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1.
花海古湖泊外源碎屑矿物含量揭示的河西走廊早、中全新世降水变化 总被引:1,自引:0,他引:1
花海地区位于河西走廊的西段,在全新世早期和中期亚洲季风增强时,该区域降水是否很好地响应亚洲季风的变化,以及季风的水汽输送是否会影响到该区域是仍需继续探讨的问题.本文通过对花海古湖泊沉积物样品的矿物测定,分析了花海古湖泊早、中全新世湖相沉积阶段中外源碎屑矿物含量的变化,并以此重建了该区域早全新世(10.47~8.87 cal ka BP)和中全新世(8.87~5.5 cal ka BP)的降水变化.结果显示,早全新世时期花海湖泊外源碎屑矿物含量高于中全新世时期,表明了该区域早全新世时期的降水高于中全新世时期,反映了该区域早、中全新世千年尺度的降水变化响应了印度季风的强弱变化,降水量受到了印度季风强度的影响.在全新世中期,由于西风环流的增强,花海地区水汽输送可能受到了印度季风和西风环流的双重影响.但全新世最湿润期出现在中全新世,与早全新世降水强度高于中全新世的结果并不一致.这种差异可能主要是由于中全新世时期较低的湖面蒸发所造成的. 相似文献
2.
亚洲中部干旱区丝绸之路沿线环境演化与东西方文化交流 总被引:6,自引:0,他引:6
基于环境记录、考古发现,以及同位素资料,对亚洲中部干旱区丝绸之路沿线的全新世以来的环境变化和东西方文化交流进行了梳理。结果表明,研究区独特的地理环境和环境变化过程,深刻地影响着文化的发展和传播。河西走廊受季风影响,表现出季风—西风过渡带干湿变化的模式,晚全新世气候趋向干旱;从新疆到中亚的丝绸之路沿线的环境变化比较一致:在早全新世(BC 6000以前)主要为干旱环境,植被以荒漠类型占优势;中晚全新世,湿润程度增加,草原植被扩展。新疆和中亚全新世中晚期较为湿润的环境为东西文化交流提供了较适宜的环境基础。得益于环境条件的改善,东西方文化交流融合的进程在BC 2000以后明显加速。在BC 2500-2000期间,东西方农业文化在丝绸之路沿线接触融合,是史前丝绸之路的首次贯通;在BC 2000-1000期间,丝绸之路沿线绿洲地带形成了以小麦—/大麦—粟黍—畜牧为特征的混合型经济特征,并扩散到欧亚草原带,和周围的畜牧业形成鲜明的对照,并持续到历史时期。这种空间分异,是地理环境和东西方文化交流共同作用的结果。在史前时期,东西方农业的相向传播和融合,基本沿着山前地带的绿洲蛙跳式前进。到了历史时期,政治版图的变化是影响丝绸之路的首要因素,但环境变化仍然是不可忽略的因素。 相似文献
3.
湖泊沉积记录的环境演变是全球变化的重要研究领域之一,通过对中国内陆区中30 个湖泊研究成果的总结和梳理,探讨了全新世以来该地区干湿变化的规律和区域分异。通过降水量结合传统分区方法将中国内陆区分为西北干旱区、东亚季风边缘区和青藏高原区。对每个湖泊样点以500 年为时间间隔,以孢粉为主要干湿指标,综合氧同位素、有机质及碳酸盐等,将湖泊干湿状况划分3 个干湿等级(干旱,半湿润,湿润),建立区域干湿指数。结果表明,中国内陆不同区域全新世可能经历了不同的干湿变化过程:①西北干旱区基本上是早中全新世干旱,中晚全新世相对湿润,但区域差异明显;②东亚季风边缘区早全新世早期干旱,早全新世晚期和中全新世相对湿润,晚全新世干旱;③青藏高原区的湿润时期主要发生在早中全新世,但是不同地区有所不同。对比分析显示:西北干旱区的干湿变化可能受西风环流控制,但在时间和强度上区域内部差异较明显;东亚季风边缘区可能主要受东亚季风控制;青藏高原地区早中全新世的湿润可能与印度季风的增强相关。 相似文献
4.
