Effects of Tidal Channels and Roads on Landscape Dynamic Distribution in the Yellow River Delta, China

Landscape characters in estuarine regions generally controlled by tidal regimes and human activities like road construction.In this work,tidal channels and road construction in the Yellow River Delta(YRD)were extracted by visual interpretation methods so as to decipher impacts of tidal channel development and road construction on landscape patch change during 1989–2016.Spatial distribution history of three wetlands,which covered by Phragmites australis(freshwater marsh,FM),Suaeda salsa(salt marsh,SM),and mudflats(MD)were also established.Results indicated that tidal channel,number,frequency,and fractal dimension were all the maximum in 2003,and the minimum in 1998,respectively.Road length,number,and density showed increasing trend during 1989–2016.MD were the predominant landscape type,followed by FM and SM during 1989-2016.Principal component analysis implied two extracted factors,F1 and F2,which could represent 91.93% of the total variations.F1 mainly proxied tidal channel development,while F2 represented road construction.A multiple linear regression analysis showed positive effects of both F1 and F2 on FM patch numbers and negative impacts on SM patch areaes with R^2 values of 0.416 and 0.599,respectively.Tidal channels were negatively related to MD patch numbers,while roads were positively related to that.In any case,road construction showed larger impacts on landscape type shifting than that of tidal channel development in the YRD.

TYPES AND DISTRIBUTION PATTERNS OF MODERN TIDAL CHANNELS ALONG THE HUANGHE RIVER DELTA COAST

There are three major types of tidal channels along the coast of the Huanghe (Yellow) River Delta: tidal inlets, tidal creeks, and tidal channels developed from abandoned river channels. The tidal inlets develop mainly in two areas with weak erosion and barrier islands. The tidal channels formed from abandoned river channels mainly developed in the area of the new delta lobes formed since 1934. Tidal creeks developed in the intertidal zone and distributed along almost all parts of the Huanghe River Delta coast, but their scales and features are different.

Prediction of Siltation in the Downstream Approach Channel of Tidal Locks

Silt deposition occurs in the downstream approach channel of the tidal lock as in a closed channel or excavated dock basin. It is often difficult to calculate or predict siltation because of complex flow and sediment conditions and many other affecting factors. In this paper, the characteristics of flow movement in the approach channel (including its mouth) of the tidal lock are analyzed, the basic laws of sediment movement and siltation mechanism are investigated, the conditions for three types of siltation (circumfluence siltation, density flow siltation and slow flow siltation) are discussed, and corresponding calculating formulas are proposed. A practical example shows that the difference between measured and calculated results is small, indicating that the present calculating methods could be used in design and management of practical engineering projects.

鄂尔多斯盆地本溪组碎屑障壁海岸砂体微相南北变化

在延长探区近1500口钻井资料的基础上,进行大量岩心和薄片观察以及砂厚和砂地比统计,探究鄂尔多斯盆地本溪组的砂体微相类型、平面形态和分布的沿岸变化及其控制因素。结果表明,延长气田本溪组总体均为中小潮差环境下的陆源碎屑障壁海岸沉积,但南部的甘泉—富县地区波浪作用较弱,形成了典型的障壁砂坝和障壁后沉积。北部延安—靖边南地区波浪作用较强,形成了改造障壁、浅滩和下切谷充填潮道3种主要微相砂体。障壁砂体呈平行岸线的带状或串珠状排列,近源和近岸分布;浅滩砂体呈多个分散的卵圆形远源远岸分布;潮道带砂体充填则受控于古地貌凹槽。该研究结果对延长气田和类似环境的储层识别和评价具有重要的指导意义。

Processes,feedbacks,and morphodynamic evolution of tidal flat-marsh systems:Progress and challenges

Tidal flats and saltmarshes have been a long-standing research focus because of their high socio-economic and ecological values.The evolution of tidal flat-marsh systems is highly complex due to the intertwined processes operating over a variety of spatial and temporal scales.As a traditional research highlight,the role of regular hydrodynamic processes such as tides,waves,and river flows have been explored comprehensively with fruitful outcomes.Over past decades,the changing environment(e.g.,sea level rise,increasing anthropogenic activities,and extreme weather conditions)has attracted more attention with many reported insightful results.More recent advances indicate that biological activities play a critical role in tidal flat-marsh morphodynamics but are still poorly understood.The field of research that connects the bio-logical and physical processes is commonly described as"biogeomorphology"and requires the joint efforts by scientists from multiple dis-ciplines ranging from hydraulics,ecology,and geography to sociology.This review aims to provide a synthesis of the current research status of tidal flat-marsh morphodynamics,with a particular emphasis on the understanding of various processes and feedbacks underlying the devel-opment of morphodynamic models.Some future research needs and challenges are identified to facilitate a more sustainable management strategy for tidal flats and saltmarshes under climate change.

