability at depths down to 750 m. The latest of these events occurred during the Weichselian about 20 kyr ago. The effect of the ice sheets on pore pressure in the subsurface strongly depends on the hydraulic boundary conditions at the ice base (e.g. frozen vs. temperate ice sheet base). Excess pore pressure in the reservoir of more than 10 MPa during ice overriding is possible and probable. The calculated temperature effect of the Pleistocene cooling on the Mittelplate reservoir is in the range of 3–7 °C. Even today temperature in the reservoir is still lowered by about 4 °C in comparison to pre-Pleistocene times. Despite the fact that a significant influence of glacial effects on petroleum generation can be ruled out at Mittelplate, we state that pT-effects in reservoirs related to glacial processes in formerly glaciated areas have been underestimated in the past.     

ENVIRONMENTAL CHANGES SINCE LATE PLEISTOCENE IN ESTUARINE PLAIN OF JIULONG RIVER, FUJIAN PROVINCE

TheestuarineplainoftheJiulongRiver,whichisthesecondlargestrivernexttotheMinjiangRiverinFujianPrc)vince,intervenesbetweenXi~enandZhangzhoucitiesinthesouthoftheprovince.'I'heplainconsistsofthreeparts:thenorthernplain,thesouthernPlainandZiniIsles.Withsoutllcrn--Subtr<)picoceanicm(>nasexinclimate,itdevelol>saregionalvegetationtypeofeveTgreen13r(Jad--lcav(3dfores[,ofwhicll,however,mosthasbeendestroyedbyhumanbeing.Nowaday-s.shruborgrasslandvegetationcanbeseenonthehillsintheviciTlily'ofthisarea…     

Abrupt uplift of Tibetan Plateau a t the end of early Pleistocene and Australasian impact event

The latest sharp uplift of the Tibetan Plateau and adjacent mountains occurred at the end of the early Pleistocene. The uplift of the Plateau resulted from Late Mesozoic－Cenozoic comp ressional structure due to the subduction of the Indian Plate beneath the Asian continent. This event definitively effected the formation of basin-mountain relief, Cenozoic basin deformation, large scale aridity and desertification of western China. The Australasian meteorites impact event happened ca. 0.8 Ma ago, located in the triangle area of the Indian Ocean ridge (20°S/67°E) . The impact may have resulted in an acceleration of speeding of the Indian Ocean ridge pushing the Indian Plate to subduct rapidly northward. Thus, the impact event can give reasonable explanation for the dynamic background of the latest rapid uplift of the Tibetan Plateau and the continental deformation of western China and even of the Middle Asia.