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1.
CHAI Yuanfang YANG Yunping DENG Jinyun SUN Zhaohua LI Yitian ZHU Lingling 《地理学报(英文版)》2020,30(10):1633-1648
The operation of large-scale reservoirs have modified water and sediment transport processes, resulting in adjustments to the river topography and water levels. The polynomial fitting method was applied to analyze the variation characteristics of water levels under different water discharge values in the Jingjiang reach of the Yangtze River from 1991–2016. The segregation variable method was used to estimate the contributions of the varied riverbed evaluation, the downstream-controlled water level, and the comprehensive roughness on the altered water level at an identical flow. We find that low water levels in the Jingjiang reach of the Yangtze River from 1991–2016 are characterized by a significant downward trend, which has intensified since 2009. Riverbed scouring has been the dominate factor causing the reduced low water level while increased roughness alleviated this reduction. From 1991–2016, there was first a decrease followed by an increase in the high water level. The variation characteristic in terms of the "high flood discharge at a high water level" before 2003 transformed into a "middle flood discharge at a high water level" since 2009. The increased comprehensive roughness was the main reason for the increased high water level, where river scouring alleviated this rise. For navigation conditions and flood control, intensified riverbed scouring of the sandy reaches downstream from dams enhanced the effects that the downstream water level has on the upstream water level. This has led to an insufficient water depth in the reaches below the dams, which should receive immediate attention. The alteredvariation characteristics of the high water level have also increased the flood pressure in the middle reaches of the Yangtze River. 相似文献
2.
Integrating remote sensing, geographic information system (GIS) and fractal theory, change characteristics of tidal flats and tidal creeks in the Huanghe (Yellow) River Delta over the period of 1986-2001 were discussed. The results show that evolutions of tidal fiats throughout the Huanghe River Delta are influenced by various factors, and that progressive succession and regression of tidal flats concur in different coastal segments of the delta. Human activities have played an increasingly important role in the succession process of tidal flats. Due to land reclamation in coastal zones of the delta in the last 15 years, lots of tidal flats were occupied, the artificial coastline migrated seaward (the maximum change rate was 0.8 kmyr^-1) and tidal creeks became sparser (the highest decreasing rate of length of tidal creeks was 14.9 kmyr^-1). Except for two coastal segments from the Tiaohe Estuary to the 106 Station and from the south of the Huanghe River mouth to the north of the Xiaodao River Estuary,fractal dimension values of tidal creeks in the remaining coastal segments of the delta decreased. In addition, the time dimension, sediment fluxes into the sea, waves and tidal-currents have profound influences on the evolution process of tidal flats. Four types of tidal flats-river-dominated tidal flats,tide-dominated tidal flats, wave-dominated tidal flats and man-dominated tidal flats can be identified.Owing to the intensification of human activities in coastal zones of the delta, man-dominated tidal flats have become the main kind of tidal flats. 相似文献
3.
Based on the comprehensive analyses of 18 core profiles’sedimentary sequences and lithological characteristics in Jianghan-Dongting Basin of the middle reaches of the Yangtze River and the spatial-temporal distribution of archeological sites in this area,we reconstructed the Holocene hydro-environmental evolution,and its relationship with human occupation.The comparison reveals:11.5–5.5 ka BP,the water level of rivers and lakes in the middle Yangtze River appeared a rising trend,concurrently,under the development of Neolithic culture and rice agricultural activities,human occupation extended from piedmont plain to inner basin plain in the study area.The water level fell in 5.5–4.0 ka BP,meanwhile,the number of human settlements of Qujialing-Shijiahe culture rapidly increased,especially in the inner basin plain.The water level rose again around 4.0 ka BP,floods spread massively in this period,which led to the decline of Shijiahe culture.The main causes for hydro-environmental evolution in the study area are the fluctuation of sea level and the aggradation of fluvio-lacustrine sediments. 相似文献
4.
