黄河银川平原段河岸摆动速率变化及其影响因素(英文)

It is important to examine the lateral shift rate variation of river banks in different periods. One of the challenges in this regard is how to obtain the shift rate of river banks, as gauging stations are deficient for the study of river reaches. The present study selected the Yinchuan Plain reach of the Yellow River with a length of 196 km as a case study, and searched each point of intersection of 153 cross-sections(interval between two adjacent cross-sections was 1.3 km) and river banks in 1975, 1990, 2010 and 2011, which were plotted according to remote sensing images in those years. Then the shift rates for the points of intersection during 1975–1990, 1990–2010 and 2010–2011 were calculated, as well as the average shift rates for different sections and different periods. The results show that the left bank of the river reach shifts mostly to the right, with the average shift rates being 36.5 m/a, 27.8 m/a and 61.5 m/a in the three periods, respectively. Contemporarily, the right bank shifts mostly to the right in the first period, while it shifts to the left in the second and third periods, with the average shift rates being 31.7 m/a, 23.1 m/a and 50.8 m/a in the three periods, respectively. The average shift rates for the left and right banks during the period 1975–2011 are 22.3 m/a and 14.8 m/a, respectively. The bank shift rates for sections A, B and C are different. The shift rate ratio of the left bank in the three sections is 1:7.6:4.6 for shift to the left and 1:1.7:3.8 for shift to the right, while that of the right bank is 1:1.8:1.2 for shift to the left and 1:5.6:17.7 for shift to the right during the period 1975–2011. Obviously, the average shift rate is the least in section A, while it is maximum in section B for shift to the left and in section C for shift to the right. The temporal variation of the shift rate is influenced by human activities, while the spatial variation is controlled by the local difference in bank materials.     

1977年以来黄河临河段河岸冲淤变化及河道萎缩速率

不同时段河道的侧向侵蚀/加积面积变化的定量研究可以揭示河道的变化特征。以黄河临河段213 km长的河段为研究对象,利用1977年以来19个时段基于遥感影像绘制的河道平面形态图的面积变化来估算其4个亚河段（S1、S2、S3和S4）在不同时段的河岸侧向侵蚀/加积面积以及全河段的河道平均萎缩速率。研究结果表明,黄河临河段左右河岸在37年间都表现为侧向净加积,其4个亚河段左岸的侧向累计加积面积分别为33.16 km²、49.59 km²、29.52 km²和30.85 km²,其中1995-2000年的加积面积分别占到其总加积面积的85.5%、51.2%、47.2%和104.6%;右岸的侧向累计加积面积分别为30.83 km²、8.74 km²、26.44 km²和18.76 km²,而1995-2000年的加积面积分别占到其总加积面积的57.2%、111.9%、65.7%和61.6%。该河段河道面积1977-2001年具有减小趋势,2001年之后河道表现为侧向侵蚀、加积的交替变化,1977-2014年间河道平均萎缩速率为6.16 km²/yr。该河段河道平面形态值最明显的变化也发生在1990s,与1995年相比,2000年的河道长度增加了5.8%,河道面积减少了39.4%,河道平均宽度减小了42.8%,弯曲系数增加了6.6%。黄河临河段河道形态剧烈变化及河道严重萎缩都发生在1990s,这主要是黄河上游刘家峡和龙羊峡水库联合运行导致汛期水沙量大量减小所致,4个亚河段的河岸冲淤变化还受到局部河岸物质结构、护岸工程及水动力差异的影响。随着2000年后河流综合管理措施的调整,黄河临河段河道的上述变化趋势明显弱化,河流健康程度有所好转。     

