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1.
冰后期长江三角洲沉积通量的初步研究 总被引:14,自引:0,他引:14
在265个长江三角洲钻孔地层资料中识别出了冰后期海侵旋回底界面和(或)最大海侵面, 分别记录了它们的埋深值. 由此绘制出了长江三角洲冰后期沉积物等厚图及冰后期最大海侵以来的沉积物等厚图, 计算了冰后期沉积旋回及其海侵和海退层序的沉积物数量, 并且分析了其分布特征. 结果表明, 长江三角洲在冰后期及其海侵和海退期间的沉积物数量分别为17742.2×108 , 9791.9×108和7950.3×108 t. 其中, 下切河谷沉积量超过三角洲两翼, 海侵期沉积量大于海退期, 南翼沉积量大于北翼, 两翼前缘沉积量大于后缘. 综合考虑冰后期滞留于现今三角洲地区的沉积物数量与长江输沙量之间比值的变化以及输沙量本身可能的变化, 可以认为冰后期长江年均输沙量应当在2.36×108~4.86×108 t之间, 总量约为35400×108~70800×108 t; 年均输向外海和相邻岸段的泥沙在1.18×108~3.54×108 t之间, 总量约为17700×108~53100×108 t. 相似文献
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兴凯湖沉积物粒度特征揭示的27.7kaBP以来区域古气候演化 总被引:1,自引:0,他引:1
结合孢粉分析,对兴凯湖一根长269cm的沉积岩芯研究表明:沉积物粒度分布特征可以较好地反映区域气候变化,即粗粉砂和砂增多对应于降水减少的低湖面时期,细粉砂增多对应于降水增加的高湖面时期,而粘土增加则对应于气候干燥的静水沉积环境。约27740-25540cal aBP时期,沉积物颗粒较粗,湖区处于低湖面的冷干气候;而随后25540-23650 cal aBP时期,中粉砂增加,粘土较少,分选性较好,湖区处于冷湿气候环境23650-19940cal aBP阶段,湖面封冻期长,沉积物粘土较多,湖区气候冷干,对应于末次盛冰期。19940-14510cal aBP阶段,细粉砂增加,比前期降水增多,温度也有所升高。14510-10800cal aBP时期,本地区进入晚冰期,沉积物粒径波动频繁,依次出现较高含量的细粉砂-粗粉砂-粘土阶段,反映了暖湿到干燥的气候变化,对应于北欧的B(o|¨)lling/Older Dryas/Aller(o|¨)d/Younger Dryas气候波动期。10800-1050cal aBP,总体上沉积物粒径变化不大,中粗粉砂含量基本保持低值,细粉砂逐渐增加,粘土逐渐减少,显示深水稳定沉积环境,降水逐渐增多,处于全新世暖湿期;其中8330-7000cal aBP阶段,粗颗粒迅速增加较多,对应于8.2 cal kaBP冷事件。约1050cal aBP以来,沉积物中值粒径大幅度增加,湖面水位下降幅度较大,气候变凉干,也反映了人类活动增强造成水土流失加剧。 相似文献
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长江三角洲江都-镇江(大港)河段冰后期地层层序可分为早期海侵层序和中、晚期海退层序。早期海侵层序主要包括下部冰消期近源辫状河流相、中部河流相、上部河漫滩相,为一套海进式河床充填层序,在垂向上具有该河段独有的三层结构特点。中、晚期海退层序主要包括前三角洲相、三角洲前缘相和三角洲平原相,在垂向上也具有三层结构特点。冰后期以来,古长江的江面宽度不断变化,沉积中心位置也随之发生多次较大调整:冰消期至全新世早期,中心位置曾不断向南偏移;从全新世中期开始,其中心位置开始北移直至最大海侵结束;最大海侵后,随着三角洲不断进积,其中心位置也开始节节南移直至现今位置;从最大海侵到现在,古长江中心位置可能向南移动大约15 km。 相似文献
