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1.
基于近60年(1959—2018年)系列水下地形资料,研究九段沙成形以来的地貌演化特征和动力成因。结果表明:九段沙1959—1990年处于稳速淤涨、以低滩为主的自然演化状态;近30年(1990—2018年),0 m及以上高滩受植被生长和长江口深水航道治理工程作用快速淤涨,-1~-2 m滩面受干扰程度小、稳速淤涨;近20年(1998—2018年),-3 m及以下低滩受流域减沙和临近的大型涉水工程影响淤涨放缓并由淤积转冲刷,期间流域减沙使得九段沙淤积放缓滩地由低到高向上延伸。未来流域来沙可能进一步下降并维持在较低水平,九段沙将面临-3 m及以下低滩进一步冲蚀,-3 m以上滩地淤积放缓并由低到高逐渐转冲的风险。 相似文献
2.
基于近60年(1959—2018年)系列水下地形资料,研究九段沙成形以来的地貌演化特征和动力成因。结果表明:九段沙1959—1990年处于稳速淤涨、以低滩为主的自然演化状态;近30年(1990—2018年),0 m及以上高滩受植被生长和长江口深水航道治理工程作用快速淤涨,-1~-2 m滩面受干扰程度小、稳速淤涨;近20年(1998—2018年),-3 m及以下低滩受流域减沙和临近的大型涉水工程影响淤涨放缓并由淤积转冲刷,期间流域减沙使得九段沙淤积放缓滩地由低到高向上延伸。未来流域来沙可能进一步下降并维持在较低水平,九段沙将面临-3 m及以下低滩进一步冲蚀,-3 m以上滩地淤积放缓并由低到高逐渐转冲的风险。 相似文献
3.
潮汐河口泥沙运动复杂多变, 科学划分泥沙运动形式并评估其对航道淤积的影响, 是厘清航道淤积泥沙来源、制定有效减淤措施的关键。基于长江口深水航道所处南港—北槽河段2015年和2018年洪季、枯季表层沉积物和近底悬沙的现场采样数据, 分析提出潮汐条件下推移质、悬移质和时推时悬泥沙3类泥沙运动形式的粒径划分方法, 量化3类泥沙对深水航道淤积的贡献比例。结果表明: 近底悬沙级配曲线上拐点粒径对泥沙由推移质向悬移质转化具有较好的指示意义; 长江口南港—北槽悬沙、底沙交换显著, 深水航道淤积物中除仅做推移质或悬移质运动的泥沙外, 还包括大量的时推时悬泥沙, 其在航道淤积泥沙中的占比最高, 约达50%~60%;南港段航道洪季、枯季推移质淤积占比分别为36%和26%, 高于悬移质的6%和13%;北槽段航道悬移质落淤泥沙占比为44%~48%, 明显较推移质3%~6%的占比高。3类泥沙运动形式粒径划分方法为深化潮汐河口泥沙运动规律认识、判别航道淤积泥沙来源提供了新途径。 相似文献
4.
针对长江口12.5 m深水航道的回淤问题,收集整理了2010—2012年的航道回淤资料和水文测验资料,研究了航道回淤的时空变化特征及其与径流、潮流和含沙量的关系。结果表明:航道回淤呈洪季大、枯季小的年内变化特征,大风骤淤明显;航道回淤沿程主要集中在南港—圆圆沙段和北槽中下段,其回淤量占全航道的80%以上。南港—圆圆沙段回淤的泥沙颗粒以细砂为主,回淤强度与径流的关系不密切,与潮流的关系表现为大潮大、小潮小。北槽航道回淤泥沙颗粒以粉砂为主,回淤部位随径、潮流变化而变化,表现为径流增大,回淤部位下移;潮动力减弱,回淤部位上提。长江口拦门沙水域泥沙的再悬浮,可能是航道淤积最主要的泥沙来源。 相似文献
5.
