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史前人类向青藏高原扩散的历史过程和可能驱动机制 总被引:1,自引:0,他引:1
《中国科学:地球科学》2016,(8)
青藏高原史前人类的活动历史历来是国际学术界广泛关注的热点科学问题.近年来相关研究取得明显进展,提供了梳理史前人类向青藏高原扩散和定居的过程与驱动机制的可能.本文通过整理和总结在青藏高原已开展的考古工作,提出史前人类主要通过河湟谷地扩散到青藏高原东北部再进一步扩散到整个青藏高原,其扩散过程可概括为四个阶段,分别为末次冰消期的旧石器时代晚期(距今1.5~1.16万年)、全新世早中期的中石器时代(距今11600~6000年)、全新世中晚期的新石器时代(距今6000~4000年)和全新世晚期的青铜时代(距今4000~2300年),而曾报道的青藏高原末次盛冰期及其以前的旧石器遗址的年代需要重新厘定.末次冰消期的人类扩散主要与盛冰期之后的气候转暖转湿事件和细石器文化的盛行有关,全新世早中期的扩散则受到温暖湿润的气候条件的驱动和黄土高原粟作农业发展的压迫,这两个时段高原上的史前人类均以季节性的狩猎采集为主;黄土高原粟作农业的传播推动史前人类于距今6000~4000年进入青藏高原东北和东南部的低海拔河谷地带并定居,从事以粟作农业为主的经济活动,而麦作农业的传入推动史前人类距今3600年前开始常年定居到青藏高原高海拔地区. 相似文献
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对尼罗河三角洲平原东北部一个古埃及文化遗址(Kom El-Khilgan)1.5 m长的沉积物剖面KH1开展14C测年、沉积物粒度和孢粉分析.根据岩性、粒度和测年等结果综合判定:剖面150~100 cm地层为早全新世河流相沉积;100~27 cm地层为早、中全新世(8000—4000 cal a BP)三角洲冲积平原沉积,其中涵盖了古埃及前王朝至古王国时期(6500—4131cal a BP)的人类活动信息;27~0 cm为现代表土层.孢粉分析结果反映了在距今8000~4000 a期间:1)研究区气候由湿润过渡为温和,最后趋于干旱;2)随着气候变干,尼罗河上游水文变化对三角洲环境影响减小,研究区由沼泽湿地逐渐过渡为干草甸环境,更多的土地可以被人类利用;3)常被用来指示农业活动的35μm禾本科、陶器碎片和炭屑的出现并逐渐增加,表明该遗址附近的人类农业活动始于距今6500 a左右,并持续至距今4000 a前后.上述证据表明尼罗河三角洲全新世早—中期湿润向干旱过渡的气候驱动了人类农业活动的开展.本研究为进一步探讨尼罗河三角洲古文明对环境适应性研究提供了科学依据. 相似文献
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前人在山西交城断裂带上开挖过多个探槽,揭露出全新世3次古地震事件,但其研究结果尚不能确定该断裂带全新世活动段的北部边界.近期在该断裂带北端和中段又开挖了3个大型探槽,其中在阳曲县泥屯盆地西界开挖的龙王沟探槽,是一个由多个探槽组合成的大探槽,该探槽揭示的地层断错信息,将交城断裂带全新世活动的范围向北延伸了20km.另外2个大型探槽分别为交城断裂带中段瓦窑沟东侧台地前缘的瓦窑探槽与市儿口沟西侧T1阶地前缘的新民探槽.这3个大探槽均揭示出全新世中期(14C测年值为距今5 ~ 6ka)的垆土和淤泥层,以及多组平行分布的断面,所揭示的全新世3次古地震事件具有断错事件活动的同步性,可与前人探槽揭示的全新世断层活动事件相对比.3次断错活动时间分别距今3.06 ~3.53ka、5.32ka左右或6.14ka左右、8.36ka左右;3次事件的时间间隔分别为2.02 ~ 2.84ka和2.22 ~ 3.04ka.这些断错事件的同震垂直位移为1.5~4.7m,显示了7级以上地表破裂型的强震活动.最后讨论了探槽中14C测年样品的影响因素. 相似文献
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全新世以来洞庭湖的演变 总被引:25,自引:1,他引:24
本文根据全新世沉积物的岩性、岩相特征和文化遗址的时空分布,结合孢粉资料与历史文献记载,揭示了全新世以来洞庭湖演变的六个阶段:(1)晚更新世末至全新世初为河湖切割平原;(2)中全新世早、中期(8000—5000a B.P.)是湖泊扩展时期;(3)中全新世晚期(5000—3000 a B.P.)四水复合三角洲发育,湖沼洼地零星分布;(4)商周至秦汉(3000—1700 a B.P.)四水分流间洼地湖泊和沼泽广布,汛期河湖水体相连;(5)魏晋至19世纪中叶,洞庭湖逐渐发展至鼎盛阶段;(6)19世纪中叶至今,三角洲迅速推进,湖泊逐渐萎缩。研究认为这种发育演化过程与区域性气候变化、人类活动直接相关。 相似文献
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声波探测显示的渤海湾西部全新世断层活动 总被引:3,自引:0,他引:3
本文展示了渤海湾西部浅地层声纳探测成果,讨论了渤海湾西部全新世和晚更新世上部地层划分、晚冰期与冰后期的沉积地层学特点及最新断裂活动的证据等。声波探测由于具有很高的分辨率和信号发射频度,可以获得高品质浅地层剖面,显示出沉积地层的结构与构造细节,如斜层理等三角洲沉积标志特征可清晰显示,水平层理不发育的黄土堆积特征也有显示。在声波剖面中地层界面的中断和弯折变形显示了最新断裂活动的证据,依据地层学资料,确定其年代距今仅为几千年,即全新世中期。这些断层的平面位置与基底或第三纪地质构造图中的断层位置一致,表明有些断层活动贯穿了更新世并延续到全新世,这些勘探成果对渤海西部断层活动性的鉴定具有重要意义。在声波剖面中还发现一些垂向小型结构构造,其成因不明,是否代表了某种地质事件,有待进一步深入研究。 相似文献
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香港地区断裂构造的新活动性 总被引:1,自引:0,他引:1
香港地区主要分布有北东东-近东西、北东和北西向三维断裂。北东向断裂分布全区,燕山期有过强烈活动,第四纪早-中期仍有过活动,以后的活动性不明显。其余两组构造虽然具有不同的发展历史,但在新构造运动中为一组共轭构造。在晚更新世(距今9-11万年)仍有明显活动全新世以来活动性相对较弱,全新世滑动速度为0.6-0.9mm/a 相似文献
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本文通过历史资料考证和野外调查证实:1605年琼州大地震时在铺前港一带海边发生大片陆地沉陷,造成三江水变迁,东寨河成为三江水之一,大震后至今380年来沿东寨河地区继续发生大幅度缓慢下沉,终于使东寨河演变成今天海南岛伸入内陆最长的港湾——东寨港 相似文献
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ENSO和长江大水对天文因子的响应研究 总被引:5,自引:1,他引:4
ENSO(厄尔尼诺和南方涛动的总称)对世界尺度的天气气候有影响,本文用概率论统计检验方法,查明长江大水与ENSO以及ENSO与天文因子的相关关系,并系统分析了三者之间的相关关系。结果表明:ENSO事件对天文物理主周期和天文特征有明显的响应,长江大水年对太阳活动特征、节气日的月相年变化和ENSO也有显著的响应关系。这些关系对长江大水的准确预测有重要价值。文中对天文物理因子对ENSO和大水的影响机理进行了探讨。 相似文献
