长江中游荆江河段同流量-水位演化特征及驱动成因

水库运行改变了坝下游水沙输移条件,在河道冲刷的同时,引起水位过程出现适应性调整.本文以长江中游荆江河段为对象,采用多项式拟合法,对比分析1991-2016年间分级流量一水位变化特征,采用基于河流动力学原理的分离变量法,识别河道冲淤、下游控制水位及河床综合糙率等变化对分级流量-水位变化的影响程度.研究表明:1991-20...     

The relationship between water level change and river channel geometry adjustment in the downstream of the Three Gorges Dam

In this study, data measured from 1955-2016 were analysed to study the relationship between the water level and river channel geometry adjustment in the downstream of the Three Gorges Dam (TGD) after the impoundment of the dam. The results highlight the following facts: (1) for the same flow, the low water level decreased, flood water level changed little, lowest water level increased, and highest water level decreased at the hydrological stations in the downstream of the dam; (2) the distribution of erosion and deposition along the river channel changed from “erosion at channels and deposition at bankfulls” to “erosion at both channels and bankfulls;” the ratio of low-water channel erosion to bankfull channel erosion was 95.5% from October 2002 to October 2015, with variations between different impoundment stages; (3) the low water level decrease slowed down during the channel erosion in the Upper Jingjiang reach and reaches upstream but sped up in the Lower Jingjiang reach and reaches downstream; measures should be taken to prevent the decrease in the channel water level; (4) erosion was the basis for channel dimension upscaling in the middle reaches of the Yangtze River; the low water level decrease was smaller than the thalweg decline; both channel water depth and width increased under the combined effects of channel and waterway regulations; and (5) the geometry of the channels above bankfulls did not significantly change; however, the comprehensive channel resistance increased under the combined effects of riverbed coarsening, beach vegetation, and human activities; as a result, the flood water level increased markedly and moderate flood to high water level phenomena occurred, which should be considered. The Three Gorges Reservoir effectively enhances the flood defense capacity of the middle and lower reaches of the Yangtze River; however, the superposition effect of tributary floods cannot be ruled out.     

三峡大坝下游水位变化与河道形态调整关系研究

三峡水库蓄水利用已有13年,对坝下游洪、枯水位和河道形态调整的影响已初步显现,通过对1955-2016年长江中游水位、河道地形等资料的分析,结果表明：① 坝下游各水文站同流量枯水位下降、洪水位变化不大,最低水位上升,最高水位下降趋势;② 2002年10月-2015年10月枯水河槽冲刷量占平滩河槽冲刷量的95.5%,冲淤分布由蓄水前“冲槽淤滩”转为“滩槽均冲”,不同蓄水阶段存在差异;③ 河槽冲刷过程中,上荆江及以上河段枯水位下降趋势趋缓,下荆江及以下河段下降速率增加,应采取防控措施遏制河道水位下降趋势;④ 枯水河槽冲刷是长江中下游航道水深提升的基础,枯水位降幅小于深槽下切深度,在河道和航道整治工程综合作用下航道尺度提升,提前5年实现了2020年航道尺度规划目标;⑤ 平滩水位以上河槽形态调整不大,在河床粗化、岸滩植被、人类活动等综合作用下河道综合阻力增加,出现了中洪水流量—高水位现象,应引起足够重视。三峡水库汛期调蓄作用可有效提升中下游洪水防御能力,但不排除遭遇支流洪水叠加效应,中下游洪水压力仍然较大。     

Impacts of the large amount of sand mining on riverbed morphology and tidal dynamics in lower reaches and delta of the Dongjiang River

The sand dredging and its impacts on riverbed evolution and tidal dynamic change in the lower reaches and delta of the Dongjiang River are examined in this paper. The large amount of sand, totally 3.32 billion m3 from 1980 to 2002, was mined from the riverbeds of the lower reaches and delta of the Dongjiang River. Increasing of the channel capacity, lowering of the average riverbed elevation, deepening of the water depth and decreasing of the longi-tudinal riverbed gradient are the main effects on the riverbed evolution brought by the large amount of sand dredging. Under the strong sand dredging and associated significant riverbed deformation, the notable changes of the tidal dynamic in the lower reaches and delta of the Dongjiang River occurred, including: (1) in the upper reaches of the Dongjiang River delta and lower reaches of the Dongjiang River, tidal level dropped apparently, tidal range widened, flood tidal duration became longer, amplitudes for major tidal components became bigger and tidal dynamics intensified; (2) tidal wave spread faster; and (3) the limits of the tidal level, tidal current and salt water moved upstream.     

