塔克拉玛干沙漠腹地晚冰期以来的环境与气候变化

通过对塔克拉玛干沙漠腹地地层剖面的沉积类型、孢粉、ｐＨ值、有机质、ＣａＣＯ＿３和地球化学气候指标Ｃ等分析，认为本区晚冰期以来一直处于荒漠环境，气候变化可划出四个阶段：１３－１０ｋａＢ．Ｐ．气候寒冷。温凉，干旱，湿度相对后期较大；１０－８ｋａＢ．Ｐ．气候温暖干旱，湿度相对减小；８－３ｋａＢ．Ｐ．气候炎热干旱，湿度最小；３ｋａＢ．Ｐ．至今气候温暖干旱，湿度较前增大，气候及环境与今相似。     

试论第四纪晚期中国古人类三次迁移与气候变化

本文整理了旧石器晚期以来石陶文化的特征，提出了一个“第四纪晚期中国古人类三次迁移”猜想，即五万年以来中国古文化发生过三次南北大融合；第一次，５０ｋａＢＰ－４０ｋａＢＰ，南民北移；第二次，１８ｋａＢＰ－１３ｋａＢＰ，北民南移；，第三次，１０ｋａＢＰ－８．３ｋａＢＰ，南民又北移，成为中原新石器文化的南源；以瓦皮岩人迁到关中为典型，促进了中原新石器文化的敏荣和中华文明的兴起。     

南极15ka以来海洋沉积物的环境磁学研究

通过对东南极普里兹湾陆坡区ＮＰ９５－１及西南极长城湾ＮＧ９３－１两柱样系统的环境磁学研究，获得了南极地区１５．０～５．５ｋａＢ．Ｐ．以来的古气候变化序列。结果表明，磁学参数较好地记录了古气候变化及沉积环境变化的信息。ＮＰ９５－１柱样较好地记录了Ｈｅｉｎｒｉｃｈ１事件、新仙女木事件以及波令－阿罗德暖期，其中Ｈｅｉｎｒｉｃｈ１事件发生于１４．３ｋａＢ．Ｐ．，新仙女木冷期为１１．７～１０．３ｋａＢ．Ｐ．，１０．３ｋａＢ．Ｐ．以后，南极地区进入全新世。在全新世，两柱样记录了在１０．０ｋａＢ．Ｐ．及６．０ｋａＢ．Ｐ．前后两个暖期，其间夹有小幅气温下调的时段；６．０ｋａＢ．Ｐ．后，两柱样均有气候颤动变冷的记录。     

浑善达克沙地全新世沉积特征与环境演变

浑善达克沙地全新世沉积主要有风成砂－古土壤和河湖相－古土壤－风成砂沉积序列，其中保存了大量粒度，化学元素，孢粉及披毛犀化石等环境变化证据。据此可把全新世气候划分为８个旋迥，经历了升温波动期（１０～７．１ｋａＢ．Ｐ．）、温暖期（７．１～３．２ｋａＢ．Ｐ．）和温干冷干频繁波动期（３．２ｋａＢ．Ｐ．至今）三个演变阶段。     

太湖流域全新世气候-海面短期振荡事件及其对新石器文化的影响

太湖流域埋藏古树、泥炭、贝壳堤和新石器文化遗址,＾１４Ｃ年代频率变化揭示了全新世气候－海面波动与文明兴衰的时间耦合关系。本区降水量的明显增加始于８ｋａＢ．Ｐ．、７．５￣４ｋａＢ．Ｐ．总的看为高海面和新石器文化发展时期,但其间有相对的海面波动,即：７￣６．５ｋａＢ．Ｐ．为高海面期、６．３￣５．６ｋａＢ．Ｐ．为低海面期、４．５￣４ｋａＢ．Ｐ．为低海面期、３．８￣３．５ｋａＢ．Ｐ．为高海面期。从文化断层     

晚冰期以来毛乌素沙漠环境特征的湖沼相沉积记录

毛乌素沙漠南缘靖边海则滩湖沼相沉积剖面,真实地记录了晚冰期以来东亚季风气候和沙漠演化历史。在地层沉积相划分和测年基础上,据地球化学元素和孢粉等气候指标分析表明,该区古气候变迁序列为：１２ｋａＢＰ前干燥寒冷;１２～１０ｋａＢＰ气候转暖湿;１０～８．５ｋａＢＰ以温湿为主,在１０～９．５ｋａＢＰ出现ＹｏｕｎｇｅｒＤｒｙａｓ冷干事件;８．５～３．０ｋａＢＰ温暖湿润;３．０ｋａＢＰ后气候趋于半干旱与现代气候较接近。这种气候演化规律是受地球轨道因素影响,通过东亚冬夏季风的强弱变化来实现的     