古尔班通古特沙漠作为中国最大的固定、半固定沙漠,是中国境内受西风环流影响最为明显的沙漠之一,其全新世环境演变过程及其对全球气候变化的响应和反馈,对理解该区现代地表过程与未来环境演变趋势具有重要的科学意义。古尔班通古特沙漠及周边区域全新世环境演变研究的结果明显不同,存在中晚全新世和中全新世降水/湿度变化最优期的分歧,成因机制存在季风深入内陆和西风总体控制的争议。以目前区域已发表的多载体记录为基础,通过降维和集成分析重建了该区全新世气候/湿度变化背景,梳理区域风沙沉积地层年代学时空分布,集成了该区全新世风沙活动历史,进而探讨区域风沙活动与湿度变化的耦合关系。结果表明该区早中全新世(12~6 ka)气候干旱,风沙活动强烈;中晚全新世以来湿度逐渐增加、风沙活动逐渐减弱。通过区域及半球尺度的对比分析,发现该区环境演变过程主要受西风环流的控制。 相似文献
5.
湖泊水位高低通常能有效地指示湖盆内湿润条件的变化,进而反映区域有效降水(降水—蒸发)变化,成为重建第四纪古气候演变的重要指标之一。通过对苏联和蒙古国古湖泊数据库以及中国晚第四纪古湖泊数据库中149个湖泊水位变化资料的梳理总结,探讨了末次盛冰期(18 cal. ka BP)以来该地区干湿变化规律及区域分异。根据研究区气候特征、地理位置及已有研究成果将其分为东欧湖泊区、中东亚干旱区和中国北方季风区三大湖区。根据不同水位记录在整个湖泊历史中出现的频率,采用3级重新分类区分出高、中、低3级水量,并把每个湖泊数字化的3级古水量表示成与现代的差值,得到每个湖泊样点每千年时间间隔内相对现代的5级水量变化(很湿润、湿润、无变化、干旱和很干旱)。结果表明,三大湖区末次盛冰期以来可能经历了不同的干湿变化过程:东欧地区湖泊水量记录在晚冰期之前较少,至全新世逐渐增多,且基本表现为早全新世干旱、中晚全新世相对湿润的状况。中东亚干旱区整体呈现出末次盛冰期至中全新世均较湿润而晚全新世干旱的气候状况,但区域内部不同湖泊在起讫时间和强度上存在显著差异。中国北方季风区的湿润期主要发生在早中全新世,但是不同湖泊有所不同。对比分析显示,早全新世时东欧地区东部气候随着斯堪的那维亚冰流的逐渐消退而逐渐变湿润,中全新世由于夏季北欧反气旋东翼的气旋气流增强而达到最湿润状态,西部地区早全新世由于强劲的西伯利亚热高压存在而整体偏干旱,中全新世由于夏季亚洲季风的渗透而转为湿润。中东亚干旱区冰期内的湿润条件可能主要与西风带降水及低温低蒸发有关,而全新世则可能主要与夏季风深入内陆导致降水增加有关。中国北方季风区全新世湿度变化可能主要受东亚季风控制。 相似文献
6.
青海湖是国内最大的内陆湖泊,位于青藏高原东北缘,因其处在东亚夏季风、印度季风和西风带的交替控制区域,对气候变化十分敏感,成为古环境变化研究的热点地区。有关青海湖的形成演化、环境变化和水文变化的研究也存在多种观点。本研究再分析了青海湖已报道的古环境指标和气候模式模拟的夏季、冬季温度和降水变化,力图更加全面地理解青海湖全新世以来的古环境变化。研究发现早全新世11~8 ka夏季降水量和表面蒸发量较大,冬季降水稀少,湖泊水位只有十余米深,使得青海湖周边风沙活动频繁。并且,早全新世的气候不稳定,经历了频繁和较大幅度的波动。全新世气候适宜期出现在8~6 ka,古环境指标指示这一时期为温暖湿润的气候环境,湖盆内植被以森林草原为主,湖泊水位不断上升。青海湖地区的夏季降水自6 ka开始减少,然而冬季降水增加,同时夏季温度和蒸发量减少,使得湖区植被组成由森林草原向高山草甸转变,湖区大范围形成古土壤。湖区古环境条件在晚全新世距今1.5 ka开始恶化,冬季和夏季降水同时减少,湖泊水位下降,风沙活动再次加强。 相似文献
7.