On the river–lake relationship of the middle Yangtze reaches

The geological and meteorological setting of the Jianghan–Dongting lake area leads to high precipitation and siltation, but poor water discharge, thus the area is frequently flooded. In the past the river–lake relationship of the Middle Yangtze has been variable but has deteriorated recently under increasing human influence. The Jianghan Plain of the Middle Yangtze becomes a waterlogged lowland under the constant threat of flooding from the perched Jingjiang River. Due to siltation and land reclamation the Dongting Lake has lost most of its regulatory function for the river and has become increasingly vulnerable to flood disasters. The Middle Yangtze River has been undergoing siltation, resulting from a downstream decline of sediment transport capacity, resulting in the elevation of the flood level above the lowlands. Heightening of the levees has caused further siltation of the channel.The Three Gorges Reservoir will provide a buffering period of 50–80 years, during which much of the silt will be trapped in the reservoir and scouring downstream may occur. We should utilize this period to work out an overall resolution to the problem. Construction of a water and silt diversion project in the Honghu Lake and surrounding areas may resolve this problem in the dangerous Chenglingji–Wuhan Segment of the Yangtze. Widening the canals connecting the Middle Yangtze and Han Rivers may function as a discharge-dividing channel of the Yangtze, which may prove to be beneficial.     

大量采沙对东江下游及东江三角洲河床地形和潮汐动力的影响

The sand dredging and its impacts on riverbed evolution and tidal dynamic change in the lower reaches and delta of the Dongjiang River are examined in this paper. The large amount of sand, totally 3.32 billion m^3 from 1980 to 2002, was mined from the riverbeds of the lower reaches and delta of the Dongjiang River. Increasing of the channel capacity, lowering of the average riverbed elevation, deepening of the water depth and decreasing of the longitudinal riverbed gradient are the main effects on the riverbed evolution brought by the large amount of sand dredging. Under the strong sand dredging and associated significant riverbed deformation, the notable changes of the tidal dynamic in the lower reaches and delta of the Dongjiang River occurred, including： （1）in the upper reaches of the Dongjiang River delta and lower reaches of the Dongjiang River, tidal level dropped apparently, tidal range widened, flood tidal duration became longer, amplitudes for major tidal components became bigger and tidal dynamics intensified; （2） tidal wave spread faster; and （3） the limits of the tidal level, tidal current and salt water moved upstream.     

三峡水库下游弯曲河型演变规律调整及其驱动机制

大型水库的兴建深刻改变了下游水沙输移特点,进而导致河床演变规律显著调整,水库下游弯曲河型对水沙过程改变响应敏感,是水库下游河床演变、航道整治、河势控制等方面研究的关键区域。本文基于1996-2016年的实测水文、地形资料,对长江三峡水库下游弯曲河型的演变规律及其驱动机制开展研究,结果表明：① 三峡水库蓄水前,下荆江存在“凸淤凹冲”、“凸冲凹淤”两类弯曲河型,而三峡水库蓄水后均表现为“凸冲凹淤”的一致性规律;② 在水库拦沙作用的影响下,下荆江河段平滩河槽存在累积性冲刷现象,冲刷部位集中于枯水河槽与基本河槽之间的低滩,冲淤部位调整主要由变化的流量过程所驱动,上游河势、河道边界以及支流入汇等因素均有一定驱动作用;③ 在三峡水库蓄水后缺乏大洪水的情况下,凸岸水流挟沙力随流量增加逐渐增强,水流对凸岸冲蚀力度在平滩流量级附近（20000~25000 m3/s）达到最强,平滩流量附近流量级的持续时间超过20天时,弯曲河道发生凸冲凹淤现象。而悬沙中造床粗沙的减少,增强了水流冲刷强度,加剧了凸岸的冲蚀程度。     

大量采沙对东江下游及东江三角洲河床地形和潮汐动力的影响

通过分析东江下游及东江三角洲的采沙情况、采沙对河床演变和潮汐动力的影响。近几十年来东江下游及东江三角洲采沙量巨大,1980~2002年22年间采沙总量达到了3.32亿m³。大量采沙对河床演变的主要影响是：大幅度扩大了河槽容积、河床平均高程显著降低、水深明显增加、纵比降减小。东江下游及东江三角洲潮汐动力的变化主要表现在：网河区上段及东江下游潮水位明显降低,潮差增大,涨潮历时延长,主要分潮振幅加大;潮汐传播速度加快;潮区界、潮流界、咸潮界上移;网河区上段及东江下游潮汐动力得到明显增强,潮汐动力作用范围向上延伸,导致这种变化的主要原因是大量挖沙所导致的河床剧烈变化。     

