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1.
热带西太平洋对现代全球气候系统有举足轻重的影响,其中"西太平洋暖池"区的变异对调节全球气候发挥着极为重要的作用。越来越多的证据表明在轨道—亚轨道尺度上暖池对全球古气候的变化也有着重要的调控作用,低纬热带西太平洋已成为近十几年来古海洋学研究的重点地区之一。从表层海水古温度和古生产力记录、千年尺度的快速气候变化、厄尔尼诺—南方涛动(El Nio-Southern Oscillation,ENSO)式变化以及暖池强弱变动及其位移等角度梳理了西太平洋暖池区古海洋学研究的现状,综述了目前对暖池区海洋环境演化及其气候效应的已有认识,针对目前暖池区古环境研究的状况探讨了未来工作中应重视的科学问题。 相似文献
2.
东北印度洋地理位置独特,其沉积物记录了青藏高原隆升及孟加拉扇的“源-汇”过程、印度季风与东亚季风的“海-气”交互作用、印-太暖池热传输的演变与高纬气候之间的相位关系等关键信息,是喜马拉雅地区“构造-气候-沉积”耦合演化的良好记录载体,是探讨多圈层相互作用、探索古气候与古环境演化的理想“窗口”。本文系统总结了近年来有关东北印度洋季风与表层环流特征、沉积物组成及物源、气候环境演化以及环境磁学记录等方面的研究进展。分析表明,东北印度洋为典型的季风风场,表层环流受季风影响强烈,夏季和冬季环流差异明显。沉积物类型丰富,包括河流输运而来的陆源碎屑、钙质和硅质为主的生物沉积以及火山物质等。但目前对于该区域的沉积物的具体组成、“源-汇”过程、迁移历史、季风演化与青藏高原隆升、高纬气候变化之间相互关系等方面的认识尚存在较大的分歧。同时,受样品获取难度大、磁学信号稀释严重等因素的限制,环境磁学作为一种在示踪沉积物物质来源、恢复古气候和古环境等方面被普遍认可的技术手段,在东北印度洋区并没有得到充分的发挥与应用。因此,未来需要在前人研究的基础上,将目光向东北印度洋更南、更深处延伸,对其“源-汇”过程进行全面分析。在研究方法上进一步拓展,采用更高精度的技术手段提取磁学信号,加大环境磁学的应用,寻找有效的替代性指标,解决该地区季风演化、古海洋环境变化等气候环境问题,为该地区环境气候研究提供新认识。并尝试开展地磁场长期变化(paleosecular variation, PSV)研究,建立东北印度洋的PSV记录,辅助修正全球地磁场模型,探究地球深部动力过程。 相似文献
3.
地球圈层相互作用中的深海过程和深海记录(II):气候变化的热带驱动与碳循环 总被引:1,自引:3,他引:1
地球轨道变化驱动冰期旋回的理论是气候演变研究在20世纪的最大突破。然而以65°N太阳辐射量为准的传统轨道理论,忽视了低纬区和碳循环的作用。本项目以“西太平洋暖池”为重点,通过地质资料和气候数值模拟的结合,揭示了“西太平洋暖池”和东亚季风发育的阶段性,发现了暖池海区冰消期表层水升温超前于北半球冰盖的融化。在南沙海区发现了碳同位素有40~50万年长周期,经过全球对比和对意大利上新世地层的实测与分析,证明这是世界大洋碳储库对于地球运行轨道偏心率长周期的响应,并推测是通过浮游植物群改变有机碳在海洋碳沉积中的比例所致。研究表明热带驱动和碳循环在气候演变中重要性,其正确认识是预测气候长期演变趋势的前提。是“深海973”项目总结报道之后的续篇,对上述成果作专题讨论。 相似文献
4.