西辽河平原东部沼泽发育与中全新世早期以来古环境演变 总被引:11,自引:9,他引:11
根据典型沼泽剖面14 C测年及其树木年轮校正、孢粉分析、粘土矿物X 衍射分析、泥炭植物残体鉴定和沉积物的化学元素聚集与迁移资料 ,研究了中全新世以来西辽河平原东部沼泽发育过程与古环境演变及其二者的关系。结果表明 ,位于生态环境过渡带、脆弱带的沼泽发生、发育对环境变化尤为敏感。中全新世早期以来 ,环境变化频繁 ,由此导致沼泽发育出现多次形成、发育、退化、消亡、再生循环变化。沼泽发育与古环境演变可划分为 6个时期 :中全新世早期沼泽孕育与萌芽发育期 ;中全新世中期沼泽旺盛发育期 ;中全新世中晚期沼泽间断发育期 ;中全新世晚期沼泽退化发育期 ;晚全新世早期沼泽复苏期 ;晚全新世晚期沼泽消亡期。距今 5 80 0年左右为本区全新世沼泽最早发育期。沼泽发育也遵循富营养沼泽长期发展的模式 相似文献
8.
黄土高原晚更新世末次冰期时期,冬季风强盛,马兰黄土堆积;全新世以来的间冰期时期,夏季风强盛,降水较丰,侵蚀强烈。晚更新世以来的中国东部海岸线40°N 一带变化最大,同纬度晋陕蒙接壤区是黄土高原季风气候变化最剧烈的地区,致使该区成为黄土高原沙黄土区中现代降水最多的地区。沙黄土和较多降水的组合,使晋陕蒙接壤区成为黄土高原现代侵蚀最剧烈的地区。 相似文献
9.
中国北方季风边缘区沙漠/沙地如何响应气候变化及其反馈研究对于理解干旱半干旱地区现代地表过程及其未来环境演变趋势有重要的科学意义。库布齐沙漠作为中国北方季风边缘区中东部唯一的以流动、半流动为主的沙漠,现代地表景观与周围沙地(如毛乌素沙地、浑善达克沙地、科尔沁沙地等)明显不同。晚第四纪以来库布齐沙漠与季风边缘区中东部沙地环境演化过程到底是否一致,其湿润期究竟发生于何时,尚存颇多争议。区域风成沉积和湖泊沉积记录研究得出的结论明显不同,存在中晚全新世和早中全新世湿度最优期的分歧。对库布齐沙漠风成沉积年代-岩性的概率密度分布(Probability Density Function,PDF)进行处理,与周边沙地风成沉积和湖泊沉积古环境记录进行了对比分析。结果表明:末次盛冰期以来库布齐沙漠与季风边缘区中东部沙地环境演化过程总体一致,27.6—10 ka和晚全新世(2—0 ka),风沙堆积强烈,气候相对干旱;早全新世(10—6 ka)古土壤渐次发育,沙丘逐渐被固定,湿度增加,环境状况有所改善;中全新世(6—2 ka)古土壤广泛发育,沙丘经历固定成壤,气候最为湿润。区域环境演变过程受控于低纬太阳辐射和高纬冰量变化的双重制约。 相似文献
10.