东南极拉斯曼丘陵区的冰川作用

拉斯曼丘陵在渐新世已被冰盖覆没，晚渐新世冰盖厚度最大，自中新世开始，冰盖逐渐减薄后退，但该丘陵仍为冰盖占据。更新世冰川作用规模不及第三纪。１８ｋａＢ．Ｐ．该丘陵区覆冰厚度超过１７０ｍ，冰盖前缘仅厚３０ｍ左右。冰盖后退出露其岩约在１０．０ｋａＢ．Ｐ前后，自９．４１－６．５ｋａＢ．Ｐ，冰川以２－３ｍ／ａ的速率后退，岛屿区人武部出露，自６．５－５．０ｋａＢ．Ｐ，冰川后退速率砬为１．０－１．５ｍ／ａ，丘陵     

祁连山东段北麓近10ka来的气候变化初步研究

磁化率、碳酸钙含量和有机碳含量可用作良好的气候指标,主要是反映了降水量的变化。祁连山东段北麓哈溪剖面研究表明,９５６０ａＢ．Ｐ．时本区已进入全新世。大暖期是对温度而言,与气候适宜期是不同的概念,二者在时间上也不一定是同时的。本区的气候适宜期为６．８～３．６ｋａＢ．Ｐ．,气候最宜期为５．０～３．６ｋａＢ．Ｐ．,与其它记录有不同之处。在７．８～７．２ｋａＢ．Ｐ．和１．５～０．８ｋａＢ．Ｐ．间出现了“冷湿”的气候组合,这与传统的气候组合不同,但后一阶段的“冷湿”是有大量证据的。９．０～８．７ｋａＢ．Ｐ．间是全新世最干旱的时段,堆积了砂黄土。     

毛乌素沙地全新世地层化学元素特点及其古气候意义

系统采集毛乌素沙地东、西部各一个全新世地层剖面样品作全量化学分析。根据景观地球化学特征的变化，推论一万年以来气候的变化过程：１０．５—１０ｋａ，Ｂ．Ｐ．、６—５０ｋａ，Ｂ．Ｐ．、３．５ｋａ，Ｂ．Ｐ．、２．５ｋａ，Ｂ．Ｐ．和１．５—１ｋａ，Ｂ．Ｐ．期间分别为化学风化较强，钠、钾淋失较多，而钙、镁、铝、铁、钛相对富集的相对湿润时期；夹于其间的则是化学风化较弱，钠钾相对富集，相对干燥的风化活动时期。     

从沉积重矿物与土壤养分特点看毛乌素沙地全新世环境变迁

根据全新世沉积重矿物组合与古土壤养分分析的结果，认为毛乌素沙地全新世沉积环境有过多次正逆变化：１１－１０ｋａＢ。Ｐ．、８５００－５０００ａＢ，Ｐ．、４０００－３５００ａＢ．Ｐ．、２７００－２０００ａＢ，Ｐ．以及１５００－１０００ａＢ．Ｐ．时期气候较为潮湿，土壤、植被发育较好，化学风化作用较强，风沙活动受到限制，为相对低能的沉积环境。介于其间的时期则分别为机械风化作用占优势的高能沉积环境，土壤风蚀严重，气候较为干燥。     

Post-glacial fluvial response and landform development in the upper Muskegon River valley in North-Central Lower Michigan, U.S.A.

This study focuses on the upper part of the Muskegon River system in north-central Lower Michigan and is the first to reconstruct the post-glacial history of fluvial landform development in the core of North America's Great Lakes region. Results indicate that the upper Muskegon River valley contains four alluvial terraces and numerous paleomeanders. Radiocarbon dating of peats within these old channels provides a good chronology for stream behavior and landform development. The T-4 terrace is a paired Pleistocene outwash/lacustrine surface that probably formed about 12,500 years ago. The T-3 terrace is a fill-strath surface that was cut between about 12,000 and perhaps 9500 years ago. The geometry of macromeanders on this surface suggests that stream discharge was  8 times greater than during the Holocene.The Pleistocene/Holocene transition is marked by a major period of downcutting that likely began as the climate warmed/dried and sediment yield diminished. This period of downcutting potentially lasted through the drier middle Holocene, creating a 6-m-high escarpment in the valley. The Muskegon River then began to aggrade when the climate became wetter. Subsequently the river again incised, creating the paired T-2 terrace, about 3400 years ago when the climate became still wetter. T-2 paleomeanders indicate that stream discharge at this time was consistent with the modern river. In the past 2500 years, the stream has constructed a poorly defined complex of T-1 terraces. These surfaces likely formed due to complex response associated with more variable climate. This study demonstrates that the upper Muskegon River has a similar post-glacial history as streams on deglacial and periglacial landscapes elsewhere in the world.     