The Antarctic and the Arctic regions play a key role in global sea level change and carbon cycle, and reserve key information of the Cenozoic transition from a green-house to an ice-house Earth. They have become hot spots in earth science studies. The geological drilling projects in both polar regions (e.g., DSDP/ODP/IODP/ICDP) have achieved remarkable successes, which have freshened the knowledge of global environmental and climatic evolution. Along with the Cenozoic global cooling, the timing of glaciation was almost synchronous on both the Antarctic and the Arctic. Accompanied with the Antarctic ice sheet build-up and increased terrestrial weathering, the enhanced formation of Antarctic Bottom Water exerts significant impact on global ocean circulation. The volume of unstable West Antarctic Ice Sheet fluctuates during glacial-interglacial periods showing 40 ka obliquity cycles, its volume significantly reduced or collapsed during several peak interglacials or long warm intervals. The Southern Ocean plays a significant role modulating atmospheric CO2 concentration, global deep water circulation and nutrient distribution, productivity at different time scales. Sea level responses to the waxing and waning of polar ice sheets at different time intervals were tested, which provide valuable clue for predicting future sea level changes. The upcoming IODP drilling projects on polar regions will keep focusing on the high latitude ice sheet development, Southern Ocean paleoceanographic evolution, land-ocean linkages in the Arctic, and the impacts on the global climate, which will provide important boundary conditions for predicting global future climate evolution. 相似文献
5.
热带太平洋海洋环流与暖池的结构特征、变异机理和气候效应 总被引:3,自引:0,他引:3
热带西太平洋暖池是引发强烈的大气对流、驱动Walker环流和Hadley环流系统的主要热源之一,对全球、尤其是东亚气候有重要影响。针对我国在提升气候预测水平方面的重大和迫切需求,国家重点基础研究发展计划项目"热带太平洋海洋环流与暖池的结构特征、变异机理和气候效应"于2011年7月正式立项。项目拟解决的关键科学问题包括:①调控暖池形成和变异的海洋环流多尺度相互作用过程;②海洋动力过程在暖池热盐结构变异中的作用及其机理;③暖池变异对不同类型El Nio影响机理的异同和对东亚季风变异的调制机理。围绕上述关键科学问题,项目将以暖池变异为中心,关注影响和控制暖池结构与变异的关键海洋过程,以及暖池海气相互作用影响ENSO循环、东亚季风年际变异的过程和机理,重点组织开展以下3个方面有针对性的调查研究:①热带太平洋环流和暖池的结构和变异特征;②热带太平洋环流与暖池相互作用的关键过程和机理;③暖池变异的海洋—大气耦合过程及其气候效应。在此基础上,项目将力争阐明暖池影响东亚季风和我国气候变异的过程、机理与敏感区,改进模式的混合参数化方案,提出有效提高ENSO预报技巧的同化方案,为我国短期气候预测能力的提高提供科学支撑。 相似文献
6.
作为全球接受太阳辐射最多、表层海水温度最高的区域,西太平洋暖池区通过厄尔尼诺-南方涛动(El Niño-Southern Oscillation,ENSO)和季风等过程影响着全球气候的变化。越来越多的沉积记录证明,在地质历史时期西太平洋暖池也存在类似于现代ENSO过程的“类ENSO式”变化。而目前类ENSO式变化与冰期—间冰期旋回之间的响应关系和驱动机制及其与东亚季风的关联仍存在争议。本文利用位于暖池核心区的B10岩心浮游有孔虫氧同位素、Mg/Ca(质量分数比)和黏土矿物参数重建了暖池区氧同位素8期以来的古气候记录,并结合已有的热带海表温度记录、中国石笋氧同位素和南大洋地区海表温度记录,研究了西太平洋暖池冰期旋回中类ENSO状态的演化规律及其与东亚季风的关系,并探讨了暖池区类ENSO演化的驱动机制。结果发现:冰期时,西太平洋暖池区温跃层变浅,赤道东、西太平洋温差减小,同时,东亚夏季风减弱,暖池区降水量相对减少,与现代El Niño时期气候态类似;间冰期时,西太平洋暖池区温跃层加深,赤道东、西太平洋温差增大,东亚冬夏季风增强,暖池区降水量相对增加,与现代La Niña时期气候态类似。频谱分析结果表明,西太平洋暖池区海表温度的变化具有偏心率周期(96 ka)。冰消期时,低纬度太阳辐射量的增加,增大了纬向上的SST梯度,并使得次表层海水储存了更多的热量,积累的热量会通过调节次表层环流向暖池区的热传输,最终调控赤道太平洋地区Walker环流强度和ENSO活动的长期变化。而冰期时,南大洋地区降温所引起的东南信风和大洋环流异常可能对类ENSO式起到调控的作用。 相似文献
7.
