The fauna and chemical composition of some athalassic saline waters in New Zealand     

I. A. E. Bayly 《新西兰海洋与淡水研究杂志》2013,47(2):105-117

The fauna and chemical composition of two athalassic saline waters located near central Otago are discussed, and available rainfall and evaporation data for the region summarised. One water (dominated by Na and C1) had a salinity of 15‰ and contained the rotifer Brachionus plicatilis, the copepod Microcyclops monacanthus, the ostracod Diacypris, and larvae of the dipteran Ephydrella The second water (dominated by Na and HCO₃) had a salinity of 6‰ and contained larvae of Ephydrella (adults of E. novaezealandiae occurred on the shore), and the hemipterans Sigara arguta, Anisops wakefieldi and Anisops assimilis The relationship between Microcyclops monacanthus and M. arnaudi (an Australian species), and the basis of their current taxonomic separation is discussed in some detail.

At a minimum, the faunas of Australian and New Zealand athalassic saline waters have in common the following distinctive (non‐cosmopolitan) forms: Ephydrella, Diacypris, and two closely related halobiont species of Microcyclops  相似文献   

西藏札达盆地上新世—早更新世气候变迁与湖泊演化     

韩建恩  余佳  朱大岗  孟宪刚  邵兆刚  杨朝斌 《地质力学学报》2011,17(4):361-372

通过孢粉组合分析, 结合河湖相地层岩性特征和古地磁及电子自旋共振(ESR)法年龄测定结果, 探讨了西藏札达盆地上新世—早更新世的古气候变迁与札达古湖泊演化的关系.研究表明, 札达盆地古湖泊演化可划分为早(湖泊形成期)、中(稳定发展期)、晚(湖泊消亡期)三期.早期(距今5.41~4.40 Ma), 札达盆地为温凉而干旱的疏林草原植被气候, 随后转变为温暖稍湿的森林草原植被气候, 最后转变为温暖潮湿的亚热带针阔叶混交林气候, 这一时期古湖开始形成; 中期(距今4.40~2.57 Ma), 古气候进入寒温期, 古植被表现为先由暖温带针阔叶混交林带向山地寒温带暗针叶林带过渡, 再由山地暖温带针阔叶混交林→山地寒温带暗针叶林交替出现的过程, 古湖泊进入发育期; 晚期(距今2.57~1.36 Ma), 湖区古气候环境进入寒冷期, 古植被为山地寒温带暗针叶林→山地暗针叶林向低矮灌木→干冷草原的变化, 古湖泊进入消亡阶段.古湖泊演化与古植被、古气候演变有很好的相关性, 高原隆升控制了古气候环境的变化, 进而影响湖泊水量的变化.   相似文献   

太行山南缘晚更新世以来河流阶地的发育及其新构造运动意义     

张蕾  张绪教  武法东  何泽新  田珺  于航  王春林  刘江红 《现代地质》2013,27(4):791-798

太行山南缘的武家湾河流经太行山与华北平原两大地貌单元的过渡地带,较太行山内部其他水系对新构造运动的响应更为敏感,能较好地记录区域地壳抬升历史。以武家湾河下游平甸河为研究重点,通过野外河流阶地级序及沉积特征的调查并结合光释光（OSL）测年结果,厘定了平甸河4级河流阶地,T4、T3、T2及T1阶地河拔高度分别为61～96 m、35～54 m、19～43 m、3～5 m,分别形成于974 kaBP、739 kaBP、483 kaBP、23 kaBP,根据对阶地成因的探讨,认为T4、T3、T2阶地为构造阶地,T1阶地为气候阶地,阶地资料揭示晚更新世（Qp3）太行山南缘经历3次间歇性构造抬升后至少隆升了90 m: 第一次抬升26～42 m、抬升速率111～179 mm/a,第二次抬升11～27 m、抬升速率043～105 mm/a,第三次抬升16～39 m、抬升速率035～085 mm/a。本研究为河流阶地对新构造运动的响应研究提供了实际材料,对晚更新世太行山的形成及演化研究具有较重要的参考价值。  相似文献   