西阻塞河平原东部沼泽发育与中全新世早期以来古环境演变 总被引:3,自引:3,他引:3
根据典型沼泽剖面^14C测年及其树木年轮校正、孢 粉分析、粘土矿物X-衍射分析、泥岩植物残体鉴定和沉积物的化学元素聚集与迁移资料,研究了中全新世以来西辽河平原东部沼泽发育过程与古环境演变及其二者的关系,结果表明,位于生态环境过渡带、脆弱带的沼泽发生、发育对环境变化尤为敏感,中全新世早期以来,环境变化频繁,由此导致沼泽发育出现多次形成、发育、退化、消亡 、再生循环变化,沼泽发育与古环境演变可划分为6个时期;中全新世早期沼泽孕育与萌芽发育期;中全新世中期沼泽旺盛发育期;中全新世中晚期沼泽间断发育期;中全新世晚期沼泽退化发育期;晚全新世早期沼泽复苏期;苏全新世晚期沼泽消亡期,距今5800年左右为本区全新世沼泽最早发育期,沼泽发育也遵循富营养沼泽长期发展的模式。 相似文献
11.
THE 'LITTLE ICE AGE': RE-EVALUATION OF AN EVOLVING CONCEPT 总被引:4,自引:0,他引:4
JOHN A. MATTHEWS KEITH R. BRIFFA 《Geografiska Annaler: Series A, Physical Geography》2005,87(1):17-36
ABSTRACT. This review focuses on the development of the ‘Little Ice Age’ as a glaciological and climatic concept, and evaluates its current usefulness in the light of new data on the glacier and climatic variations of the last millennium and of the Holocene. ‘Little Ice Age’ glacierization occurred over about 650 years and can be defined most precisely in the European Alps (c. AD 1300–1950) when extended glaciers were larger than before or since. ‘Little Ice Age’ climate is defined as a shorter time interval of about 330 years (c. AD 1570–1900) when Northern Hemisphere summer temperatures (land areas north of 20°N) fell significantly below the AD 1961–1990 mean. This climatic definition overlaps the times when the Alpine glaciers attained their latest two highstands (AD 1650 and 1850). It is emphasized, however, that ‘Little Ice Age’ glacierization was highly dependent on winter precipitation and that ‘Little Ice Age’ climate was not simply a matter of summer temperatures. Both the glacier‐centred and the climate‐centred concepts necessarily encompass considerable spatial and temporal variability, which are investigated using maps of mean summer temperature variations over the Northern Hemisphere at 30‐year intervals from AD 1571 to 1900. ‘Little Ice Age’‐type events occurred earlier in the Holocene as exemplified by at least seven glacier expansion episodes that have been identified in southern Norway. Such events provide a broader context and renewed relevance for the ‘Little Ice Age’, which may be viewed as a ‘modern analogue’ for the earlier events; and the likelihood that similar events will occur in the future has implications for climatic change in the twenty‐first century. It is concluded that the concept of a ‘Little Ice Age’ will remain useful only by (1) continuing to incorporate the temporal and spatial complexities of glacier and climatic variations as they become better known, and (2) by reflecting improved understanding of the Earth‐atmosphere‐ocean system and its forcing factors through the interaction of palaeoclimatic reconstruction with climate modelling. 相似文献
12.
中国过去2000年气候变化的评估 总被引:28,自引:2,他引:26
根据近20年中国在过去2000年气候变化研究领域的主要文献,对中国(特别是中国东部)过去2000年气候变化进行了综合评估。主要结论有:(1)在中国东部,虽然20世纪暖期的温暖程度非常明显,但至目前为止的研究结果显示,其温暖程度和波动幅度可能尚未超过过去两千年曾经出现过的最高水平。(2)中国东部降水同样存在数百年的趋势变化,且存在明显的区域差异,特别是华北与江南的低频变化趋势几乎相反。就东部地区的总体变化趋势而言:280′sAD以前,相对湿润;自280′SAD开始,逐渐变干;而至1230′SAD以后,则维持在一个相对较干的水平上。(3)中国西部的温度变化趋势与东部基本一致,但中世纪暖期与小冰期不如东部明显。(4)中世纪暖期,中国东部的华北地区相对干旱,江南则相对湿润;而在小冰期,华北地区则相对湿润,且整个东部地区的降水变率增大。 相似文献
13.