南京江北地区晚更新世末期以来泥炭层δ13 C记录的古气候变化

对南京江北地区林峰桥剖面晚更新世末期以来的两个泥炭层有机碳同位素测定结果表明,上部泥炭层和下部泥炭层δ¹³C值皆较低(≤-23.79‰),部泥炭层的δ¹³C值明显高于下部泥炭层。结合其它研究可知,该区全新世大暖期稳定暖湿鼎盛阶段的校正年代约在8.2~7.0 ka B.P.,在此阶段前后,表现为持续时间相对较短的低温气候环境。12.8~12.1 cal.ka B.P. 该区气温高低波动频繁期。12.8~12.7 cal.ka B.P.和12.6~12.2 ka B.P.两时段气温较低;2.7~12.6 cal.ka B.P. 阶段气温较高。12.2~12.1 cal.ka B.P. 表现为Younger Dryas之后气候的迅速增暖,可视为该区全新世开始的标志。     

Winter and summer monsoonal evolution in Gonghe Basin, northeastern Qinghai-Tibetan Plateau since the Last Glacial Maximum

Geochemical and grain size analysis on the DQ (Dongqi) profile from Gonghe Basin, northeastern Qinghai-Tibetan Plateau, indicates that regional climate has experienced several cold-dry and warm-wet cycles since the last glacial maximum (LGM). The cold and dry climate dominated the region before 15.82 cal. ka B.P. due to stronger winter monsoon and weaker summer monsoon, but the climate was relatively cold and wetter prior to 21 cal. ka B.P.. In 15.82–9.5 cal. ka B.P., summer monsoon strength increased and winter monsoon tended to be weaker, implying an obvious warm climate. Specifically, the relatively cold and dry condition appeared in 14.7–13.7 cal. ka B.P. and 12.1–9.5 cal. ka B.P., respectively, while relatively warm and wet in 13.7–12.1 cal. ka B.P.. The winter and summer monsoonal strength presents frequent fluctuations in the Holocene and relatively warm and wet conditions emerged in 9.5–7.0 cal. ka B.P. due to stronger summer monsoon. From 7.0 to 5.1 cal. ka B.P., the cycle of cold-dry and warm-wet climate corresponds to frequent fluctuations of winter and summer monsoons. The climate becomes warm and wet in 5.1–2.7 cal. ka B.P., accompanying increased summer monsoon, but it tends to be cold and dry since 2.7 cal. ka B.P. due to enhanced winter monsoonal strength. In addition, the evolution of regional winter and summer monsoons is coincident with warm and cold records from the polar ice core. In other words, climatic change in the Gonghe Basin can be considered as a regional response to global climate change.     

最近150 ka河西地区河流阶地的成因分析

文章通过对河西地区最近150 ka河流阶地年龄数据的处理,发现存在7个明显的河流阶地发育时期,即150、100、70、40、30、12和6 ka B.P.。经过相关构造和气候资料的论证,文章认为,在150和70 ka B.P.附近形成的两级河流阶地代表了河西地区两期主要的构造抬升,而在100、40、30、12和6 ka B.P.附近形成的5级河流阶地则对应于河西地区5期气候变化事件。     

南疆尼雅地区4000a来的地化元素分布特征与古气候环境演化的初步研究

通过应用因子分析法对尼雅剖面中的多种地化元素和氧化物的分析,在R、Q型因子分析的基础上,提取出古气候信息。初步的研究表明:近4000a来,尼雅地区气候环境仍以干旱化为主,但此期间出现过多次不同程度的干湿变化,大致可分为5个气候期:4.0~3.0kaB P.相对暖干期;3.0~2.2kaB.P.相对冷湿期;2.2~1.6kaB.P.相对暖干期;1.6~1.0kaB.P.相对冷湿期;1.0kaB.P.左右之后的相对暖干期。     

