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1.
三门峡地区末次盛冰期至全新世早期的古季风事件   总被引:3,自引:1,他引:2  
通过三门峡地区小刘寺剖面黄土- 古土壤序列磁化率曲线和粗颗粒组分含量曲线的研究,发现它们分别指示的夏季风和冬季风变迁在末次冰消期向全新世转变时的新仙女木事件中显示不同的变化特征。夏季风的加强过程对应于冬季风的大幅度波动,气候为凉湿背景上的冷湿与暖湿振荡。冰后期的早期为全新世第一暧期。夏季风强盛对应于冬季风衰弱的湿暖气候,它由夏季风锋面降水的穿时性所决定,在华北地区为全新世适宜期。8 kaBP 前后为夏季风偏弱对应于冬季风偏强的干冷气候,是具有普遍意义的全新世第一冷期。这3 次古季风事件可与格陵兰冰芯记录进  相似文献   

2.
High-resolution paleomonsoon proxy records from peat and eolian sand–paleosol sequences at the desert–loess transition zone in China denote a rapid oscillation from cold–dry conditions (11,200–10,60014C yr B.P.) to cool–humid conditions (10,600–10,20014C yr B.P.), followed by a return to cold–dry climate (10,200–10,00014C yr B.P.). Variations in precipitation proxies suggest that significant climatic variability occurred in monsoonal eastern Asia during the Younger Dryas interval. Late-glacial climate in the Chinese desert–loess belt that lies downwind from Europe was strongly influenced by cold air from high latitudes and from the North Atlantic via the westerlies. The inferred precipitation variations were likely caused by variations in the strength of the Siberian high, which influenced the pressure gradient between land and ocean and therefore influenced the position of the East Asian monsoon front.  相似文献   

3.
李育  张成琦  周雪花  王岳 《沉积学报》2015,33(3):524-536
我国夏季风西北缘是响应长尺度气候变化最为敏感的区域之一, 但夏季风边界变化与千年尺度气候变化之间的关系尚不明确, 相关研究仍缺乏足够证据。夏季风西北缘湖泊沉积物中盐类矿物种类与含量的时空变化, 有助于推测气候变化特征。盐池和猪野泽分别位于祁连山北麓的河西走廊中段和东段, 是研究长时间尺度亚洲夏季风影响区西北边界变化的关键区域。研究全新世千年尺度下, 夏季风西北边界的变化对夏季风西北缘气候变化过程的影响, 对明确季风边缘区千年尺度季风变化机制, 预测未来长尺度气候变化有重要意义。因此, 本文选择盐池古湖泊盐池剖面(YC), 猪野泽青土湖01、02剖面(QTH01、QTH02)等三个剖面, 开展全新世千年尺度下, 亚洲季风西北边界地区湖泊沉积物盐类矿物时空变化对比研究。结果显示:QTH01、QTH02剖面盐类矿物以碳酸盐为主, 硫酸盐类矿物仅零星出现, 而YC剖面硫酸盐类矿物含量相对较高, 同时出现了氯化物型矿物, 全新世气候特征整体较猪野泽更为干旱。末次冰期和早全新世, 三个剖面受季风输送水汽影响明显, 碳酸盐类矿物能较好沉积, 季风边界在这一时期向北扩张, 推进到祁连山中段地区;中全新世QTH01、QTH02剖面受夏季风影响减弱, 湖泊退缩, 碳酸盐类矿物含量达到峰值, YC剖面则表现出极端干旱的气候特征, 硫酸盐类矿物因“盐效应”含量下降, 此时夏季风西北部水汽输送边界位于石羊河流域和盐池流域之间;晚全新世盐池和猪野泽均以风成沉积为主, 气候干旱, 碳酸盐类矿物难以保存, 硫酸盐和氯化物矿物含量出现高值, 说明夏季风西北边界进一步向南迁移。综上所述, 盐类矿物含量变化能良好反应夏季风西北缘全新世气候变化特征, 同时证明, 在全新世千年尺度上, 夏季风西北边界在盐池流域和石羊河流域之间存在变化。  相似文献   