黄河内蒙古段洪峰特征及水沙关系变化

本文通过黄河头道拐站1950-2009 年水沙年系列进行突变点分析, 识别出1969 年、1986 年、1996 年3 个突变点, 将黄河内蒙古段水文过程划分为4 个时期。在此基础上, 利用内蒙古段6 个水文站长系列日流量、日含沙量及泥沙组成数据, 划分了各站的夏汛洪峰, 并统计分析了分期洪峰的水沙分布特征和洪峰水沙关系, 揭示出夏汛洪峰流量和输沙率逐渐减少的规律:1996-2006 年与1954-1968 年相比, 夏汛洪峰水沙量占全年水沙的比例都减少了约一半, 流量级频率与输沙率乘积的峰值对应的流量也降低了约一半。分析认为, 黄河内蒙古段夏汛洪峰特征阶段性变化既有大型水库的影响, 又有气候变化及人类活动的影响, 而且后者的作用越来越大。分析发现, 20 世纪90 年代以前, 黄河上游水沙变化只是改变了内蒙古段来沙中粗颗粒泥沙的水沙关系, 显示出大流量输送粗颗粒泥沙能力相对增强的趋向;进入内蒙段后, 通过泥沙冲淤调整, 分粒径组泥沙水沙关系变化比较复杂。近期在水沙条件巨大变化下, 河流的输沙特性并没有发生根本变化, 但是无论全沙还是分组沙, 水沙关系曲线变陡, 大流量输送泥沙能力相对增强。     

黄河内蒙古段淤积泥沙洪水冲刷效应

为了探讨黄河内蒙古段淤积泥沙的洪水冲刷效应,于2012年对其三湖河口水文站河道监测断面汛期（7-10月）流量、悬移质泥沙含量以及洪水期间（2012年8月20日-2012年10月1日）悬移质泥沙含量、粒度百分含量的垂直变化特征与流量的关系进行了统计和分析。结果表明：（1）该次洪水具有峰高量大、洪峰过程在河段内持续时间长、洪水起涨和消退缓慢、峰形矮胖的特点;（2）洪水过程中,小于0.05 mm的细颗粒泥沙在2 000 m³·s^-1左右的流量下就能输移通过,在2 000～2 400 m³·s^-1时输沙强度最大,对河道淤积泥沙可以达到输沙最优的效果;而粒径大于0.05 mm的泥沙输移的效果不好。     

黄河下游2300年以来沉积速率的变化

采用沉积学方法提取沉积速率的记录,利用历史文献研究的方法提取气候与人类活动变化的信息,对黄河下游2300年以来的沉积速率的变化及其与气候、植被及人类活动的关系进行了研究,揭示黄河流域地貌系统对气候变化及人类活动所导致的土地覆被、土地利用方式变化的响应过程。研究表明,黄河流域地貌系统中的下游沉积带对于中游侵蚀带的响应是灵敏的,流域植被和土地利用方式的变化,是导致下游河道沉积加速的主导因素;这种变化主要取决于人类活动,同时与气候的变化也有一定关系。在沉积加速的过程中,公元7世纪至10世纪以及18世纪中叶以来,表现为两个突变时期。     

黄河龙门—三门峡段河漫滩组成物质的粒度特征

本文分析了河漫滩组成物质的粒度组成特征，并与河床南粒径级配与悬移质粒和戏级配进行了比较，研究了河漫滩度及物质组成的河槽几何形成的影响。     

窟野河流域河岸沙丘地貌格局及变化

风水交互作用是黄土高原北部风蚀水蚀交错带特殊的侵蚀营力,并致该区土壤侵蚀强度加重。以毛乌素沙地窟野河流域作为研究区,基于影像解译及数理统计方法,研究河道与沙丘交互地貌过程。结果表明：（1）窟野河“三河夹沙”区沙地以河流为中心呈现出对称条带状格局分布,距离河流,依次呈现出流动沙丘、固定半固定沙丘、丘陵沟壑区的空间格局;（2）典型河段河道与沙丘空间格局呈现出河道穿越流动沙丘、河道两侧斑块状沙丘镶嵌分布、两河交汇处流动沙丘分布等3种格局;（3）河道弯曲系数与河道两侧沙丘活动性的变化之间呈现出一定的对应关系。     