Adjustments by the Charwell River, New Zealand, to uplift and climatic changes

Major climatic changes and rapid local and regional tectonic movements were common in New Zealand during the late Quaternary and caused a diversity of adjustments in the drainage-basin and piedmont reaches of the Charwell River, which are separated by the Hope Fault. The onset of semi-arid, frigid climates during the latest Pleistocene probably greatly increased hillslope sediment yields in a periglacial environment, and the piedmont reach aggraded as much as 42 m on top of a broad strath. With the return of humid, mesic climates in the Holocene sediment yields decreased as dense forests again mantled the slopes, and the piedmont reach degraded as mush as 81 m. Dating of eleven cut-and-strath terraces by radiocarbon-calibrated weathering rind measurements on greyawake cobbles shows the degradation rates varied greatly during the last 14 ka (1 ka = 1000 yr). Initial degradation rates of < 4 m ka⁻¹ increased to 30 m ka ⁻¹ by 6 ka ago during a mid-Holocene climatic optimum. Since 4 ka ago degradation rates have been only 1.2 m ka⁻¹, comparable to uplift rates in the piedmont reach inferred from marine-terrace studies, and the river is again cutting a broad strath. Each broad strath represents equilibrium conditions attained by this powerful stream during interglacial times despite episodes of being overwhelmed by climatically induced sediment-yield increases during full-glacial climates and having to maintain a long-term degradation rate equal to the uplift rate.The 75–81 m of degradation since formation of the latest Pleistocene fill-terrace tread is the sum of the amount of late Pleistocene valley-floor aggradation and the amount of regional uplift that occurred between the estimated times of major strath formation at about 30 and 0 ka. The 39 m of tectonically induced degradation below the pre-aggradation strath is sufficiently large that post-30 ka uplift may have doubled Holocene degradation rates.Each of the eleven degradation terraces represents pauses of a few centuries in Holocene downcutting. Brief equilibrium conditions were attained by streambed armoring and concurrent growth of riparian plants; both processes progressively increased hydraulic roughness and the shear stresses needed to entrain streambed materials. Occasional floods, possibly from rare cyclones derived from tropical moisture sources, destroyed streambed armor and channel downcutting was renewed. Thus the formation of eleven equilibrium terraces can be accounted for without postulating additional tectonic perturbations or secular climatic changes.     

青藏公路纳赤台地区融冻褶皱及其古气候意义

昆仑河及其主要支流的Ⅳ—Ⅰ级阶地发育着融冻褶皱,其形成时代为两期:晚更新世末期(距今20725—14041年),全新世中期(距今约3000年)。它际志着本区在晚更新世末期为连续多年冻土区,年平均气候较今低5—6℃;在全新世新冰期时为岛状多年冻土区,年平均气温较今低2.5—3.0℃。     

伶仃洋ZK19孔晚第四纪沉积地球化学特征 及其古环境意义

依据对珠江口伶仃洋海域ZK19孔岩芯材料的沉积学、年代学和沉积地球化学研究,探讨了该海域古环境演变特征。该孔以末次盛冰期风化层为界,存在2个沉积旋回和2次海侵事件。微量元素质量分数、主量元素（Al2O3/Na2O值、MgO/Al2O3值、Sr/Ba值及V/Cr值等）,化学蚀变指数（CIA）和化学风化指数（CIW）的变化特征,反映了MIS4晚期至MIS3初期,该地由陆相向滨海相过渡,气候从偏冷逐渐升温,海平面逐渐上升,但速度较慢;MIS3该地为河口湾相,气候进一步转暖,海平面以较大幅度上升;MIS2阶段（末次盛冰期）海平面大幅下降,气候变冷;MIS1的8―12 cal. ka B.P.气候逐渐转暖,海平面快速上升,为河流相―滨海潮滩相―河口湾浅滩相―河口湾相;中全新世大暖期,受水下滩槽地貌侧向迁移影响,该孔地层遭剥蚀;晚全新世3 cal. ka B.P.以来,气候整体相对稳定,较早全新世温暖,沉积环境依次为河口湾相―三角洲前缘斜坡相―三角洲前缘浅滩相。     

鄱阳湖流域史前人类遗址时空分布及其环境响应（英文）

The temporal-spatial geographic distribution of archaeological sites and its feature between 10.0–2.8 ka BP(ka BP= thousands of years before 0 BP, where "0 BP" is defined as the year AD 1950) were determined, based on GIS spatial analysis in the Poyang Lake Basin. The relationship between geographic distribution of sites of different periods under subsistence existence of ancient civilizations, climate and environmental change was investigated. The results revealed numerous archaeological sites of the Neolithic Age(10.0–3.6 ka BP). The sites were mainly located in the northern part of the Poyang Lake Basin, a hilly and mountainous area with many river terraces suitable for the development of human civilization. The number of archaeological sites rapidly increased during the Shang and Zhou dynasties(3.6–2.8 ka BP) and spread widely on the floodplains of the middle and lower reaches of Ganjiang River and onto the west, south, and southeast beach areas of the Poyang Lake. Holocene records of climate change suggested that it was possible that climate fluctuations had a great impact on human evolution in the study area. Before 3.6 ka BP, westward and northward expansion of Neolithic cultures in the Poyang Lake watershed occurred under the background of climate amelioration(becoming warmer and wetter). The ancient people lived in the hilly areas with high elevation. The simple mode of a fishing and gathering economy was mostly suited to this area in the early Neolithic Age. The scope of human activities was expanded and cultural diversity developed in the late Neolithic Age. However, with population growth and increasing survival pressure in a dry-cold climatic stage after 3.6 ka BP, this simple living mode had to be abandoned, and various forms of economy, the majority being agriculture, were developed on flood plains of the lower reaches of numerous rivers around Poyang Lake. This promoted flourishing of the Bronze culture of South China.