Based on temperature reconstruction and proxy data from 14 sites in the Northern Hemisphere, this paper focused on comparing the cycles of temperature variations between the Arctic and other areas, including Atlantic, Europe, China, Asia, Pacific, Indian Ocean, and America during the transition from the last Interstade to the Last Glacial Maximum, from the Last Glacial Maximum to megathermal period in Holocene and the transition of the Little Ice Age (LIA) by the methods of Singular Spectrum Analysis (SSA) and Maximum Entropy Spec-trum (MES). The results showed that environmental changes in the Arctic are most similar to that in the North American and better similar to Asia, Atlantic and Pacific, the least similar to Indian Ocean and Europe. The 1500-year oscillation of temperature existed both in Arctic and Europe. 相似文献
14.
Based on temperature reconstruction and proxy data from 14 sites in the Northern Hemisphere, this paper focused on comparing the cycles of temperature variations between the Arctic and other areas, including Atlantic, Europe, China, Asia, Pacific, Indian Ocean, and America during the transition from the last Interstade to the Last Glacial Maximum, from the Last Glacial Maximum to megathermal period in Holocene and the transition of the Little Ice Age (LIA) by the methods of Singular Spectrum Analysis (SSA) and Maximum Entropy Spectrum (MES). The results showed that environmental changes in the Arctic are most similar to that in the North American and better similar to Asia, Atlantic and Pacific, the least similar to Indian Ocean and Europe. The 1500-year oscillation of temperature existed both in Arctic and Europe. 相似文献
15.
筛选和利用中国东南地区(大致范围为105o E以东、30o N以南)16个站点的多种气候代用指标序列,重建了东南地区过去2 000年以来的气温与降水变化过程,并探讨了其可能的影响机制。研究发现,东南地区气温集成序列与其他学者重建的中国温度序列、北半球温度序列等均具有较好的可比性,一些百年尺度的典型特征气候时期,如黑暗时代冷期、中世纪暖期、近代小冰期以及20世纪现代暖期等均有显著的体现;降水集成序列显示东南地区在过去2 000年中干湿阶段性变化较为明显,特别是在中世纪暖期时降水整体上较为偏多,而在小冰期的前半段降水偏少、后半段降水偏多。总体来看,近2 000年来我国东南地区的气温与降水变化经历了较为多样的水热组合过程。值得指出地是,东南地区降水集成序列与已有的中国北方地区多条降水重建序列相互间可比性较弱,反映了中国东部季风区由南到北降水变化及其影响机制具有很大的区域性差异。分析认为,大尺度海—气相互作用、火山活动以及太阳辐射量变化等对我国东南地区过去2 000年的气候环境变化具有显著影响。 相似文献
16.
A compilation of paleoclimate records from lake sediments, trees, ice cores, and historical documents provide a view of China and Arctic environmental changes in the last 600 years. Many of these changes have also been identified in sedimentary and geochemical signatures in deep-sea sediment cores from the North Atlantic Ocean, Arctic and Greenland and ice cores from the Qinghai-Tibet Plateau, confirming the linkage of environmental changes of different time scales between the Arctic and China. It is shown that the changes of precipitation, temperature and sea ice cover in Arctic were correlated with climate changes in China. This paper also developed a comparative research on the climate changes between Arctic and China both during the Little Ice Age (LIA) and the instrumental observation period. Cycles and trend of temperature variations during LIA and temperature and precipitation during the instrumental observation period are performed. We found some similarities and differences of environmental changes between Arctic and China. 相似文献
17.
