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1.
中晚全新世科尔沁沙地演化与气候变化 总被引:4,自引:2,他引:2
科尔沁沙地位于东亚季风区的东北缘,环境对气候变化反应非常敏感。地层沉积相、粒度与地球化学参数表明中晚全新世科尔沁沙地环境与气候变化可以分为以下3个阶段:7.0~3.6 cal ka BP,沙地逐渐固定、缩小,冬季风减弱,夏季风不断增强,气候趋于暖湿;3.6~1.3 cal ka BP,沙地总体上较为稳定,但也存在活化、扩张,与上一阶段相比夏季风强度有所降低,但仍强于冬季风,气候相对暖湿;1.3~0.65 cal ka BP,沙地出现多次活化、扩张和固定、缩小,冬夏季风交替频繁,气候呈现冷干-相对暖湿的组合。具体来讲,中晚全新世以来科尔沁沙地存在8次活化、扩张和8次固定、缩小期,气候变化也存在8次冷干和8次相对暖湿期,两者存在明显的对应关系。太阳辐射与全球冰量变化是中晚全新世科尔沁沙地演化与气候格局的主要驱动力。 相似文献
2.
通过对毛乌素沙地现代固定沙丘、半固定沙丘、半流动沙丘和流动沙丘的粒度特征分析,发现研究区沙地变化敏感粒度是>245 μm的沉积物粒度组分,尝试性地将其用于地质时期沙地演化研究。结合区域典型风成砂-古土壤剖面的沉积相特征,探讨了中晚全新世以来毛乌素沙地的时间演化过程及其特征。结果表明:中全新世以来毛乌素沙地存在多次活化扩张和固定萎缩事件,除7.5 ka BP前为流动沙地占优势以外,其余阶段多在半流动沙地、半固定沙地和固定沙地之间频繁转换,即使在全新世适宜期古土壤大规模发育期间仍存在局地短时间的沙地活化事件。 相似文献
3.
青海湖湖东沙地典型剖面的AMS14C测年数据表明该剖面记录了当地约10 ka BP的风沙活动及环境变化。对沉积物的粒度组成特征、粒度参数、粒度环境敏感指标等分析,并结合沉积物磁化率和青海湖盆地相关研究中风成砂、黄土和弱发育古土壤、古土壤的OSL、AMS14C年代数据等,进行全新世以来的风沙活动及气候环境变化讨论。结果表明:(1)粗颗粒敏感组分(138~156μm)可以用来指示风沙活动的强弱,细颗粒敏感组分(2~5 μm)可以用来指示成壤作用。(2)10~9ka青海湖盆地气候状况较全新世之前略有好转,暖湿程度增加,部分区域开始发育古土壤,但总体上古土壤、弱发育古土壤、黄土、风成砂共存;9~4.2 ka青海湖盆地水热组合条件较好,风沙活动弱,大部分沙丘固定成壤,但9~8 ka和4.2 ka左右风沙活动较为频繁的特征可能指示了8.2 ka和4ka冷事件;4.2 ka之后特别是2 ka之后风沙活动显著增强,气候朝干冷化发展。 相似文献
4.
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
5.
60ka来腾格里沙漠东南缘风成沉积与沙漠演化 总被引:11,自引:3,他引:8
对腾格里沙漠东南缘风成沉积相典型剖面(中卫南山剖面)年代的测定,建立了60 ka以来腾格里沙漠演化的时间序列,并结合各地层粒度组分分析结果认为60 ka以来腾格里沙漠演化共经历了5个阶段。60~20 ka B.P.,腾格里沙漠的范围远没有到达现在的位置;20~10 ka B.P.,沙漠向东南方向大规模扩展,奠定了东南缘现代沙漠环境的格局;8.1~5.2 ka B.P.,沙漠东南部得到固定,沙漠范围缩小;11~8.1ka B.P.与5.2 ka B.P.至现代两阶段和现代沙漠环境接近。 相似文献
6.
晚第四纪科尔沁沙地干湿变化的黄土记录 总被引:5,自引:2,他引:3
利用光释光(OSL)定年技术对科尔沁沙地南缘的典型黄土剖面进行了测年,结合两个剖面的磁化率、粒度、有机质含量等气候替代性指标,对沙地古气候及环境变化过程进行了分析。结果表明,晚第四纪科尔沁沙地的古气候经历了万年-千年时间尺度的多次干湿变化,特别是在146.96 ka BP前后、141.98 ka BP左右和107.06 ka BP前后发生过重大转变;相应地,沙地地表植被也经历了干冷多风条件下的干草原、荒漠草原和温暖湿润或温凉稍湿气候条件下的森林草原、疏林草原的多次变化。科尔沁沙地古气候的干湿变化可能是晚第四纪东亚冬、夏季风强弱变化的反映。 相似文献
7.