塔里木沙漠南缘安迪尔河水文特征分析

安迪尔河位于塔里木沙漠南缘,发源于昆仑山,上游河水沿河床大量入渗,中游为干河床,下游为泉水溢出补给型河流。安迪尔河缺乏水文资料,以临时水文站1998年实测水文资料为依据,对安迪尔河的水文特征进行分析,以便说明泉水型河流水文特征。分析了安迪尔河水位年内变化、冰期水位、畅流期水位、洪水期水位的变化特征;对安迪尔河水位流量关系进行了分析,建立了相应的水位流量关系方程式,并对冰期、畅流期的、洪水期逐日平均流量和流量特征进行了推求和分析,安迪尔河1998年泉水溢出量为0.5528亿m3。     

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。     

The hydrological effect between Jingjiang River and Dongting Lake during the initial period of Three Gorges Project operation

Based on the measured hydrological data from 1951 to 2008, the chain hydrological effect between Jingjiang River and Dongting Lake is analyzed by comparative method after the Three Gorges Project operation. The result indicates that 1) the scouring amount in Jingjiang River made up 78.9% of the total from Yichang to Chenglingji, and its average scouring intensity was higher than the latter; 2) the water and sand diversion rates at the three outlets of the Jingjiang River were reduced by 2.33% and 2.78% separately; 3) the proportion of multi-year average runoff and sediment through the three outlets in the total into the Dongting Lake decreased by 7.7% and 24.4% respectively; 4) in Dongting Lake, the speed of sediment accumulation was lowered by 26.7%, in flood season, the runoff amount was 20.2% less than the multi-year average value, leading to seasonal scarcity of water year by year. The former prolonged the lake life, while the latter induced droughts in summer and fall in successive years, shortage of drinking and industrial water, shipping insecurity, as well as ecological problems such as decrease of birds and quick increase of Microtus fortis; 5) The multi-year average values of sediment and flood transporting capacity at the lake outlet were respectively increased by 26.6% and 3.7%, the embankments were protected effectively. Then, to adapt to the new change of the river-lake relation, some suggestions were put forward, such as optimizing further operation program of the Three Gorges Reservoir, reexamining the idea of river and lake regulation, and maintaining connection of the river and the lake.     

The hydrological effect between Jingjiang River and Dongting Lake during the initial period of Three Gorges Project operation

Based on the measured hydrological data from 1951 to 2008, the chain hydrological effect between Jingjiang River and Dongting Lake is analyzed by comparative method after the Three Gorges Project operation. The result indicates that 1) the scouring amount in Jingjiang River made up 78.9% of the total from Yichang to Chenglingji, and its average scouring intensity was higher than the latter; 2) the water and sand diversion rates at the three outlets of the Jingjiang River were reduced by 2.33% and 2.78% separately; 3) the proportion of multi-year average runoff and sediment through the three outlets in the total into the Dongting Lake decreased by 7.7% and 24.4% respectively; 4) in Dongting Lake, the speed of sediment accumulation was lowered by 26.7%, in flood season, the runoff amount was 20.2% less than the multi-year average value, leading to seasonal scarcity of water year by year. The former prolonged the lake life, while the latter induced droughts in summer and fall in successive years, shortage of drinking and industrial water, shipping insecurity, as well as ecological problems such as decrease of birds and quick increase of Microtus fortis; 5) The multi-year average values of sediment and flood transporting capacity at the lake outlet were respectively increased by 26.6% and 3.7%, the embankments were protected effectively. Then, to adapt to the new change of the river-lake relation, some suggestions were put forward, such as optimizing further operation program of the Three Gorges Reservoir, reexamining the idea of river and lake regulation, and maintaining connection of the river and the lake.     

