黄河晋陕峡谷河流阶地和鄂尔多斯高原第四纪构造运动

本文通过黄河晋陕峡谷河段21个地点的阶地横剖面观察和阶地对比研究,确定出6级宽谷阶地序列,同时,依据17个放射性测年数据对阶地定年。6级宽谷阶地序列揭示了鄂尔多斯高原第四纪区域造陆隆起和局部构造变形,区域造陆隆起的发生时间比之青藏高原隆起要滞后0．113～0．25Ma,而且,平均区域造陆隆起量比之青藏高原的内部和边缘的隆起量小得多。晋陕峡谷河段发生过3期加积作用幕,指示着造陆隆起景观中的气候变化时间线。渭河盆地北缘的韩城断裂悬崖带记录着构造基准面下降,影响的河流长度仅为21～127km。     

Ages and genesis of terrace flights in the middle reaches of the Yarlung Zangbo River,Tibetan Plateau,China

Field investigation has shown that the middle reaches of the Yarlung Zangbo River, in Tibet (known as the Bhramaputra River in reaches downstream) has 11 terraces. The ages of these terraces were determined as follows: T₁₁>2000 ka, T₁₀ = 1783 ka, T₉ = 1238 ka, T₈ = 683 ka, T₇ = 382 ka, T₆ = 150 ka, T₅ = 82 ka, T₄ = 67 ka, T₃ = 43 ka, T₂ = 28 ka and T₁ = 10 ka. These terraces formed during several stages of the Quaternary when the Tibetan Plateau was uplifting, recording tectonic–climatic cycles or subcycles of 1.2, 0.4, 0.1, 0.04 and 0.02 million years duration. The tectonic–climatic cycles identified by this study are correlated with red soil and palaeosol records. The preservation of the Oligocene to Early Miocene conglomeratic Dazhuka Formation, close to the present altitude of the main planation surface of the Tibetan Plateau and occurring only in the Yarlung Zangbo valley, suggests that this river has existed since at least 7 Ma. Discoveries of old and thick fluvial gravel layers extending to within 630 m of the valley floor show that the Yarlung Zangbo River was already incised by 2000 m or more below the surface of the Tibetan Plateau, that much of the incision from plateau to valley floor had been accomplished and that the plateau was already substantially uplifted prior to the Quaternary. In addition to its importance for understanding the evolution of the Tibetan Plateau, this study documents the impact of varying rates of tectonic uplift on river development.     

青藏高原西北部晚第四纪以来的隆升作用 ——来自西昆仑阿什库勒多级河流阶地的证据

青藏高原的隆升是新生代最壮观的地质事件,关于青藏高原隆升研究一直是地学界的研究焦点.河流阶地的发育记录了丰富的构造运动和气候变化的信息,近年来被广泛应用于构造运动和气候演变的研究,但前人研究的河流阶地基本分布在青藏高原的周缘,阶地的形成可能是气候与构造运动共同作用的结果.本文通过高分辨率卫星影像的解译,在青藏高原内部的西昆仑阿什库勒地区发现了多达七级的河流阶地.对该处河流阶地结构、沉积特征、几何特征的研究表明该阶地是典型的构造成因阶地.野外利用全站仪对河流阶地地貌形态进行了精细的测量,获得了各级阶地的拔河高度分别为4～5m(T1)、9～ 10m(T2)、16 ～ 18m(T3)、28～31m(T4)、45～48m(T5).通过宇宙成因核素10Be测年方法对各级阶地面的暴露年龄进行了测定,获得了各级阶地的形成时代分别为7.7±0.7ka(T1)、32.7±3.lka (T2)、53.6±2.5ka(T3)、115.7±23.2ka(T4)、166.8±10.4ka (T5)、19.5±8.5ka (T6).由此确定了晚第四纪166.8ka以来不同时期的河流下切速率总体介于0.2～0.35mm/yr,该速率代表了青藏高原西北部晚第四纪166.8ka以来的平均隆升速率.     