根据野外调查和室内鉴定、分析了黄土高原350~280 ka PB前后的气候迁移变化问题。资料表明,在地处黄土高原南缘的陕西长安少陵塬第3层古土壤形成中晚期和第4层古土壤形成的早期有代表荒漠草原环境的石膏发育,指示当时黄土高原气候发生了显著的干旱化与大幅度的荒漠草原南迁,与现在这个地区气候相比,气候带向南迁移了约4个纬度,也说明在这段时间内荒漠草原广布于黄土高原。石膏的发育还揭示,在350~280 ka PB前后黄土高原气候发生了性质的转变,第3层古土壤发育中晚期和第4层古土壤发育早期最少各有一个时期气候特别冷干,当时该区已基本不受夏季风的影响,并处于冬季风气候控制的环境下。 相似文献
8.
古土壤是发育于地质历史时期埋藏的自然土壤,是记录古环境信息的重要载体。本文基于对内蒙古沙区古土壤研究文献的梳理,通过古土壤测年数据统计,对比区内其他信息载体的研究成果,分析内蒙古沙区沙漠/沙地形成时代及全新世环境变化。结果表明:内蒙古沙区全新世环境变化可分为3个阶段:全新世早期(10~8.5 ka BP)为升温阶段,气候以干冷为主;全新世中期(8.5~2.5 ka BP)为气候适宜期,古土壤普遍发育,同时存在短期干冷波动;全新世晚期(2.5 ka BP以来)为降温期,气候逐步干冷,部分沙地气候波动频繁,形成古土壤。 相似文献
9.
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 总被引:14,自引:13,他引:1
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。 相似文献
10.
巴丹吉林沙漠查格勒布鲁剖面的沉积地球化学特征 总被引:3,自引:1,他引:2
根据约128ka BP以来查格勒布鲁剖面沉积地球化学特征的变化规律,研究了末次间冰期以来本区对全球气候波动的响应。随着全球气候的波动,间冰期和间冰阶时,东亚夏季风的降水尾闻到达甚至越过本区向西扩展,给本区带来一定的降水。使之具有生草成壤的粪似于干草原的环境,该时期剖面中发育湖相、黄土和古土壤沉积,SiOz/A12O3比值下降,平均值分别为9.33、7.58和7.51;冰期和冰阶时,东亚夏季风向东南方向退缩,本区受干冷的冬季风控制,降水稀少,植被稀疏,风沙活动强烈,剖面中发育风成砂沉积.SiO2/Al2O3比值上升。据气候干寒程度的差异,风成砂的性状可划分为3类,即风成砂(Ⅰ)、风成砂(Ⅱ)和风成砂(Ⅲ),它们的SiO2/Al2O3比值分别为15.42、15.40和10.32,代表着从流动沙丘砂向固定半固定抄丘砂的过渡。 相似文献
11.
A coastal dunefield on Groote Eylandt, in the Gulf of Carpentaria, northern Australia, is stratigraphically described and dated using the coarse fraction thermoluminescence dating technique. Four phases of dune activity have been identified: (1) Modern active transverse and parabolic dunes. (2) A parabolic dunefield apparently stabilized less than 2000 yr BP. (3) A parabolic dunefield stablized between 6000 and 4800 yr BP. (4) A basal dunefield unit emplaced prior to 100,000 yr BP.The current dune systems are an expression of dune activation and stabilization events in the Holocene, but were formed from the deflation of an extensive pre-Holocene dunefield. The destruction of the pre-Holocene dunefield appears to have been caused by sea-level rise at the end of the Pleistocene and during the early Holocene. The ages derived from the dunefield accord well with chronostratigraphic investigations of coastal dune systems elsewhere in northern Australia and support theories of regional environmental change during the Holocene. 相似文献
12.