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南黄海东南部冰后期泥质沉积物中磁性矿物的成岩变化及其对环境变化的响应 总被引:8,自引:0,他引:8
YSDP103孔位于南黄海东南部冷涡泥质沉积区, 0~29.79 m岩心代表约13 ka BP以来形成的陆架泥质沉积物, 其下段(A2段, 29.79~13.35 m)是在冰后期海侵直至全新世中期(约6 ka BP(14C测定))海平面达到最高这段时间内形成的, 而上段(A1段, 13.35~0 m)则是在冰后期海侵达到最高海平面之后伴随着黄海暖流的形成而出现的冷涡环境中沉积的. 笔者对YSDP103孔0~29.79 m岩心开展了详细的岩石磁学研究, 结果表明, 钻孔岩心的磁性组分主要是磁铁矿、磁赤铁矿和赤铁矿, 除了最上部2.35 m外, 其磁性矿物遭受了还原成岩作用, 磁性矿物的含量和低矫顽力组分的比例都显著降低. 铁磁性硫化物(胶黄铁矿)存在于A2段, 但在A1段缺失, 表明了海洋环境条件对磁性矿物成岩过程的控制. 磁学参数在A1和A2段的界线处发生突变, 反映了环境条件和原始磁性组分的差异对成岩作用的共同影响. 在A2段磁学参数的高、低值层段交替出现, 可能反映在A2段沉积期间进入沉积区的碎屑磁性矿物在含量的多、少和/或粒度的粗、细上出现周期性变化. 相似文献
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临夏盆地在东亚新生代地层、古气候、古生物研究方面占有举足轻重的地位.本文对盆地东部的郭泥沟剖面进行了详细的岩石磁学和磁组构研究,以揭示从早中新世到早上新世临夏盆地的沉积演化过程.郭泥沟剖面沉积物中的磁性矿物有磁铁矿、磁赤铁矿、赤铁矿和针铁矿,但剩磁载体以磁铁矿和赤铁矿为主.从上庄组和东乡组的褐红色粉砂质粘土到柳树组和何王家组的褐黄色粘土,赤铁矿含量呈现降低的趋势,与沉积物颜色变化一致.郭泥沟剖面沉积物磁组构类型为正常沉积磁组构.结合岩石磁学结果和磁组构参数特征可揭示临夏盆地早中新世-早上新世沉积的演化过程:早中新世上庄组为稳定湖相沉积,古水流方向为NNW,与南北向的大夏河方向一致;中中新世气候发生较明显的干湿波动,形成了东乡组的褐红色湖相粉砂质粘土夹粉砂、砂和青灰色泥灰质粘土条带,古水流方向主要为NNW,沉积过程主要受大夏河控制;中中新世晚期,受青藏高原构造运动影响,沉积相由湖相细粒沉积物转变为虎家梁组河流相砂砾层;同时,盆地的水动力条件也发生改变,晚中新世柳树组湖相沉积过程同时受南北向大夏河和东西向洮河控制,两个方向近垂直的河流共同作用导致柳树组内沉积各向异性度较低,面理和线理均不发育,磁化率最大轴偏角分布比较分散,磁组构确定的古流向为东西向和南北向;早上新世期间,由于受青藏高原隆升影响,沉积了何王家组下部的河流相砂砾层;受构造抬升影响,大夏河重新主导何王家组上部洪泛平原相沉积过程,水动力条件较为单一稳定,古流向主要为N向,与大夏河流向一致. 相似文献
7.
文中以14个钻孔地层编录为基础,结合前人研究资料,初步总结了福州盆地埋藏第四纪地层的沉积特征。福州盆地沉积始于晚更新世中期(约56.5ka BP),由砾石、砂、黏土、淤泥组成,总体表现为从下至上粒度变细的沉积序列,地层岩性横向变化较大;盆地内发育3层淤泥,第1,2层淤泥发育于全新世中晚期,时代为1.44~7.86ka BP,为“长乐海侵”的产物,第3层淤泥发育于晚更新世晚期,时代约为44~20ka BP,为“福州海侵”的产物;盆地埋藏晚第四纪地层可划分为上更新统和全新统,分为4个组,从老至新分别为龙海组(Q3pl)、东山组(Qhd)、长乐组(Qhc)与江田组(Qhj)。龙海组归属上更新统,划分为3段,其余3个组归属全新统 相似文献
8.
