The Medieval Warm Period and Little Ice Age in the Daihai Area, North China

Rb/Sr ratio, CaCO\-3 content, organic carbon (C\-\{org\}) concentration, magnetic susceptibility and clay mineralogy of 4.0 m sediments samples recovered from Daihai Lake, northern China, are presented in the paper. Weathering and paleoclimatic change history during the last 2300 years is reconstructed in terms of the variations of Rb/Sr ratios in the sediment sequence, including the Little Ice Age and Medieval Warm Period. Our results suggest that the evolution processes of weathering and paleoclimate can be rebuilt in terms of the variations of Rb/Sr ratios in the lake sediment sequence, in combination with magnetic susceptibility, C\-\{org\}, \{CaCO\-3\} contents and clay mineralogy.

High resolution oxygen isotope and grayscale records of a medieval fossil giant clam(Tridacna gigas) in the South China Sea: physiological and paleoclimatic implications

Mollusks are well known for their detailed recording of paleoenvironmental and paleoclimatic changes in their carbonate shells. In this study, we constructed 18-year blue color intensity and oxygen isotope profiles of a14C dated （AD 990±40） fossil giant clam,Tridacna gigas, from Shidao Island, South China Sea. Theδ18O profile of theT. gigas specimen displayed regular annual cycles and was probably controlled by seasonal variations of the climatic parameters. The blue color intensity profile showed good agreement with theδ18O series, and both had 18 clear annual cycles in accordance with the 18 visually identified annual growth bands. The annual shell growth rate determined from the blue color intensity and oxygen isotope profiles indicated that the annual shell increment of theTridacna specimen was stable after the onset of sexual ma-turity. Spectral analysis of theδ18O and blue color intensity time series suggested that the El Ni？o-Southern Oscillation （ENSO） period observed in the instrumental temperature and precipitation records of the South China Sea during the past 50 years also existed in medieval times. Our results showed that fossil giant clams could provide a good archive of historical intra-seasonal to decadal climate variations.

Heat budget analysis in three typical warm periods simulated by FGOALS-s2

This study compared basic warming patterns among three typical warm periods — the midHolocene（MH）, Medieval Warm Period（MWP）, and the twentieth century warming（20CW） — and carried out a comprehensive heat budget analysis using four experiments simulated by the Flexible Global Ocean–Atmosphere–Land System model, Spectral Version 2（FGOALS-s2）. The model simulates similar spatial warming patterns in all three warm periods, e.g. stronger warming appears in the high latitudes. However, changes in surface air temperature（SAT） over the tropical regions are different： a significant warming occurs in the 20 CW and MWP but a significant cooling in the MH. The heat budget analysis suggested that SAT changes are mainly induced by the heat flux. In the MH, the insolation and positive snow and ice feedback are responsible for the warming in the Southern Ocean but the wind anomalies and decreased downward longwave radiation（DLR） induce the cooling in the tropics. In the 20 CW, the decreased shortwave radiation and increased sea surface temperature dependency of evaporation dampen the warming in the tropics. In the MWP, the shortwave radiation induces the Southern Ocean warming, but the DLR and wind anomalies warm the SAT in the tropics. The simulated ocean temperature and ocean heat content anomalies are different in the upper ocean（above 1500 m）, which are mainly induced by the wind stress changes, but similar in the deep ocean in all three warm periods.