六盘山东麓泾河上游河流阶地的形成年代及新构造运动意义

六盘山是研究青藏高原东北缘隆升与构造变形的关键部位,其东麓泾河河流阶地是第四纪以来六盘山构造隆升的地貌载体。通过对泾河上游河流阶地的剖面实测,厘定了河流阶地的级序,泾河上游主要发育5级河流阶地T5-T1,不同地段阶地的形态类型不同,柳树沟T5、T4和T3为堆积阶地,T2和T1为基座阶地,高家山均为侵蚀或基座阶地;利用光释光(OSL)、电子自旋共振(ESR)测年并与黄土-古土壤序列进行对比,建立了河流阶地的年代格架,T5-T1年代分别为541 ka B.P.、477 ka B.P.、279 ka B.P.、60 ka B.P.和8 ka B.P。阶地的形态类型、形成年代与气候阶段的对应关系研究表明,泾河上游河流阶地以构造隆升驱动为主,气候变化影响为辅;541~279 ka B.P.期间柳树沟地区为堆积区,堆积速率为0.31 m/ka,而高家山为构造隆升区,河流下切速率为0.37 m/ka,堆积速率与侵蚀速率基本一致,说明T5、T4和T3阶面上较厚的砾石层是六盘山隆升的相关沉积;279 ka B.P.时期由于六盘山快速隆升驱使山前柳树沟地区由堆积区转为侵蚀区,河流侵蚀作用加强造成T2、T1平均下切速率增大为1.13 m/ka,这次地貌转换事件是在青藏高原扩展隆升的背景下六盘山向东挤出隆升的结果。研究结果为青藏高原东北缘以面积和体积扩张的观点提供了新的依据。     

青藏高原东部牙着库河流阶地研究

构造运动和气候变化是制约内陆地区河流阶地发育的两个关键因素,而不同地区的河流对它们的响应方式多种多样.研究区海子山位于青藏高原东部的沙鲁里山中段,在第四纪期间经历了大幅度构造抬升及第四纪冰川作用.海子山北缘牙着库河谷保留着6级河流阶地,南缘稻城河谷完好地保留着第四纪冰川作用遗迹.本研究运用电子自旋共振技术对牙着库4级高阶地(第3～第6级)的砾石层及稻城河谷的第四纪冰川沉积物进行了测年,并对这4级阶地的形成过程进行了分析.结果表明,牙着库3～6级阶地基座及相应的砾石层均形成于冰消期,分别与深海氧同位素2、6、12、16阶段晚期相对应.待气候进一步变暖而逐渐进入间冰期,海子山冰川消融殆尽,下伏地壳负荷锐减,构造抬升效应的释放结合冰川均衡抬升使得牙着库河谷梯度增大,而同期的河流沉积物通量较小,结果导致流水切割前期加积的沉积物及其下伏基座形成一级新的河流阶地.牙着库河谷自深海氧同位素16阶段后期以来的平均下切速率为0.43 mm/a左右,小于海子山的平均抬升速率2 mm/a,与"河谷下切速率不大于山地抬升速率"一致.     

黄河晋陕峡谷1.1 Ma阶地的形成及其构造背景*

对黄河晋陕峡谷河曲、黑峪口、延水关和壶口等4个地区进行了详细的野外考察。河曲地区共发现3级河流阶地,更高的则为唐县期宽谷;唐县期宽谷的海拔高度约1000m(拔河高度150m),而3级河流阶地的拔河高度分别约为110m、80m和12m。黑峪口地区也存在唐县期宽谷,宽谷之下发育5级河流阶地,唐县期宽谷西高东低,海拔高度位于970m和940m之间,5级河流阶地的拔河高度分别约为130m,80m、50m、12m和4m。延水关地区共发现6级河流阶地,全部为第四纪期间形成,6级河流阶地的拔河高度分别为180m、130m、95m、50m、20m和4m。壶口地区共存在8级阶地,也全部为第四纪期间的阶地,阶地的拔河高度分别约为260m、210m、180m、120m、80m、60m、35m和15m。对壶口最高阶地进行了地层学研究,发现这一阶地上覆厚度约110m的黄土地层,黄土层的最底部为L13,古地磁研究结果和古土壤断代都指示了这一阶地的形成时间在距今1.1Ma左右。综合晋陕峡谷地区现有的研究结果认为,3.3Ma之前,鄂尔多斯地块内部构造极为稳定,发育了唐县期夷平面,古黄河在此夷平面上主要以侧蚀拓宽为主,下蚀极其微弱;3.3-1.1Ma,鄂尔多斯地块的构造稳定可能被打破,黄河小幅度下切;而1.1Ma以来,受鄂尔多斯地块快速抬升的影响,黄河发生剧烈下切,1.1 Ma阶地和晋陕峡谷的主体在这一时期形成。     

