内蒙古达里湖全新世有机碳氮同位素记录与环境演变

内蒙古中东部的达里湖为一水文封闭型湖泊,位于现今东亚夏季风的北部边缘区,对区域环境变化十分敏感.本文对达里湖沉积中心提取的岩芯(DL04沉积岩芯)顶部8.5m沉积物进行了有机地球化学分析.15个全岩样品有机质的放射性碳测年结果表明:岩芯顶部8.5m涵盖了过去大约11500年.按约50年分辨率分析的225个总有机碳(TOC)、总氮(TN)含量、总有机碳/总氮(C/N)原子比值数据以及221个有机碳和有机氮稳定同位素(δ13C和δ13C)数据,详细揭示了全新世东亚夏季风边缘区的水文和生态变化历史.在距今11500 ～ 9800日历年(ca1.aB.P.)期间,所有地球化学指标均呈逐渐增大趋势,指示入湖河流逐渐增强,达里湖开始扩张,水生植物生产率逐渐升高;在9800 ～ 7700cal.aB.P.期间,TOC和TN含量以及C/N比值维持稳定高值,δ13C和δ15N值较小,指示湖泊维持高湖面状态,陆源输入和浮游植物生产率较高;在7700～ 5900cal.aB.P.期间,C/N比值和δ15N维持低值,TOC和TN含量呈现更高值,并且波动变化,δ13C值逐渐增大,表明湖面维持高水平,湖水显著变暖,浮游植物生产率显著升高,流域植被大幅度扩张;在5900 ～ 4850cal.aB.P.期间,TOC和TN含量,C/N比值以及δ13C值显著减小,δ15N值显著增大,暗示地表径流显著减弱,达里湖湖面显著下降,湖泊生产率快速下降;从4850cal.a B.P.开始,TOC和TN含量以及C/N比值呈逐渐减小趋势,δ13C和δ15N值呈逐渐增大趋势,表明湖面逐渐下降,湖水盐度、碱度升高,湖水可能变冷,湖泊生产率逐渐下降,流域植被收缩.全新世东亚夏季风边缘区水文和生态环境的变化可能直接或间接受北半球夏季太阳辐射量和区域季风降水强度的共同控制.     

达里湖沉积粒度组分-湖面状况定量模型

湖泊碎屑沉积物的粒度分布可以提供与区域气候变化相关的湖泊水文变化信息。然而, 由于湖泊沉积物多峰分布固有的复杂性, 其粒度组分成因的解释仍存在很大的不确定性。本文利用对数正态分布函数对内蒙古达里湖36个表层沉积物样品的粒度组分进行了分离, 并探讨了各组分特性与特定沉积环境(包括每个采样点位的离岸距离和水深)之间的关系。结果表明, 达里湖现代碎屑沉积物包含5个截然不同的单峰粒度分布, 分别代表5个不同的粒度组分。虽然其相对百分含量随湖泊水动力条件而变化, 但每个组分均保留着各自的众数粒径、搬运方式、沉积环境等特性。这些组分自细而粗可分为: 长期悬移粘土组分、离岸带悬移细粉砂组分、离岸带悬移中粗粉砂组分、近岸带悬移细砂组分、近岸带跃移中砂组分。近岸带环境两个组分的百分含量与现今湖泊水深呈负相关, 揭示出沉积岩芯近岸带组分与地质历史时期湖面状况相关联的数值模型。该模型在达里湖沉积岩芯中的应用显示, 近岸带组分百分含量增加与同岩芯孢粉序列重建的区域降水减少相对应。两种独立的代用指标在时间上的一致性, 不仅展示了对数正态分布函数分离多峰沉积物的有效性, 而且揭示出利用粒度组分-湖面状况模型重建湖泊古水文的潜力。     