4.
综合迄今中国境内湖泊沉积、冰心、泥炭、石笋、古土壤和洪积物获得的全新世数据及序列表明,早全新世气候变化是不稳定的,至少存在一次明显的降温事件,且表现为区域差异,其根本原因是受不同气候系统、复杂地形(特别是高原)的制约。但是,将不同地区、存在于9.0~7.6ka BP期间、500a至200a不等的气候突变或波动和记录与环北大西洋的8.2ka BP气候突变事件相对应,并归因于Laurentide冰盖的崩塌冰融水注入北大西洋造成的降温显然是草率的。中国主要地处季风气候区,加上目前我们所得序列的不同年代、样品精度、不同材料以及缺乏对气候事件前后精确的年代数据的控制,对于中国是否存在相同的或相似的气候降温事件是值得商榷的。如果真的存在,其时间跨度、降温幅度以及诱发机制又是什么,均需进一步认真研究。  相似文献   

5.
全新世期间亚洲和非洲干旱区环境的短尺度变化   总被引:11,自引:0,他引:11       下载免费PDF全文
过去对北非和中国干旱区140 ka BP来环境演化的初步对比表明,两地的干旱度在万年时间尺度上基本同步。这种关系是否也适用于全新世百年尺度的干旱事件,仍是有待研究的问题。本文对撒哈拉地区569个地表淡水指示物和我国北方干旱区158个古土壤和湖泊沉积的14C年代数据进行了时空频数统计分析,揭示出两地沙漠在全新世期间至少经历了三次同时性的、百年-千年尺度的干旱事件, 叠置于季风气候对地球轨道变化响应的总体趋势上;沙漠在纬向上的进退主要受控于季风前沿的伸缩幅度, 说明两个季风系统的短尺度变化可能受统一因素控制。最为显著的干旱事件发生于约4 ka BP。两地干旱区在过去认为的6 ka BP 前后的全新世气候适宜期并没有表现为稳定的湿润环境。我国过去发现的该时期不少的干旱证据被解释为高温所导致的强烈蒸发作用所致。但全新世中期的干旱期在热带的存在及其与冰心记录中低甲烷事件的吻合难以用蒸发来解释,而应与夏季风环流的减弱有关。  相似文献   

6.
The Northern Hemisphere cooling event 8200 years ago is believed to represent the last known major freshwater pulse into the North Atlantic as a result of the final collapse of the North American Laurentide ice sheet. This pulse of water is generally believed to have occurred independently of orbital variations and provides an analogue for predicted increases in high‐latitude precipitation and ice melt as a result of anthropogenically driven future climate change. The precise timing, duration and magnitude of this event, however, are uncertain, with suggestions that the 100‐yr meltwater cooling formed part of a longer‐term cold period in the early Holocene. Here we undertook a multiproxy, high‐resolution investigation of a peat sequence at Dooagh, Achill Island, on the west coast of Ireland, to determine whether the 8200‐year cold event impacted upon the terrestrial vegetation immediately ‘downwind’ of the proposed changes in the North Atlantic. We find clear evidence for an oscillation in the early Holocene using various measures of pollen, indicating a disruption in the vegetation leading to a grassland‐dominated landscape, most probably driven by changes in precipitation rather than temperature. Radiocarbon dating was extremely problematic, however, with bulk peat samples systematically too young for the North Atlantic event, suggesting significant contamination from downward root penetration. The sustained disruption to vegetation over hundreds of years at Dooagh indicates the landscape was impacted by a long‐term cooling event in the early Holocene, and not the single century length 8200‐year meltwater event proposed in many other records in the North Atlantic region. Copyright © 2006 John Wiley & Sons, Ltd.  相似文献   

7.
Through nine trace elements of the Shenmu section, Mu Us Desert is analyzed for the climate changes during Early Holocene. Except Sr, a migration process of P, Mn, Cr, Rb, Nb, Cu, Zn, and V is found in the dune sands, indicating the accumulation processes of the Asian winter monsoon-driven wind erosion and transport and deposition under the cold climatic phase. And accumulation of these elements in different layers of paleo sol dune sands is related to regional geomorphology and element properties. 8.5 winter-summer monsoon cycles in the early Holocene are observed. The duration time and climate of the stronger winter monsoon phases can be compared with the cold climate in the North Atlantic and other parts of China. The result of Red fit 3.8 power spectra shows 310a, 210a, 90a, and 70a centennial cycles for the element, which are consistent with the solar oscillation cycles. These suggest that the external solar activities of the Earth may have great influences on driving the winter and summer monsoon cycles during early Holocene.  相似文献   