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Edward BRADLEY 《水文科学杂志》2013,58(3):12-23
Abstract The biblical Jordan River Valley, which extends from Lake Tiberias (the Sea of Galilee) to the Dead Sea, is decidedly similar to the Jordan River Valley of Utah, which joins Lake Utah and Great Salt Lake. Both Jordan Rivers drain relatively large fresh-water lakes and also are major sources of discharge into large salty lakes that have no outlets to the ocean. The two Jordan River valleys and the highlands and mountains that surround them, have many physiographic, geologic, and hydrologic similarities as well as some noteworthy differences. For example, an hypothesis for the formation of the Dead Sea-Jordan Valley rift is that the east Jordan block slid northward with respect to the west Jordan block. The amount of displacement is estimated to be about 65 miles and took place partly in Miocene and possible Pliocène and partly in Pleistocene time. Tectonc activity has also been a major factor in the formation of the Jordan valley of Utah, but the movement here probably was along large normal faults in late Tertiary and Quaternary time. The sediments underlying both Jordan River valleys were deposited in ancestral lacustrine and fluvial environments. Abundant supplies of ground water are found under both valleys, but probably larger supplies of better quality water can be obtained in Utah. Both valleys contain numerous small nonthermal and a few large thermal springs. 相似文献
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1INTRODUCTIONTheBrahmaputraRiveroriginatesfromtheJimayanzhongglacieratthenorthfootoftheHimalayaMountainsinSouthTibet,China.I... 相似文献
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In water-deficient rivers, environmental flows (e-flows) are usually sustained via inter-basin water transfer projects from water-sufficient rivers, but these projects incur tremendous costs and may lead to many negative ecological effects, such as ecological invasion. This research proposed to transfer hydropower instead of water from water-sufficient rivers, because hydropower could substitute for water to promote economic development and reduce water withdrawal from water-deficient rivers (conserved water). In addition, based on the analysis of eco-hydrological processes, the flow regime alteration plays an important role in restoring riverine ecosystem. With the goal of minimum flow regime alternation, we set up two scenarios to distribute the annual conserved water, and determined the optimal amount of transferred hydropower and the optimal use of conserved water, which could effectively sustain the e-flows. Accordingly, this paper established a computable general equilibrium model to analyse the substitution of hydropower for water in a water-deficient river basin, and determined the water withdrawal volume that could be reduced. We adopted a range-of-variability approach to measure the degree of flow regime alteration, and optimized the flow regime management scheme. The Luanhe River