青藏高原腹地班德湖记录的全新世夏季风变化与流域环境响应

青藏高原作为地球"第三极", 对全球气候变化响应敏感。在季风与西风协同作用下, 青藏高原在过去数千年中的年代际、百年时间尺度上存在南北相反的气候变化格局; 但受限于青藏高原腹地缺少年代可靠的全新世高分辨率气候记录, 千年时间尺度高原南北气候变化模态异同仍不明晰, 更无从得知高原腹地湖泊及其流域的生态环境对气候变化的响应过程。本研究聚焦高原腹地沱沱河上游的开放湖泊班德湖(34.239°N, 92.099°E; 4583m a.s.l), 基于长115cm的BDH19A沉积物岩芯的植物残体AMS 14C年代建立了可靠的年代框架, 通过粒度、元素、矿物、自生碳酸盐及其碳、氧同位素、有机质含量和正构烷烃等多指标, 重建了过去10ka以来青藏高原中部的气候变化与生态环境响应过程。结果显示, 青藏高原腹地在全新世以来表现出北半球夏季太阳辐射控制下夏季风降水逐渐减少的季风模式, 导致流域和湖泊生产力持续降低, 区域风沙活动整体增强。在千年时间尺度上, 10~8.7ka高原中部夏季风降水量最大, 加之可能由于植物覆盖度较高, 流域径流侵蚀减弱, 风沙活动减少; 7.7~5.2ka和4~2ka夏季风降水维持高值, 入湖径流增加, 促进流域和湖泊生物生产力提高, 风沙活动受到抑制; 相反, 8.7~7.7ka、5.2~4ka和2ka以来高原中部风沙活动的加剧是对亚洲夏季风快速衰退的响应, 当前班德湖流域风沙环境是过去2ka干旱风沙环境的延续与加剧。     

黄土高原东南部黄土记录的全新世东亚季风变化

在全球变暖背景下,未来东亚季风的变化一直备受关注,而东亚季风演化规律的研究能够为未来的预测提供重要基础。黄土-古土壤序列几乎连续地记录了古东亚季风变化的信息,本文选取黄土高原东南部的荥阳、偃师、灵宝、吉县、丁村五个剖面进行磁化率和古风化强度分析,重建了黄土高原东南部两万年以来的东亚夏季风演化历史: 18～12 ka B. P.,季风强度较弱; 12～10 ka B. P.,季风强度显著增强; 10～6 ka B. P.,季风强度最强; 6 ka B. P.以后季风强度逐渐减弱。对比发现黄土高原东南缘全新世东亚夏季风的演化与东亚季风区不同纬度代表性记录基本同步,没有显著的区域性差别; 东亚夏季风变化主要受控于北半球低纬太阳辐射,但存在明显滞后。同时发现全新世古土壤磁化率与古风化强度峰值在地层中的位置往往不一致,在风化较强的地区,古风化强度最大值位置偏下,两个指标相比,古风化强度能够更客观地反映东亚夏季风强度。      

内蒙古中东部达里湖湖岸堤记录的12.5 cal ka BP以来湖面波动过程*

内蒙古中东部位于东亚夏季风过渡区,对气候变化响应敏感。广泛发育的湖泊沉积物提供了全新世以来的环境变化的理想材料。湖岸沉积物直接记录的古水位,与高分辨率的湖心钻孔记录相结合,有助于全面认识古气候的变化历史和湖面波动的定量重建。运用AMS¹⁴C测年和GPS、DEM及1︰5万地形图等相结合的方法确定了达里湖北侧湖岸堤的年代和高程,并结合湖岸堤剖面的沉积序列指示的湖面变化过程,重建了12.5 cal ka BP以来达里湖的波动历史。12.5 cal ka BP,达里湖湖面海拔高度约为1253,m,至12.3 cal ka BP湖面经历短暂上升,至海拔1266,m左右;之后湖面下降,至全新世早期(11.2 cal ka BP),水位降至1254,m左右;随后湖面开始逐步上升,10.7 cal ka BP湖面水位稳定在1274,m左右;全新世中期湖面继续上升至某一高度(至少在1291,m)后,于全新世晚期4.8 calka BP 湖面高度降至1279,m,并于4.6 cal ka BP湖面继续下降至1275,m的高度。通过对比湖心钻孔记录的湖泊波动历史以及区域湖泊沉积记录,认为达里湖的水位波动受东亚季风活动的影响,具有区域的一致性。达里湖的水位变化较区域内的其他湖泊更为强烈,认为除了受区域气候变化的影响外,达里湖全新世晚期的湖面下降可能还与区域内强烈的构造活动和西拉木伦河溯源侵蚀导致区域水系的改变有关。     