福建漳浦前湖湾晚更新世的孢粉组合及其古环境意义     

吴彩容  刘剑秋  王绍鸿  俞鸣同 《福建地理》2008,(1):1-7

从孢粉角度对漳浦前湖湾古森林遗迹分布区所在的剖面QHP和钻孔QHZ～1的第四纪沉积物进行系统的分析．经过孢粉种属鉴定、孢粉浓度的统计,木本、草本、蕨类、藻类以及各科属孢粉百分比的不同,划分出7个孢粉组合带,剖面QHP自下而上为组合带Ⅲ、Ⅱ、Ⅰ,其中组合带Ⅲ推知属晚更新世的中期产物,组合带Ⅱ属晚更新世中期接近晚期的产物,组合带Ⅰ属晚更新世晚期的产物;钻孔QHZ-1自下而上为组合带Ⅳ、Ⅲ、Ⅱ、Ⅰ,其中组合带Ⅳ推知属晚更新世的早期的产物,组合带Ⅲ是一过渡层,组合带Ⅱ推知属晚更新世的中期的产物,组合带Ⅰ推知属晚更新世晚期的产物,而组合带Ⅰ以上的层位是全新世以来的产物．结合^14C测年和沉积地层岩性等资料,得出该地区晚更新世以来沉积环境及其古气候演化的4次变迁过程：晚更新世早期的寒冷干燥;晚更新世中期的温和热湿,期间发生2次明显的海侵事件;晚更新世晚期过渡到全新世的冷暖干湿的动荡期;全新世以来与现代气候较为接近的气候．  相似文献   

The eastern extent of the Barents–Kara ice sheet during the Last Glacial Maximum based on seismic-reflection data from the eastern Kara Sea     

Leonid Polyak  Frank Niessen  Valery Gataullin  & Valery Gainanov 《Polar research》2008,27(2):162-174

We present sub-bottom profiling (sparker and Parasound) results from the eastern Kara Sea, on the Eurasian Arctic margin, which enable the identification of the Last Glacial Maximum (LGM) ice extent. The analysed profiles show that glacigenic diamicton is ubiquitous at the seafloor, east of about 95°E and 78°N. The eastern margin of this diamicton is expressed in a conspicuous morainic ridge at the entrance to the Vilkitsky Strait, and to the south the diamicton projection aligns with the LGM limit mapped at the north-western Taymyr. The bottom of the Voronin Trough further north is also covered with diamicton and has numerous erosional bedforms, indicating a streamlined flow of grounded ice along the trough. Accurate dating of the diamicton is not attainable, but the correlation of pre-diamict sediments to well-dated sections in the Laptev Sea, and available ¹⁴C ages from sediments on top of the diamicton, indicate its LGM age. These results support the palaeogeographic reconstruction that assumes the extension of the LGM Barents–Kara ice sheet as far east as Taymyr. This configuration implies that LGM ice blocked the drainage of the Ob and Yenisey rivers on the Kara shelf. This inference is consistent with the presence of large (>100 km wide) lenses of basin infill adjacent to the southern margin of the diamicton. However, the limited distribution of the eastern Kara ice lobe, not extending on Severnaya Zemlya, suggests that the ice was fairly thin and short-lived: insufficient for the accumulation of the gigantic proglacial lakes that occurred during earlier glaciations.  相似文献   

Vegetation cycles in a disturbed sequence around the Cobb-Mountain subchron in Catalonia (Spain)   总被引：1，自引：0，他引：1  

Suzanne A. G. Leroy 《Journal of Paleolimnology》2008,40(3):851-868

  相似文献   

Integration of reflection seismic and sediment grain-size data from Lake Khubsugul (Northern Mongolia): a reply to Prokopenko and Kendall   总被引：1，自引：0，他引：1  

A. P. Fedotov  M. De Batist 《Journal of Paleolimnology》2008,40(4):1193-1199

Prokopenko and Kendall (J Paleolimnol doi:, 2008) criticise the work presented in Fedotov et al. (J Paleolimnol 39:335–348, 2008), and instead propose an alternative interpretation for the grain-size evolution recorded in the KDP-01 core, retrieved from the central part of Lake Khubsugul. Their interpretation is based (i) on a seismic-stratigraphic re-interpretation of sparker seismic profile khub012 (which they copied from Fedotov et al. (EOS Trans 87:246–250, 2006)), (ii) on the presupposition that changes in lake level are the dominant control on facies distribution in Lake Khubsugul, and (iii) on the invalidation of our age-depth model. In this reply to their comment, we demonstrate that they interpreted seismic artefacts and geometries caused by changes in profile orientation as true stratigraphic features and that the lake-level reconstruction they derive from this interpretation is therefore incorrect. We also demonstrate that their grain-size predictions, which they consider to be predominantly driven by changes in lake level, are inconsistent with the measured sulphate concentration, which is a demonstrated proxy of lake level in Lake Khubsugul, and with the measured grain-size record. Finally, we point out that even if there would be a problem with the age-depth model, this problem would not affect the part of the sedimentary sequence discussed in Fedotov et al. (J Paleolimnol 39:335–348, 2008).  相似文献   