Basin was adopted as a study case. The results showed that: the water-hydropower equivalent decreased as the transferred hydropower into the Luanhe River Basin increased; a transferred hydropower amount of 22.46 kWh/s, equivalent to 18.30 m3/s conserved water, was optimal for the river basin; the conserved water should be distributed to the Luanhe River in the proportions of 0.55:0.1:0.35 during the wet, normal and dry seasons, respectively, which is the optimal scheme to sustain the hydrological processes of the river. 相似文献
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ShixiongHU ZhaoyinWANG GangWANG XiaoyingLIU 《国际泥沙研究》2004,19(2):142-148
The Three Gorges Project is one of the largest hydro-projects in the world and has drawn many debates inside China and abroad. The major concern is that sediment load from the river basin may eventually fail the functions of the project for flood control and power generation. To reduce sedimentation in the reservoir, watershed management has been adopted. However, there is limited information regarding the effectiveness of various control measures such as terracing and afforestation on a watershed scale. The Jialing River, a main tributary of the Yangtze River, contributes approximately 25% of the total sediment load in the main river but only represents 8% of the whole basin area. There have been various land use patterns and extensive human activities for thousands of years in the Jialing River watershed. Based on analysis of the major factors affecting erosion in the Jialing River watershed, the main watershed management strategies (afforestation, farming and engineering practice) are illustrated, and their effects on the reduction of sediment and runoff are studied in detail. The sediment budget of the watershed shows that 1/3 of the sediment yield is trapped by the erosion control measures (afforestation and farming) on the slope, 1/3 is trapped by the reservoirs, ponds and dams within the watershed, and only about 1/3 is transported into the Yangtze River, which will affect the Three Gorges Project. 相似文献
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Weiguang Wang Quanxi Shao Tao Yang Shizhang Peng Wanqiu Xing Fengchao Sun Yufeng Luo 《水文研究》2013,27(8):1158-1174
Quantitative evaluation of the effect of climate variability and human activities on runoff is of great importance for water resources planning and management in terms of maintaining the ecosystem integrity and sustaining the society development. In this paper, hydro‐climatic data from four catchments (i.e. Luanhe River catchment, Chaohe River catchment, Hutuo River catchment and Zhanghe River catchment) in the Haihe River basin from 1957 to 2000 were used to quantitatively attribute the hydrological response (i.e. runoff) to climate change and human activities separately. To separate the attributes, the temporal trends of annual precipitation, potential evapotranspiration (PET) and runoff during 1957–2000 were first explored by the Mann–Kendall test. Despite that only Hutuo River catchment was dominated by a significant negative trend in annual precipitation, all four catchments