南海北部陆坡沉积记录的全新世早期夏季风极强事件

在AMS14C精确定年的基础上,通过南海北部MD05-2905站高分辨率的氧同位素、粒度、元素分析,其结果显示所有指标均在11.2～8.5kaB.P.期间发生异常,根据夏季风指标认为这是夏季风极强事件。将本站位相同纬度（20°N）的夏季平均日辐射量与季风指标进行对比,发现全新世早期（11.2～8.5kaB.P.）东亚夏季风极强事件对应着夏季太阳辐射量最大值和热带辐合带（ITCZ）的位置向北移动,说明全新世早期夏季风突然增强可能是在岁差周期控制下,较高的太阳辐射量驱动了热带辐合带（ITCZ）及其有关的雨场向北移动,在南海北部产生了大量的降水,导致氧同位素偏负、碳酸盐的含量较低以及线性沉积速率较高。这与前人对相邻地区湖光岩玛珥湖的孢粉研究、江西南岭地区泥炭的记录以及中国南方石笋记录的研究结果相吻合。该季风最强事件与阿拉伯海发现的早全新世季风最强事件以及根据格陵兰冰芯记录的早全新世甲烷最大值推测低纬地区湿地扩张相一致,这反映了南海北部全新世早期与全球低纬地区早全新世气候变化格局一致。     

全新世以来江苏固城湖沉积模式初探

在江苏固城湖湖心采集了连续岩芯,进行了137 Cs, 210 Pb, 14 C和光释光分析以研究全新世以来固城湖湖泊沉积年代序列,同时进行了粒度、有机质、总氮以及元素的分析,以辅助研究固城湖的沉积模式。137 Cs和210 Pb的分析表明,固城湖百年来的沉积是持续的,近20年平均沉积速率约在0.066cm/a。从0.5m深度到1.78m深度的AMS 14 C的树轮校正年龄在8000~6500BC之间,而光释光数据表明同等深度其绝对年龄在7~8ka之间。AMS 14 C的校正年龄与光释光年龄结果有较好的一致性。从多环境代用指标的剖面来看,在钻孔30cm深度出现了大的转折。结合现代沉积物平均沉积速率及对比历史文献得出上部30cm岩芯代表了约450年以来的沉积,这与公元1556年下坝的建成使得固城湖彻底与太湖隔绝时间相符。因此,固城湖地区可能的沉积模式是固城湖彻底与太湖隔绝后才出现持续沉积,在此之前一段时间内沉积物由于侵蚀或者人类活动如围垦导致缺失,而在约6~8ka之间沉积速率比较高。     

我国季风边缘区湖泊沉积记录的全新世亚洲夏季风衰退事件

亚洲夏季风是全球季风系统的重要组成部分,亚洲夏季风的变化对其控制区域自然生态系统的多样性和生态平衡,以及社会经济发展有重要的影响。本文选择位于现代亚洲夏季风边缘区对季风变化响应敏感的湖泊达连海为研究对象,基于陆生植物残体和全有机质的AMS ¹⁴C定年建立了钻孔顶部24.6 m沉积物的年代框架,利用粒度指标重建了全新世研究区水文变化过程以及亚洲夏季风衰退事件序列。结果显示,沉积物中存在数层砂层,代表了湖泊低水位时期,进而指示了亚洲夏季风衰退事件。这些事件处在11.6~11.3 cal.ka B.P.、10.4~9.5 cal.ka B.P.、6.4~6.0 cal.ka B.P.、4.6~4.4 cal.ka B.P.、3.7~3.4 cal.ka B.P.、3.1~2.9 cal.ka B.P.以及2.0~0.9 cal.ka B.P.,可以发现中晚全新世以来亚洲夏季风衰退事件发生的频率显著增加。进一步与北半球高纬地区与低纬地区的气候突变事件记录对比显示,全新世百年-千年时间尺度上亚洲夏季风强度的变化与低纬ENSO活动存在密切的联系。

     

