西藏岗巴古新世地层及构造作用的影响

西藏岗巴地区出露有完整的晚白垩世至古近纪地层，地层中化石丰富，根据化石研究准确地进行了地层时代的划分，本文认为该区白垩系－古代系界线位于宗山组和基堵拉组之间，以底栖有大孔虫Orbitoides-Omphalocyclus动物群的消亡和Rotalia-Smoutina-Lockhartia动物群的始现为标志。界线上下岩层为假整合接触，期间有一短暂的暴露面。古新世的砂砾岩直接覆于晚白晋世的陆棚碳酸盐岩沉积之上，沉积的重大转变代表一次构造运动，印度大陆北缘与冈底斯南缘直至白垩纪末均具有明显的浅海生物地理分区现象，期间被深海盆地地所阻隔。古新世开始浅海相动物群在该地显示同一生物地理区系特征，说明两大陆间深水盆地的阻隔已消失，南北生物地理区同归于一残留海盆，沉积类型转变和地层古生物特征为印度－亚洲板块的起始碰撞时间研究提供了基础资料，据此推测大陆早期碰撞发生在白晋系－古近系的界线时期（约65Ma)，古新世中一晚期碳酸盐台地遭受不断的挤压与变形，进一步说明大陆的碰撞在古新世之初就已发生。沉积地层的破碎变形和滑塌堆积是持续碰撞与挤压的结果。     

高分辨率碳氧同位素应用及西藏岗巴地区白垩纪中期Cenomanian-Turonian期碳同位素偏移

介绍了高分辨率碳氧同位素的应用成果;指出半远洋、远洋碳酸盐全岩高分辨率碳同位素高值正偏可作为甄别大洋缺氧事件的指示剂和分析古气候变化的指针,碳同位素偏移型式可为长期海平面变化和短期海平面波动提供参照对比的依据。西藏南部岗巴地区的高分辨率偏移曲线显示,碳同位素Cenomanian Tu ronian界线时期的正偏幅度达2.90‰,Turonian期长期持续负偏,并在M. sigali带中、下部呈现两个负偏凹陷区。这表明,该区白垩纪中期Cenomanian Turonian期存在可以在特提斯甚至全球类比的碳同位素变化趋势,表现为Cenomanian Turonian界线时期的缺氧事件、Turonian期的长期海平面下降趋势和Turonian晚期短暂气候变冷的响应。     

西藏岗巴晚白垩世—古近纪早期锶同位素地层

在地质历史时期中,海相碳酸盐的锶同位素组成具有全球基本一致的演化规律,并且海水锶同位素组成受锶的来源控制,其比值与海平面的变化有内在的联系。西藏岗巴地区晚白垩世—古近纪早期地层发育良好,笔者对宗山、宗浦两个剖面中未经蚀变的26个海相碳酸盐样品进行锶同位素测试,根据得出的数据绘制演化曲线与全球锶同位素曲线有较好的可对比性。曲线的负偏极值与地层界线较为一致,宗山剖面曲线的负向峰值（0.707612）与上/下白垩统界线相对应,宗浦剖面中,锶同位素曲线的负偏值（0.707761）与古新统/始新统界线相对应,晚白垩世—古近纪锶同位素演化曲线也与海平面变化相一致。另外,还讨论了岗巴地区锶同位素变化的原因。     

西藏岗巴晚白垩世有孔虫动物群与海平面变化

西藏南部岗巴地区上白垩统的有孔虫动物群十分丰富，经鉴定共有52属130种。根据岩性，该地区上白垩统可以划分出三个最基本的岩石地层单位：冷青热组、岗巴村口组及宗山组。依据其中有孔虫的形态结构、生态环境、系统演化及地史分布等特征，可以划分出五个主要的有孔虫动物群，Rotalipora动物群，Whiteinella-Helvetoglobotruncana动物群，Dicarinella-Marginotruncana动物群，Globotruncana-Globotuncanita动物群及Orbitoides-Omphalocyclus动物群。这五个有孔虫动物在晚白垩世相继绝灭，其绝灭与古水深有着十分密切的关系，主要是受海平面变化的影响。     

对西藏岗巴上白垩统的新认识

在前人研究的基础上对岗巴地区上白垩统的划分做了厘定 ,进一步建立了晚白垩世的 1 2个浮游有孔虫化石带。根据岩性特征及化石带的研究 ,上白垩统被划分为赛诺曼期至土仑早期的冷青热组 ;土仑中期至三冬期的岗巴村口组和康潘期至马斯特里赫特期的宗山组。该区赛诺曼期与土仑期的界线位于冷青热组上部 ,以 H elvetoglobotruncana praehelvetica的初现为标志。     

