龙门山地区类似2008年汶川大地震滑坡物质河流卸载时间的定量估算

定量研究地震滑坡物质河流卸载时间对理解地震与造山带地貌演化之间的关系有着十分重要的意义.本文以青藏高原东缘龙门山构造带内岷江流域为例,定量估算了2008年汶川大地震滑坡物质的河流卸载时间.研究结果表明,如果以位于龙门山构造带内的岷江河段现有搬运能力计算,并且岷江可以有效地搬运汶川地震滑坡物质,地震滑坡物质至少在3100 yr内被岷江卸载出龙门山.而龙门山构造带中段类似2008年汶川M_s8.0级大地震的复发周期约为3000 yr左右,暗示大地震所产生的滑坡物质量可以在大地震复发周期内基本上被侵蚀和剥蚀所平衡,并被卸载出龙门山构造带. 因此,我们推断:除了周期性大地震造成的地表抬升的累积外,龙门山地区地震及其它地表过程所产生的剥蚀物质通过河流快速卸载驱动了地壳均衡反弹和深部物质上涌,形成了青藏高原东缘的高陡地形梯度带. 相关的地球物理证据表明在青藏高原东缘可能存在由地表快速剥蚀(或侵蚀)所引发的地球深部地幔软流圈物质上涌.     

A Cartographer,Shaped by Context and Challenged by Classics

Abstract

Using examples from the governmental, commercial and educational sectors, the development of photo maps and mapping using satellite imagery is outlined. The emphasis of this paper is on the design possibilities and limitations which are evident in these products. Contrast and legibility problems and image clutter are considered, but it is concluded that the institutional impediments to the collaboration of specialists in researching and designing such maps may be of most importance in determining progress in the use of such maps.     

Nontectonic signals in reprocessed continuous GPS position time series of CMONOC

The nearly nine-year continuous GPS data collected since 1 March 1999 from the Crustal Motion Observation Network of China (CMONOC) were consistently analyzed. Most of the nonlinear movements in the cumulative position time series produced by CMONOC data center disappeared; and more accurate vertical terms and tectonic signals were extracted. Displacements caused by atmospheric pressure loading, nontidal ocean loading, soil moisture mass loading, and snow cover mass loading using the National Centers for Environmental Prediction (NCEP) Reanalysis I/II models and Estimation of the Circulation and Climate of the Ocean (ECCO) data can explain most of the vertical annual terms at many stations, while only parts can be explained at Lhasa and southern coastal sites, indicating that there are some deformation mechanisms that are still unknown or not modeled accurately. The remarkable differences in vertical position time series for short-baseline sites reveal that GPS stations can be greatly affected by local factors; and attention should be paid when explaining observed GPS velocity vectors.     

Near real-time high-resolution airborne camera,AEROCam, for precision agriculture

Precision agriculture often relies on high-resolution imagery to delineate the variability within a field. Airborne Environmental Research Observational Camera (AEROCam) was designed to meet the needs of agriculture producers, ranchers, and researchers, who require high-resolution imagery in a near real-time environment for rapid decision support. AEROCam was developed and operated through a unique collaboration between several departments at the University of North Dakota, including the Upper Midwest Aerospace Consortium (UMAC), the School of Engineering and Mines, and flight operations at the John D. Odegard School of Aerospace Sciences. AEROCam consists of a Redlake MS4100 area-scan multi-spectral digital camera that features a 1920 × 1080 CCD array (7.4-μm detector) with 8-bit quantization. When operated at ～2 km above ground level, multispectral images with four bands in the visible and near infrared have a ground sample distance of 1 m with a horizontal extent of just over 1.6 km. Depending on the applications, flying at different altitudes can adjust the spatial resolution from 0.25 to 2 m. Rigorous spectral and radiometric calibrations allow AEROCam to be used in a variety of applications, qualitative and quantitative. Equipped with an inertial measurement unit (IMU) system, the images acquired can be geo-referenced automatically and delivered to end users near real time through our Digital Northern Great Plains system (DNGP). The images are also available to zone mapping application for precision farming (ZoneMAP), an online decision support tool for creating management zones from remote sensing imagery and data from other sources. Operational since 2004, AEROCam has flown over 250 sorties and delivered over 150,000 images to the users in the Northern Great Plains region, resulting in numerous applications in precision agriculture and resource management.     

Space,time, and situational awareness in natural hazards: a case study of Hurricane Sandy with social media data

ABSTRACT

Various methods have been developed to investigate the geospatial information, temporal component, and message content in disaster-related social media data to enrich human-centric information for situational awareness. However, few studies have simultaneously analyzed these three dimensions (i.e. space, time, and content). With an attempt to bring a space–time perspective into situational awareness, this study develops a novel approach to integrate space, time, and content dimensions in social media data and enable a space–time analysis of detailed social responses to a natural disaster. Using Markov transition probability matrix and location quotient, we analyzed the Hurricane Sandy tweets in New York City and explored how people’s conversational topics changed across space and over time. Our approach offers potential to facilitate efficient policy/decision-making and rapid response in mitigations of damages caused by natural disasters.     