黄河壶口段全新世古洪水事件及其水文学研究

通过对黄河中游晋陕峡谷段的考察,在多个地点发现全新世古洪水滞流沉积层。选择壶口段左岸岩棚内典型的古洪水滞流沉积剖面进行沉积学和水文学研究。对于采集的全新世地层剖面序列样品,进行粒度成分、磁化率、烧失量、CaCO₃含量等分析,从沉积学角度证明了研究剖面所夹洪水沉积物为典型的古洪水滞流沉积物,记录了全新世两个时期的特大洪水事件。通过地层学对比分析和OSL测年,确定其分别发生在全新世早期-中期转折阶段,和中期-晚期转折阶段。利用沉积学和水文学原理恢复古洪水水位,计算出第一组古洪水洪峰流量为27490m³/s、27830 m³/s、28570 m³/s,第二组为40920m³/s。本文的研究发现全新世特大洪水事件,并且恢复了其水文特征数据,对于揭示黄河水文过程对于全球变化的响应规律具有重要的科学意义,对于水利工程建设具有重要的现实意义。     

黄河包头段常见离子对重金属在沉积物上吸附影响机制研究

常见阴阳离子对重金属在黄河包头段相对清洁河段表层沉积物中的吸附影响研究结果表明,不同的环境离子浓度范围内,起主导作用的影响机制不同,黄河包头段水环境中Na 、Mg2 和Ca2 对Zn2 的吸附影响较大,K 对Cu2 、Pb2 、Zn2 和Cd2 吸附影响均较大,Cl-、SO2-4对Cu2 、Pb2 、Zn2 和Cd2 的吸附影响均较小,而HCO-3;对Pb2 的影响较小,对Cu2 、Zn2 、Cd2 的吸附影响较大.     

黄河下游游荡段河床萎缩的影响因素分析

黄河下游河床萎缩典型地表现为平滩水位下河床断面面积的趋势性减小,本文根据黄河下游实测断面和水沙资料采用相关分析方法研究了游荡段河床萎缩的主要影响因素。1960~1997年游荡段河床平滩水位下断面面积经历了1960~1964年和1974~1985年的扩张时期及1965~1973年和1986~1997年的萎缩时期,这种变化是多种因素共同作用的结果。在来水来沙中,年径流量是主要因素,洪峰流量和年平均含沙量是较次要的因素;本文所讨论的其它4个因素中,花园口以上引水量影响最大,降雨量影响次之,兰州以上水库的调节作用对河床断面面积的变化也有较明显的影响;三门峡水库三种不同的使用方式对下游河床有不同的影响,采取"蓄清排浊"方式后对下游河床的影响较小。     

Variations of bank shift rates along the Yinchuan Plain reach of the Yellow River and their influencing factors

It is important to examine the lateral shift rate variation of river banks in different periods. One of the challenges in this regard is how to obtain the shift rate of river banks, as gauging stations are deficient for the study of river reaches. The present study selected the Yinchuan Plain reach of the Yellow River with a length of 196 km as a case study, and searched each point of intersection of 153 cross-sections (interval between two adjacent cross-sections was 1.3 km) and river banks in 1975, 1990, 2010 and 2011, which were plotted according to remote sensing images in those years. Then the shift rates for the points of intersection during 1975–1990, 1990–2010 and 2010–2011 were calculated, as well as the average shift rates for different sections and different periods. The results show that the left bank of the river reach shifts mostly to the right, with the average shift rates being 36.5 m/a, 27.8 m/a and 61.5 m/a in the three periods, respectively. Contemporarily, the right bank shifts mostly to the right in the first period, while it shifts to the left in the second and third periods, with the average shift rates being 31.7 m/a, 23.1 m/a and 50.8 m/a in the three periods, respectively. The average shift rates for the left and right banks during the period 1975–2011 are 22.3 m/a and 14.8 m/a, respectively. The bank shift rates for sections A, B and C are different. The shift rate ratio of the left bank in the three sections is 1:7.6:4.6 for shift to the left and 1:1.7:3.8 for shift to the right, while that of the right bank is 1:1.8:1.2 for shift to the left and 1:5.6:17.7 for shift to the right during the period 1975–2011. Obviously, the average shift rate is the least in section A, while it is maximum in section B for shift to the left and in section C for shift to the right. The temporal variation of the shift rate is influenced by human activities, while the spatial variation is controlled by the local difference in bank materials.     