海南岛双池玛珥湖沉积正构烷烃记录揭示的中世纪暖期气候环境特征

对采自海南岛双池玛珥湖的沉积岩芯(SCH17-04)进行了加速器质谱法(Accelerator Mass Spectrometry,AMS)^(14)C测年和正构烷烃组成的实验分析,据此探讨了中国热带北缘地区约775-1550年间的气候环境特征。结果表明,SCH17-04岩芯正构烷烃记录揭示了该湖沉积的有机质主要来自于陆生高等植物,也包含部分水生植物和菌藻类植物的输入;利用正构烷烃相关组分的比值发现,在中世纪暖期(Medieval Warm Period,MWP,约950-1350年)时,研究区草本植物比例明显增大,木本植物占比相对偏小,揭示出地处热带北缘的海南岛地区在中世纪暖期气候环境总体上较为偏干,而在黑暗时代冷期(Dark Ages Cold Period,DACP)晚期(约775-950年)和小冰期(Little Ice Age,LIA)早期(约1350-1550年),海南岛地区气候环境相对较为偏湿。区域对比分析发现,双池玛珥湖沉积正构烷烃记录与同处热带地区的雷州半岛湖光岩玛珥湖沉积、西沙群岛东岛湖泊沉积以及来自泰国的石笋记录等较为一致,都揭示了一个气候相对较为偏干的中世纪暖期,这可能跟同一时期热带辐合带(Intertropical Convergence Zone,ITCZ)南北迁移和热带雨带的扩张与收缩、太平洋东西部海区海表温度梯度变化等因素有关。

从MWP看20世纪全球变暖

气候变暖已引起全球的广泛关注,正确的认识当前的气候变化已成为亟待解决的问题.目前的主流观点虽然认为近几十年的升温是由人类活动导致的,但许多学者发现MWP时期的气温与现代相当甚至更暖.结合国内外学者对MWP的研究,对比了MWP与现代暖期的温暖程度,指出20世纪暖期并不是过去千年最暖的世纪,现代升温可能只是气候冷暖波动中的一次自然现象,是LIA过后的正常回暖.因此对MWP的认识对于人们深入认识当前全球变暖的性质和原因,具有十分重要的意义.

Humid Medieval Warm Period recorded by magnetic characteristics of sediments from Gonghai Lake, Shanxi, North China

Variations in monsoon strength, moisture or precipitation in eastern China during the MWP reflected by different climatic records have shown apparent discrepancies. Here, detailed environmental magnetic investigations and mineralogical analyses were conducted on lacustrine sediments of Core GH09B1 (2.8 m long) from Gonghai Lake, Shanxi, North China, concerning the monsoon history during the MWP. The results demonstrate that the main magnetic mineral is magnetite. The sediments with relatively high magnetic mineral concentrations were characterized by relatively fine magnetic grain sizes, which were formed in a period of relatively strong pedogenesis and high precipitation. In contrast, the sediments with low magnetic mineral concentrations reflected an opposite process. The variations of magnetic parameters in Gonghai Lake sediments were mainly controlled by the degree of pedogenesis in the lake drainage basin, which further indicated the strength of the Asian summer monsoon. The variations in the and S 300 parameters of the core clearly reveal the Asian summer monsoon history over the last 1200 years in the study area, suggesting generally abundant precipitation and a strong summer monsoon during the Medieval Warm Period (MWP, AD 910–1220), which is supported by pollen evidence. Furthermore, this 3–6-year resolution environmental magnetic record indicates a dry event around AD 980–1050, interrupting the generally humid MWP. The summer monsoon evolution over the last millennium recorded by magnetic parameters in sediments from Gonghai Lake correlates well with historical documentation (North China) and speleothem oxygen isotopes (Wanxiang Cave), as well as precipitation modeling results (extratropical East Asia), which all indicate a generally humid MWP within which centennial-scale moisture variability existed. It is thus demonstrated that environmental magnetic parameters could be used as an effective proxy for monsoon climate variations in high-resolution lacustrine sediments.