全新世以来珠江三角洲的地层层序和演变过程 总被引:2,自引:0,他引:2
本文基于对90个拥有全新世14C年代数据的钻孔进行详细的沉积物特征和年代地层分析,讨论了全新世珠江三角洲的地层特征及全新世以来的充填过程.全新世珠江三角洲沉积物覆盖在末次冰期冰盛期形成的风化侵蚀面与底砾层之上.最大海侵面位于松软海相淤泥层位.在受潮汐冲刷区域,最大海侵面表现为侵蚀面.全新世沉积层序自下向上在古河谷为河流相、河漫滩-河口湾相、河口湾-三角洲相,在古河间地为滨海相、河口湾相和三角洲相.全新世沉积层垂向堆积序列绝大部分表现为下粗上细的正向序列,且不具有典型Gilbert三角洲的前积层、顶积层等沉积层序.受控于独特而复杂的地貌边界,古珠江河口湾在高水位体系域的演变模式不同于世界其他大型三角洲,而是一个多源复合、不同尺度河流沉积体独立并行发展,最后复合成的三角洲.全新世以来珠江三角洲的演变可以分为5个阶段:第一阶段12~8kaBP,全新世海侵未达三角洲中部地区,直至约9kaBP以后,南部一些地势较低的地区才开始受海进影响,出现一些海陆交互相沉积;第二阶段8~6kaBP,海面快速上升,珠江三角洲大部分地区接受海进沉积;第三阶段6~4kaBP,全新世海侵达到盛期,古珠江三角洲地区大面积为河口湾,且受系列岛屿的阻隔分为两部分,上部是与河流相接的半封闭的内古海湾;下部是与海洋相接的外古海湾,两部分仅由若干峡口相通,河流沉积物主要在内古海湾中堆积充填;第四阶段4~2kaBP,在复杂边界对河流与海洋动力的重塑和改造作用下,内古海湾各区域的沉积同时进行,独自发展;第五阶段2kaBP至今,该阶段三角洲的演变已不再是单纯的自然过程,而是自然和人类共同塑造的过程. 相似文献
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苏州澄湖湖底主要由硬粘土组成,同时残留有湖沼洼地和古河道,古河道大致呈NNW-SSE延伸,与历史文献所载"古三江"之一的东江基本一致.保存着硬粘土平原形成后从河流到湖泊环境演化的良好沉积记录,通过对湖心区古河道SC7孔2cm间隔取样和AMS14C测年、粒度、磁化率等测试分析,初步探讨了该孔的沉积粒度特征及古环境意义,研究结果表明,沉积物粗粉砂含量极少或不含,中-细粉砂和粘土分别占53%-65.8%和19.7%-40.1%;与河床硬粘土相比,粉砂含量较低,粘土含量较高,平均粒径较小,为正偏(硬粘土为极正偏),磁化率也明显较高,多种粒度指标和磁化率指标均表明,澄湖的形成具有河流、河流-湖泊过渡到湖泊的阶段性演化特点,为太湖平原湖荡区湖泊的河泛成因提供了新的证据,现代澄湖则明显受到人类活动的扰动影响. 相似文献
10.
《地震地质》2015,(4)
在雅鲁藏布江大峡谷入口河段,分布着多级含湖相沉积的阶地,在河床下还埋藏有巨厚的河湖相覆盖层。通过对阶地沉积和河床覆盖层浅部沉积物的光释光和14C测年,初步建立了河谷上部沉积的地层年代学框架,揭示出雅鲁藏布江大峡谷入口河段在末次盛冰期以来至少发育2期古堰塞湖(古堰塞湖Ⅰ,古堰塞湖Ⅱ),其沉积年龄分别为7~9ka、20~30ka,并形成2级连续的海拔高度分别为2906~2 956m、3100~3 060m的堆积阶地(T1,T2)。古堰塞湖的沉积时间与青藏高原地区末次冰期冰盛期和全新世早期低温事件相对应,推测是南迦巴瓦峰西坡的则隆弄冰川活动形成冰川堰塞坝堵塞河道的结果。古堰塞湖Ⅰ分布范围较小,在大渡卡—米瑞发育湖相沉积,湖尾大致在米林县城附近,沉积厚度5~8m。古堰塞湖Ⅱ发育范围较广,湖相沉积在大渡卡—卧龙均有出露,湖尾大致在朗县附近,最大沉积厚度超过100m。古堰塞湖Ⅱ被后期河流冲刷,可形成1~3级次级阶地。 相似文献
11.
