MIS 3以来雅鲁藏布江流域风成沉积及环境意义

雅江流域风成沉积广泛发育,其气候指示意义及年代的界定尚不够清晰。从雅江全流域视角出发,全面分析了不同区域风成沉积的发育机制及模式,同时对风成沉积年代数据归一化处理,并与全球气候对比研究。结果表明：① 流域内风成沉积有盛行风场发育模式和局地风场发育模式,不同模式对环境的指示意义不同。② 雅江流域风成沉积多堆积于末次盛冰期（LGM）以后,且主要发育于晚冰期（15 ka BP）以来的不同时段,冰川退缩地表裸露,丰富的冲洪积碎屑物源可能是风成沉积发育的主控因素;更早时段的风成沉积因LGM后气候转暖、冰川消融所致的侵蚀搬运作用而未能保存。③ LGM以来风成沉积过程受区域及全球古气候环境共同控制,波动变化剧烈;其对30°N夏季太阳辐射、印度季风及西风变化信号的指示有所差异,但对YD等全球气候冷事件有较好记录,其沉积过程与高原面上其他区域既存在对全球古气候响应的同步性,又有其区域独特性。④ 流域内风成沉积的强烈堆积过程与全球气候变化并非简单对应关系,呈现出较复杂的响应模式。说明高山河谷环境的风成沉积除受大区域气候影响,还受许多局地环境因素控制,古气候环境的指示意义复杂。     

测量鱼鲜度的三甲胺MIS结构的敏感性与机理

以ＴｉＯ２为材料制作的Ａｌ／ＴｉＯ２／Ｓｉ　ＭＩＳ结构对与鱼鲜度有关的三甲胺气体有良好的响应。实验表明：当三甲胺体积分数从０～１０３×１０－６变化时,在１ＭＨ的测试频率下,样品的电容值改变了２５０％;在３Ｖ的偏压下,电流变化了４５０％。鲜鱼死后在２５ｈ内,在较高温度下样品的（Ｃ－ｔ）和（Ｉ－ｔ）关系响应敏感。并通过分析ＴｉＯ２膜各组分的介电常数,解释了样品的电容随体积分数变化的机理。提出了吸附模型,鉴于化学吸附产生的正电荷对界面势垒和电场的影响,结合Ｆｏｗｌｅｒ－Ｎｏｒｈｅｉｍ（Ｆ－Ｎ）隧道穿透机构对电流一体积分数（Ｉ—Ｄ）关系进行解释。     

腾格里沙漠南缘末次间冰期5e亚段的微量元素特征及其反映的古气候

腾格里沙漠南缘土门剖面TMS5e层段由16层风成砂、11层湖积黄土和5层湖相沉积构成,其年代相当于深海氧同位素5e。分析结果表明,TMS5e的10种微量元素的含量依次为PMnSrRbVCrZnNiCuNb。就平均值来看,古流动沙丘砂的各微量元素含量最低,其次为古半固定-固定沙丘砂,但两者的各微量元素含量都明显低于整个TMS5e层段相应平均值;黄土状亚砂土微量元素含量稍低于整个TMS5e层段相应平均值;湖相沉积和湖积黄土的各微量元素含量相差较小,且明显都高于整个TMS5e层段、古流动沙丘砂和黄土状亚砂土的平均值。土门剖面TMS5e层段的微量元素指示的MIS5e腾格里沙漠南缘的气候是不稳定的,经历了14.5次暖湿与冷干交替的气候波动,且可划分为TMS5e5(139~129.30ka BP)、TMS5e4(129.30~124ka BP)、TMS5e3(124~119.50ka BP)、TMS5e2(119.5~116.5ka BP)和TMS5e1(116.5~113.70ka BP)等5个亚段,分别可与格陵兰GRIP冰芯氧同位素所反映的MIS5e5、MIS5e4、MIS5e3、MIS5e2、MIS5e1等气候波动在性质和相位上相对应。     

基于ArcGIS Server的北京市房屋管理信息平台设计与实现

随着房地产信息化的不断发展,房屋相关信息资源的共享和管理变得越来越重要,本文从GIS和MIS技术相结合的角度,提供了房屋信息管理的一种方式,设计实现了北京市房屋管理信息平台.     