现行黄河口分汊河道的分流特征及其影响机制

自2013年黄河尾闾河道出汊形成双槽入海的河口汊道,控制了河口流量的分配,但其分流特征及其影响机制尚不清楚。本文基于Delft3D构建了黄河口汊道的水动力三维数值模型,模拟了不同工况下河口汊道的分流特征,揭示了其影响机制。结果表明:河口汊道的分流不对称性随流量的增加而减小,流量增加加大了东汊与北汊河道的水位梯度差,使得从东汊河道的流量增量较北汊河道大,河流流量的分配更加均匀。潮汐作用增强了河口汊道的流量不对称性,而随着径流量的增加,潮汐的增强作用逐渐减弱。这主要由于在半日潮的作用下,东汊和北汊河道水位梯度的差异,形成河口潮汐的“东阻北促”效应,增强了河口汊道的分流不对称性。

码头建设对感潮河段水生态影响研究

评价建设项目对生态环境的影响非常重要,本文依据《环境影响评价技术导则生态影响》(HJ 19—2022),以感潮河段珠江三角洲东海水道的码头建设项目为例,阐述了项目建设期和运营期对水生生态环境产生的影响,提出相应的环保管理措施。结果表明,项目位于感潮河段,研究水域没有集中的产卵场,受潮汐影响较小,大部分的水生生物物种为淡水生物;码头项目施工期对水生态系统的影响主要是底栖生物损失和鱼卵仔稚鱼损失;项目建成后运营期产生的污水均得到有效处理,不会对研究水域水生生态环境带来显著影响。

Variations of temperature, salinity and current in the southern tidal passage of the Hangzhou Bay, China

Field surveys covering a spring-neap tidal period were conducted to investigate the characteristics of tidal dynamics within a curved channel in the southern Hangzhou Bay, China. The channel has a maximum depth of more than 100 m with an average tidal range of 2.5 m, serving as the main tidal passage in the southern part of the Hangzhou Bay. Water salinity, temperature and velocity data were collected from the ship-based transects and mooring measurements. During flood tide, the tidal current intrudes into the Hangzhou Bay through the northern side of the channel with a maximum velocity of about 2 m/s, while retreats through the southern side during ebb tide with a maximum velocity of 1.8 m/s. Due to the pressure, density gradients, the Coriolis force and centrifugal effect, a lateral exchange flow is generated as the tidal current relaxes from flood to ebb. Salinity and temperature data show that the water in the channel is weakly stratified during both spring and neap tides in summer time.However, mixing in the middle region will be enhanced by the lateral circulation. Mooring data indicate that the temperature and salinity are varying at a frequency similar to tidal current but higher than sea level oscillation.Our results support the hypothesis that the high frequency salinity and temperature variations could be generated by combination of the tidal current and the lateral exchanging flow.

超薄砂岩储层预测方法研究与应用——以厄瓜多尔安第斯14和17区块为例

目前在油气勘探开发领域,针对中等埋深(2500~3500 m)砂岩储层预测的极限厚度一般可以达到5~10 m,而小于5 m的超薄储层准确预测仍为工业界难题。基于厄瓜多尔安第斯14和17区块不同时期采集和处理的多工区叠后地震数据,采用构造趋势面驱动叠后连片一致性处理,压制了多工区相位、能量、频率及闭合差等因素对薄层反射的干扰,降低了储层预测的多解性。基于时-频衰减高精度合成记录标定方法,消除由于地层吸收产生的时间累积误差,精确标定和解剖薄层反射特征,确定了超薄储层分辨的最低主频。基于无井驱动的“稳态变时频子波”叠后宽频有效信号高分辨率处理技术,有效恢复了薄层弱反射系数。基于宽频地震波形约束,优化了相控非线性反演的算法与工作流程。通过上述研究,形成了一套有效的超薄砂岩储层综合预测方法和技术体系,成功地实现了埋深3000 m、厚度2~5 m潮汐水道砂体的精准预测,新钻滚动评价井和开发井验证其预测准确率达到90%以上。