presented significant negative trend in annual runoff varying from ?0.859 (Chaohe River) to ?1.996 mm a?1 (Zhanghe River). Change points in 1977 and 1979 are detected by precipitation–runoff double cumulative curves method and Pettitt's test for Zhanghe River and the other three rivers, respectively, and are adopted to divide data set into two study periods as the pre‐change period and post‐change period. Three methods including hydrological model method, hydrological sensitivity analysis method and climate elasticity method were calibrated with the hydro‐climatic data during the pre‐change period. Then, hydrological runoff response to climate variability and human activities was quantitatively evaluated with the help of the three methods and based on the assumption that climate and human activities are the only drivers for streamflow and are independent of each other. Similar estimates of anthropogenic and climatic effects on runoff for catchments considered can be obtained from the three methods. We found that human activities were the main driving factors for the decline in annual runoff in Luanhe River catchment, Chaohe River catchment and Zhanghe River catchment, accounting for over 50% of runoff reduction. However, climate variability should be responsible for the decrease in annual runoff in the Hutuo River catchment. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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SHRINKAGE OF THE ESTUARINE CHANNELS OF THE HAIHE DRAINAGE SYSTEM AND ITS INFLUENCES ON FLOOD HAZARD 总被引:2,自引:0,他引:2
1INTRODUCTIONTheHaiheRiverBasinislocatedinNorthChinawithareaof262.6km2.Itisaquicklydevelopedareawithmanyimportantcitiesandindustrialhubs,includingBeding,Tianjin,Tangshan,Cangzhou,DezhouandHuanghua.Theareawatchedfastprogressesinurbanizationinthepastdecades,andhumanactivitieshaveresultedingreatinfluencesontheenvironment,riverhydrologyandsedimentbudget.Theareaisprojectedtobemoreprosperouswithmoreoilandgasfields,chemicalindustrybases,anddenserrailwaysandexpresshighwaysinthenextcent'Ury.T… 相似文献
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1 INTRODUCTION Flood of the Yellow River occurred frequently in history. The natures of large impact and heavy losses have made the flood of the Yellow River being in the front rank among major rivers in China. Statistics shows that during the period 602 AC to 1938 BC, embankment of the Lower Yellow River had been breached 1590 times and the channel had changed its course for 26 times among which 6 times were major ones. Thus, flood of the Yellow River has endangered economic cons… 相似文献
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1 INTRODUCTION Guanting Reservoir is located on the Yongding River (a large tributary of the Haihe River) and at the border of Beijing Municipality and Hebei Province. The reservoir receives three tributaries: the Sanggan River with a drainage area of 25,840 km2, the Yanghe River with 16,170 km2, and the Guishui River with 852 km2. The drainage area above the reservoir is 43,402 km2. The reservoir has two arms. The Sanggan River and Yanghe River join the Yongding River at the ups… 相似文献