Limited change in dune mobility in response to a large decrease in wind power in semi-arid northern China since the 1970s 总被引:2,自引:0,他引:2
Joseph A. Mason James B. Swinehart Huayu Lu Xiaodong Miao Phueng Cha Yali Zhou 《Geomorphology》2008,102(3-4):351-363
The climatic controls on dune mobility, especially the relative importance of wind strength, remain incompletely understood. This is a key research problem in semi-arid northern China, both for interpreting past dune activity as evidence of paleoclimate and for predicting future environmental change. Potential eolian sand transport, which is approximately proportional to wind power above the threshold for sand entrainment, has decreased across much of northern China since the 1970s. Over the same period, effective moisture (ratio of precipitation to potential evapotranspiration) has not changed significantly. This “natural experiment” provides insight on the relative importance of wind power as a control on dune mobility in three dunefields of northern China (Mu Us, Otindag, and Horqin), although poorly understood and potentially large effects of human land use complicate interpretation. Dune forms in these three regions are consistent with sand transport vectors inferred from weather station data, suggesting that wind directions have remained stable and the stations adequately represent winds that shaped the dunes. The predicted effect of weaker winds since the 1970s would be dune stabilization, with lower sand transport rates allowing vegetation cover to expand. Large portions of all three dunefields remained stabilized by vegetation in the 1970s despite high wind power. Since the 1970s, trends in remotely sensed vegetation greenness and change in mobile dune area inferred from sequential Landsat images do indicate widespread dune stabilization in the eastern Mu Us region. On the other hand, expansion of active dunes took place farther west in the Mu Us dunefield and especially in the central Otindag dunefield, with little overall change in two parts of the Horqin dunes. Better ground truth is needed to validate the remote sensing analyses, but results presented here place limits on the relative importance of wind strength as a control on dune mobility in the study areas. High wind power alone does not completely destabilize these dunes. A large decrease in wind power either has little short-term effect on the dunes, or more likely its effect is sufficiently small that it is obscured by human impacts on dune stability in many parts of the study areas. 相似文献
13.
Coastal dunefields have developed on the west coast of Jutland in Denmark over the past 5000 years. The dunefields are situated in a temperate climate zone with frequent high energy wind events. Dunefield development was characterized by repeated periods of transgressive dune formation punctuated by periods of dune stabilization and soil formation. The chronology of dunefield evolution is based on Accelerator Mass Spectrometry (AMS) radiocarbon dating of peaty palaeosols (24 samples) and Optically Stimulated Luminescence (OSL) dating of aeolian sand deposits (19 samples). These dates indicate that the completeness of the stratigraphic record varies considerably, but that the timing of aeolian activity events was identical in the dunefields examined here. Initiation of aeolian activity occurred around 2200 BC, 800 BC, AD 100, AD 1050–1200, and between AD 1550 and 1650. Proxy-climate data from bogs in southwestern Sweden suggest that these periods of dunefield activity were initiated during wet/cool summers. Most likely these climatic situations were associated with a more frequent passage of cyclones across Denmark in the summer seasons (increased storminess) causing aeolian sand movement and dune formation. The continued removal of vegetation in Jutland between 4000 BC and AD 1850 allowed the aeolian sand, when first activated, to move more and more easily across the coastal plains; the final phase of aeolian sand movement between AD 1550–1650 and 1900 had catastrophic implications for many coastal inhabitants in the region. 相似文献
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15.
以科尔沁沙地西部一处典型横向沙丘群为研究对象,在沙丘顶部、丘间走廊和迎风坡脚各布设一套自动气象站,对流动性的横向沙丘群内部的风况进行了连续16个月的实地观测。为有效说明沙丘群外围气象站是否能真实反映沙丘群内部实际风况特征,从翁牛特旗国家站获取了同时段风况的小时数据。结果表明:(1)丘间走廊年内主导风向为SW,与迎风坡脚基本一致但频率更高,相对于沙丘顶部(WNW)和翁牛特旗(NW)而言,风向大角度向左偏转;(2)丘间走廊年内平均风速为3.28 m·s-1,春季平均风速可达4.74 m·s-1,瞬时风速大于起沙风速;丘间走廊会发生较强烈的风沙活动,这对塑造丘间走廊完整形态、形成稳定的横向沙丘群空间格局具有重要作用;(3)利用日均值计算丘间走廊的输沙势为37.94 VU,低于沙丘顶部94.54%,高于翁牛特旗86.99%,由此可知,沙丘群外围气象台站测得的风况数据不能真实反映沙丘群内部风沙活动的实际情况。为更精确地估算沙丘群内部的真实输沙状况,建议至少在沙丘顶部和丘间走廊各布设一套全自动气象站进行联动观测。本研究对于揭示沙丘群落整体风况变化规律和沙尘灾害防治具有重要的理论和技术支撑价值。 相似文献
16.