A comparison of the Medieval Warm Period, Little Ice Age and 20th century warming simulated by the FGOALS climate system model

To compare differences among the Medieval Warm Period (MWP), Little Ice Age (LIA), and 20th century global warming (20CW), six sets of transient and equilibrium simulations were generated using the climate system model FGOALS_gl. This model was developed by the State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics, Institute of Atmospheric Physics, Chinese Academy of Sciences. The results indicate that MWP warming is evident on a global scale, except for at mid-latitudes of the North Pacific. However, the magnitude of the warming is weaker than that in the 20th century. The warming in the high latitudes of the Northern Hemisphere is stronger than that in the Southern Hemisphere. The LIA cooling is also evident on a global scale, with a strong cooling over the high Eurasian continent, while the cooling center is over the Arctic domain. Both the MWP and the 20CW experiments exhibit the strongest warming anomalies in the middle troposphere around 200-300 hPa, but the cooling center of the LIA experiment is seen in the polar surface of the Northern Hemisphere. A comparison of model simulation against the reconstruction indicates that model's performance in simulating the surface air temperature changes during the warm periods is better than that during the cold periods. The consistencies between model and reconstruction in lower latitudes are better than those in high latitudes. Comparison of the inter-annual variability mode of East Asian summer monsoon (EASM) rainfall during the MWP, LIA and 20CW reveals a similar rainfall anomalies pattern. However, the time spectra of the principal component during the three typical periods of the last millennium are different, and the quasi-biannual oscillation is more evident during the two warm periods. At a centennial time scale, the external mode of the EASM variability driven by the changes of effective solar radiation is determined by the changes of large scale land-sea thermal contrast. The rainfall anomalies over the east of 110°E exhibit a meridional homogeneous change pattern, which is different from the meridional out-of-phase change of rainfall anomalies associated with the internal mode.

Characteristics of decadal-centennial-scale changes in East Asian summer monsoon circulation and precipitation during the Medieval Warm Period and Little Ice Age and in the present day

Using meteorological observations, proxies of precipitation and temperature, and climate simulation outputs, we synthetically analyzed the regularities of decadal-centennial-scale changes in the summer thermal contrast between land and ocean and summer precipitation over the East Asian monsoon region during the past millennium; compared the basic characteristics of the East Asian summer monsoon (EASM) circulation and precipitation in the present day, the Little Ice Age (LIA) and the Medieval Warm Period (MWP); and explored their links with solar irradiance and global climate change. The results indicate that over the last 150 years, the EASM circulation and precipitation, indicated by the temperature contrast between the East Asian mainland and adjacent oceans, had a significant decadal perturbation and have been weaker during the period of rapid global warming over the past 50 years. On the centennial time scale, the EASM in the MWP was strongest over the past 1000 years. Over the past 1000 years, the EASM was weakest in 1450-1570. When the EASM circulation was weaker, the monsoon rain belt over eastern China was generally located more southward, with there being less precipitation in North China and more precipitation in the Yangtze River valley; therefore, there was an anomalous pattern of southern flood/northern drought. From the 1900s to 1920s, precipitation had a pat- tern opposite to that of the southern flood/northern drought, with there being less precipitation in the Yangtze River valley and more precipitation in North China. Compared with the case for the MWP, there was a longer-time-scale southern flood/northern drought phenomenon in 1400-1600. Moreover, the EASM circulation and precipitation did not synchronously vary with the trend of global temperature. During the last 150 years, although the annual mean surface temperature around the world and in China has increased, the EASM circulation and precipitation did not have strengthening or weakening trends. Over the past 1000 years, the weakest EASM occurred ahead of the lowest Northern Hemispheric temperature and corresponded to the weakest solar irradiance.

Climate and environment reconstruction during the Medieval Warm Period in Lop Nur of Xinjiang, China

We made multi-proxy analysis of 14C, grain size, microfossils, plant seeds, and geochemical elements on samples from a profile in the central West Lake of Lop Nur. The grain size suggests relatively stable sedimentary environment around the Medieval Warm Period (MWP) with weak storm effect, which is followed by frequent strong storm events. Abundant microfossils and plant seeds in this stage indicate a warm and humid fresh to brackish lake environment. C, N, and stable elements are high in content in the sediments while Rb/Sr, Ba/Sr, and Ti/Sr are in a steady low level. In addition, plenty of red willows lived here prior to about 700 a B.P., indicating a favorable environmental condition. The results indicate that the environment in Lop Nur and its west bank turned to be favorable at about 2200 a B.P., where the Loulan Culture began to thrive. Then the climate and environment came to be in the good condition in the Tang and Song Dynasties, when the storm effect became weaker, rainfall increased and the salty lake water turned to be brackish to fresh lake water. Hence, limnic biomass increased with higher species diversity.