Silting in the Lower Courses of Tidal Sluices in China

Serious sediment deposition often occurs after the construction of tidal sluices in small or medium-sized tidal muddy estuaries, so desilting or dredging is needed to meet the demands of flood discharge, saltwater retaining, and navigation in those areas. In this paper, the problem of sediment deposition induced by construction of tidal sluices is analyzed. Different problems of silting near tidal sluices for different types of estuaries are summed up, at the same time, corresponding methods are given to solve these problems, and a few successful examples are also given. The idea of comprehensive regulation and utilization of estuaries is put forward, and some proposals for solution of sediment deposition in this kind of estuaries are made.

海南玉带滩障壁型海岸现代沉积特征及沉积演化

海南玉带滩是我国南海沿岸典型的障壁型海岸现代沉积场所之一。根据野外考察和室内分析,从沉积物的成分、结构、沉积构造等方面揭示了玉带滩障壁型海岸现代沉积特征。结果表明:玉带滩东侧为障壁岛海滩,沉积层序总体上表现为粒度向上变粗;中部为障壁岛沙丘,以中、粗粒石英砂为主,具平行层理、斜层理;西侧为障壁坪,以中、细砂沉积为主,夹杂一些贝壳碎片,层理构造比较明显。玉带滩西侧水体为河流作用明显强于潮汐作用的潟湖;河口沙坝发育或河流岩岛阻挡产生河汊是形成潟湖中冲积岛分布的主要原因;仅在潮汐通道外侧出现拦口沙坝堆积。现代沉积特征结合Google Earth卫星图像分析认为,该障壁型海岸沉积演化大致包括3个阶段:第一阶段,河流携带泥沙入海,在河口湾地区形成多级近新月型河口沙坝。第二阶段,由于后期水道延伸方向、水动力的不断变化,西侧河口沙坝出现合并并向冲积岛转化;在海岸拐弯处,以原有河口沙坝为主体,形成初期障壁沙坝,障壁沙坝西侧水体演变成潟湖。第三阶段,障壁岛西侧受河流冲刷作用影响,河口沙坝坝头几乎完全消失;障壁沙坝形成后,潟湖水面加宽,流速减小,河口沙坝增生合并,最终形成了三大冲积岛(沙坡岛、东屿岛、鸳鸯岛)。该障壁型海岸现代沉积发育冲积岛的障壁岛-潟湖沉积体系,而不同于传统的碎屑海岸障壁岛-潟湖沉积体系,研究其沉积特征和沉积演化为进一步认识和预测特殊类型的古代碎屑海岸障壁岛-潟湖沉积体系油气储层提供了具有参考价值的沉积演化模式。

渗流对潮沟沟壁崩塌影响的三维物理模型试验研究

潮沟在海岸动力作用下因沟壁崩塌而频繁地迁移摆动,显著影响潮滩-潮沟系统的稳定性。现有研究多关注涨潮时期潮沟内部的水流冲刷,落潮期间的渗流侵蚀过程却少有涉及,亟需研究渗流对潮沟沟壁稳定性的影响机制。本研究通过物理模型试验探究渗流对潮沟沟壁崩塌的影响,从沟壁崩塌类型、沟壁线变化过程和沟壁后退速率3个方面开展分析。研究结果表明:沟壁破坏类型与渗流水头相关,渗流水头的增加导致破坏类型由悬臂破坏转变为张拉破坏;沟壁后退速率与渗流水头之间存在正相关关系。本研究揭示了渗流作用下潮沟沟壁崩塌的力学机理,阐明了落潮不同阶段沟壁的崩塌过程,对研究潮沟演变有重要意义。

潮沟疏通对滩涂水动力的影响分析

为分析潮沟疏通对滩涂水动力的影响,基于非结构数值模型开展了滩涂区域水动力及水质点输移模拟分析。数值结果显示:疏通后涨潮时潮沟内流速显著增大,滩涂北侧的流速略有减小,变化范围在50%左右;涨潮时潮沟内潮位变化较快,涨潮流速大于落潮流速;落潮时受滩涂归槽水体影响,退水时间较长,落潮历时是涨潮的2倍以上;涨潮时潮沟内流速呈单峰分布,落潮时的流速呈双峰分布,第一个峰值为滩涂整体潮位下降引起,第二个由滩涂归槽水引起。潮沟是滩涂水体输运的主通道;潮沟疏通有利于增加滩涂纳潮量,降低外海的直接漫滩流速,减少滩面滞留水体,提高了落潮末期的归槽水流速;疏通后进入滩涂内的水质点数量增加了1倍,部分水质点贯穿整个滩涂,提高了滩涂与外海的水交换过程。