滇西北格贡错那卡湖沉积记录揭示的晚全新世气候变化

云南省西北部高山湖泊格贡错那卡湖（海拔4214 m）地处西南季风区,对气候变化十分敏感。文章以在格贡错那卡湖湖心钻取的1.84 m长的沉积岩芯为研究对象,对粒度、磁化率和总有机碳（TOC）含量等环境指标进行了高分辨率的分析,在精确测年的基础上（²¹⁰Pb测年结合陆生植物残体的AMS ¹⁴C测年建立年代序列）,重建了研究区距今约3570年来的气候与环境变化。结果表明,格贡错那卡湖所在地区近3570年来的气候与环境变化经历了5个较明显的演化阶段：1）在3570~3490 cal.a B.P.期间,气候明显降温、减湿;2）3490~1710 cal.a B.P.期间,气候总体偏冷、较干,其中3490~2860 cal.a B.P.期间气候处于较稳定的最冷干时期,随后在2860~1710 cal.a B.P.期间气候波动地有所增温、增湿;3）1710~930 cal.a B.P.（即240~1020A.D.）期间,为较稳定的暖湿期,年均温较高,温差较小;4）930~80 cal.a B.P.（即1020~1870A.D.）期间,气候总体偏冷较湿,但存在多次短暂变暖;降水总量或冰雪融水可能有所减少,但降水强度或冰雪融水强度变化较大;5）自80 cal.a B.P.（即1870 A.D.）以来,温度明显增加,可能是过去3570年以来温度最高的时期;降水有所减少,气候总体为暖偏湿。该气候特征与相邻地区泸沽湖的乔木花粉含量反映的气候变化非常一致,揭示了研究区气候变化的区域性。

     

黑龙江五大连池火山口湖沉积物有机残体粒度记录的早全新世千百年尺度夏季风降水演化

目前已在我国大量地质记录中发现全新世早期的千百年尺度气候事件,但较高纬度地区相应的记录仍较少。因此,有必要在我国较高纬度地区进行千百年尺度气候事件的重建。本文对五大连池火山口湖沉积物进行研究,以精确的14C年代框架为基础,对沉积物(未去除有机残体)粒度数据进行粒级-标准偏差分析,提取了83μm敏感粒级,发现该粒级主要成分为有机残体,其粒度和含量可作为夏季风降水代用指标,进而利用该组分重建了我国东北地区早全新世夏季风降水演化历史。结果表明,我国东北地区早全新世季风降水频繁波动,存在~8.6 ka,9.2 ka,10.2 ka和11.6 ka四次千百年尺度显著弱夏季风事件。在年代误差范围内,四次弱夏季风事件与我国季风区其他气候记录、北大西洋冰筏沉积及太阳活动记录在时间上均有较好的一致性,指示早全新世千百年尺度干旱事件在我国季风区普遍存在,且与北大西洋浮冰事件及太阳活动密切相关。但五大连池火山口湖有机残体粒度记录的四次千百年尺度弱夏季风事件持续时间明显短于其他气候记录中的相应事件,初步推测为北大西洋浮冰事件通过影响热带季风进而影响较高纬度地区,季风信号从低纬传输至高纬变弱,致使事件持续时间明显缩短。     

Holocene Vegetation and Climate Changes in the Huangqihai Lake Region, Inner Mongolia

A consensus on Holocene climate variability at the modern northern fringe of the East Asian summer monsoon (EASM) region remains elusive. Here, we present a pollen-based reconstruction of vegetation history and associated climate variations of a sediment core from Huangqihai Lake, central Inner Mongolia. During 10.7 to 8.8 cal kaBP, typical steppe with small patches of forest dominated the lake area, suggesting a moderately wet climate, followed by ameliorating climatic conditions until 8.0 cal kaBP as deduced by the expansion of forest. Typical steppe recovered the lake area between 8.0 and 7.2 cal kaBP, reflecting a deterioration of climatic conditions; in combination with other proxy records in the study region, we noticed that severe aridity was prevailed in the lake area between 8.0 and 7.6 cal kaBP. During 7.2 to 3.2 cal kaBP, abundant tree pollen indicated dominance of forest-steppe around the lake, marking regionally wet conditions. A notable absence of broadleaved trees after 5.2 cal kaBP reveals a slight drying trend, and climate deterioration from 4.5 to 4.1 cal kaBP might be linked to the 4.2 ka event. After 3.2 cal kaBP, a transition to steppe was associated with dry conditions in the region. Based on our pollen record and prior paleoclimatic reconstructions in the Huangqihai Lake region, there was a generally-accepted, stepwise shift to a wet climate during the early Holocene, an overall humid climate from 7.2 to 3.2 cal kaBP, and then severe drought for the rest of the Holocene. Moreover, regional comparisons among pollen records derived from lakes situated in the temperate steppe region suggested a roughly synchronous pattern of vegetation and climate changes during the Holocene and demonstrated an intensified EASM during the middle Holocene.     