8.
The Asian monsoon is an important component of the global climate system. Seasonal variations in wind, rainfall, and temperature associated with the Asian monsoon systems affect a vast expanse of tropical and subtropical Asia. Speleothem-derived summer monsoon variation in East Asia was previously found to be closely associated with millennial-scale change in temperature in the North Atlantic region between 75 and 10 ka. New evidence recovered from East Asia, however, suggests that the teleconnection between summer monsoon in East Asia and temperature change in the North Atlantic region may have significantly reduced during 120 to ~ 110 ka, a period directly after the full last interglaciation and corresponding roughly to marine oxygen isotope stage 5d. This reduction may be due to the low ice volume in the North Hemisphere at that time, which makes the millennial-scale change in temperature in the North Atlantic region less effective in influencing the Asian summer monsoon. This is important for investigating the mechanisms controlling the Asian summer monsoon and the paleoclimatic teleconnection between East Asia and the North Atlantic region, and for predicting monsoon-associated precipitation in East Asia under a global-warming trend.  相似文献   

9.
East Asian monsoon instability at the stage 5a/4 transition   总被引:2,自引:0,他引:2  
The physics involved in the abrupt climate changes of the late Quaternary have eluded paleoclimatologists for many years. More paleoclimatic records characteristic of different elements of the global climate system are needed for better understanding of the cause-feedback relationships in the system. The East Asian monsoon is an important part of the global climate system and the mechanical links between the East Asian monsoon and other climatic elements around the world may hold a key to our knowledge of abrupt climate changes in East Asia and probably over a larger part of the globe. Previous studies have detected millennial-scale winter monsoon oscillations during the last glaciation and probably also during the last interglaciation in loess sequences across China. However, less attention has been paid to the abrupt summer monsoon changes and the stage 5a/ 4 transition, an important period for the evolution of the East Asian monsoon when the global climate shifted towards the last glaciation. Here we report on two loess sections from eastern China which were dated using a thermoluminescence (TL) technique. The pedogenic and other sediment parameters suggest that the summer monsoon experienced a two-step abrupt retreat at the stage 5a/4 transition. The variations in the proxies for the winter monsoon are synchronized with the summer monsoon proxies during this brief interval, implying a direct and immediate link between high latitude and low latitude mechanisms. These changes may be correlated with similar climatic oscillations observed in the North Atlantic, Europe and Antarctica, raising the possibility that the forcing factors that induced these changes are global in extent.  相似文献   

10.
Throughout northeast China, the widely distributed peatlands have formed a large carbon (C) pool. However, the relationship between peatland initiation and climate controls is still poorly documented and understood. Understanding the responses of these C‐rich ecosystems to past climate change will provide useful insights into projecting the fate of peatland C in the future. In this study, we present a detailed historical reconstruction of peatland development in northeast China based on 312 basal peat dates, and examine the relationship between Holocene peatland dynamics and climate sensitivity. Our results indicate that peatland initiation started in the early Holocene, and that the majority of peatlands were initiated by and developed during the late Holocene. After the most intensive initiation period of 4.2–0.8 ka, the rate of peatland development slowed, which was concomitant with decreasing insolation and monsoon intensity. The widespread peatland initiation in the late Holocene might have been caused by the cool and moist climate patterns. The optimum timing of the peatland development was not uniform across northeast China, and these spatio‐temporal differences indicate the influences of regional climate and terrain on peatland initiation. Peat‐core data show variations in the long‐term apparent rate of C accumulation (LORCA) during the Holocene, with an average rate of 37.2 g C m?2 a?1. The peak LORCA occurred during 10.5–9.0 ka, probably in response to higher temperatures and stronger East Asia summer monsoon intensities. Both temperature and humidity are important factors influencing the peatland initiation and C dynamics in this region.  相似文献   