荣成湾典型沙坝-潟湖海岸地貌演变研究

20世纪70年代末以来,荣成湾月湖沙坝-潟湖海岸地貌发生了巨大变化。研究沙坝-潟湖海岸地貌的演化过程可进一步掌握其演化规律,对保护和修复沙坝-潟湖海岸地貌体系具有重要的现实意义和理论依据。本文以1975-2021年47期遥感影像和1934-2014年4期不同时期测量的海图为数据源,通过遥感(Remote Sensing,RS)技术和地理信息系统(Geographic Information System,GIS)对月湖沙坝岸线进行提取,并用数字岸线分析系统对岸线变迁进行定量分析,最后通过构建水下岸坡数字高程模型(Digital Elevation Model,DEM)对不同时期的等深线进行提取。结果显示:(1)1975-2021年沙坝处于侧蚀变窄和切蚀变短的状态,坝尾内弯显著。1975年以来沙坝侵蚀后退较显著,从坝根到坝尾侵蚀速率逐渐增加。其中,1979-1986年沙坝侵蚀最严重,最大后退距离达95.7 m,平均蚀退速率为8.32 m/a。(2)1975-2021年,沙坝面积逐渐减少,潮汐通道逐年展宽。其中,1979-1986年沙坝面积急剧减少,平均减少速率为0.0142 km2/a。2021年与1975年相比,沙坝面积减少了约43%。2001-2014年潮汐通道的平均展宽速率为14.01 m/a,2015年后宽度突破300 m。(3)以1980年为转折点,1980年以前水下岸坡总体趋势为淤高变浅,等深线向海迁移。1980年后水下岸坡侵蚀增强,等深线向陆迁移。荣成湾月湖沙坝-潟湖海岸地貌的演变主要受人类活动及沿岸泥沙输移的影响。

潮滩前缘盐沼植被簇团与潮沟系统演变相互作用研究

潮滩前缘盐沼植被簇团可以通过改变水动力及泥沙运动等过程影响潮沟系统的地形地貌,而潮沟系统的地形特征也会影响盐沼簇团的生长、扩张与侵蚀,但对盐沼簇团与潮沟系统地貌演变的相互作用机制尚缺乏认识。针对这一问题,本文构建了考虑盐沼植被动态演变的潮滩生物动力地貌耦合模型,模拟了盐沼植被簇团生长扩张与潮沟系统地貌演变过程,分析了不同初始数量的盐沼植被簇团与潮沟系统的空间格局及形态参数间的双向反馈。结果表明,潮沟先迅速向海陆两侧延伸,后发育出大量分汊;盐沼簇团向周边扩张后未被潮沟切割区域逐渐连成片。少量盐沼簇团能够增加潮沟密度,促进边缘冲刷式潮沟系统的发育。潮沟的走向受盐沼簇团分布位置及数量的影响,多个盐沼植被簇团间的水流集中比单个簇团的边缘水流冲刷更易形成潮沟。在盐沼植被簇团与潮沟系统共同发育初期,潮沟系统发育受盐沼植被簇团的促进作用较大,后期潮沟内比簇团边缘更易形成水流汇聚,盐沼簇团的影响逐渐由促进作用转为稳定作用。此外,潮沟的存在限制了盐沼植被的横向扩散,切割了盐沼植被簇团,影响盐沼植被的空间分布格局。本研究揭示了盐沼植被簇团与潮沟系统地貌耦合演化机制,可为盐沼潮滩生态系统保护修复提供科学依据。