过去两千年青藏高原百年尺度温度变化的时空格局

基于青藏高原过去2000 a高分辨率的温度代用序列,通过区域对比以及集成分析方法,深入分析青藏高原过去2000 a温度变化的时空特征。结果表明:过去2000 a青藏高原温度变化可以划分为4个世纪尺度的冷暖时期,即0—600 AD和1400—1900 AD的冷期、600—1400 AD和20世纪的暖期,其中1400—1900 AD和600—1400 AD可能分别对应于欧洲的小冰期和中世纪暖期;青藏高原过去2000 a温度变化存在很强的季节性特征,年平均气温变化存在争议,但夏季温度变化较为一致;夏季温度记录表明20世纪升温并不是很显著,中世纪暖期是过去2000 a中升温最显著且最温暖的时段。目前,青藏高原过去2000 a古温度记录仍存在空白区域,转换函数的选取、气候指标的季节性差异以及定年误差等因素都可能增加温度序列的不确定性。未来,在青藏高原还需要重建更多高质量(高分辨率、有准确的年龄控制、明确的季节性以及精确的气候指示意义)的古温度记录,以更深入地揭示青藏高原温度变化的时空格局及机制。

岱海的“中世纪暖期”

内蒙古岱海沉积物近 2 2 0 0a来Rb/Sr比值、CaCO3和有机碳含量的变化展现了包括中世纪暖期 (MWP)及小冰期 (LIA)等典型气候事件在内的环境演化过程 ,总体表现为暖期的沉积物Rb/Sr比值低、冷期的则高 ;CaCO3和有机碳含量则相反 .这里 ,以单一流域化学风化记录表明我国北方存在明显的中世纪暖期 ,发生时间约 90 0 - 12 0 0aB P ,主要环境特征表现为流域化学风化的显著增强 (低Rb/Sr比值 )、生物生产力逐步提高 (高有机碳 )、湖泊水位大幅度抬升的湖泊沉积记录 ,其间经历的化学风化是近两千年内最强的 ,并且其发生时间与全球其他地区基本一致 .

艾比湖二千余年来环境演变的地球化学记录

通过对新疆艾比湖Ash孔二千余年以来沉积的总有机碳含量及其碳同位素、碳酸盐含量及Mg/Ca比值等环境指标综合分析,数据显示:约在公元前500～400年,艾比湖水体面积较小,对应的气候偏干。约公元前400～公元1400年,水体面积较大,处于高水位时期,气候较为湿润,但此时期内的气候也有小幅的冷暖和干湿变化。其中在公元800～1300年期间艾比湖沉积记录显示水生生物对沉积有机质的贡献达到最大,而陆源有机质输入不明显,表明此时湖水水位可能达到二千余年来的最高,这一时段基本对应于中世纪暖期。从碳酸盐含量及Mg/Ca比值指标来看,该地区中世纪暖期可能有一个干湿的波动。公元1400年以来,艾比湖水位下降,其中在15世纪中和19世纪初是两次较为干燥的时期,与其他地区的小冰期气候相对应。