黄河内蒙河段河床冲淤演变特征及原因

利用黄河内蒙段1962-2000年间4期大断面观测资料,计算了各期河床冲淤和河槽形态指标。发现从1962-2000年间前20年、中间9年及后9年,内蒙河段河槽500m²过水面积下河底高程发生了降低-升高-再升高的过程;河槽漫滩过水面积经历了升高-降低-再降低的过程,2000年只有1982年的大约一半;滩地经历了持续淤积过程,平均抬升0.25m;河槽宽深比值经历了变化不显著-增加-减小的过程。分析结果表明:气候变化、引水、水库拦沙和重点产沙支流来沙变化在河床冲淤和河床形态调整中作用较大;水库对径流的年内调节对1982年后河槽淤积贡献较大;来水来沙变化下河流多要素自动调整是造成河槽形态变化过程复杂的原因。     

黄河下游河道输沙功能的时间变化及其原因

以输出某一河道的泥沙总量与进入这一河道的泥沙量之比来定义河道输沙功能,以此为指标研究了黄河下游输沙功能的时间变化。研究表明,近50年来黄河下游河道输沙功能表现出随时间而减小的明显趋势。在总的减小趋势中,由于水库运用方式与下游水沙组合的不同,河道输沙功能指标具有明显的差异,可以划分为6个阶段。1986¹997年,由于降水偏少,且人类大量引水,黄河下游进入连续枯水的水文系列,河道萎缩,输沙功能迅速降低,此时段中输沙功能指标的时段平均值为0.62,为有水沙记录以来最低的时期。对于黄河下游输沙功能指标与流域因子和河道特性因子的时间变化系列进行了比较,以揭示输沙功能减小的原因。结果表明,黄河下游河道输沙功能指标与流域平均年降水量、兰州站和三门峡站汛期径流占年径流百分比、游荡段典型断面平滩水位下断面面积、花园口站和高村站水面比降等因子有同步减小的关系,并随流域水土保持面积、人类引水量及其占天然径流量比率的增大而增大,说明这些因子的变化导致了黄河下游输沙功能的减弱。     

Response of delta sedimentary system to variation of water and sediment in the Yellow River over past six decades

In order to find out the variation process of water-sediment and its effect on the Yellow River Delta, the water discharge and sediment load at Lijin from 1950 to 2007 and the decrease of water discharge and sediment load in the Yellow River Basin caused by human disturbances were analyzed by means of statistics. It was shown that the water discharge and sediment load into the sea were decreasing from 1950 to 2007 with serious fluctuation. The human activities were the main cause for decrease of water discharge and sediment load into the sea. From 1950 to 2005, the average annual reduction of water discharge and sediment load by means of water-soil conservation practices were 2.02×109 m3 and 3.41×108 t respectively, and the average annual volume by water abstraction for industry and agriculture were 2.52×1010 m3 and 2.42×108 t respectively. The average sediment trapped by Sanmenxia Reservoir was 1.45×108 t from 1960 to 2007, and the average sediment retention of Xiaolangdi Reservoir was 2.398×108 t from 1997 to 2007. Compared to the data records at Huanyuankou, the water discharge and sediment load into the sea decreased with siltation in the lower reaches and increased with scouring in the lower reaches. The coastline near river mouth extended and the delta area increased when the ratio of accumulative sediment load and accumulative water discharge into the sea (SSCT) is 25.4–26.0 kg/m3 in different time periods. However, the sharp decrease of water discharge and sediment load into the sea in recent years, especially the Yellow River into the sea at Qing 8, the entire Yellow River Delta has turned into erosion from siltation, and the time for a reversal of the state was about 1997.     