Attention has been directed towards both the impacts of future climate change on environmental systems and dunefield activity in the past, but there has been relatively little consideration of potential dune mobility in a future and possibly warmer world. This paper considers the use and limitations of four Global Circulation Models (GCMs) (Hadcm3, Hadcm2, CSIRO-mk2b and CGCM1), in combination with simple dune mobility indices to predict the activity of the Kalahari dunefield. It is clear that uncertainties surround GCM resolution and accuracy, mobility index robustness for the calculation of intra-annual dune mobility and data collection for mobility index calibration. Macro-scale studies that look at large areas of the world over long time scales are well suited to GCM and mobility index use, but dune mobility can be variable within a dunefield, and it is the extreme sand transporting events, occurring at high temporal resolutions, that are the most important for short term studies. To investigate intra-annual changes in dune mobility over a specific dunefield techniques such as downscaling, weather generators and probability curve fitting can help provide climate predictions for smaller areas over shorter time frames. However, these methods introduce uncertainty of their own, and they often rely on the accuracy of original GCM predictions or the climate parameter relationships observed at present. Analysis of intra-annual changes also requires mobility indices that can model monthly mobility patterns well, although existing indices have only been used for calculating annual dune mobility potential. When they are used for intra-annual predictions, the lack of lag response between precipitation decreases and the assumed vegetation dieback leads to an exaggerated amplitude pattern of dune mobility throughout the year. Calibration of dune mobility indices to dune mobility observed on the ground is therefore important but is hampered by a lack of observed measurements for individual months. Solutions are available to overcome some of the outlined problems, but they can provide their own set of uncertainties, which combine to further reduce the confidence given to future dune mobility predictions. 相似文献
17.
Variable vegetation cover and episodic sand movement on longitudinal desert sand dunes 总被引:6,自引:0,他引:6
Longitudinal (linear) sand dunes of the Simpson and Strzelecki dunefields in eastern central Australia present a paradox. Low levels of activity today stand in contrast to luminescence dating which has repeatedly shown deep deposits of sand on dune crests dating to within the late Holocene. In order to investigate the nature of dune activity in the Simpson–Strzelecki dunefield, vegetation and sand mobility were investigated by detailed vegetation survey and measurement of rippled area and loose sand depth of dunes at three sites along a climatic gradient. The response of both vegetation and sand movement to inter-annual climate variability was examined by repeat surveys of two sites in drought and non-drought conditions. Projected plant cover and plant + crust cover were found to have inverse linear relationships with rippled area and the area of deep loose sand. No relationship was found between these measures of sand movement and the plant frontal area index. A negative exponential relationship between equivalent mobile sand depth on dune surfaces and both vascular plant cover and vascular + crust cover was also found. There is no simple threshold of vegetation cover below which sand transport begins. Dunes with low perennial plant cover may form small dunes with slip faces leading to a positive feedback inhibiting ephemeral plant growth in wet years and accelerating sand transport rates. The linear dunefields are largely within the zone in which plant cover is sufficient to enforce low sand transport rates, and in which there is a strong response of vegetation and sand transport to inter-annual variation in rainfall. Both ephemeral plants (mostly forbs) and crust were found to respond rapidly to large (> 20 mm/month) rainfall events. On millennial time-scales, the level of dune activity is controlled by vegetation cover and probably not by fluctuations of wind strength. Land use or extreme, decadal time-scale, drought may destabilise dunes by removing perennial plant cover, accelerating wind erosion. 相似文献
18.
基于遥感和GIS方法的科尔沁沙地边界划定 总被引:2,自引:0,他引:2
基于已有文献,依据科尔沁沙地的形成历史与早期分布,确定科尔沁沙地的核心区;以核心区为基础,采用生态学取样方法,选取与核心区边界相交的16个方向上的交叉点为样本,以Landsat-5 TM影像为主要数据源,采用光谱混合模型、穗帽变换等遥感和GIS方法,通过反复试验设定阈值,提取每个方向的分界特征,据此勾画出科尔沁沙地的分界线。此后,进行实地考察和Google Earth高清影像验证,最终确定科尔沁沙地生态区域的边界。结果表明,科尔沁沙地面积为52 300 ± 360 km2,验证后精度在94%以上。研究结果为科尔沁沙地生态恢复与环境整治提供确切基础范围。 相似文献
19.
Tree ring dating plays an important role in obtaining past climate information.The fundamental study of obtaining tree ring samples in typical climate regions is particularly essential.The optimum distribution of tree ring sampling sites based on climate information from the Climate Observation Network(ORPOM model) is presented in this article.In this setup,the tree rings in a typical region are used for surface representation,by applying excellent correlation with the climate information as the main principle.Taking the Horqin Sandy Land in the cold and arid region of China as an example,the optimum distribution range of the tree ring sampling sites was obtained through the application of the ORPOM model,which is considered a reasonably practical scheme. 相似文献