选取大洋钻探ODP184航次在南海北部采集的1144站为研究材料,通过分析中更新世0.4~1.4Ma期间506个样品中浮游有孔虫氧、碳稳定同位素的变化特征,并与南海南部ODP 1143站和西太平洋暖池ODP 807站的同位素资料进行比较,发现南海北部的氧、碳稳定同位素及其差值的变化响应中更新世气候转型事件,在中更新世距今约0.9Ma之后100ka的偏心率周期明显增强。在中更新世气候转型之前,南海北部、南海南部和赤道西太平洋都呈现出典型的热带气候特征,具有岁差和半岁差的气候周期;转型之后,随着北半球冰盖的进一步扩张,南海北部受东亚冬季风增强的影响而导致温度下降、温跃层变深,但南海南部与赤道西太平洋的温度变化较小且温跃层变浅,说明同属季风区的南海北部和南部对气候变化的响应有所不同。 相似文献
8.
Indian Monsoon Variability in a Global Warming Scenario 总被引:4,自引:0,他引:4
The Intergovernmental Panel on Climate Change (IPCC) constituted by the World Meteorological Organisation provides expert guidance regarding scientific and technical aspects of the climate problem. Since 1990 IPCC has, at five-yearlyintervals, assessedand reported on the current state of knowledge and understanding of the climate issue. These reports have projected the behaviour of the Asian monsoon in the warming world. While the IPCC Second Assessment Report (IPCC, 1996) on climate model projections of Asian/Indian monsoon stated ``Most climate models produce more rainfall over South Asia in a warmer climate with increasing CO2', the recent IPCC (2001) Third Assessment Report states ``It is likely that the warming associated with increasing greenhouse gas concentrations will cause an increase in Asian summer monsoon variability and changes in monsoon strength.'Climate model projections(IPCC, 2001) also suggest more El Niño – like events in the tropical Pacific, increase in surface temperatures and decrease in the northern hemisphere snow cover. The Indian Monsoon is an important component of the Asian monsoon and its links with the El Niño Southern Oscillation (ENSO) phenomenon, northern hemisphere surface temperature and Eurasian snow are well documented.In the light of the IPCC globalwarming projections on the Asian monsoon, the interannual and decadal variability in summer monsoon rainfall over India and its teleconnections have been examined by using observed data for the 131-year (1871–2001) period. While the interannual variations showyear-to-year random fluctuations, thedecadal variations reveal distinct alternate epochs of above and below normal rainfall. The epochs tend to last for about three decades. There is no clear evidence to suggest that the strength and variability of the Indian Monsoon Rainfall (IMR) nor the epochal changes are affected by the global warming. Though the 1990s have been the warmest decade of the millennium(IPCC, 2001), the IMR variability has decreased drastically.Connections between the ENSO phenomenon, Northern Hemisphere surface temperature and the Eurasian snow with IMR reveal that the correlations are not only weak but have changed signs in the early 1990s suggesting that the IMR has delinked not only with the Pacific but with the Northern Hemisphere/Eurasian continent also. The fact that temperature/snow relationships with IMR are weak further suggests that global warming need not be a cause for the recent ENSO-Monsoon weakening.Observed snow depth over theEurasian continent has been increasing, which could be a result of enhanced precipitation due to the global warming. 相似文献
9.
近十年来,我国在亚洲大陆边缘沉积学和古海洋学研究中取得了突破性进展。在空间上,对北起拉普捷夫海、南至孟加拉湾的广大海域进行了沉积物调查取样,开展了跨纬度"源-汇"过程研究,建立了陆架第四纪高分辨率地层层序,初步揭示了构造运动、海平面变化、亚洲季风、海冰、海流以及人类活动等因素在不同时空尺度上对亚洲大陆边缘"源-汇"过程的基本控制作用。在南海通过国际大洋钻探获取的沉积记录,发现了低纬区水、碳循环直接响应地球轨道变化的证据,提出了低纬过程也能驱动全球气候变化的新认识。通过现场观测,揭示了台风、风暴潮、热带风暴等对陆架沉积和动力过程的影响,阐述了内孤立波、中尺度涡、等深流和浊流等在南海沉积物输运中的作用。对末次冰期以来暖池、黑潮、北太平洋中层水等的演化及其对沉积作用的影响研究也取得了创新性的成果。未来亚洲大陆边缘沉积学的研究应加强现代沉积过程的长期连续观测,重视地质记录中环境演变信号的精确解译,深化数值模拟技术和海洋沉积大数据的挖掘与使用。 相似文献
10.