近60年黄河水沙变化及其对三角洲沉积的影响

In order to find out the variation process of water-sediment and its effect on the Yellow River Delta, the water discharge and sediment load at Lijin from 1950 to 2007 and the decrease of water discharge and sediment load in the Yellow River Basin caused by human disturbances were analyzed by means of statistics. It was shown that the water discharge and sediment load into the sea were decreasing from 1950 to 2007 with serious fluctuation. The human activities were the main cause for decrease of water discharge and sediment load into the sea. From 1950 to 2005, the average annual reduction of water discharge and sediment load by means of water-soil conservation practices were 2.02×109 m3 and 3.41×108 t respectively, and the average annual volume by water abstraction for industry and agriculture were 2.52×1010 m3 and 2.42×108 t respectively. The average sediment trapped by Sanmenxia Reservoir was 1.45×108 t from 1960 to 2007, and the average sediment retention of Xiaolangdi Reservoir was 2.398×108 t from 1997 to 2007. Compared to the data records at Huanyuankou, the water discharge and sediment load into the sea decreased with siltation in the lower reaches and increased with scouring in the lower reaches. The coastline near river mouth extended and the delta area increased when the ratio of accumulative sediment load and accumulative water discharge into the sea (SSCT) is 25.4–26.0 kg/m3 in different time periods. However, the sharp decrease of water discharge and sediment load into the sea in recent years, especially the Yellow River into the sea at Qing 8, the entire Yellow River Delta has turned into erosion from siltation, and the time for a reversal of the state was about 1997.     

黄河流域沙漠化空间格局与成因

黄河流域地势西高东低,自西向东有青藏高原、内蒙古高原、黄土高原和黄淮海平原4个地貌单元,总面积为79.6万km²。黄河流域是中国重要的生态屏障和重要经济带,黄河流域生态保护和高质量发展已上升为国家战略。沙漠化是中国北方干旱、半干旱以及部分半湿润地区主要的土地退化形式,沙漠化对黄河流域,尤其是流域中、上游地区的影响较大。为了全面掌握黄河流域的沙漠化土地空间分布特征,本研究以Landsat遥感影像为数据源,通过地理信息系统（GIS）技术,获得了黄河流域2010年的沙漠化土地分布数据。结果表明：黄河流域内沙漠化土地面积为128 667 km²,占流域总面积的16.2%;黄河上游的沙漠化土地面积最大,然后依次是黄河中游、黄河源区、黄河下游,沙漠化土地面积分别为89 341、21 426、17 894、7 km²,分别占全流域沙漠化土地总面积的69.4%、16.7%、13.9%、0.01%。黄河流域的沙漠化土地绝大部分分布于内蒙古,其沙漠化土地面积为91 398 km²,占全流域沙漠化土地面积的71.0%;其次是青海,沙漠化土地面积为17 432 km²,占全流域沙漠化土地面积的13.5%;陕西和宁夏的沙漠化土地面积分别占全流域沙漠化土地面积的8.3%和6.5%。黄河流域的沙漠化空间格局主要是降水量与沙源空间耦合的结果,流域92.6%（119 114 km²）的沙漠化土地分布于干旱、半干旱地区。从20世纪70年代以来,黄河流域的沙漠化总体上经历了快速发展—发展放缓—明显逆转的过程,沙漠化大幅度的变化主要受人类活动影响所致,在过去几十年间风速持续减小对沙漠化逆转的积极作用也应引起重视。     