中国气温变化研究最新进展

总结了“十五”攻关课题有关中国温度变化研究的若干进展。在资料质量控制和序列非均一性检验及订正的基础上,更新了中国地面近50年、100年和1000年气温序列。研究表明,不论是近54年还是近100年全国年平均地面气温升高趋势一般比原来分析结果表明的要强,分别达到0·25℃/10a和0·08℃/10a。中国现代增暖最明显的地区包括东北、华北、西北和青藏高原北部,最显著的季节在冬季和春季。近50多年中国近地面气候变暖主要是平均最低气温明显上升的结果,全国范围内极端最低气温也显著升高,而极端最高气温升高不多。中国与温度相关的极端气候事件强度和频率一般呈降低趋势或稳定态势。研究发现,城市化因素对中国地面平均气温记录具有显著影响,但在现有的全国和区域平均温度变化分析中一般没有考虑,因此需要在将来的研究中给予密切关注。在增温明显的华北地区,1961~2000年间城市化引起的年平均气温增加值达到0·44℃,占全部增温的38%,城市化引起的增温速率为0·11℃/10a。中国其他地区的增温趋势中也或多或少反映出增强的城市热岛效应影响。20世纪60年代初以来中国对流层中下层温度变化趋势不明显,仅为0·05℃/10a,比地面气温变化小一个量级;对流层上层和平流层底层年平均温度呈明显下降趋势,变化速率分别为-0·17℃/10a和-0·22℃/10a;整个对流层平均温度呈微弱下降趋势。中国对流层温度与地面气温变化趋势存在明显的差异,但这种差异在20世纪80年代初以后趋于减小。近千年来中国地面气温变化史上可能确存在“中世纪温暖期”和“小冰期”等特征性气候阶段,但“中世纪温暖期”的温暖程度似乎没有过去认为的那样明显。从全国范围看,11世纪末和13世纪中的温暖程度可能均超过了20世纪30~40年代暖期,表明20世纪的增暖可能并非史无前例。中国20世纪气候增暖的原因目前还不能给出明确回答。一些迹象表明,人类活动可能已经对中国的地面气温变化产生了影响,但太阳活动及气候系统内部的低频振动对现代气候变暖可能也具有重要影响。

过去千年气候变化的数值模拟研究进展

在阐述千年气候变化研究意义的基础上,围绕着如何利用气候系统模式来对过去千年的气候变化进行归因模拟、以理解其中自然和人为因素的作用问题,总结和评述了国际上相关研究进展,进一步归纳了千年气候变化数值模拟中亟待解决的科学问题,重点包括千年气候演变中自然变率特征时段(即中世纪暖期和小冰期)与人类活动影响时段(即20世纪气候变暖)的气候差别,在中世纪暖期、小冰期和20世纪气候变暖这3个特征时段上,自然变化和人类活动影响的作用与机制比较、中国过去千年气候演变的模拟等,随后,扼要介绍了国家自然科学基金重大项目"中国地区树轮及千年气候变化研究"之课题"中国千年气候变化数值模拟与机理研究"的主要研究内容。

最近千年来山东半岛西部气候环境变化的石笋δ^(18)O、δ^(13)C记录(Ⅰ)