南大洋是全球面积最大的一个大洋。传统观点倾向于认为由于南大洋与北半球相距遥远而与北半球气候系统关系不大,其全球性气候效应也较弱,这主要是由于以往对南大洋的了解不足。随着观测分析、数值模拟与理论研究的加强,以及对南大洋的认识不断加深,南大洋的气候效应日益凸显。从南极底层水、南极绕极流、南大洋海冰、南大洋与热带之间的遥相关、以及南大洋对气候变化的响应等多个角度梳理了南大洋物理过程特别是动力过程在全球气候系统中的作用,较为完整地总结了对南大洋气候效应的已有认识,并结合南大洋研究现状对未来有价值的科学问题和潜在的研究热点进行了探讨,以期强调南大洋在全球气候系统中的重要地位,推动南大洋研究不断走向深入。 相似文献
11.
应用1951-2001年ENSO特征指数(NINO1+2、NINO3、NINO4、NINO3.4、SOI)和1973-1998年南极海冰北界范围以及1950-2001年SODA海洋温度资料,分析探讨了ENSO循环过程与南极海冰之间的关系,研究了南大洋和太平洋海表温度与南极海冰之间的内在联系。结果表明,南极海冰变化与ENSO循环过程存在一定联系,特别是东南极海冰的变化与ENSO循环过程较为密切。这种遥相关关系表明,ENSO循环过程不仅与热带海洋自身的海 气相互作用存在密切关系,而且与南极海冰之间也存在一定的联系。当东南极海冰范围出现异常增大和减小时,在时滞一年之后,NINO循环指数将出现减弱和加强,而南方涛动指数将出现加强和减弱。这种相关关系的机制是通过大洋环流这一载体将异常海温向北输送来实现的。南极海冰范围的异常增加或减少,会直接影响南极绕极流的冷暖结构进而影响经向水体输送的异常,从而导致热带和副热带太平洋上层海温场的异常变化,对ElNino和LaNina事件的发生起到推动作用。 相似文献
12.
三大自然区过渡地带近50年来气候类型变化及其对气候变化的响应 总被引:2,自引:0,他引:2
The transition area of three natural zones (Eastern Monsoon Region, Arid Region of Northwest China, Qinghai Tibet Plateau Region) is influenced by the Asian monsoon and middle latitude westerly circulation because of its special geographical position. And it is more sensitive to global climate change. The Koppen climate classification, which is widely used in the world, and the accumulated temperature-dryness classification, which is usually used in China, were used to study the climate zones and changes in the region of longitude 97.5°~108°E, latitude 33°~41.5°N, from 1961 to 2010. The changing areas of each climate zone were compared to the East Asian Summer Monsoon index, the South Asian Summer Monsoon index, the Summer Westerly index, the East Asian Winter Monsoon index, the Plateau Summer Monsoon index, the North Atlantic Oscillation index, the Southern Oscillation index, NINO3.4 index, to explore the response of the transition area of three natural zones to each climate system. According to the results, this region will become wetter when the Summer Westerly or the East Asian Winter Monsoon is relatively strong. When the East Asian Summer Monsoon or the South Asian Summer Monsoon becomes strong, the climate in low altitude region of the study area will easily become drier, and the climate in high altitude region of the study area is easily to become wetter. When the Plateau Summer Monsoon is relatively strong, the climate in the study area will easily become drier. When the North Atlantic Oscillation is relatively strong, the study area will easily become wetter. And when the El Niño is relatively strong, or the Southern Oscillation is relatively weak, the study area will easily become drier. In general, the moisture status of this region is mainly controlled by the middle latitude westerly circulation. The enhancement of the Asian summer monsoon could increase the precipitation in the southeast part of this regional, but, according to the degrees of dryness and the types of climate change in this paper, warming effects could offset precipitation increasing and make the area drier. The transition area of three natural zones is influenced by multiple interactions of climate systems from East Asia. A single climatic index, such as air temperature or precipitation, can not completely represent the regional features of climate change. As a result, areas of climate zones can be used as an important index in the regional climate change assessment. 相似文献
13.