黄河第一湾齐哈玛河段砾质网状河1990年以来的演变特征（英文）

The anastomosing river that is present within the First Great Bend of the Yellow River is different from other sand-bedded rivers of this type because it contains gravel-bedded materials. It is therefore important to determine whether, or not, the specific characteristics of this anastomosing river are similar to those seen in sand-bedded forms, including the characteristics of erosion and deposition, and the stability of channel and interchannel wetlands. Four Landsat images from 1990, 2001, 2013, and 2016 alongside two Google Earth(GE) images from 2011 and 2013 were utilized in this study in tandem with field sampling and observations to select a 12 km main channel length section of the Qihama reach anastomosing river. This section was then used to determine variations in channel planform and sedimentary characteristics over a 26 year period. The results of this study show that this gravel-bedded anastomosing river has exhibited a high degree of stability overall, and that there has been no obvious channel and wetland bank erosion and deposition. Data also show that over the 26 years of this study, anastomosing belt area increased by 2.43%, while the ratio of land to water area remained almost equal. The number of wetlands has also increased along this river section at a rate as high as 62.16% because of the fragmentation of some small interchannel examples, while the talweg has alternately migrated to either the left or right over long periods of time at a relatively stable rate. Indeed, as a result of the migration of this line, there has been significant turnover in the number of islands within the main channel while bank shift has occurred at a rate of about 5 m/yr. The numerous anastomosing channels within this river section remained very stable over the course of this study, characterized by a mean annual migration rate of just 1 m/yr, while the sediments in bank columnar sections are mainly composed of fine sands or silts with a relatively high clay content. The sediment grain-size distribution curve for this river section contains multiple peaks, distinct from the muddy sediments within bank columnar sections from sand-bedded anastomosing rivers. The dense vegetation within riparian and interchannel wetlands alongside this river reach has also protected anastomosing channels from erosion and maintainedtheir stability, a key feature of this gravel-bedded system.     

黄河宁蒙段河道粗细双组分泥沙分选沉积特征

黄河宁蒙段河道淤积严重,阐明近源粗泥沙和远源细泥沙分选沉积规律对于河道淤积治理有重要意义。本研究基于120根河道钻孔泥沙样品,通过粒径分布和元素矿物组成,分析了河道>0.05 mm、>0.08 mm和>0.1 mm粗泥沙沿河分选沉积变化特征,并定量评估了近源粗泥沙和远源细泥沙沉积对于河道泥沙淤积的贡献。结果表明：黄河宁蒙段河道淤积的主要是来源于近源沙漠及其下伏砒砂岩区>0.08 mm的粗泥沙,而来源于上游黄土区<0.05 mm的细泥沙主要沉积在河道滩地,对河道淤积的贡献小于30%。因此,风水复合侵蚀引起的沿黄沙漠和下伏砒砂岩粗泥沙入黄是黄河宁蒙沙漠河段河道淤积的根源,也是该河段“悬河”的治理重点。     

1990年以来黄河第一湾齐哈玛河段砾质网状河的演变特征

黄河第一湾的网状河型因其砾石质的河床质而与砂床质网状河明显不同,但是其具体的冲淤特性、河道与河间地的稳定性等是否与砂质网状河具有相似之处,尚待揭示。以齐哈玛乡主河道长约为12 km的砾石质网状河段为研究对象,利用1990年、2001年、2013年和2016年共4期Landsat遥感影像数据和2011年与2013年两期Google Earth高分辨率图像数据,结合野外采样观测分析其1990-2016年间的平面形态变化与沉积特征。结果表明：砾石质网状河整体具有很高的稳定性,众多分支河道与河间地无明显冲淤现象。网状带面积仅增加2.43%,陆地与水体面积比例接近1∶1;网状带部分小型河间湿地及河间岛屿呈现碎片化现象,导致河间湿地个数逐渐增加,最大增加率为62.16%。河道主流线长期左右迁移交替变化,且变化率相对稳定,受主流线迁移的影响,主河道内部河间岛屿形态变化较大,其河岸变化率为5 m/a。网状河众多支河道非常稳定,平均河宽变化率仅为1 m/a左右。河岸沉积物以细砂或粉砂为主,黏土含量较高,粒度分布曲线呈现多峰,这与砂质网状河流河岸以泥质沉积物为主略有不同,但河岸及河间湿地茂密的植被保护了众多分支河道免受侵蚀、维持了河道的稳定性,这也是砾石质网状河流体系具有高稳定性的重要原因。