The Late Quaternary history of the Caspian Sea remains controversial. One of the major disagreements in this debate concerns the stratigraphic correlation of various deposits in the Caspian Basin. In this paper we identify and date, for the first time, the Enotaevka regression, lying between the two major phases of the largest Late Quaternary Caspian Sea transgression, the Khvalynian transgressive epoch, and provide a minimum estimate of sea level decrease during this regression. The River Volga is the major source of water to the Caspian; the Lower Volga region is unique in its record of palaeogeographic events, and this provides the opportunity to build a single stratigraphic and palaeogeographic history for the Pleistocene of Central Eurasia. Here we use luminescence to establish a new chronology for the largest Late Quaternary transgressive epoch of the Caspian Sea. The existing radiocarbon chronology does not allow the resolution of the two transgressive phases of this epoch (Early and Late Khvalynian). Based on clear palaeontological and geomorphological evidence, these must be very different in age, but shells associated with both transgressions gave very scattered ages of between 8 and 50 ka. This ambiguity has led to considerable discussion concerning the existence or otherwise of a deep Enotaevka regression phase between the two Khvalynian transgressions. Recently we have again identified these deposits at Kosika, on the right valley side of the Volga River. The new luminescence chronology described here, based on quartz OSL and K-feldspar pIRIR290 ages, allows us to reconstruct the complicated history of Late Quaternary sedimentation in the southern part of the Lower Volga valley. The Kosika section reflects the following major stages: (1) the earlier Khazarian transgressive epoch; (2) a decrease in the sea level with the development of a freshwater lake/lagoon in the Volga valley; and (3) the Khvalynian transgressive-regressive epoch, including both the Early and Late Khvalynian transgressive periods, and the intercalated Enotaevka regression. Sea level during the early stage of the Khvalynian transgression reached Kosika at about 23–22 ka (approx. −1 to −2 m asl). This event is of the same age as the “grey clay” strata at the base of the Leninsk section marine unit (Kurbanov et al., 2021), also formed at the beginning of the Early Khvalynian transgression. Around 15–14 ka the Khvalynian basin moved to a regressive stage, and in the northern part of the Lower Volga the top part of the well-known ‘Chocolate Clay’ accumulated. In the southern part of the valley marine accumulation stopped at about 12–13 ka. This allows us to reconstruct a decrease in Early Khvalynian basin sea level between 15–14 ka and 13–12 ka ago, of about ∼15 m. At the Kosika section sediments derived from the Enotayevka regression are visible as a weakly developed palaeosol with evidence of surficial erosion, and these sediments are now dated to 13–12 ka. At 8.6 ± 0.5 ka, during the period of the Mangyshlak regression, aeolian deflation processes reworked sediments deposited by immediately preceding Late Khvalynian transgression. 相似文献
12.