Tidal creeks are the main channels of land-sea ecosystem interactions, and their high dynamics are an important factor affecting the hydrological connectivity of tidal flats.Taking the Yellow River Delta as the research area, we selected remote sensing images obtained during five periods from 1998 to 2018 as the data sources. Based on the spatial analysis function in GIS, the typical morphological characteristics of tidal creeks, such as the level,length, density, curvature, bifurcation ratio, and overmarsh path length(OPL), were extracted to characterize the degree of development of the tidal creeks in the Yellow River Delta wetlands. The spatio-temporal evolution of the tidal creeks was studied, and the development process and the characteristics of the tidal creeks during the different stages of development were investigated. The results revealed that(1) The number, density, and bifurcation ratio of tidal creeks exhibit an increasing trend, but the growth of the trend is slowing. The number of tidal creeks increased by 44.9% from the initial stage of the Yellow River diversion to the late stage of the wetland restoration, but it only increased by 26.2% from the late stage of the wetland restoration to the slow expansion of the Spartina alterniflora.(2) The curvature of the tidal creeks on the landward side is greater than that on the seaward side.(3) The development degree of tidal creek has spatial heterogenetiy, which is Area Ⅲ Area Ⅱ Area Ⅰ.(4)The drainage efficiency is significantly correlated with the tidal creak density and bifurcation ratio. Based on the analysis of the various morphological parameters and the drainage efficiency, it was found that after the rapid change in the tidal creek system in the early stage, the tidal creeks entered a state of slow change, and the development state of the tidal creeks tends to be in dynamic balance. The results of this study are expected to provide scientific support for the sustainable development and utilization of coastal tidal flats. 相似文献
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YunFeng Ruan LiangJu Zhao HongLang Xiao GuoDong Cheng MaoXian Zhou Fang Wang 《寒旱区科学》2014,6(3):0226-0235
Stable oxygen and hydrogen isotopic compositions (δ18O and δD) of soil water and shallow groundwater of a riparian forest, an artificial shrub forest, and Gobi of the lower reaches of the Heihe River Basin are used to study the recharge water sources of those ecosystems. IsoSource software is used to determine the δ180 values for root water of Populous euphratica and Tamarix ramosissima in the riparian forest ecosystem, Haloxylon ammodendron in the artificial shrub forest, and Reaumuria soongorica in the Gobi, as well as for local soil water and groundwater, and precipitation in the upper reaches of the Heihe River Basin. Our results showed that soil water and shallow groundwater of the riparian forest and the artificial shrub forest were recharged by river water which originated from precipitation in the upper reaches, and strong evaporation occurred in the artificial shrub forest. Soil water of the Gobi was not affected by Heihe River water due to this area being far away from the river channel. The main water sources of Populous euphratica were from 40-60-cm soil water and groundwater, and of Tamarix ramosissima were from 40-80-cm soil water in the riparian forest ecosystem. In the artificial forest, Haloxylon ammodendron used 200-cm saturated-layer soil water and shallow groundwater. The Reaumuria soongorica mainly used soil water from the 175-200-cm depth in the Gobi. Therefore, soil water and groundwater are the main water sources which maintain survival and growth of the plants in the extremely arid regions of the lower reaches of the Heihe River Basin. 相似文献
6.
地下水位变化对干旱区植被盖度的影响及其空间变异特征 总被引:5,自引:0,他引:5