Paleoenvironments of the evolving Pliocene to early Pleistocene foreland basin in northwestern Taiwan: An example from the Dahan River section          下载免费PDF全文

Tsun‐You Pan  Andrew Tien‐Shun Lin  Wen‐Rong Chi 《Island Arc》2015,24(3):317-341

The overriding of the Luzon volcanic arc atop the underlying Chinese rifted‐continental margin has caused the formation of the Taiwan mountain belts and a peripheral foreland basin west of the orogen since the late Miocene. In this study, lithofacies analysis and calcareous nannofossil biostratigraphic investigations of the Dahan River section in northwestern (NW) Taiwan were performed. Our results offer insights into the temporal evolution of the sedimentary environments and the competing effects of the sedimentation and basin tectonics of the NW Taiwan foreland basin from the Pliocene to early Pleistocene. Nannofossil biostratigraphic studies showed that the upper Kueichulin Formation and the overlying Chinshui Shale can be assigned to the NN15 biozone of the Pliocene age, and the Cholan Formation pertains to NN16–NN18 of the early Pleistocene. The NN15–NN16 boundary coincides roughly with the boundary of the Chinshui Shale and Cholan Formation. We recognized three major sedimentary environments in the studied foreland succession comprising the upper Kueichulin Formation, Chinshui Shale, Cholan Formation and Yangmei Formation, in ascending order. During the deposition of the upper Kueichulin Formation in the early Pliocene, the dominant environment was a wave‐ and tide‐influenced open marine setting. During the late Pliocene, the environment deepened to an outer‐offshore setting when the sediments of Chinshui Shale were accumulated. In the Pleistocene, the environment then shallowed to wave‐dominated estuaries during the deposition of the lower Cholan Formation, and the basin was rapidly filled, generating a meandering and sandy braided river environment during the deposition of the upper Cholan to the Yangmei Formation. In summary, the evolution of sedimentary environments in the studied succession shows a deepening then a shallowing and coarsening upward trend during the period from the Pliocene to the Pleistocene, spanning the age from approximately 4 to 1 Ma.  相似文献   

Amino acid geochronology of gastropod-bearing Pleistocene units in Illinois,central USA     

《Quaternary Geochronology》2015

  相似文献   

Dating Pleistocene deltaic deposits using in-situ 26Al and 10Be cosmogenic nuclides     

《Quaternary Geochronology》2015

The present study aims at testing the possibility of using the in-situ cosmogenic burial dating technique on deltaic deposits. The sequence analyzed is exposed along the Ligurian coast (north-west Italy) and is made of proximal marine and continental deposits previously considered Pliocene or Plio-Quaternary in age. In the study area two allostratigraphic units were recognized. The lower unit represents the evolution of a small coarse-grained delta developed in a fjord or embayment environment. The coarsening/shallowing upward trend observed within the sections, from bottom to top, suggests that the delta prograded rapidly in the landward portion of the canyon placed opposite to the paleo-river outlet. Within the deltaic sequence the transgressive and highstand system tracts were recognized. The unit 2 is composed by several alluvial fan systems deposited in small incised valleys developed within the previously, uplifted deltaic deposits and successively incised by a braided river system. In-situ produced cosmogenic nuclides were used in order to date the age of the deposition of the deltaic deposits. Results suggest that the studied deltaic sediments belonging to the unit 1 were deposited between 1,300,000 and 200,000 year ago thus during the Lower to Middle Pleistocene, whereas the unit 2 was deposited during the Middle Pleistocene as a consequence of a tectonically driven uplift phase. Furthermore samples collected within the prograding part of the delta show the higher denudation rates. The obtained results demonstrate that burial ages and related erosion rates inferred from cosmogenic nuclides concentrations can be considered as a very useful tool to reconstruct the sea level changes over the past 1 million year.  相似文献