Geomorphological investigations in the Russian Altai Mountains provide evidence for the extent and timing of Late Quaternary glaciations and aeolian sediments. Infrared optically stimulated luminescence (IR-OSL) and thermoluminescence (TL) dating of aeolian sediments from the central part of the Russian Altai were carried out on silty and sandy sediments that cover fluvial and glacio-fluvial terraces. Most samples from loess, loess-like sediments and sandy loess taken from different terrace sequences within the Altai Mountains provide IRSL ages suggesting a main aeolian deposition period between 25 and 15 ka. These data are consistent with those from the adjacent Mongolian Altai. Sand and silt layers within moraines yielded IRSL age estimates between 22 and 19 ka and correlate to the ice margins of the Last Glacial Maximum. Aeolian dune sands overlying or neighbouring the loess-like sediments and the fluvial terraces at some places provide evidence for Late Glacial (around 15 ka) and Early Holocene (around 9 ka) aeolian activity. The youngest sand sheets gave deposition ages of about 1.5 ka. These sediments covered graves and are related to overgrazing. They provide evidence for the significant human impact on the environment. Fluvial sediments, including silt and sandy gravel intermingled with charcoal, yielded contradicting radiocarbon and luminescence ages. IRSL age estimates obtained for the silty layers range from 19 to 18 ka and are significantly older than the radiocarbon ages, which gave sub-recent ages between 1170 and 910 BP. These data indicate fluvial sedimentation of debris and mudflows in a period of deforestation and strong soil erosion related to mining activities during the 9th and 10th century. 相似文献
13.
Certain details regarding the origin and evolution of shelf sand ridges remain elusive. Knowledge of their internal stratigraphy and microfossil distribution is necessary to define the origin and to determine the processes that modify sand ridges. Fourteen vibracores from False Cape Shoal A, a well-developed shoreface-attached sand ridge on the Virginia/North Carolina inner continental shelf, were examined to document the internal stratigraphy and benthic foraminiferal assemblages, as well as to reconstruct the depositional environments recorded in down-core sediments. Seven sedimentary and foraminiferal facies correspond to the following stratigraphic units: fossiliferous silt, barren sand, clay to sandy clay, laminated and bioturbated sand, poorly sorted massive sand, fine clean sand, and poorly sorted clay to gravel. The units represent a Pleistocene estuary and shoreface, a Holocene estuary, ebb tidal delta, modern shelf, modern shoreface, and swale fill, respectively. The succession of depositional environments reflects a Pleistocene sea-level highstand and subsequent regression followed by the Holocene transgression in which barrier island/spit systems formed along the Virginia/North Carolina inner shelf 5.2 ka and migrated landward and an ebb tidal delta that was deposited, reworked, and covered by shelf sand. 相似文献
14.
根据福州盆地2个钻孔地层放射性元素(铀、钍、钾)含量的变化特点,结合孢粉分析等结果,探讨了地层放射性元素含量变化与岩性、沉积环境的关系。沉积地层中的放射性元素含量与沉积物粒度、岩性等密切相关,在泥质沉积(如淤泥、黏土)中含量较高,在砂质沉积中较低,在砾石层中介于前两者之间。同时,放射性元素含量的高低还与古气候环境有关,温暖潮湿的环境放射性元素含量较高,凉爽干燥的环境含量较低 相似文献
15.
Fluvial to bay sequence stratigraphy and seismic facies of the Cretaceous to Paleogene successions in the MITI Sanriku‐oki well and the vicinities,the Sanriku‐oki forearc basin,northeast Japan 
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下载免费PDF全文 This paper describes the significant depositional setting information derived from well and seismic survey data for the Upper Cretaceous to Lower Eocene forearc basin sediments in the central part of the Sanriku‐oki basin, which is regarded as a key area for elucidating the plate tectonic history of the Northeast Japan Arc. According to the results of well facies analysis utilizing cores, well logs and borehole images, the major depositional environments were of braided and meandering fluvial environments with sporadically intercalated marine incursion beds. Seismic facies, reflection terminations and isopach information provide the actual spatial distributions of fluvial channel zones flowing in a north–south trending direction. The transgression and regression cycles indicate that the Upper Cretaceous to Lower Eocene successions can be divided into thirteen depositional sequences (Sequences SrCr‐0 to SrCr‐5, and SrPg‐1 to SrPg‐7). These depositional sequences demonstrate three types of stacking patterns: Types A to C, each of which shows a succession mainly comprising a meandering fluvial system, a braided fluvial system with minor