Sampling and testing are conducted on groundwater depth and vegetation coverage in the 670 km^2 of the Sangong River Basin and semi-variance function analysis is made afterwards on the data obtained by the application of geo-statistics. Results showed that the variance curve of the groundwater depth and vegetation coverage displays an exponential model. Analysis of sampling data in 2003 indicates that the groundwater depth and vegetation coverage change similarly in space in this area. The Sangong River Basin is composed of upper oasis, middle ecotone and lower sand dune. In oasis and ecotone, influenced by irrigation of the adjoining oasis, groundwater level has been raised and soil water content also increased compared with sand dune nearby, vegetation developed well. But in the lower reaches of the Sangong River Basin, because of descending of groundwater level, soil water content decreased and vegetation degenerated. From oasis to abandoned land and desert grassland, vegetation coverage and groundwater level changed greatly with significant difference respectively in spatial variation. Distinct but similar spatial variability exists among the groundwater depth and vegetation coverage in the study area, namely, the vegetation coverage decreasing (increasing) as the groundwater depth increases (decreases). This illustrates the great dependence of vegetation coverage on groundwater depth in arid regions and further implies that among the great number of factors affecting vegetation coverage in arid regions, groundwater depth turns out to be the most determinant one. 相似文献
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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. 相似文献
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塔里木河下游植被生态需水量(英文) 总被引:4,自引:0,他引:4
We have appraised the relationships between soil moisture,groundwater depth, and plant species diversity in the lower reaches of the Tarim River in western China,by analyzing field data from 25 monitoring wells across eight study sites and 25 permanent vegetation survey plots.It is noted that groundwater depth,soil moisture and plant species diversity are closely related.It has been proven that the critical phreatic water depth is five meters in the lower reaches of the Tarim River.We acquired the mean phreatic evaporation of different groundwater levels every month by averaging the two results of phreatic evaporation using the Qunk and Averyanov formulas.Based on different vegetation types and acreage with different groundwater depth,the total ecological water demand(EWD)of natural vegetation in 2005 was 2.4×108m 3in the lower reaches of the Tarim River.Analyzing the monthly EWD,we found that the EWD in the growth season(from April to September)is 81%of the year's total EWD.The EWD in May,June and July was 47%of the year's total EWD,which indicates the best time for dispensing artificial water.This research aims at realizing the sustainable development of water resources and provides a scientific basis for water resource management and sound collocation of the Tarim River Basin. 相似文献
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Waterfront resources are important and special kind of natural resources in the marginal area between land and water.The Yangtze River,the longest river in China,is not only rich in waterfront resources,but also has favorable development conditions with great potentiality.Aided by large-scale underwater topographic map,the major factors of the waterfront resources in the middle and lower reaches of the Yangtze River,such as the stability,the water depth and the natural conditions for port construction,are assessed in this paper rspectively on the basis of the overall investigations.The results show that:(1)the waterfront resources are abundant in the middle and lower reaches of the Yangtze River,but lack of perfectly combined high grade waterfront;(2)there exists and obvious regional difference in the natural quality of the waterfront along the Yangtze;(3)the fore-bank water depth and waterfront stability are the main natural factors related to the waterfront auality in the middle and lower reaches of the Yangtze River;(4)the waterfronts along the Yangtze are mainly used for port,warehouse and industrial pruposes; and (5)the waterfronts near important cities are highly used,especially the high-quality waterfronts.In addition,some suggestions for the development and utilization of the waterfront resources are presented in this paper. 相似文献