矾石航道建设对水动力和冲淤演变的影响研究

矾石航道是伶仃洋继广州港出海航道之后规划的另一条重要航道,广东省政府将其列入重点建设项目,在“十四五”期开工建设。该文基于FVCOM开源模型,对矾石水道开展三维潮流数模试验研究,研究其建设是否对周边水域产生不利影响,为工程决策提供依据。研究结果表明:矾石航道轴线布置与矾石水道涨落潮主流向基本一致,顺主流,横流小;矾石航道工程实施后对水位的影响不大,整体变化幅度在0.1~0.2 cm之间;工程实施后对周围水动力的影响范围仅局限在航道沿程有开挖浚深里程段,大部分水域流速增减幅度在0.10 m/s以内;航道建设后年淤厚区间约0.21~0.65 m,年回淤量约62万m 3,航道工程实施后不会对周边工程海域的水流条件产生不利影响。

平原感潮河网地区河道水体表观污染评价及来源解析

以佛山市大沥镇河道为研究对象,采用表观污染指数法及表观污染类型的分类方法,从污染程度和污染类型2个角度对平原感潮河网地区河道水体表观污染状况及污染源进行评价,并利用正定矩阵因子分解模型定量解析污染源。结果表明:佛山市大沥镇河道水体表观质量整体不佳,表观污染类型以混合主导型为主,夏季和晚春的表观污染程度重于早春。不同片区水体表观状况从优至劣依次为镇水围片区>白沙片区>盐联围片区>黄岐盐联围片区>谢边涌及香基河片区>泌冲片区>后海片区。退潮时段河道水体表观质量较差,且涨退潮对镇南部河道水体表观质量影响较大。不同表观污染类型河道的污染源类型及贡献率不同,有机主导型(黑臭)的主要污染源为点源污染(52.61%);有机主导型(水华)的主要污染源为农业面源(35.98%);营养主导型的主要污染源为种植业污染(51.43%);无机主导型的主要污染源为地表径流(41.50%)。研究显示,大沥镇河道水体表观污染时空变化较为显著,不同表观污染类型的污染源具有差异性,需分类治理,从而改善水体表观状况。

海南陵水新村潟湖口外滩槽演变分析

海南陵水新村潟湖口外滩槽稳定性差,制约了潟湖的整治和开发利用,为了研究潟湖口外滩槽的演变规律,结合潟湖的地形地貌、海岸动力和泥沙冲淤特点,通过对比潟湖近30 a的遥感影像资料,分析了潟湖口外海岸线、浅滩及深槽的冲淤变化,研究表明潟湖口外潮汐汊道深槽主轴线不稳定,周围岸滩亦存在强烈的冲淤变化,滩槽地貌一直处于单通道和双通道的相互演变之中,一个相对完整的演变期大约需要经历10~20 a左右的时间,波流作用下自东向西的沿岸输沙以及台风等极端事件影响是造成滩槽变化的重要原因。

基于VISSIM仿真的城市主干道潮汐车道设置研究

为缓解因潮汐交通流引发的城市主干路交通拥堵现象,利用现有的道路交通资源,设计潮汐车道优化方案。通过对国内外潮汐车道建设进行分析研究,剖析潮汐交通特性。针对唐山市北新道(学院路-建设路)路段拥堵情况,提出主干道自动化潮汐车道改造方案设计,运用VISSIM仿真软件对改造方案进行效果评价。结果表明,城市主干道潮汐车道的设置,在保障其他交通流通行不受太大影响的前提下,提高潮汐交通流通行效率、降低延误,能够有效缓解交通拥堵问题。

江苏海岸侵蚀过程及其趋势

江苏省侵蚀海岸的总长度为 30 1 7km ,分为 4段 :废黄河三角洲海岸、港海岸、吕四海岸以及海州湾的沙质海岸。各段海岸侵蚀原因不同。废黄河三角洲海岸是因黄河改道失去泥沙来源 ;吕四与港海岸则因辐射沙洲调整过程中滨岸水道的向岸移动造成的 ;而北部沙岸则是因人类活动 (上游建设水库及开挖海滩沙 )的干扰。江苏海岸是一个沉积物准封闭系统 ,全球性海平面上升将加剧这一侵蚀过程 ,预计未来侵蚀海岸的长度将增加 ,辐射沙洲区的外围沙洲将因侵蚀而向中心区退缩。一些目前是隐型侵蚀的岸段将向显性侵蚀的阶段发展。由于连云港到长江口北支的岸段是软性海岸 ,缺乏硬质节点 ,在没有建造大型人工设施的前提下 ,估计江苏海岸动态及制定开发规划时必须考虑平直化的大趋势。