基于GIS的灌区管理信息系统的构建与开发

介绍了GIS在灌区的初步应用，实现地理信息与管理信息相结合，采用了B／S和C／S的混合架构，集成了空间数据管理，为灌区提供了一种新型的管理系统。     

集成的一体化城镇地籍管理信息系统设计

以城镇地籍管理办公自动化为出发点,介绍了一体化城镇地籍管理信息系统的概念、功能需求、设计目标和系统构成。整个系统由城镇地籍数据管理系统、地籍业务办公系统、地籍信息发布系统、安全管理系统等组成。子系统通过数据接口,集成为一体化的系统,实现城镇地籍管理业务的信息化和自动化。     

Climatic Character of Marine Isotope Stage (MIS) 5e in the Representative Regions of the World: A Review

The Last Interglacial or Marine Isotope Stage (MIS) 5e, is of great interest because it serves as an analog for the Holocene. The climate change and duration during Marine isotope stage (MIS) 5e are considerably well understood for recent and future climate. Despite great interest in this subject over many years, a number of issues concerning the climate circumstances of MIS 5e are by no means resolved. We analyzed 35 published palaeoclimate records with reliable chronologies and robust proxies in typical region of the world to evaluate climate change during MIS 5e. These data indicate that: ① The duration of this warm phase is thought to range from (128±2) ka to (116±2) ka. The climate of MIS 5e was likely relatively stable with a number of abrupt, weak amplitude, cool and/or arid events. And the difference between regions is noticeable for the occurrence, amplitude, onset and duration of these events. For example, marine records from the North Atlantic indicate that the climate of MIS 5e was relatively stable, however the records from Norwegian sea show that the climate of MIS 5e had a significant changes at the beginning and cold event in the Mid-Eemian; The δ¹⁸O, δD and CH₄ in the ice cores from Greenland and Antarctica imply that climate was relatively stable during the last interglacial period, while in Europe from the north to the south the duration of this phase became shorter and the intensity of climatic events became stronger. In addition, the climatic conditions of MIS 5e reconstructed by climate proxy from China are various and have the subject of some controversy. ②The global climate response to the insolation forcing would have been uniform on suborbital timescale. Nevertheless, as a result of regional sundry climatic forcing factors, global millennial-scale/century-scale climate oscillations were marked by significant local features during stage 5e. ③ Based on the better chronological controls, the estimation of climate parameters, the high-resolution climate records, and precise knowledge of the phase relationship between climate changes in global, the earlier depiction for climate circumstances and environment change during Marine Isotope Stage 5e should be refined and our understanding of the climate dynamics and mechanism and climate modelling should be improved.     

Environments of the climatic optimum of MIS 11 in Britain: evidence from the tufa sequence at Hitchin,southeast England

Marine Oxygen Isotope Stage 11 (MIS 11, Hoxnian Interglacial) is an important interval for understanding both climate change in an interglacial partially analogous to the Holocene and the response of geomorphic processes, biotic systems, and hominin populations to these changes. In Britain, many sites correlated to MIS 11 have not been studied since the mid-20th century and require reinvestigation, including the Hitchin tufa sequence, where a rich, non-marine molluscan assemblage was originally recovered. Re-excavation of the Hitchin tufa sequence for this study was focussed on combined sedimentological, micromorphological and geochemical analyses of the deposits. These indicate that tufa formation occurred within a perched springline system under temperate climatic conditions. Shifts between paludal and fluvial tufa facies within this system occur concomitantly with changes in carbonate geochemistry, representing increased humidity caused by a change in rainfall amount or seasonality. This research enables a correlation of the sequence to the climatic optimum of MIS 11c, the main warm phase of MIS 11, and permits further insights into temperature and hydrological changes in this interval by generating the first geochemical records of hydroclimatic evolution during the MIS 11 thermal maximum in Britain.