Ky1石笋采自山东半岛西部的开元洞,沿生长轴方向长度75mm。在高精度U-230 Th测年基础上,通过年纹层连续计数和平均沉积速率内插/外推相结合的定年方法,确定Ky1石笋生长于892—1894AD的1 000年间。在沿石笋生长轴采集的583个样品中,选择303个进行了δ18 O、δ13 C测试,平均分辨率约为3年。结果显示,最近1000年来Ky1石笋的δ18 O比值变化呈现明显阶段性,显示与小冰期(LIA)和中世纪暖期(MWP)对应的数百年尺度波动。根据δ18 O记录,山东半岛在1482AD前后发生与MWP/LIA转换对应的气候突变,1 482AD前相当于夏季风强烈、降水较多的中世纪暖期,1482AD后则为夏季风微弱、降水较少的小冰期,以1609AD夏季风最弱。Ky1石笋的δ13 C比值变化,也由与MWP、LIA相当的两个阶段构成,其间也存在突变关系。比较而言,δ13 C变化要比δ18 O显著平缓,而且LIA后期以来二者变化明显不同步。最近1 000年来,与MWP/LIA对应的气候突变相当于明朝中期;就各个朝代内部的气候变化趋势而言,不同朝代之间不尽相同;不同朝代之间的更替期均大致与MWP、LIA内部的次级气候突变时期对应。因此,中世纪暖期和小冰期内部的次级气候波动对中国社会发展的影响,可能比千年尺度上最剧烈的MWP/LIA突变本身更显著。另一方面,洞穴所在山地的土地利用程度不断提高,其与气候变化共同影响着洞穴所在山地的植被的C3/C4植物构成及土壤性质,从而影响到石笋δ13 C比值。从892—1318AD,土地利用对山地植被构成、土壤特征的影响程度尚不及气候变化;1318—1479AD,已达到或超过小幅度的气候变化;1483—1779AD,达到或超过大幅度的气候变化;1779—1894AD,土地利用程度趋于稳定,气候变化对环境的影响程度则又相对凸显。

东居延海易溶盐沉积与古气候环境变化

通过对黑河尾闾东居延海湖相沉积物易溶盐类K+、Na+、Ca2+、Mg2+、SO2-4、CO2-3、HCO-3、Cl-八大离子含量和其他相关指标的分析,依据它们在地层中的变化特征,结合地层14C年代测定结果,把东居延海湖泊变化划分为:隋唐湖泊面积较大时期、宋辽湖泊缩小时期、中世纪暖期湖泊扩张时期、小冰期湖泊缩小时期及20世纪湖泊干涸期等几个阶段。考虑近1500a来该流域气候变化和人类活动对湖泊的影响,得出了以下几个结论:近1500a来,东居延海湖区气候以干旱为主,湖泊逐渐萎缩;在干旱背景下存在气候波动,并与全球变化具有一致性;湖泊的盛衰演变受到气候变化和人类活动的双重影响,前期以自然变化为主,明清以来特别是清代以后,人类活动的影响加剧,成为主控因子。

中国中世纪暖期气候研究综述

中世纪暖期是2000年来全球最重要的气候事件之一，关于中世纪暖期的研究，主要是通过各种代用资料重建气候序列。从目前的研究来看，能敏感响应环境变化的高分辨率的信息载体主要有冰芯、树轮、历史文献、湖泊沉积及石笋等。随着代用资料的开发，对于中世纪暖期的研究已经取得了丰硕的成果，但在中世纪暖期是否具有全球性，不同区域的起讫时间、增温幅度、内部波动以及成因机制等问题上还存在一定争议。主要原因是受重建资料敏感性与地域性限制，加上不同代用指标对气候变化敏感性的差异以及不同代用资料的方法、气候与环境意义等存在差异，定年存在误差。在中国，从对重建资料的整理分析来看，对于“中国是否存在中世纪暖期”这个问题，各研究者们没有达成一致的看法；对于中国中世纪暖期冷暖变化的研究，由于区域差异，东部重建资料以历史文献为主，而西部关于历史气候环境的相关记载很少，所以重建资料以冰芯、湖芯、树轮等为主。大多数的研究结果认为，西部的冷暖变化与东部有着明显的差异，其中最主要的是东部在900～1300A．D，存在明显的温暖期，而西部则暖期不如东部明显。今后为了更加全面深入的了解中世纪暖期气候特征，应加强各种代用指标高分辨率序列的积累和定量化研究、各种代用指标和重建序列的综合集成研究及其与吉气候模拟结果的比较研究，以期从动力学角度加深理解中世纪暖期的区域响应差异。