青藏高原东南缘构造地貌、活动构造和下地壳流动假说

利用高精度的SRTM 数字高程模型（DEM）,定量勾画出青藏高原东南缘大尺度地形地貌的特征。分析表明,高原东南缘地貌特征为“负地形”,即海拔高程与地形坡度,与地形起伏度之间均为负相关关系,与高原中部的“正地形”--海拔高程或地形坡度与地形起伏度之间呈正相关关系,形成鲜明对比。但是,在高原东南缘,在河谷之间保留有高海拔、低起伏的残留面。这些残留面与高原内部的平坦面具相似的渐变地貌特征,从腹地的正地形逐渐变为川西的高海拔平坦面与深切河谷相间的负地形。虽然随着河流下切深度往南逐渐增加,残留面虽越来越少,但仍然可以识别,最终终止在雅砻江逆冲断裂带附近,该断裂带以南地区没有明显负地形特征。北东向展布的雅砻江逆冲断裂带对应着50～200 km宽的地形相对陡变带。综合区域新构造和构造地貌研究的最新成果表明： 1）雅砻江逆冲断裂带可能代表着现今正经受侵蚀改造和弱化的高原老边界,该边界以北和以南地区抬升历史不同; 2）三江地区的峰值抬升期已过,目前以侵蚀为主。虽然不能排除与河流侵蚀对应的均衡反弹抬升作用,但具有真正意义的地壳增厚型的构造抬升较弱。国际上流行的高原东缘下地壳流动模式的依据之一是从高原内外流分界线到南中国海,存在一个区域上延伸数千公里的抬升前低海拔“类夷平面”的残留面。地貌特征,构造和地质综合分析都表明高原东缘不存在这样的类夷平面,不支持解释高原东缘地形演化和相应构造变形的下地壳流动模式。     

Marine terrace deformation, san diego county, California

The NW—SE trending southern California coastline between the Palos Verdes Peninsula and San Diego roughly parallels the southern part and off-shore extension of the dominantly right-lateral, strike-slip, Newport—Inglewood fault zone. Emergent marine terraces between Newport Bay and San Diego record general uplift and gentle warping on the northeast side of the fault zone throughout Pleistocene time. Marine terraces on Soledad Mt. and Point Loma record local differential uplift (maximum 0.17 m/ka) during middle to late Pleistocene time on the southwest side of the fault (Rose Canyon fault) near San Diego.The broad Linda Vista Mesa (elev. 70–120 m) in the central part of coastal San Diego County, previously thought to be a single, relatively undeformed marine terrace of Plio—Pleistocene age, is a series of marine terraces and associated beach ridges most likely formed during sea-level highstands throughout Pleistocene time. The elevations of the terraces in this sequence gradually increase northwestward to the vicinity of San Onofre, indicating minor differential uplift along the central and northern San Diego coast during Pleistocene time. The highest, oldest terraces in the sequence are obliterated by erosional dissection to the northwest where uplift is greatest.Broad, closely spaced (vertically) terraces with extensive beach ridges were the dominant Pleistocene coastal landforms in central San Diego County where the coastal slope is less than 1% and uplift is lowest. The beach ridges die out to the northwest as the broad low terraces grade laterally into narrower, higher, and more widely spaced (vertically) terraces on the high bluffs above San Onofre where the coastal slope is 20–30% and uplift is greatest. At San Onofre the terraces slope progressively more steeply toward the ocean with increasing elevation, indicating continuous southwest tilt accompanying uplift from middle to late Pleistocene time. This southwest tilt is also recorded in the asymmetrical valleys of major local streams where strath terraces occur only on the northeast side of NW—SE-trending valley segments.The deformational pattern (progressively greater uplift to the northwest with slight southwest tilt) recorded in the marine and strath terraces of central and northern coastal San Diego County conforms well with the historic pattern derived by others from geodetic data. It is not known how much of the Santa Ana structural block (between the Newport—Inglewood and the Elsinore fault zones) is affected by this deformational pattern.     