meandering aspects in the upper part, and major marine incursion beds in the middle part, respectively, although all show an overall transgressive to regressive succession. The Type C marine incursion beds characteristically comprise bay center and tidal‐dominated bay margin facies. Basin‐transecting long seismic sections demonstrate a roll up structure on the trench slope break (TSB) side of the basin. These facts suggest that during the Cretaceous to Eocene periods, the studied fluvial‐dominated forearc basin was sheltered by the uplifted TSB. The selective occurrences of the Type C sequences suggest that when a longer‐scale transgression occurred, especially in Santonian and early Campanian periods, a large bay basin was developed, creating accommodation space, which induced the deposition of the Cretaceous Kuji Group along the arc‐side basin margin. 相似文献
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In this paper, two push moraine systems associated with two small subpolar glaciers, Finsterwalderbreen and Penckbreen, were investigated. This study showed that at these glaciers the push moraines were formed in association with surges, which produced a different style of moraine depending on the rheology of the deformed material and the glacial history. The moraines are similar in that they are formed by folded outwash sediments and contain little till. However, the forms of these moraines are very different. The Penckbreen moraine is composed of a lower shallow marine sand, silt and clay, and an upper fluvial sand and gravel. Deformation at this site led to the formation of large anticlines in the silts and clays, with disharmonic smaller folds and thrusts in the upper gravels, above a detachment surface between the fine-grained and overlying coarse-grained lithologies. This deformation decreases towards the foreland, with marine and fluvial sediments responding differently because of their different rheological properties. This moraine was formed during one surge event which occured during the early 19th century. In contrast, the Finsterwalderbreen moraine is composed of outwash sand and gravel, and was formed as the result of a series of surge events. These advances all reached a similar limit and occurred at regular intervals. © 1997 John Wiley & Sons, Ltd. 相似文献
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呼伦湖晚第四纪湖相地层沉积学及湖面波动历史 总被引:8,自引:3,他引:5
对内蒙古呼伦湖盆地扎赉诺尔地区晚第四纪湖泊沉积物进行了沉积学(沉积构造、结构、垂向层序等)和^14C年代地层学研究,并逐层识别出地层剖面的各种沉积相类型,包括开阔湖、近岸带、滨岸沙滩、滨岸沼泽和滨岸沙丘等不同类型沉积,依此恢复了30kaB.P.以来的湖泊演化和湖面波动历史。其中13 ̄11kaB.P.是湖面最高时期;10.9 ̄10.6kaB.P.的低湖面可能与新仙女木事件有关。 相似文献
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Holocene fluvial valley fill sources of atmospheric mineral dust in the Skeleton Coast,Namibia 下载免费PDF全文
下载免费PDF全文 Western Namibia is a significant global source of atmospheric mineral dust. We investigate the relationship between dust and source sediments, assessing the sustainability of dust flux. Remote sensing studies have highlighted specific ephemeral fluvial systems as important contributors to dust flux, including highlighting sections of valleys that are the origins of dust plumes in the period 2005–2008. Little is known however about the specific within‐valley dust sediment sources, particularly whether dust is derived from modern ephemeral channel floors or older valley fill sediments, many of which have been reported in the region. As part of a region‐wide analysis of aeolian dust flux, we investigate the sediment properties of atmospheric dust samples and valley sediments from the Huab valley, one of the principal regional dust sources. Trapped dust samples contain up to 88% very fine sand and silt when collected samples are disaggregated prior to analysis. Valley fill surface samples comprise 80% very fine sand and silt, and the surface of the modern ephemeral channel 30%. Valley fill sediments were sampled at depths up to 3.6 m below the present surface and reveal Holocene depositional ages from 0.6 ± 0.03 ka back to 9.79 ± 0.73 ka. These sediments contain 30% to 6% very fine sand and silt, with levels decreasing with depth and age. Aeolian bedforms in the valley system (nebkhas on the fill surface and climbing dunes on valley margins) indicate that aeolian processes under the influence of strong seasonal easterly winds likely result in dust being winnowed out of the valley fill surfaces, with sandy bedforms being constructed from the coarser component of the fill sediments. The volume of valley fill sediment suggests dust sourced from Holocene sediments is likely to continue into the future regardless of flow conditions in the modern channel system. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献