森林植被变化对洪水的影响分析——以长江上游典型小流域和洪水事件为例

通过长江上游地区典型小流域和重大洪水事件有关森林植被变化与洪水方面资料的分析，揭示小流域森林面积的增加，可减少洪峰流量模数，而在森林－土壤系统被前期降雨充分润湿的情况下，紧接着的暴雨可引起洪峰流量的快速增加；指出开展长江上游地区森林－土壤系统截留蓄水容量本底调查及其分类与分区，对指导当前森林植被恢复重建与保护工作的健康发展及搞好防洪工作有重要的意义。     

1961-2010年长江中下游地区农业洪涝灾害时空变化

为揭示长江中下游地区农业洪涝灾害的发生、分布及时空演变特征,基于1961-2010年研究区内426个气象站点的逐日降水数据,以湖北省单站洪涝等级标准为初始指标,对该指标临界值在-50~100 mm范围内进行同步增减,结合该区7省（市）的洪涝历史灾情记载和农业洪涝受灾面积,采用逐步剔除的方法筛选指标,构建分省农业洪涝等级指标并验证指标的合理性,分析该区近50年农业洪涝灾害的时空变化。结果表明：① 近50年长江中下游地区的农业洪涝灾害发生总体呈增加的趋势,但不同区域和不同年代际差异明显;② 20世纪60年代至80年代农业洪涝发生次数相对平稳,90年代洪涝明显增多,21世纪初洪涝又相对减少;③ 区域农业洪涝灾害明显呈现出江南多、江北少的分布特征。农业洪涝多发区主要集中在江西中北部、江汉平原、浙江沿海,以及安徽、江西和浙江三省交界地带。     

三峡水库调度运行初期荆江与洞庭湖区的水文效应(英文)

Based on the measured hydrological data from 1951 to 2008,the chain hydrological effect between Jingjiang River and Dongting Lake is analyzed by comparative method after the Three Gorges Project operation.The result indicates that 1) the scouring amount in Jingjiang River made up 78.9% of the total from Yichang to Chenglingji,and its average scouring intensity was higher than the latter;2) the water and sand diversion rates at the three outlets of the Jingjiang River were reduced by 2.33% and 2.78% separately;3) the proportion of multi-year average runoff and sediment through the three outlets in the total into the Dongting Lake decreased by 7.7% and 24.4% respectively;4) in Dongting Lake,the speed of sediment accumulation was lowered by 26.7%,in flood season,the runoff amount was 20.2% less than the multi-year average value,leading to seasonal scarcity of water year by year.The former prolonged the lake life,while the latter induced droughts in summer and fall in successive years,shortage of drinking and industrial water,shipping insecurity,as well as ecological problems such as decrease of birds and quick increase of Microtus fortis;5) The multi-year average values of sediment and flood transporting capacity at the lake outlet were respectively increased by 26.6% and 3.7%,the embankments were protected effectively.Then,to adapt to the new change of the river-lake relation,some suggestions were put forward,such as optimizing further operation program of the Three Gorges Reservoir,reexamining the idea of river and lake regulation,and maintaining connection of the river and the lake.     

Mechanisms of suspended sediment restoration and bed level compensation in downstream reaches of the Three Gorges Projects (TGP)

River basin reservoir construction affects water and sediment transport processes in downstream reaches. The downstream impact of the Three Gorges Projects (TGP) has started to become apparent: (1) reduction in flood duration and discharge, and significant reduction in sediment load. Although there was some restoration in downstream sediment load, the total amount did not exceed the pre-impoundment annual average; (2) in 2003–2014, the d > 0.125 mm (coarse sand) load was restored to some degree, and to a maximum at Jianli Station, which was mainly at the pre-impoundment average. After restoration, erosion and deposition characteristics of the sediment was identical to that before impoundment. The degree of restoration during 2008–2014 was less than during 2003–2007; (3) after TGP impoundment, there was some restoration in d < 0.125 mm (fine sand) sediment load, however, it was lower than the pre-impoundment average; (4) due to riverbed compensation, the d > 0.125 mm sediment load recovered to a certain degree after impoundment, however, the total did not exceed 4400×10⁴ t/y. This was mainly limited by flood duration and the average flow rate, and was less affected by upstream main stream, tributaries, or lakes. Restoration of d < 0.125 mm suspended sediment was largely controlled by upstream main stream, tributaries, and lakes, as well as by riverbed compensation. Due to bed armoring, riverbed fine suspended sediment compensation capability was weakened; (5) during 2003–2007 and 2008–2014, Yichang to Zhicheng and upper Jingjiang experienced coarse and fine erosion, lower Jingjiang experienced coarse deposition and fine erosion, Hankou to Datong had coarse deposition and fine erosion, and Chenglingji and Hankou was characterized by coarse deposition and fine sand erosion in 2003–2007, and coarse and fine erosion in 2008–2014. This difference was controlled by flood duration and number at Luoshan Station.     