Late Cenozoic fluvial dynamics of the River Tana,Kenya, an uplift dominated record

The Late Cenozoic development of the River Tana in Kenya has been reconstructed for its central reach near its confluence with the River Mutonga, which drains the Mount Kenya region. Age control for this system has been provided by K–Ar and Ar–Ar dating. Between 3.21 and 2.65 Ma a major updoming occurred, in relation to the formation of the Kenyan rift valley. The tilting related to this doming has been reconstructed from lava flows that preserve former river gradients. Linear projection of these trends to the current rift valley rim suggests a net updoming of the eastern Gregory Rift valley by at least ∼1 km during 3.21–2.65 Ma. In contrast, since 2.65 Ma the Tana system has been mainly subject to relatively minor epeirogenic uplift. Changing climatic conditions combined with continuing uplift yielded a typical staircase of strath terraces with at least 10 distinct levels. A more detailed reconstruction of the incision rates since 215 ka has been made, by correlating mineralogically fingerprinted volcaniclastic Tana deposits with dated tephras in a lake record. These volcaniclastic sediments were deposited during glacial periods, contemporaneous with lahars. The reconstructed incision rates for the three youngest terraces are ∼0.1–0.2 mm a⁻¹, thus considerably faster than the overall average rate of valley incision since the Mid-Pliocene, of 0.06 mm a⁻¹. A plausible uplift history has been reconstructed using the estimated ages of the Tana terraces and marine terraces on the Indian Ocean coastline. The result suggests an increase in the rate of incision by the River Tana at ∼0.9 Ma, an observation typical in most European river terrace staircases. The reconstructed Late Quaternary development of Tana valley indicates that a similar Quaternary uplift mechanism has operated in both Europe and East Kenya, suggesting a globally applicable process.     

西秦岭北缘漳县韩家沟砾岩对青藏高原东北缘地壳隆升的约束

对西秦岭北缘漳县地区上新统韩家沟砾岩的地貌特征、高程分布、沉积特征、构造变形等研究表明：1）该套砾岩分布受西秦岭北缘断层系F₂逆冲断层控制,主要由巨砾-中砾砾岩组成,有近源快速磨拉石沉积的特征,代表了上新世以来西秦岭地块沿北缘断层向北逆冲挤出形成的再生前陆磨拉石盆地,指示了西秦岭地块上新世以来的一次强烈的构造隆升。2）这套砾岩出露高程及宏观地貌特征指示了其形成之后又与西秦岭地块一起经历了侵蚀夷平,形成了现今海拔2 600 m 左右统一的夷平面。该夷平面的整体隆升和解体、韩家沟砾岩雅丹地貌形成和发育六级侵蚀阶地或基座阶地的漳河水系形成才真正标志着西秦岭及北缘区域的整体隆升。现今海拔1 800 m 漳河河床与2 600 m 山顶夷平面之间的高差反映了西秦岭及其北缘第四纪以来至少相对隆升了800 m。3）西秦岭北缘漳县韩家沟砾岩下伏的渐新统-中新统红层盆地沉积序列具有伸展断陷盆地充填特征,指示了这个时期西秦岭北缘处于拉张伸展构造状态,也就是说以构造挤压缩短为动力学背景下的青藏高原隆升和构造变形在渐新世-中新世时期尚未扩展至西秦岭北缘区域。尽管该断陷盆地最上部河流相-洪泛相粗碎屑沉积增多和之后地层掀斜及褶皱缩短有可能反映了中新世末或上新世初西秦岭北缘由伸展到挤压的构造转换和构造隆升,但这并不是西秦岭及北缘区域的一次强烈隆升。综上所述,我们认为西秦岭北缘上新统韩家沟砾岩出现标志着西秦岭地块向北强烈逆冲和构造隆升,但西秦岭的这次强烈隆升仅持续到上新统韩家沟砾岩沉积结束,之后西秦岭地块和北部的再生前陆磨拉石盆地一起经历了整体隆升和侵蚀夷平,形成了上新世末或第四纪初的统一夷平面。该山顶夷平面是西秦岭及其北缘区域最后整体强烈隆升的起点。韩家沟砾岩雅丹地貌形成、发育六级侵蚀阶地或基座阶地的漳河水系形成真正指示了西秦岭及北缘区域的整体隆升过程。如果西秦岭及其北缘新生代以来隆升过程在青藏高原东北缘具有代表性,那么就说明青藏高原东北缘真正隆升成为现今青藏高原系统组成部分只是上新世末期或第四纪以来地质事件。     