Holocene climate changes in the mid-high-latitude-monsoon margin reflected by the pollen record from Hulun Lake, northeastern Inner Mongolia

Pollen-assemblage data from a sediment core from Hulun Lake in northeastern Inner Mongolia describe the changes in the vegetation and climate of the East Asian monsoon margin during the Holocene. Dry steppe dominated the lake basin from ca. 11,000 to 8000 cal yr BP, suggesting a warm and dry climate. Grasses and birch forests expanded 8000 to 6400 cal yr BP, implying a remarkable increase in the monsoon precipitation. From 6400 to 4400 cal yr BP, the climate became cooler and drier. Chenopodiaceae dominated the interval from 4400 to 3350 cal yr BP, marking extremely dry condition. Artemisia recovered 3350-2050 cal yr BP, denoting an amelioration of climatic conditions. Both temperature and precipitation decreased 2050 to 1000 cal yr BP as indicated by decreased Artemisia and the development of pine forests. During the last 1000 yr, human activities might have had a significant influence on the environment of the lake region. We suggest that the East Asian summer monsoon did not become intensified until 8000 cal yr BP due to the existence of remnant ice sheets in the Northern Hemisphere. Changes in the monsoon precipitation on millennial to centennial scales would be related to ocean-atmosphere interactions in the tropical Pacific.     

Heinrich events recorded in a loess-paleosol sequence from Hexigten,Inner Mongolia

We describe the last glaciation climatic history Marine Isotope Stage(MIS, 2-4) from 66.7 ka to 14.5 ka in Hexigten, northeast Inner Mongolia, North China. The climate of the region experienced frequent and significant fluctuations between dry-cold and less dry-cold during the late MIS4. The climate was generally warm and humid during early MIS3(MIS3 c) and late MIS3(MIS3 a), whereas it was cold and dry in middle MIS3(MIS3 b) and during MIS2. In this study, the cold and dry conditions were correlated with a stronger East Asian winter monsoon and strong dune activity; whereas, warm and humid conditions were related to a stronger East Asian summer monsoon(EASM) and weak dune activity. This study establishes six distinct dry and cold intervals during the last glacial period(66.7-14.5 ka) based on optically stimulated luminescence data, multi-proxies record(magnetic susceptibility, grain size analysis, Rb/Sr, SiO2/TiO2) and chemical index of alteration(CIA). The last glacial period may be correlated with Heinrich events 1 to 6 which were further confirmed by comparison with the Hulu cave stalagmites and Greenland ice core records. It is concluded that the study area was substantially affected by the EASM, as compared with the loess-desert transition zone of the Chinese Loess Plateau, especially in MIS3 c and suggested that the East Asian monsoon played a pivotal role in the last glacial period climate and dune activity.     

Holocene East Asian monsoon variation inferred from species assemblage and shell chemistry of the ostracodes from Hulun Lake, Inner Mongolia

A sediment core from Hulun Lake, Inner Mongolia was analyzed for species assemblages and shell chemistry of ostracodes to investigate changes in the hydrology and climate of the East Asian summer monsoon margin during the Holocene. Darwinula stevensoni was abundant, Ilyocypris spp. scarce, littoral ostracodes absent and Mg/Ca, Sr/Ca and δ¹⁸O were low 11,100 to 8300 yr ago, indicating high lake levels and cool/fresh waters. Darwinula stevensoni declined largely, Ilyocypris spp. throve, littoral ostracodes were rare and chemical indicators remained in low values 8300 to 6200 yr ago, suggesting that the lake continued high stands but water became warm. The lake then contracted and water became cool/brackish 6200 to 4300 yr ago. Littoral ostracodes flourished 4300 to 3350 yr ago, marking the lowest lake levels of the entire Holocene. The lake level recovered and water salinity decreased 3350 to 1900 yr ago. From 1900 to 500 yr ago, the lake maintained the preceding status albeit lowered stands and increased salinities 1100 to 800 yr ago. During the recent 500 yr, the lake expanded and water salinity decreased. The data imply that the East Asian summer monsoon did not intensify until 8300 yr ago and weakened dramatically 4300 to 3350 yr ago.     