黄河上游沙漠宽谷河段水沙阈值与输沙特征

围绕黄河上游沙漠宽谷河段“多大流量能冲动多大含沙量的泥沙”、“不同流量能冲走多少泥沙”两个关键问题,对沙漠宽谷河段的水沙阈值展开深入研究。通过分析各断面历年水量、沙量变化过程,揭示了沙漠宽谷河段各区间河段的冲淤规律,得到不同区间河段、不同含沙量情况下的水沙阈值系列。基于水量平衡原理与输沙量平衡原理,分析各断面冲沙输沙流量、含沙量与输沙量之间的关系,建立场次洪水的河道输沙量计算模型,量化水量与沙量的转化效果。通过实例计算,不考虑沙漠宽谷河段水沙调控时,头道拐站的输沙量为0.124×10⁸ t,沙漠宽谷河段的冲刷量为0.0527×10⁸ t,考虑水沙调控时,输沙量增加近4倍。水沙调控显著改善了沙漠宽谷河道的水沙关系,冲刷了河槽,验证了水沙阈值及输沙量计算的准确性和可靠性。     

长江中游田家镇深槽的特征及其泄洪影响

长江中游田家镇附近江面最狭处仅650 m, 江底最深处低于黄海基准面以下-90 m, 是长江干流河床突出的最低所在, 距离长江口900 km。通过实地地质地貌调查揭示田家镇深槽形成及其对洪水的渲泄有何影响。 根据地质、水文、地形和直接考察资料, 卡口深槽段长8 km, 系长江自NW-SE斜切过一排强烈褶曲的三叠系厚层石灰岩山地而成, 3个临江石灰岩小山所成矶头导致江流方向变化与流速加速, 以至形成多处涡流, 向江底侵蚀, 而褶皱的石灰岩抗拒侵蚀、溶蚀能力很低, 因而导致远低于海平面深槽的形成, 估计卡口深槽是从中更新世红色风化壳发育的和缓起伏的地面上叠置下来, 已有以10万年年计的长远历史。近数十年多次实测资料比较, 侵蚀淤积有小量变化, 但河床基本稳定。对正常的中、枯水位江流运行没有影响, 但对超过50 000~60 000 m³/s洪水的排泄则有明显的壅阻作用。     

特枯2006年长江中下游径流特征及江湖库径流调节过程

利用1978特枯年、2000~2006年长江中下游宜昌、汉口、大通、城陵矶及湖口等水文实测资料,对2006年长江中下游出现特大枯水水情条件下的径流变化和江、湖与水库的调节过程进行分析。结果表明:长江中下游径流变化出现洪季不洪、枯季不枯特征,洪季来水量不到平常年的60%~70%,枯季基本维持平常年的来水量;其中长江上游来水量急剧减少是造成长江中下游洪季不洪的主要因素,三峡在枯水期间的调蓄对维持长江中下游干流的水量有一定的贡献,洞庭湖与鄱阳湖两大湖泊在枯季因干流水位显著降低形成的胁迫效应是长江中下游枯季不枯的重要因素。     

无定河下游全新世古洪水研究

对无定河流域野外考察,在其下游苏家圪坨（SJGT）地点发现夹有古洪水滞流沉积物（SWD）的全新世剖面。古洪水SWD厚度30 cm,具有平行微薄层理特征,且直接覆盖在东汉文化层之上。室内分析结果表明古洪水SWD有着与2012年洪水SWD相似的沉积学特征,以粗粉沙为主,分选良好,磁化率和烧失量较小,说明它记录了一次无定河下游的大洪水事件。文化层光释光（OSL）测年结果显示该次古洪水事件发生在1 900~1 700 a BP。古洪水洪峰水位和洪峰流量分别为765.9 m和10 530 m³·s^-1。同时利用2012年洪水洪痕水位验证,在同一断面用相同参数恢复洪峰流量为1 030 m³·s^-1,实测洪峰流量为1 000 m³·s^-1,误差为3.09%,说明古洪水洪峰流量恢复结果合理可靠。研究结果延长了无定河下游洪水数据序列,对水资源、水能源的开发利用提供了科学依据。