11.
青藏高原气候变化在冰期-间冰期、千年、十年际和季节尺度上受亚洲季风和西风环流的交互影响,表现出显著的区域性特征。然而全新世以来青藏高原气候变化的机制还不甚清楚,主要原因之一是缺少指示意义明确的古气候代用指标。课题组近年来利用叶蜡氢同位素(δDwax)重建了高原东北部的青海湖、中北部的令戈错、中部的达则错、西部的班公错和阿翁错不同时间尺度的大气降水同位素记录,本文对上述工作进行总结,并结合青藏高原全新世以来已发表的其他地点的同位素和古水文记录,揭示全新世以来季风与西风对青藏高原不同区域气候变化的影响。结果表明:1)早全新世青海湖、令戈错、班公错和阿翁错4个湖泊均主要受夏季风影响,夏季风可以影响到青藏高原的大部分地区,此时夏季风在青藏高原的最北界限可能位于青海湖以北、克鲁克湖以南。2)中全新世青海湖、班公错和阿翁错受夏季风影响逐渐减弱;然而令戈错在7.0~4.5 ka水汽主要来源于西风环流。3)晚全新世青海湖和班公错受季风的影响进一步减弱;西风在3.5~1.7 ka和2.0~1.0 ka分别影响到高原中部的令戈错和达则错;晚全新世阿翁错受冰川融水补给影响降水同位素异常偏负。4)本研究表明在中晚全新世季风较弱的时期,西风能够深入到青藏高原内部地区,给高原内部地区带来冷湿的水汽。  相似文献   

12.
In the East Asian monsoon region,eolian deposits widely distributed in the middle-lower reaches of the Yantgze River are among the best materials available for studies on Quaternary climate change in the subtropical zone of Southern China.Typical eolian deposits in this region include upper Xiashu Loess(XL) and underlying Vermiculated Red Soil(VRS) layers.In this paper,chronological and paleoclimatic studies are conducted on an eolian deposit sequence near Jiujiang(JJ) city in northern Jiangxi province.A magnetostratigraphic study,combined with optically stimulated luminescence(OSL) dating,is conducted on the JJ section and provides further evidence that eolian deposits in the middle-lower reaches of the Yangtze River have been formed since the late Early Pleistocene,and that the boundary age between the XL and VRS layers is about 300-400 kaBP.In grain-size records of the JJ section,the median grain-size and content of the 30 μm size fraction increase sharply after 300-400 kaBP,representing an East Asian winter monsoon intensification event.Further pollen analysis reveals differing pollen assemblages before and after 300-400 kaBP:there is an evident increase in plants adapted to grow in a warm humid environment after 300-400 kaBP,implying an increase in precipitation caused by intensification of the East Asian summer monsoon.Global ice volume and uplift of the Tibet Plateau(TP) are regarded as crucial factors influencing variations of the East Asian monsoon on a long-term scale.The deep-sea δ~(18)O record,which reflects variations in global ice volume,shows no obvious change after 300-400 kaBP.Moreover,the influence of global ice volume changes on the East Asian summer and winter monsoons is inverse;the global ice volume increase(decrease) implies a strengthened(weakened) winter monsoon and weakened(strengthened) summer monsoon.We therefore interpret the coupled intensifications of the East Asian summer and winter monsoons at about 300-400 kaBP to the uplift of the TP in the Middle Pleistocene.This climate event is also documented in eolian deposits from the southern margin of the Chinese Loess Plateau(CLP) and from the desert-loess transitional belt.However,it is not recorded in the loess-paleosol sequences from the central part of the CLP,thereby indicating differing climate responses to TP uplift in different regions,which requires further study.  相似文献   

13.
末次间冰期以来沙漠-黄土边界带的环境演变   总被引:24,自引:5,他引:24       下载免费PDF全文
沙漠-黄土边界带地处东亚季风边缘,这一地区的风成沉积即古风成砂-黄土-古土壤序列很好地反映了东亚季风环流的演变历史。末次间冰期的沉积(S1)由三层古土壤和夹于其间的两层黄土组成,可与深海氧同位素阶段5的五个亚阶段(a-e)则很好对比。末次冰期的沉积(L1)由三层古风成砂和夹于其间的两层黄土构成,由此反映了与上述三层古风成砂对应的阶段2、阶段4及阶段3的中期是沙漠-黄土边界带冬季风活动加剧、沙漠扩大的时期。全新世的沉积是由一层草原上(S0)和其上的流沙组成,但这层流沙是在最近两千年来不合理的人类活动和当地特定风场条件的共同作用下形成,已不具备明显的气候指示意义。  相似文献   