中国60城市站1901—2019年日降水数据集的构建

近年来中国区域降水的极端化问题得到学术界的广泛关注,有关研究也获得了大量成果。但是,目前国内外常用的高分辨率降水资料序列多从1951年左右开始,普遍缺少20世纪早期中国的逐日降水资料,对于近一百多年中国极端降水变化特征及其机理,目前还不清楚。基于多来源的1901—1950年原始观测报表数字化逐日降水资料,补充先前未录入的“无降水”和缺测数据,研发质量控制方案并开展质量控制,补充录入检出的缺失和错误数据并再次质控,结合1951年以来的现代降水日值资料,建立中国60个城市站1901—2019年降水日值数据集。数据集评估结果显示,早期中国东部地区的台站较为密集,数据完整性和正确性较好,但中国西部的台站数量少且完整性和正确性偏低。本数据集构建的年总降水量累积值序列与已有的月降水量数据基本一致。基于该数据集,研究发现重庆站近百年来的降水未出现显著的趋势性变化。该数据集使后续分析研究中国极端降水的百年尺度长期变化特征成为可能。     

砾石覆盖紫色土坡耕地水文过程

紫色土中砾石分布广泛,地表常为砾石覆盖,砾石覆盖对土壤水文过程有着重要影响。试验小区(2 m×1 m)为坡度23°的坡耕地, 试验降雨强度为(53.9±2.8)mm/h、 (90.8±6.1)mm/h和(134.3±14.9)mm/h, 砾石覆盖度为0%,11%,20%,33%和42%。通过原位人工模拟降雨试验,定量研究了不同降雨强度下砾石覆盖对降雨入渗、地表产流及壤中流产流的影响。结果表明:砾石覆盖对入渗过程影响显著,稳定入渗速率及稳定入渗系数与砾石覆盖度呈正相关关系,3种降雨强度下,稳定入渗系数分别为47.70%~86.59%,30.61%~82.83%、17.76%~77.44%,42%砾石覆盖度小区的稳定入渗速率分别是裸露小区的1.95~4.94倍;地表砾石覆盖延迟地表产流、减少地表径流量,地表产流时间随着砾石覆盖度的提高呈增加趋势,地表径流速率及地表径流系数随砾石覆盖度的增加而降低,相对地表径流系数与地表砾石覆盖度呈指数负相关关系;地表砾石覆盖促进壤中流的发生、增加壤中流量,壤中流产流时间随着砾石覆盖度的增加逐渐缩短,壤中流径流速率及壤中流径流系数随地表砾石覆盖度的增加而提高,相对壤中流径流系数与地表砾石覆盖度呈指数正相关关系。     

黄河平滩流量的多时间尺度现象

受气候系统影响的水文系统具有多时间尺度变化规律。由于平滩流量与水沙条件变化关系密切,也必然会呈现出多时间尺度演变规律。基于黄河下游主要测站1950~2007年平滩流量及水沙资料,利用小波分析原理分析了平滩流量、流量和含沙量序列的多时间尺度变化特征,以及不同时间尺度下水沙序列与平滩流量序列之间的相关关系。结果表明,黄河下游主要测站的平滩流量序列存在5~6年和19~20年的主要时间尺度,且水沙条件多尺度变化规律与平滩流量有密切关系。此外,对黄河上游和渭河支流主要测站的平滩流量与水沙条件的多时间尺度进行了分析,发现不同河段的平滩流量序列与含沙量序列存在不同的相位差,且相位差大小随含沙量增大而减少。揭示的黄河平滩流量与水沙条件的多时间尺度变化规律,可为研究河床演变的多时间尺度现象提供参考。     

志丹地区长9储集层物性特征研究

长9储集层属于鄂尔多斯盆地延长组湖泊发育早期,油源关系复杂,前期的沉积作用和后期的成岩作用共同塑造了储层低孔低渗的特征。储层的物性是连结岩性和含油性之间的重要环节,加大对低孔低渗储层物性的分析,有利于储层其他方面特征的研究。在对储层孔隙度和渗透率作深入分析的基础上,使用反映储层孔隙度比较灵敏的声波时差测井曲线,来研究其物性特征。通过建立米产液量和声波时差的对应关系,确定声波时差下限,再根据声波时差和储层物性之间的关系式,最终确定储层孔隙度和渗透率下限,为储层含油性特征、有利区优选等方面的研究提供依据。     

基于源波场重建与波场分解的逆时偏移

逆时偏移以其高精度、适于强变速地质体和不受反射层倾角限制的特点,已经成为处理盐丘、高陡倾角反射层和推覆构造等复杂地质体的标准成像手段。然而,其成像条件需要具有同一时间上的源波场与检波点波场,这在大规模数据上会导致存储的不足与I /O 时间过长。这种成像条件也会在波场传播路径上产生假象。鉴于此,提出了一套可以有效解决这些问题的逆时偏移方案。对于存储与I / O 问题,用源波场重建技术来使源波场与检波点波场在时间上同步,即在源波场正演过程中,仅需存储成像区域边界的波场和最后两层时间的波场作为源波场重建的边界条件和初始条件,从而大幅度节约存储与I /O。对于假象问题,利用上下左右行波分解成像条件与Laplace 滤波技术结合,以达到去除假象的目的。经测试,该方案取得较好的成像效果。其意义在于改进了逆时偏移去假象的方案,使其可以有效地对复杂地质情况进行高质量的成像,并通过源波场重建技术来减少实现逆时偏移所需要的存储与I /O 时间。