中世纪暖期温度变化的模拟

本文利用全球海气耦合气候模式ECHO-G进行的1000个模式年的长时间积分气候模拟试验结果,分析全球和中国地区中世纪暖期的存在性与时间演变、全球性与区域差异、以及变温强度和影响因子等问题．结果表明:中世纪暖期是一个全球性现象,但各地在中世纪暖期温度变幅和位相变化存在差异．中世纪暖期不是一个持续稳定的暖期,而是存在峰谷起伏变化,其中冷谷的持续时间为40-80年．全球平均的中世纪暖期出现在1000—1280年间．其间南半球的温度变幅最大,北半球次之,全球平均最小．中世纪暖期的鼎盛期全球绝大部分地区增温明显,只有大西洋西北地区有一 0．5-1,0℃的降温区,以及南太平洋有-0．5-2．0℃的降温区．北半球最大增温出现在格陵兰地区及西北太平洋地区, 南半球出现在70°-80°S,5°-60°W的海域,最大增温达2．5-3．0℃．整个欧亚大陆和北美大陆都是增温区,增温幅度为 0．5-1．5℃．热带和亚热带也是增温区,但增温幅度仅为0．5℃左右．也就是说,中世纪暖期时,增温幅度在低纬地区最小,中纬度地区次之,高纬度地区最大．中国的中世纪暖期出现在公元1000—1260年间,其间中国西部的年平均温度距平变幅最大,东部最小,全国平均介于二者之间．中世纪暖期鼎盛期整个中国区域温度距平都是正值,中国东部的增温呈西 -东向和西北-东南向的带状分布,且由南向北增温幅度加大,由0．4℃逐步增加到0．8℃．中国西部的增温呈高压状分布,且随着海拔高度的增加,增温幅度加大,最大增温达2．0℃-2．2℃．由于模拟试验是在改变太阳辐射、火山活动、CO2 与CH4浓度等因子的情况下进行的,说明太阳辐射、火山活动、CO2与CH4浓度都是形成中世纪暖期的主控因子．至于各因子各自对中世纪暖期形成的贡献,还有待进行单因子和多因子强迫试验进一步探讨．

气候变化因素在蒙古西征中的可能作用研究

13世纪上半叶蒙古帝国发动的3次西征极大地改变了欧亚大陆的政治格局和历史进程,成为世界最为重大历史事件之一;其发生原因一直是学术界关注的焦点,人们提出了各种假说,其中气候变化驱动说,即干旱或/和降温事件触发蒙古西征说最具影响力。文章依据古气候研究进展对蒙古西征的动因进行了重新研究,首先对蒙古西征各种假说进行了回顾,重点介绍和评述了气候变化驱动说,然后根据我国高分辨率气候重建资料,结合欧亚大陆其他地区的古气候重建成果,恢复了蒙古西征时期的气候背景;结果发现蒙古西征并非发生在传统上所认为的干旱或/和降温期,而是发生在相当于中世纪温暖期中的中后期,而且当时蒙古民族主要生活住居地区还比较湿润。研究结果对传统的气候驱动说提出了挑战,认为蒙古西征并非干旱或/和降温事件所触发,相反,当时温暖而湿润的气候环境为蒙古西征提供了良好的物质基础。研究结果较好地解释了蒙古当时征讨的重点地区为什么是西北方而不是东南方的印度和南宋地区之谜。

我国过去千年地表温度序列的初步重建

通过对器测温度资料与代用温度资料的研究,对中国过去1 000年的地表温度序列进行了初步重建.重建主要以树轮年表资料为基础,采用不同方法分别合成具有年分辨率的400年与1 000年西部温度序列,以及具有10年分辨率的400年全国温度序列和具有30年分辨率的1 000年全国温度序列.全国温度重建结果表明,中国在1000～1310年间表现出了与欧洲中世纪暖期相对应的温暖阶段,但该暖期在中国西部地区反映得并不明显;而14到19世纪的小冰期则在所有序列中均有显著表现;19世纪中期至上世纪80年代升温显著,但并未超过中世纪暖期水平.作者也讨论了重建序列的不确定性,以及重建序列与前人研究结果的异同.