利用数字摄影测量方法估算半干旱区小流域沟谷侵蚀产沙

土壤侵蚀不仅表现黄土高原强烈的现代地貌过程,也是其生态环境恶化的象征,其地貌演化和土壤侵蚀互为因果,现代研究表明黄土高原半干旱小流域的沟谷侵蚀产沙占其水土流失总量的重要部分,近年有关沟谷侵蚀的定量研究成果,加深了人们对沟道侵蚀危害的认识,为土地资源的合理利用、沟谷危害的评价等提供了科学依据。传统的沟谷侵蚀定量研究是采用实地量测的方法,现代的数字摄影测量技术的发展为估算沟谷侵蚀研究提供了一个经济高效方法。本研究采用的髙分辨率数字高程模型是由3期历史航空照片根据数字摄影测量方法制作而成,利用它对黄土高原半干旱区一个小流域的1959～1981年及1981～1999年两个时段内沟谷侵蚀产沙量进行估算,将流域侵蚀产沙的实测值与估算结果进行评价。并指出此方法在沟谷侵蚀产沙量估算方面的统计学意义及在未来应用时要注意的问题;根据流域侵蚀产沙结果分析历史时期人类活动的影响:人类活动在一定程度上改善了环境,绝大部分泥沙被拦截在流域里,同时沟道侵蚀加剧,如何采取措施减少流域坡面和沟道的侵蚀,是目前人们所面对的问题;此外,结合流域水沙统计数据的DEM的侵蚀空间分析,结果表明坡面流、重力侵蚀及沟谷的下切是导致流域土壤侵蚀的主要原因。     

Development and flow structures of sand injectites: The Hind Sandstone Member injectite complex,Carboniferous, UK

The Hind Sandstone Member of the Carboniferous Craven Basin occurs within a thick succession of marine mudstone and is here interpreted as a sandstone injectite complex. Injectites take the form of (i) sills; (ii) upwards emplaced dykes; (iii) downwards emplaced dykes; (iv) a sedimentary laccolith; and (v) sandstone bodies remobilised in-situ. The remobilised and injected sand originated from small turbidite scour fills and potentially a more significant sand body such as a submarine slope gully fill. The sedimentary laccolith appears to jack-up the units it injects, and is filled by sandstone with a chaotic fabric suggestive of brecciation of partly cemented sand. The laccolith and sill-dominated nature are suggestive of relatively shallow remobilisation. Sills are commonly laterally gradational with upwards emplaced dykes, and in some cases these feed apparently downwards emplaced dykes. A series of flow structures are preserved within some of the injectites, and these provide clues to the emplacement history. Crack propagation direction is inferred from the orientation of undulating crests developed on the upper and lower surfaces of injectites. Peak-flow is indicated by scour marks, resembling flute and tool marks, which are superimposed onto these undulating surfaces. Internal flow structures highlighted by pyrite mineralistion record the waning stage of injection. The observed flow structures suggest that the apparent crack propagation direction was generally oblique to the peak flow, and nearly perpendicular to the direction of late-stage fluidised sediment flow. Crack propagation relates to the local stress field, whilst injection flow may be related to the local pore pressure distribution. Recognition of this suite of structures may provide a useful interpretational tool for other injectites in both core and outcrop. Pore fluid overpressure which drove injection developed through the migration of petroleum and mineralising fluids from the underlying Bowland Shales and older limestones. A complex brecciated fracture network within the mudstones underlying the injectites records fluid migration pathways. Sliced blocks and thin sections from injectites reveal flow structures defined by iron pyrite mineralisation. The trigger is here related to growth of compressional structures and associated syn-sedimentary slumps which occur at the same stratigraphic level as the injectites.     