西昆仑山前河流阶地的形成及其构造意义

西昆仑山前河流普遍发育6级阶地,利用光释光（OSL）与热释光（TL）方法对采自西昆仑山前几条主要河流的低阶地堆积物样品进行年代测定。研究结果显示,主要河流低阶地的形成具有同时性,构造活动是河流阶地形成的主要控制因素。河流阶地的年龄测定结果表明,西昆仑山前河流阶地最早形成于约1.2Ma,T4、T3、T2阶地分别形成于约39ka、18ka和5ka。多级阶地的形成反映了河流自早更新世中期开始下切于活动抬升的西昆仑山。河流阶地的发育及区域对比揭示了西昆仑第四纪晚期以来的隆升过程,区域构造活动明显地影响河流的形态与行为。河流阶地的分布、地貌特征及区域对比表明,河流阶地的形成与演化受新构造活动、山脉隆升、气候变化等多种因素的影响。     

青藏高原东北缘何时卷入现今青藏高原构造系统?——来自西秦岭北缘漳县盆地新生代沉积记录的约束

新生代以来印度-欧亚板块持续碰撞汇聚形成号称世界第三极的青藏高原。青藏高原的扩展生长和构造变形系统形成的动力学过程是地球科学研究的重大科学问题。青藏高原东北缘新生代以来构造演化过程及其与印度-欧亚板块碰撞汇聚的动力学耦合关系研究对于揭示青藏高原扩展生长过程具有重要地质意义。尽管前人已经开展了大量研究探索,提出各种构造-隆升模型,但青藏高原东北缘何时卷入印度-欧亚碰撞汇聚的青藏高原构造系统尚未达成共识。作为青藏高原东北缘组成部分的西秦岭北缘构造带漳县地区不仅新生代地层记录齐全,而且断裂构造发育,构造变形现象丰富,是研究青藏高原东北缘新生代构造演化及印度-欧亚碰撞汇聚远程构造响应的良好区域。通过对西秦岭北缘构造带漳县地区新生代沉积盆地地层构造格架、沉积地层序列和沉积旋回等详细野外观测研究,结合区域断裂带几何学-运动学及变形历史分析,取得如下认识:(1)西秦岭北缘漳县地区新生代沉积地层主要由为不整合分隔的两套构造性质完全不同的构造地层单元组成,即渐新世—中新世伸展断陷盆地沉积和上新世再生前陆磨拉石盆地沉积;(2)渐新世—中新世时期的地壳伸展拉张构造环境与印度-欧亚碰撞汇聚的挤压环境相悖,指示了西秦岭北缘在渐新世—中新世尚未卷入现今的印度-欧亚碰撞汇聚构造系统;(3)上新世磨拉石盆地的发育标志着西秦岭北缘构造带从伸展到挤压的构造体制转换,可能指示了印度-欧亚碰撞汇聚的挤压构造作用这时才波及西秦岭北缘;(4)上新世粗砾岩、西秦岭造山带地层和中生代沉积地层共同经历了抬升剥蚀作用,形成了西秦岭北缘广泛发育的夷平面。第四纪以来夷平面的抬升和解体、现代河流侵蚀系统和多级河流阶地的出现,指示了青藏高原东北缘整体的不均匀大规模抬升而进入现今青藏高原构造系统。     