14.
A peat cellulose δ18O record spanning around 14,000 years from the Hani peat mire in northeastern China reveals several abrupt temperature anomalies in the period from the last deglaciation through the Holocene. The timing of these anomalies coincides well with the notable cooling events recorded respectively using the GISP2 ice core and ice-rafted sediment of the North Atlantic Ocean, such as the Older Dryas, Inter-Allerød, Younger Dryas, and the nine ice-rafted debris events. The results demonstrate that this repeating pattern of abrupt temperature deterioration is not limited to the North Atlantic area at high latitude but also exists in the western North Pacific region at middle latitude. The synchronous temperature anomalies possibly are resulted from the joint effects of meltwater discharge into the North Atlantic Ocean and reduced solar activity. In the period from around 8600 to 8200 cal. yrs BP the Hani peat record shows a broad δ18O peak that may reflect compound climate signals resulting from the two kinds of forcing factors: the temperature drop related to reduced solar activity at around 8600–8250 cal. yrs BP, and the temperature anomaly attributed to the meltwater effect at around 8220 ± 70 cal. yrs BP. This result may provide palaeo-temperature evidence for existence of the sharp “8.2 k” event in the western North Pacific region. In addition, our results have revealed that in the period from the last deglaciation through the Holocene the synchronous temperature anomalies before and after the “8.2 k” event seem to be related to meltwater outflow and reduced solar activity, respectively. It is important that the all temperature anomalies—whether because of reduced solar activity in the late Holocene or from meltwater discharge in the early Holocene—are accompanied by an abrupt decline in the Indian Ocean summer monsoon and abrupt strengthening of the East Asian summer monsoon. It is likely that reduced solar activity and meltwater outflow appear to modulate Earth system changes in the same direction. The influences could be compounded. Reduced solar activity and meltwater outburst both appear to act as triggers for occurrence of the El Niño phenomenon in the equatorial Pacific Ocean, which may result in broad teleconnections between the temperature anomaly in the Northern Hemisphere and abrupt variation of the Asian monsoon.  相似文献   

15.
末次盛冰期以来中国北方干旱区演化及短尺度干旱事件   总被引:13,自引:0,他引:13  
对中国北方干旱区329个古土壤和湖泊沉积物的14C年龄数据的时空分布及频数统计分析表明, 从末次盛冰期至冰消期, 我国整个干旱区受控于西风带;在全新世, 干旱区东部环境变化主要受控于东亚季风系统, 而其西部仍属西风控制区。全新世以来, 中国干旱区存在至少4次百年至千年级的干旱事件, 且干湿变化基本上与全球西风模式区的气候变化相反, 而与低纬非洲干旱区气候变化有很好的对应关系 。由于我国干旱区和非洲干旱区的干湿变化均受控于来自低纬热带海洋的夏季风的强弱, 因此 两区干旱事件的同时发生可能与低纬热带海洋的气候变化有关。同时, 本文利用14C年龄的时空分布和其它地质资料, 初步恢复了末次盛冰期和全新世最适宜期我国干旱区的沙漠分布状况。  相似文献   

16.
The Dajiuhu mire deposit is a sensitive archive of palaeoenvironmental evolution in the East Asian monsoon region. The aim of this study of the elemental geochemistry of a sediment core from Dajiuhu was to improve our understanding of the geochemical behaviour of elements in peat deposits, as well as the environmental and climatic history of the East Asian monsoon region since the Late Pleistocene. We conducted a principal components analysis (PCA) on inorganic geochemical data obtained by ICP‐MS and XRFS from a sediment core spanning the last 16 ka. In addition, spectral analysis was applied to the PC1 score profile to test periodicities. The PCA results suggest that variations in elemental concentrations in the Dajiuhu core are controlled by three main factors: input of inorganic mineral matter, effect of biological processes and a combination of changes in redox conditions and biological processes. Interpretation of the data suggests that monsoon precipitation increased, albeit with significant volatility, during the last deglaciation (16.0–11.3 cal. ka BP). The early Holocene (11.3–9.4 cal. ka BP) was a humid period, and was followed by monsoon deterioration in the early stages of the middle Holocene. A warm and wet climate dominated between 7.0 and 4.2 cal. ka BP, correlating with the Holocene Climatic Optimum. After a two‐step decrease in monsoon precipitation, beginning at 4.2 cal. ka BP, the climate became more arid until 0.9 cal. ka BP, after which humidity once again increased. The spectral analysis revealed statistically significant periodicities of approximately 1480, 360, 316, 204 and 188 years, indicating solar forcing for the East Asian monsoon evolution over millennial to centennial time scales and a link between the East Asian monsoon and North Atlantic climate.  相似文献   