研究晚全新世季风气候演变有助于进一步认识与预测未来季风区气候变化。太平洋东西两岸是全球季风集中分布的地区,已经有大量的古气候记录发表,但是缺乏对各个季风区气候突变事件以及整体变化趋势的对比研究。针对这一问题,选取亚洲季风区、印澳季风区、北美季风区、南美季风区11个洞穴石笋δ18O和1个湖泊Ti含量,对比研究各个记录在3.5~0.5 ka B.P.期间指示的夏季风变化特征。通过对比发现四大季风区的石笋δ18O在晚全新世整体上呈现偏正趋势,指示夏季风减弱;2次重要的气候突变事件1.5 ka B.P.和2.7 ka B.P.弱夏季风事件在各个季风区内均有表现;同时也记录了一系列十年际-百年际尺度的弱夏季风事件,表明太平洋东西两岸和南北半球的夏季风都有减弱的趋势,这与先前研究认为的南北半球呈现"see-saw"模式表现出不一样的特征。晚全新世以来ENSO(El Nino-Southern Oscillation)活动的增强对太平洋东西两岸南北半球夏季风减弱具有重要影响。在El Nino事件发生时,Walker环流减弱,而且它的上升支向东移动远离西太平洋暖池,西太平洋副热带高压增强并向西移动,导致亚洲夏季风减弱。Walker环流的东移也会使得印度尼西亚-太平洋暖池(Indo-Pacific Warm Pool,简称IPWP)海温下降,热带季节内震荡减弱致使印澳夏季风减弱;此外,El Nino事件发生时,赤道东太平洋海水温度上升导致东西太平洋海水温度梯度减弱,在此状态下南美季风区低空急流(Low Level Jet,简称LLJ)减弱,导致南美夏季风减弱;同时,北美洲加勒比海低空急流增强,使得该季风区下沉气流增强,导致北美夏季风减弱。我们的研究表明,在晚全新世ENSO活动增强的状态下,太平洋东西两岸南北半球夏季风变化可能都呈现减弱趋势。 相似文献
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The Asian Summer Monsoon (ASM) is the dominant climate system of South and East Asia. However, the history of monsoon intensification and the driving forces behind it are controversial. Wind-blown sediments in mid-latitude East Asia and fluvial-derived sediments in the northern South China Sea imply contrasting ASM patterns during the late Cenozoic. Here we use pollen records from the southwest South China Sea (International Ocean Discovery Program (IODP) Site U1433) to reconstruct the ASM evolution in low-latitude Southeast Asia. A slow increase in herbaceous plants since 8 Ma indicates a persistent weakening of precipitation in Indochina, which is dominated by the ASM. This signal is closely associated with a consistent coniferous plant record, indicating a continuous cooling trend that correlates well with Sea Surface Temperature (SST) decrease in the west Pacific Ocean. We propose that the monsoon weakening resulted in as much as a ~ 25% reduction in precipitation over the past 8 Ma in response to the Northern Hemisphere glaciation/global cooling, with some of the increase in conifers being linked to uplift of the Vietnamese Central Highland and the SE flank of the Tibetan Plateau in Yunnan and northern Vietnam. 相似文献
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南极和北极海域的深海钻探(DSDP)和大洋钻探(ODP)研究所取得的成就是举世瞩目的,为人类研究过去全球变化打开了新的视野。它们揭示了北大西洋高纬度海区新近纪的古海洋学和古气候的演化历史,发现了早更新世"41ka世界"千年尺度的气候波动,以及冰期表层水温与深层水的耦合颤动,说明冰期旋回中冰消期气候的不稳定性。检验了新近纪环南极洋流的形成历史,并揭示了南极新生代的气候变冷和冰盖的演变历史,以及证实了南大洋温度变化领先于全球冰量的变化。2004年北极罗蒙诺索脊的综合大洋钻探(IODP)将宣告科学探索时代的到来,其研究将重建北冰洋新生代环境变化和气候的演变历史,展示北冰洋在全球气候变化中的作用。 相似文献
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M. Cobianchi V. Luciani C. Lupi N. Mancin F. Lirer N. Pelosi I. Trattenero M. Bordiga I. R. Hall M. Sprovieri 《第四纪科学杂志》2012,27(5):519-530
Through a multidisciplinary approach based on novel micropaleontological and geochemical analyses, the main paleoceanographic and paleoclimate changes that have influenced the surface‐ and deep‐water circulation in the SW Pacific Ocean (Chatham Rise, eastern New Zealand) during the last million years are reconstructed. This region represents a key area for investigating the climate evolution during the Pleistocene because here the largely wind‐driven Antarctic Circumpolar Current interacts with the west Pacific Ocean circulation via the Deep Western Boundary Current, the major source of deep water for the whole Pacific Ocean. To understand coupling or decoupling events between sea surface and bottom waters, a continuous marine sedimentary succession since 1.1 