川西岷江松潘段第四纪与新构造运动特征分析

在已有调查研究的基础上,通过野外地质调查和剖面测量,重点分析了岷江松潘段的漳腊盆地、斗鸡台盆地地貌特征、第四纪沉积物类型、物质成分、空间分布等特征,并系统测量和研究了松潘段岷江干流及其支流的河流阶地特征。研究表明,新构造运动控制了松潘段第四纪盆地的形态和地貌演化过程,漳腊盆地和斗鸡台盆地形成于中新世末至上新世初,西侧控盆断裂为东倾正断层,东侧为西倾逆断层,盆地为断块发生西降东升的翘板式断块运动过程中形成的,称之为"翘板式箕状盆地"。松潘段岷江河谷地貌呈现出宽谷和窄谷交替出现的特点,岷江干流及其支流中发育多处湖相地层,沉积特征表现为堰塞湖。岷江上游松潘段最多发育6级阶地,以侵蚀阶地和堆积阶地为主,主要形成于中更新世晚期—全新世时期。阶地级数具有分段性特点,不同区段阶地阶面宽窄不一,受区内新构造活动控制明显。岷江上游新构造运动表现为南北条带性和东西向差异掀斜抬升的特点,红桥关以上整体为构造隆升区,至少具有3次构造隆升,岷江上游斗鸡台盆地构造隆升强度整体上大于漳腊盆地。在尕米寺地区可能发生了6次构造抬升,红桥关一带构造抬升明显要强于漳腊盆地。     

Late Quaternary fluvial terraces of the Romagna and Marche Apennines,Italy: Climatic,lithologic, and tectonic controls on terrace genesis in an active orogen

We synthesize a new fluvial terrace chronostratigraphy of the Bidente and Musone Rivers cast within a broader European framework, which forms the basis of a terrace genesis and river incision model for the northern Apennines, Italy. Our model, supported by terrace long profiles, correlation to Po foreland sediments, 15 new radiocarbon dates, and published numeric and relative stratigraphic ages, highlights how drainage basin substrate drives concurrent formation of strath terraces in the Bidente basin and fill terraces in the Musone basin. Quaternary climate change paces the formative geomorphic processes through unsteady discharges of water and sediment. In the weathering-limited setting represented by the Bidente basin, siliciclastic detritus carves broad strath surfaces during glacial climates that are preserved as terraces as the river incises during the transition to an interglacial climate. In contrast, the transport-limited and carbonate detritus dominated Musone basin sees valleys deeply buried by aggradation during glacial climates followed by river incision during the transition to an interglacial climate. Incision of these rivers over the past ～1 million years has been both unsteady and non-uniform. These and all Po-Adriatic draining rivers are proximal to a base level defined by mean sea level and have little room for increasing their longitudinal profile concavities through incision, particularly in their lower reaches despite periodic glacio-eustatic drawdowns. As a result, the observed incision is best explained by rock uplift associated with active local fault or fold growth embedded in the actively thickening and uplifting Apennine foreland.     

青藏高原重力构造

青藏高原的范围大致由昆仑山、阿尔金山、祁连山、龙门山及喜马拉雅山所围限。是一个边部群峰耸立、内部相对平坦的广阔高原,具有山高地势平的地貌景观。地壳厚度一般为50—70公里,成为全球地势最高、地壳最厚的地区。 中新世晚期,喜马拉雅尚未成山,其高度接近海面,仅约数百米。而由冈底斯山至昆仑山的广大地区,此时形成了统一的夷平面,具有与喜马拉雅地区相似的高度。     

Tectonic controls of the onset of aeolian deposits in Chinese Loess Plateau – a preliminary hypothesis

Previous studies show that the thick aeolian dust deposits in the Chinese Loess Plateau (CLP) have accumulated since the early Miocene or even late Oligocene. They are considered to provide the best terrestrial record for the onset of Asian interior aridification and the evolutionary history of the Asian Monsoon. However, large variability in the basal ages of aeolian deposits makes the aeolian dust depositional history and the controlling dynamics controversial. Here, we present a preliminary hypothesis for the tectonic controls of aeolian dust deposition in the CLP by connecting the two main uplift events of the Tibetan Plateau and the regional tectonic events with the aeolian dust accumulation history. Regional tectonic events in the Ordos Block (the basement of the CLP) during the late Cenozoic are less recognized as controlling aeolian dust accumulation by sculpting the surface landscape. The stable tectonic environment of the Ordos Block since the late Miocene might have been the main controlling factor that enabled the widespread deposition of the aeolian red clay after ~8 Ma. Here, we hypothesize that because the large-scale monsoon system and central Asian aridity had existed since at least the early Miocene, the accumulation and preservation of aeolian deposits within the CLP are actually largely controlled by the regional tectonic environment and less by climatic factors.     