Beach ridges of Dali Lake in Inner Mongolia reveal precipitation variation during the Holocene

Variability in East Asian summer monsoon precipitation during the Holocene remains of debate. In this study, we use a closed lake with well-dated lake beach ridges located on the margin of the East Asian summer monsoon, a region highly sensitive to monsoon precipitation changes, to obtain a temporal sequence of water volume in North China. The elevation of each beach ridge calibrated to the modern lake level was surveyed. Optically stimulated luminescence dating of undisturbed sediments of beach ridges was performed. The lake area and water volume corresponding to each beach ridge were calculated using a digital elevation model. This study reveals relatively reduced monsoon precipitation from ~12 to 7 ka interrupted by strengthening of the monsoon circulation to a maximum from ~7 to ~5 ka and followed by greatly reduced monsoon intensity until the present day. These results demonstrate that changes in the East Asian summer monsoon precipitation may not be directly driven by global temperature or atmospheric CO₂ content. Rather, we suggest that variation in the the monsoon margin precipitation is probably mainly driven by ice volume and subordinately by the summer solar insolation difference between mid-latitude land and low-latitude ocean.     

末次冰消期以来赛里木湖沉积记录的气候突变

末次冰消期以来的气候突变事件的时空变化特征及其区域响应是古气候环境变化研究的重要内容,然而亚洲中部干旱区末次冰消期以来的气候突变记录较少,尤其缺少末次冰消期期间快速转暖过程的区域响应。本研究通过对位于亚洲中部干旱区的新疆西天山中部亚高山湖泊赛里木湖湖心采得的长300 cm的SLM2009钻孔沉积物的碳酸盐含量和粒度变化特征的分析,在14个AMS¹⁴C测年数据的基础上,探讨了末次冰消期约23.4 cal.ka B.P.以来亚洲中部干旱区的气候突变事件记录及其区域响应过程。结果表明：赛里木湖湖心钻孔沉积物完整记录了H1（17.5~15.2 cal.ka B.P.）、YD（12.6~11.7 cal.ka B.P.）冷事件以及B-A（15.2~12.9 cal.ka B.P.）暖事件等末次冰消期气候突变事件以及全新世以来的10.5 ka、8.2 ka、5.5 ka、4.2 ka、2.8 ka和小冰期冷事件,这与亚洲中部干旱区已有的气候突变事件记录相吻合,表明末次冰消期以来亚洲中部干旱区具有相似的气候突变演化模式。同时这些气候突变事件与高纬冰芯以及低纬石笋氧同位素记录的一致性则表明气候突变具有全球性影响,受相同的成因机制因素控制。

     

Reconstruction of climate and vegetation changes of Lake Bayanchagan (Inner Mongolia): Holocene variability of the East Asian monsoon

A high-resolution pollen and Pediastrum record, spanning 12,500 yr, is presented for Lake Bayanchagan (115.21°E, 41.65°N, and 1355 m a.s.l.), southern Inner Mongolia. Individual pollen taxa (PT-MAT) and the PFT affinity scores (PFT-MAT) were used for quantitative climatic reconstruction from pollen and algal data. Both techniques indicate that a cold and dry climate, similar to that of today, prevailed before 10,500 cal yr B.P. The wettest climate occurred between 10,500 and 6500 cal yr B.P., at which time annual precipitation was up to 30–60% higher than today. The early Holocene increases in temperature and precipitation occurred simultaneously, but mid-Holocene cooling started at approximately 8000 cal yr B.P., 1500 yr earlier than the drying. Vegetation reconstruction was based on the objective assignment of pollen taxa to the plant functional type. The results suggest that this region was dominated by steppe vegetation throughout the Holocene, except for the period 9200 to 6700 cal yr B.P., when forest patches were relatively common. Inner Mongolia is situated at the limit of the present East Asian monsoon and patterns of vegetation and climate changes in that region during the Holocene probably reflect fluctuations in the monsoon's response to solar insolation variations. The early to middle Holocene monsoon undoubtedly extended to more northern latitudes than at present.