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Based on monitored data from 840 samples, we assessed the spatial and temporal variability of groundwater salinization in the Tarim River lower reaches combining classical statistics and geostatistics. Results show that total dissolved solids (TDS) is significantly correlated with other related ions, such as Na+, Mg2+, Ca2-, C1- and K+. TDS and underground water level have characteristics of spatial autocorrelation, both of which present the isotropic characteristic and con- form to the spherical model in each year from 2001-2009. TDS is basically greater than 1 g/L but less than 2 g/L in the Tarim River lower reaches, which indicates that salt stagnation pollution is more serious. The most serious salinization (3 g/L 〈 TDS _〈 35 g/L) contaminated area is mainly in the middle and lower part of the study area. 相似文献
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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. 相似文献
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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 总被引:10,自引:0,他引:10
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。 相似文献
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基于实测地形和水文资料,探讨人类活动对近期磨刀门水道河床地形和枯季潮汐动力变化的影响。研究结果表明:(1) 磨刀门上游河段大规模河床挖沙引起河床高程显著降低,水深增大,河槽容积增加,底坡降减小;口门围垦整治导致磨刀门口门区水域面积变小,入海口门向海延伸,入海水道增深。(2) 磨刀门水道河床地形变化引起枯季潮汐动力发生变化:上游河段低潮位降低,潮差增大,进潮量增加,潮汐动力明显增强;口门区潮差减小,横洲水道潮能汇聚,水位壅高;水面坡降减小,潮波传播速度增加,咸水界上移。 相似文献
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塔克拉玛干沙漠克里雅河下游地区风沙地貌的形成发育与环境变化趋势的初步研究 总被引:5,自引:3,他引:2
克里推河是塔里木盆地中深入到塔克拉玛干沙漠内部的主要河流之一。克里稚河出山口后形成的冲积扇, 上部为砾石平原, 中部为亚沙土, 沙壤土的细土平原, 当前农业绿洲所在, 下部为盐土平原, 在野营以下, 河流又分成东西两支, 各形成东西两个干三角洲。在东部干三角洲上, 水系扇状扩散, 沿河两岸呈现胡杨、红柳灌丛的天然绿色植被带, 复合型沙丘链被流水切割, 形成孤立复合型沙丘散布面积约210Km2, 居民点零散分布其间。在西部干三角洲上, 扇状水系的干河床断续分布。河床内为密集新月形沙丘和沙丘链, 两侧为吹扬的灌丛沙堆和有枯死的胡杨林地。并有历史上城镇废墟分布, 反映着历史时期曾有过人类活动。克里雅河下游上段(大河沿——于田地段)河漫滩部分受间歇洪水影响, 芦苇丛生, 尚未有沙丘发育。高出河床1.5-3m第一阶地为红柳灌丛和胡杨分布地区, 疏林地段有新月形沙丘、沙丘链和灌丛沙堆。高出河床8-10m第二阶地主要为红柳灌丛分布地区。并受外围流沙入侵影响和固定沙丘"活比"形成新月形沙丘、沙丘链与吹扬灌丛沙堆相间的景观。第三阶地已全为裸露新月形沙丘及沙丘链覆盖。再往外则系高大的复合型沙丘。下游中段(大河沿以北)为克里雅河下游扇状平原干三角洲, 水分条件较好, 成为沙漠中一片绿洲。只有被淤高干河床地段就地起沙已发育有新月形沙丘及初期诸形态。发育时间短(约在1960年以后形成), 并且是演变再活跃的场所。下游下段(三角洲尾端以北)已全为流沙覆盖。仅从枯死胡抚和红柳稚丛分布反映过去柯床痕迹, 最远一支可延伸至古老的塔里木河。克里雅河下游现代沙漠化过程加剧的主要因素是中游人为活动。增大用水量。下游水量减少, 环境恶化, 而不是大沙漠前移所造成的。听以, 改善下游天蛛绿洲生态环境时, 中游应分配合理水量给下游, 以保持下游干三角洲中天然绿洲生态平衡。下游保存完整的天然绿洲建议作为国家级自然保护区。 相似文献
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基于1960-2016年东平水道三水、紫洞、澜石、浮标厂月均潮差、余水位数据及三水、马口站月均流量数据,以1993年三水-马口分流比突变为切入口,探讨余水位坡度及潮波衰减率等径-潮动力改变下,东平水道水面线与余水位曲率的时空演变特征及其影响因素。结果表明:东平水道在1993年三水分流比剧增之后,1)余水位坡度或潮波衰减率与流量的双累积曲线斜率下降,即余水位坡度或潮波衰减率对流量的依赖性减弱;2)东平水道水面坡度整体下降且上游(紫洞-三水河段)降幅最大,不同季节坡度的变化率介于-67%~-4%,水面线由下凹转为上凸,即曲率由正转负。同时,曲率波动幅度明显减弱,1993年前曲率波动介于2×10-10~5.48×10-10,而1993年后波动介于-0.9×10-10~-0.07×10-10。上述曲率变化在冬季较夏季显著;3)上述水面线异变的主要原因为,东平水道中上游河道挖沙导致河床地形大幅下切、水位下降、来水量增大,且同时期的航道疏浚加剧这一变化;下游主要受滩涂围垦影响,河道淤浅。以上地形变化导致河道中游径、潮流量增大,径-潮双向顶托使水面线转变为上凸型。受北江上游飞来峡水库调蓄影响以及过水断面宽深比、海平面变化等季节性调节作用,东平水道冬季水面线及曲率变化较夏季显著。 相似文献
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黄河中游土壤侵蚀与下游古河道三角洲演化的过程响应 总被引:10,自引:7,他引:10
根据黄土高原土壤侵蚀的周期特点,结合华北平原古河道,古三角洲的演化过程,应用泥沙输移的过程响应,分析了晚更新世以来黄河中游黄土高原土壤侵蚀与下游古河道,三角洲演化的关系,在人类历史之前,黄土高原土壤侵蚀基本上遵循自在生态环境演化规律,强裂侵蚀期发生在干冷向湿湿气候转化的过渡期,在强裂侵蚀的初期是古道形成期,强烈侵蚀期发生在干冷向温湿气候转化的过渡期,在强裂侵蚀的期是古河道形成期,强烈侵蚀的外营力迭加了人为作用,黄河下游河游泳以改道,三角洲横向扩展发生在强烈侵蚀的衰退期,人类历史时期,土壤侵蚀的外营力迭加了人为作用,破坏了地质历史时期的规律性,土壤侵蚀强度越来越强,基本上按照旱涝变化频率而演化,干冷期降雨不均匀系数增加,土训侵蚀加重,径流量较少,河床以淤积为主,是古河道形成期,正常年黄河泥少输移比接近于一,是三角洲进积期,温湿期降雨量增加,径流量加大,下游河流改道,三角洲横向发展。 相似文献
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人类活动干预后的塔里木河水资源持续利用问题* 总被引:35,自引:2,他引:33
人类活动的加剧,使干旱区河流原有的水文状态发生了很大变化.而如何持续利用变化后的地表水资源,是保证干旱区持续发展的前提之一.该文分析了人类活动对新疆塔里木河流域水文干预的后果,认为人类活动使河流下游径流量减少,水量的时空分布改变,径流规律趋于复杂化.指出,维持一定的河流水量,整治河道和改变用水模式是持续利用塔里木河水资源的保证. 相似文献
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珠江河口“门”的地貌动力学初探 总被引:11,自引:0,他引:11
珠江河口由河网区与河口湾区构成,连接两部分的是珠江口独特的地貌单元“门”。末次海进盛期古珠江海湾可分为内海湾和外海湾,现代三角洲平原与河网均发育在古内海湾。内、外古海湾通过峡口相连,这些峡口演变为现代的“门”。本文根据实测水文资料、地形图、钻孔资料,应用PRD-LTMM长周期动力-沉积-形态模型对珠江河口的“门”6000年来地貌动力学进行探讨:(1) 现代“门”双向射流动力系统,(2) “门”的演进阶段,(3)“门”对古潮汐能量的集聚作用,(4) 珠江河口各“门”与相应的三角洲平原的同步耦合演进, (5)“门”对珠江河网形成的作用。 相似文献