龙门山断裂活动和川西高原隆升历史的裂变径迹测年

通过12个构造岩、变质砂岩和花岗岩样品的磷灰石裂变径迹测年年龄分析, 结合前人研究成果, 初步确定了青藏高原东缘龙门山地区晚新生代主要断裂活动时期和区域隆升历史。结果表明, 龙门山逆冲推覆构造带2条主断裂:汶川-茂县断裂和映秀-北川断裂, 最晚一次强烈活动发生在早更新世(FT年龄为1.2~ 1.3 Ma), 高原内部北西向米亚罗断裂在中更新世(约0.5 Ma)发生过强烈活动; 后龙门山逆冲推覆构造带在中新世晚期开始快速隆升, 而高原内部强烈隆升发生在上新世末至中更新世。高原隆升导致深切河谷地貌的形成和发育。      

Effects of differential tectonic uplift on Late Quaternary coral reef diagenesis,Huon Peninsula,Papua New Guinea

Mineralogical, petrological and geochemical analyses of corals and associated skeletal limestones taken from three transects across the Late Quaternary raised coral reefs of the Huon Peninsula, Papua New Guinea, show that tectonic uplift can be related to the degree of subaerial diagenesis of the reefs. Where the uplift rate is high, Pleistocene corals frequently retain their aragonite mineralogy, even though the annual rainfall is relatively high. In contrast, similar age corals from low‐uplift areas are consistently altered neomorphically to calcite. The transformation of reef skeletal limestones shows a similar, but less pronounced, trend to the corals. Chemical analysis shows that the neomorphic calcite crystals of coral skeletons from the low‐uplift areas have relatively higher Sr and Mg concentrations, compared with those in high‐uplift areas. This may indicate that neomorphism of corals in the low‐uplift terraces takes place at a relatively higher rate and an earlier stage than that in the high‐uplift areas. The pattern of diagenesis of the Huon reefs can be explained by the effects of tectonic uplift on the regional hydrological regime. First, lower uplift rates allow a raised reef or any part of it to remain in the meteoric phreatic zone for a relatively long time. Second, river gorge slopes from low‐uplift regions have lower gradients and reef terraces in these areas have more extensive raised lagoon depressions than in high‐uplift areas. Thus, there is less runoff and consequently more extensive vadose percolation in the former areas. Third, the resulting low‐relief topography in low‐uplift areas prompts formation of soils on the terraces, and further increases the ability of interaction between coral reefs and formation water.     

柴达木路乐河地区新生代碎屑组分变化及其对构造隆升的指示

碎屑组分变化是反映盆地物源演化历程的重要物质表现。路乐河地区作为柴达木盆地的重要组成部分,沉积地层记载着印度-欧亚板块碰撞以来青藏高原北缘造山带的构造隆升过程。高长石组分含量、物源方向及毗邻山脉岩性对比揭示,路乐河物源主要受南祁连和赛什腾山控制,其碎屑组分变化对毗邻造山带构造活动具有很好的耦合性。新生代53.5~2.9Ma期间,路乐河地区存在3次物源转换事件,发生时间依次同印度-欧亚板块碰撞及高原内部构造隆升事件相吻合。其中早期50.1~46.6Ma,南祁连山的快速抬升是对大陆初始碰撞的远程响应;44.5Ma,高原以垂向增生和推覆构造发育为特点,赛北断裂高速剥露,致使路乐河地区物源发生转变;渐新世末期(22.6Ma),青藏高原准同时整体隆升,赛什腾山和南祁连山协同为路乐河地区供给沉积物。所获认识为深入了解高原隆升演化和板块碰撞远程效应提供新的沉积依据。