DEM分辨率对黄土侵蚀沟形态特征表达的不确定性分析

黄土侵蚀沟的地形表达是开展黄土沟谷侵蚀研究的基础工作,利用数字高程模型(DEM)定量描述侵蚀沟特征有助于研究侵蚀沟的形态变化和发育过程。基于DEM数据计算多种指标对黄土侵蚀沟特征进行描述是目前侵蚀沟研究中最为常用的方法。但是,受到格网DEM数据结构的限制,其计算结果会存在一定的不确定性。在侵蚀沟地形表达时,对形态特征的表达会受到DEM数据分辨率的影响,进而造成表达结果的不确定性。尤其在黄土高原地区,地形特征更为破碎,地形要素更为复杂,其表达结果受DEM分辨率的影响更为明显。本文以黄土高原典型样区为例,基于点云数据建立不同分辨率的DEM数据集,通过不同地形因子对侵蚀沟特征进行表达,分析DEM分辨率在黄土侵蚀沟形态特征表达时的不确定性。结果显示,分辨率的降低对主沟支沟比和纵比降等侵蚀沟形态特征因子产生了较大影响,且指标与分辨率多呈现线性变化关系。但是,随着侵蚀沟的横向扩张,DEM分辨率对其特征表达的影响逐渐被削弱。此外,在使用固定分析窗口进行侵蚀沟特征计算时,由于分辨率的降低,格网尺寸增大,其实际分析半径随之增大,使得计算范围内地表形态变化增加,导致沟谷切割深度随着分辨率的降低反而增加。同时,侵蚀沟主沟道区域受分辨率影响较小,沟头区域指标与分辨率的关系较弱。     

应用ATOVS资料和非对称Bogus资料对登陆台风韦帕的4DVAR数值模拟分析

前人研究中BDA方法采用的轴对称Bogus台风不能反映个别台风具体特征并弃掉了背景场的合理成分,也没有考虑大环境场的影响及湿热要素的同化。因此,提出一种充分融合分析场信息和实际观测信息并考虑副高影响的精细非对称台风Bogus方法,并在MM5的伴随同化系统中引入快速辐射传输模式RTTOV8,通过四维变分同化(4DVAR)技术,加入海面风场和气压场Bogus资料及多颗卫星多条轨道上的ATOVS红外和微波卫星辐射亮温资料并考虑Noah陆面过程方案来对登陆台风韦帕进行数值模拟,结果表明,单独同化海面Bogus资料的BDA方案可间接产生初始场非对称三维环流结构和暖心结构,但对湿度场及台风周围大环境场的调整不足,台风登陆后的路径预报改善也不明显;引入陆面过程方案弥补了Bogus资料对台风登陆后路径预报的不足;加入ATOVS资料能对湿度场及台风周围环境场做出调整,重构了大量中尺度结构信息,取得更为精细的初始台风环流和温压湿场结构,保持BDA方案路径及强度预报的优势的同时,使预报的降水强度增加,降水落区发生改变。     

Testing the utility of structure‐from‐motion photogrammetry reconstructions using small unmanned aerial vehicles and ground photography to estimate the extent of upland soil erosion

Quantifying the extent of soil erosion at a fine spatial resolution can be time consuming and costly; however, proximal remote sensing approaches to collect topographic data present an emerging alternative for quantifying soil volumes lost via erosion. Herein we compare terrestrial laser scanning (TLS), and both unmanned aerial vehicle (UAV) and ground photography (GP) structure‐from‐motion (SfM) derived topography. We compare the cost‐effectiveness and accuracy of both SfM techniques to TLS for erosion gully surveying in upland landscapes, treating TLS as a benchmark. Further, we quantify volumetric soil loss estimates from upland gullies using digital surface models derived by each technique and subtracted from an interpolated pre‐erosion surface. Soil loss estimates from UAV and GP SfM reconstructions were comparable to those from TLS, whereby the slopes of the relationship between all three techniques were not significantly different from 1:1 line. Only for the TLS to GP comparison was the intercept significantly different from zero, showing that GP is more capable of measuring the volumes of very small erosion features. In terms of cost‐effectiveness in data collection and processing time, both UAV and GP were comparable with the TLS on a per‐site basis (13.4 and 8.2 person‐hours versus 13.4 for TLS); however, GP was less suitable for surveying larger areas (127 person‐hours per ha^?1 versus 4.5 for UAV and 3.9 for TLS). Annual repeat surveys using GP were capable of detecting mean vertical erosion change on peaty soils. These first published estimates of whole gully erosion rates (0.077 m a^?1) suggest that combined erosion rates on gully floors and walls are around three times the value of previous estimates, which largely characterize wind and rainsplash erosion of gully walls. Copyright © 2017 John Wiley & Sons, Ltd.     