小冰期气候的研究进展 总被引:18,自引:5,他引:13
小冰期是近2ka来的一个重要气候事件,又是目前全球变暖的背景事件,已成为古气候和古环境研究的热点。对此,科学工作者已经做了大量的研究。本文广泛综合前人研究的成果,介绍了小冰期的概况,认为1450-1890年是小冰期的时限,在此期间有三次冷期和两次暖期。冷期发生在1450-1510年、1560-1690年和1790-1890年,其中第二次冷期表现最甚;暖期发生在1510-1560年和1690-1790年。太阳活动和火山活动是小冰期气候变化的主要因素。并重点从冰芯、树轮、湖泊沉积、历史文献和沙漠地层等方面综述了近年来国内外对小冰期气候变化的研究现状。 相似文献
18.
近600年来北极与中国气候变化的对比 总被引:2,自引:2,他引:0
许娟 《地理学报(英文版)》2004,14(3):289-295
A compilation of paleoclimate records from lake sediments, trees, ice cores, and historical documents provide a view of China and Arctic environmental changes in the last 600 years. Many of these changes have also been identified in sedimentary and geochemical signatures in deep-sea sediment cores from the North Atlantic Ocean, Arctic and Greenland and ice cores from the Qinghai-Tibet Plateau, confirming the linkage of environmental changes of different time scales between the Arctic and China. It is shown that the changes of precipitation, temperature and sea ice cover in Arctic were correlated with climate changes in China. This paper also developed a comparative research on the climate changes between Arctic and China both during the Little Ice Age (LIA) and the instrumental observation period. Cycles and trend of temperature variations during LIA and temperature and precipitation during the instrumental observation period are performed. We found some similarities and differences of environmental changes between Arctic and China. 相似文献
19.
The most extensive Holocene advance in the Stauning Alper, East Greenland, occurred in the Little Ice Age 总被引:1,自引:0,他引:1
We present glacial geologic and chronologic data concerning the Holocene ice extent in the Stauning Alper of East Greenland. The retreat of ice from the late-glacial position back into the mountains was accomplished by at least 11 000 cal years B.P. The only recorded advance after this time occurred during the past few centuries (the Little Ice Age). Therefore, we postulate that the Little Ice Age event represents the maximum Holocene ice extent in this part of East Greenland. 相似文献
20.
Stable isotopes and sediments from Pickerel Lake, South Dakota, USA: a 12ky record of environmental changes 总被引:2,自引:0,他引:2
Sedimentological parameters and stable O- and C-isotopic composition of marl and ostracode calcite selected from a 17.7-m-long core from the 8-m-deep center of Pickerel Lake, northeastern South Dakota, provide one of the longest (ca. 12ky) paleoenvironmental records from the northern Great Plains. The late Glacial to early Holocene climate in the northern Great Plains was characterized by changes from cold and wet to cold and dry, and back to cold and wet conditions. These climatic changes were controlled by fluctuations in the positions of the Laurentide ice sheet and the extent of glacial Lake Agassiz. We speculate that the cold and dry phase may correspond to the Younger Dryas event. A salinity maximum was reached between 10.3 and 9.5 ka, after which Pickerel Lake shifted from a system controlled by atmospheric changes to a system controlled by groundwater seepage that might have been initiated by the final withdrawal of Glacial Lake Agassiz. A prairie lake was established at approximately 8.7 ka, and lasted until about 2.2 ka. During this mid-Holocene prairie period, drier conditions than today prevailed, interrupted by periods of increased moisture at about 8, 4, and 2.2 ka. Prairie conditions were more likely dry and cool rather than dry and warm. The last 2.2 ka are characterized by higher climatic variability with 400-yr aridity cycles including the Medieval Warm Period and the Little Ice Age.Although the signal of changing atmospheric circulation is overprinted by fluctuations in the positions of the ice sheet and glacial Lake Agassiz during the late Glacial-Holocene transition, a combination of strong zonal circulation and strong monsoons induced by the presence of the ice sheet and high insolation may have provided mechanisms for increased precipitation. Zonal flow introducing dry Pacific air became more important during the prairie period but seems to have been interrupted by short periods of stronger meridional circulation with intrusions of moist air from the Gulf of Mexico. More frequent switching between periods of zonal and meridional circulation seem to be responsible for increased climatic variability during the last 2.2 ka. 相似文献