Ma, recovered by the IMAGES (International Marine Past Global Change Study) cruise in the SW Pacific Ocean (Core MD97‐2114), has been investigated based on calcareous planktonic and benthic microfossil content and C and O isotope record performed on planktonic and benthic foraminiferal tests. Results show the occurrence of long‐ and short‐term patterns of climate and ocean circulation in the last million years as the result of the interplay of ice‐sheet dynamics, surface tropical versus polar water inflow, and trophic status of the surface water. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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IODP中的海陆对比和海陆相互作用 总被引:4,自引:0,他引:4
综合大洋钻探计划(IODP)将于2003年10月启动。与大洋钻探计划(ODP)相比,IODP规模更大,钻探和研究范围更宽,囊括地球科学的诸多领域,涉及海底生物圈、地球壳幔结构、俯冲工厂和地震活动、古环境记录和海底资源等。从海陆对比和海陆相互作用的角度,分析我国地球科学,尤其是新生代地质学研究中的一些特点和优势。中国新生代地质演化历史别具特色,如宏观地形格局的变化,喜马拉雅山和青藏高原的隆升,西太平洋边缘海的扩张,亚洲季风系统的形成等,这些特色成为中国科学家参与IODP科学研究计划的优势。 相似文献
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In the recent decades, a large amount of anthropogenic heat has been absorbed and stored in the Southern Ocean. Results from observations and climate models' simulations both show that the Southern Ocean displays large warming in the upper and subsurface ocean that maximizes at 45°~40°S. However, the underlying mechanisms and evolution processes of the Southern Ocean temperature changes remain unclear, leaving the Southern Ocean to be a hotspot of climate change studies in the recent years. The present study summarized the current progress in the observations and numerical modeling of long-term temperature changes in the Southern Ocean. The effects of changes in wind, surface heat flux, sea-ice and other factors on the ocean temperature changes were presented, along with the introduction to the role of oceanic mean circulation and eddies. The present study further proposed that a deepening of the understanding in the Southern Ocean temperature change may be achieved by investigating the fast and slow responses of the Southern Ocean to external radiative forcing, which are respectively associated with the fast adjustments of the ocean mixed-layer and the slow evolution of the deep ocean. Specifically, the striking and fast mixed-layer ocean warming north of 50°S is tightly related to the surface heat absorption over upwelling regions and wind-driven meridional heat transport, resulting in enhanced warming around 45°S. While in the slow response of the Southern Ocean temperature, the enhanced ocean warming shifts southward and downward, mainly associating with the heat transfer from oceanic eddies. The Southern Ocean temperature has pronounced climatic effects on many aspects, such as global energy balance, sea-level rise, ocean stratification changes, regional surface warming and atmospheric circulation changes. However, large model biases/deficiencies in simulating the present-day climatology and essential ocean dynamic processes last in generations of climate models, which are the main challenge in advancing our understanding in the mechanisms for the Southern Ocean climate changes. Therefore, to achieve reliable future projections of the Southern Ocean climate, substantial efforts will be needed to improve the model performances and physical understanding in the relative role of various processes in ocean temperature changes at different time scales. 相似文献