古新世/始新世全球增温在西藏岗巴地区的表现

随着深海钻探计划(DSDP)和大洋钻探计划(ODP)的开展,在古海洋学领域取得了许多重大发现。古近纪古新世与始新世(P/E)界线间的地质事件的发现便是其重要成果之一。西藏南部岗巴地区发育有良好的海相界线地层。对生物群、碳、氧、锶稳定同位素以及磁化率的研究显示,全球界线事件在西藏南部岗巴地区具有明显的影响。古新统宗浦组顶部底栖有孔虫动物群阶段性绝灭,总灭绝率为69%。始新统遮普惹组底部有孔虫逐渐复苏,除12种为古新世的残存类型外,始新世生物组合全为新的属种,并呈现三个复苏阶段。碳稳定同位素表现为三期负向偏移,在界线处出现-4‰的异常。这一异常与全球碳稳定同位素事件表现一致。锶同位素在界线位置没有明显的变化,而明显的峰值出现在界线之上,并与全球53Ma出现的锶同位素变化相对应。磁化率在界线之上2m处出现一个很明显的波动,与第3期碳同位素异常吻合。所有研究结果表明,西藏南部(特提斯-喜马拉雅低纬度浅海环境)在古新世与始新世界线时期出现明显的气候变化,说明全球深海温度增高在浅海环境具有相同表现,只是影响时间较长。     

Permits to burn: weeds,slow violence,and the extractive future of northern Australia

ABSTRACT

This essay narrates the ‘slow violence’, or creeping environmental harms taking place within contemporary environmental governance. It centres on a tall, dense and highly flammable introduced pasture species Gamba grass (Andropogon gayanus), which was listed as a weed across north Australian jurisdictions in 2008. Since this time, it has continued to expand its reach across the Northern Territory (NT). With a potential invasion range of over 380,000?sqkm², this grass is a serious threat to many more-than-human worlds in the north, including Indigenous-led and Indigenous-owned environmental service economies and multimillion-dollar projects engaged in savanna fire management for carbon credits. Drawing upon fieldwork and interviews with a range of public servants, landholders and researchers in the NT between 2015 and 2018, this essay demonstrates how environmental governance is being undermined through specific institutions and practices. Through an ethnographic reading of weed management documents, including several legal permits to grow Gamba grass within the NT’s ‘eradication zone’, this essay narrates the diverse threads of a pressing ‘slow’ disaster. The unfolding story of Gamba grass, we suggest, is instructive for those seeking to understand the present and future of resource extraction or ‘extractivism’ in Australia and elsewhere.     

Cretaceous and Tertiary of the Iullemmeden Basin in Nigeria (West Africa)

The Iullemmeden Basin (Mali-Niger-Benin-Nigeria) of tectono-epeirogenic origin was invaded several times by epicontinental transgressions during the Cretaceous and Paleocene.Three major subdivisions are recognized in the Nigerian section of the basin (the “Sokoto Basin”): (1) the lower, continental beds (= Continental Intercalaire) of Late Jurassic to Early Cretaceous age, (2) intermediate marine and brackish water deposits and (3) “Continental T Terminal” of upper Eocene-Miocene age.The geology of the Iullemmeden Basin is reviewed and updated. The relationships between the “Continental Intercalaire” of francophone authors and the Illo and Gundumi Formations are analysed and the type sections of the latter described. It is suggested that the Illo and Gundumi Formations are lateral equivalents.Detailed information on the formations of the Maastrichtian Rima Group is presented. It is concluded that there is no age difference of consequence between the Paleocene Dange, Kalambaina and Gamba Formations.The epicontinental transgressions are interpreted as coming from the north-east, east of the Hoggar massif during the Cenomanian and Turonian and west of the Hoggar during the Maastrichtian and Paleocene. The Sokoto Paleocene molluscan fauna is considered to be terminal Paleocene to Eocene and somewhat younger than the Ewekoro association of coastal Nigeria.A new interpretation of the Continental Terminal is presented. The structural history of the Sokoto Basin is reviewed and partly re-interpreted in the light of new field evidence.     

藏南岗巴地区上白垩统海相碳酸盐岩碳稳定同位素研究

本文对藏南岗巴地区上白垩统海相碳酸盐岩的碳稳定同位素组成特征及变化趋势进行了研究，对比分析了藏南其它地区及欧洲同时代地层，认为岗巴地层的碳稳定同位素的记录很好地响应了白垩纪期间全球性的缺氧事件。通过对岗巴地区岩石地层学及区域环境的分析说明，全球性的海平面升降及板块运动造成了大洋溶解氧含量的波动是碳稳定同位素δ^13C值偏移的根本原因。     

西藏岗巴地区海相上白垩统碳、氧同位素对比实验结果偏差分析

对西藏南部岗巴地区上白垩统部分全岩样品进行了碳、氧同位素不同实验室、不同时间的对比实验，目的在于了解样品处理过程可能对试验结果的影响程度。结果发现，不同实验室的结果偏差比同一实验室不同时间的结果偏差大，碳同位素比值的偏差比氧同位素比值的偏差大。不同实验室结果偏差的关键原因是样品制备方法和岩性的不同：手工碎样、选样、磨样较难避免徽裂隙中充填的方解石脉和小型生物扰动组构对同位素值的影响，而毫米级直径钻头刮样取样则很大程度上可以避免；钙质页岩和泥灰岩受影响的程度相对较小，生物碎屑灰岩受影响较大。碳同位素比值偏差大干氧同位素。前者基数比后者大4～5倍可能是主要原因。