17.
全新世中国夏季降水量变化的两种模态   总被引:1,自引:1,他引:0       下载免费PDF全文
根据气候模拟的夏季降水量及古气候湿润度代用资料,指出全新世中国夏季降水量变化存在两种模态。模态1:降水量异常的中心为一个东北-西南向的带; 从东北、内蒙东部、经华北、河套到青藏高原为一正异常中心。模拟结果的EOF分析表明这种模态占模拟的全新世中国夏季降水量变化总方差的75.8%。全新世降水量变化的模拟主要考虑地球轨道要素,其中岁差起着重要作用。因此,这个模态可以称为岁差模。岁差模主要反映近万年全新世降水变化的趋势。模态2:降水量异常分布在中国东部(100°E以东)自北向南表现为负-正-负分布。负异常在内蒙中部到华北,正异常在黄河中游、淮河、到长江流域,江南部分地区又有负异常。这与模拟的大西洋热盐环流减弱所造成的中国夏季降水量异常分布一致。因此,这个模态可能与全新世的气候突变有关,称为气候突变模。覆盖中国的80个代用资料序列给出的9kaB.P.和4kaB.P.干湿分布,证明早全新世气候湿润,晚全新世气候干旱。这种变化趋势主要反映了岁差的影响。同时,4kaB.P.虽然干旱分布广泛,但是长江流域、关中地区到高原东部则有若干气候湿润的指示。这表明4kaB.P.同时受岁差及气候突变的影响。  相似文献   

18.
The total carbon content analysis for Takashima-oki core extracted from Lake Biwa with time resolutions of approximately 150 years was used to reconstruct millennial-scale climate change in the East Asian monsoon region over the past 300 ka. The total carbon content of the Takashima-oki core is an indirect proxy for the East Asian summer monsoon, because the total carbon content reflects primary productivity within the lake, which is controlled by precipitation in the catchment area. Using these data, we clarify temporal variations in the East Asian summer monsoon prior to MIS 5, which were previously unresolved. The observed variations show a ∼1,500-year cycle that is also recorded by paleoclimate indices in the North Atlantic region. We propose that the East Asian summer monsoon underwent abrupt millennium-scale changes during interglacial stages such as MIS 5 and 7.  相似文献   

19.
全新世北大西洋冷事件:年代学和气候影响   总被引:10,自引:5,他引:5       下载免费PDF全文
王绍武 《第四纪研究》2009,29(6):1146-1153
回顾了全新世北大西洋冷事件的研究,重点分析年代学和气候影响。首先,综合北大西洋8个深海沉积序列13种不同指标反映的冷事件,证明Bond等(1997)的研究是有代表性的。全新世的9次冷事件,由近及远编号 0~8,出现于0.4kaB.P.,1.4kaB.P.,2.8kaB.P.,4.2kaB.P.,5.9kaB.P.,8.1kaB.P.,9.4kaB.P.,10.3kaB.P.和11.1kaB.P.。其次,从早全新世到晚全新世逐一地综述了9次冷事件出现时间及气候影响。发现与冷事件对应的气候异常,主要表现为北半球高纬寒冷、低纬亚非季风区干旱。也有迹象表明出现冷事件时西-中欧及北美北部气候湿润。最后分析了冷事件的成因。早全新世冷事件可能与融冰淡水脉冲有关,中-晚全新世太阳活动减弱可能是冷事件发生主要原因,但不排除有气候系统内部振荡的影响。
   相似文献   

20.
位于受西风环流显著影响区的我国最大内陆淡水湖——新疆博斯腾湖提供了全新世亚洲中部干旱区气候变化的可靠记录。对该湖钻探岩芯、沉积年代以及孢粉、碳酸盐含量、粒度等代用指标分析结果表明,末次冰消期到全新世早期湖泊干涸,风砂沉积盛行,气候干旱;约8cal.kaB.P.以来现代湖泊形成,气候相对湿润,其中,约6.0~1.5cal.kaB.P.期间代用指标A/C值指示的流域湿度增加,盘星藻指示的湖泊深度最大,全新世最湿润时段发生在中晚全新世。博斯腾湖记录的早全新世干旱和中晚全新世湿润的气候框架得到中亚其他较高分辨率湖泊记录的支持,具有普遍性。亚洲中部西风影响区这一全新世气候变化框架与亚洲季风区早中全新世夏季风强盛、中晚全新世季风衰落的变化模式显著不同,具有近似反相位(out of phase)变化特征。广大中亚内陆干旱区中晚全新世湿润气候不大可能是东亚季风深入内陆造成的,更可能是通过西风环流与高纬度北大西洋相联系,其驱动机制需要更深入研究。  相似文献   

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