卢氏县城黑马渠沟流域滑坡分析及减灾对策

黑马渠沟流域滑坡较发育 ,密度达 9.4个 /km2 ,目前 ,滑坡及滑坡型泥石流灾害已成为制约卢氏县城社会和经济发展的因素之一。本文从地质、地貌、气象、水文等环境条件入手 ,分析了滑坡的分布规律及其成因 ,并针对滑坡的类型特征及危害方式 ,提出了相应的减灾对策     

典型黑土区小流域浅沟侵蚀季节差异分析

通过2005年对黑龙江鹤山农场两个小流域进行定位观测,研究了典型黑土区浅沟侵蚀特征及其季节差异,并对作物类型和耕作措施对浅沟侵蚀的影响进行了分析。结果表明,两流域年浅沟侵蚀量达285.9 m³ km^-2和290.8 m³ km^-2,仅浅沟侵蚀量就超过了黑土区的土壤允许侵蚀量。浅沟侵蚀量呈现出沿坡面波动的变化,沿坡面向下存在浅沟侵蚀的强弱交替带。春夏浅沟侵蚀在侵蚀强度、浅沟形态及主要影响因素3个方面存在差异,春季浅沟侵蚀受融雪、冻融影响显著,侵蚀较夏季严重;与春季相比,夏季浅沟长度变短、宽度变大、深度变浅,浅沟体积与长度的相关性较春季差,这与夏季暴雨历时短、雨强大以及植被盖度大有关。耕作措施和作物类型影响浅沟侵蚀深度和浅沟分布,尤其在夏季比较明显。     

历史时期周原地貌演变与土壤侵蚀

文章以渭北黄土台塬西部周原七星河流域为研究对象，采用实地考察、考古、历史文献等多种方法定量地研究了仰韶文化以来周原地貌演变与土壤侵蚀的过程和规律。通过恢复历史时期周原地貌演变过程得出周原地貌演变主要表现为沟谷的形成和发展，七星河流域沟谷密度从仰韶、龙山文化时期的0.1646km/km^2，增加到目前的0.7045km/km^2，西汉以来沟谷的下切速率为1.08m/100a。历史时期周原土壤侵蚀过程一直存在，且沟谷发育和土壤侵蚀呈加剧态势，沟谷密度、土壤侵蚀模数分别增加了76.64%、41.36%。金以后的元、明、清时期和二十世纪前半叶是周原沟谷发育、土壤侵蚀发展最快的时期，数量众多的切沟、冲沟主要形成于金以后至今770多年里，造成这一结果的主要原因是植被的人为破坏。     

东北漫岗黑土区浅沟侵蚀发育特征

东北黑土区是中国重要商品粮基地之一,沟道恶性扩张,已成为导致该区土地退化主要原因之一.利用全球定位系统和传统方法测量浅沟形态参数,结合地理信息系统(GIS)平台计算流域尺度的沟蚀现状,分析东北黑土区浅沟侵蚀发育特征,并对比分析其与黄土高原浅沟侵蚀发生的地貌因子之间的异同.研究表明,研究区浅沟分布密度0.56～0.93 km、km2,年侵蚀模数达到118～199 m3/km2,浅沟破坏面积占流域面积比例达0.11%～0.19%,浅沟沟壑密度已经达到中度和强度侵蚀,处于快速发展时期;研究区浅沟的临界汇水面积大于黄土高原,分布的临界坡度小于黄土高原,这主要由黑土区坡长坡缓的特点决定.     

文县燕儿沟拦挡坝受损原因与加固措施研究

拦挡坝受损是泥石流治理工程常见的问题,因地制宜提出加固措施可保障工程自身安全,且使已有防治体系继续发挥防灾减灾效能。在查明拦挡坝破坏模式及受损原因的基础上,根据受损部位、破坏程度和损坏原因的不同,采取相宜的加固措施,尤其对坝体存在多种破坏类型的情况则采取多种措施的综合加固方案。本文以燕儿沟泥石流为例,在掌握灾害发育特征的基础上,查明流域内拦挡坝破坏类型,并分析受损原因,研究提出安全合理、行之有效的加固措施,为此类加固工程提供借鉴思路,为往后防治工程结构设计提供参考。