通过不同时期实测地形资料,对比分析射阳港拦门沙航道一期整治工程建设后航道的回淤分布特征;利用实测水文泥沙资料和潮流数学模型计算分析射阳河口拦门沙航道开挖后的水流、含沙量特征;探讨了射阳港拦门沙航道淤积的泥沙来源和淤积成因。研究表明:航道开挖后沿程普遍淤积,尤其是口门及堤根区段航道淤积严重。导致航道淤积的主要原因为:有掩护航道内涨潮流速大、落潮流速小,口门外高含沙量水体进入航道后泥沙很难被带出航道,导致航道内普遍淤积;口门内2 km范围内回淤较大是由于越堤流输沙和口门内侧涨潮期间存在明显回流;导堤根部航道段回淤较大是由于射阳河与黄沙港河汇流后河道放宽,落潮期间出河口的水体挟沙力突然降低。 相似文献
6.
基于近期流域减沙背景下长江口水下三角洲地形的演变特征与趋势,选用1958—2015年覆盖面积超过7 000 km2的长江口实测水下地形数据,在Surfer软件支持下开展水下三角洲地形冲淤分析,探讨了水下地形演变影响因素。结果表明:1958—2015年,长江口水下三角洲经历了淤积—平衡—剧烈波动3个阶段;持续的流域减沙已导致10 m等深线以浅区域从2009年开始进入净侵蚀状态;流域来沙锐减与极端气候引发的口外及邻近海域对河口泥沙的补给是近年长江口水下三角洲冲淤变化剧烈的主要原因;长江口向外海年均输送泥沙量可能低于1.20亿t,与近年流域年均来沙量较为接近,未来长江口水下三角洲有望逐渐进入整体冲淤平衡状态。 相似文献
7.
长江口12.5 m深水航道回淤量大,影响因素复杂。利用2011-2017年长江口航道水下地形、水文测验和航道回淤等系列资料,研究了12.5 m深水航道回淤的年际变化过程和原因。结果表明:① 12.5 m深水航道回淤总体呈现稳中下降的变化特征。②南港-圆圆沙段因航道滩槽高差的缩小和上游底沙输沙量的减少,回淤呈逐年减少态势。③北槽段因南坝田挡沙堤加高工程的实施和台风影响偏弱,2016-2017年回淤较此前有所减少;径流影响北槽最大浑浊带的发育部位,进而影响北槽航道回淤的部位,2016-2017年长江口径流量偏大是北槽航道主要回淤部位较往年偏下的主要原因。④流域减沙对12.5 m深水航道回淤的影响已开始显现。未来受其影响,南港-圆圆沙航道回淤有望进一步下降并维持较低量值,北槽航道回淤有望维持稳中下降态势。 相似文献
8.
极端天气条件下,波浪引起的高含沙水体会引起航道骤淤,增大航道回淤量。以"马勒卡"台风期间现场水文资料为基础,建立了波流共同作用下的长江口三维潮流泥沙数学模型,研究北槽航道骤淤问题。数学模型验证了"马勒卡"台风期间的北槽水沙过程,相似性较好,通过分离波浪,探讨了潮流与波流共同作用下的含沙量及航道淤积分布差异,研究了台风浪对航道骤淤的影响。研究表明,台风浪对-15 m等深线以浅水域含沙量影响较大,北槽含沙量自上游至口外逐渐增大,改变了常态天气北槽"中间高、两头低"的含沙量分布趋势。台风浪对北槽口内航道回淤分布影响较小,北槽口外航道淤积量剧增,即航道骤淤主要发生在北槽口外。 相似文献
9.
长江入海泥沙在复杂的河口地貌和水动力条件下,自然岸带的冲淤频繁多变,给沿海重大工程带来不利影响,成为上海地区重要的地质灾害种类。本文结合长江河口地区泥沙运移监测成果,分析了其对长江口深水航道工程的影响,为工程的日常维护与安全运行提供借鉴。 相似文献
10.
运用Kriging插值法构建蒋家沙风电场区建设前和建设后3期(2015年、2018年和2021年)水下地形三维模型。通过年际时间尺度的对比分析发现:风电场建设后,蒋家沙区域潮滩变低,范围扩大,地形趋于平坦;潮沟淤浅并向东北退移,范围缩小。2015—2018、2018—2021、2015—2021统计数据显示,3年间平均冲淤速率由-3.77 cm/a变为21.14 cm/a,6年间平均冲淤速率为8.18 cm/a。地形变化表现为建设后初期略有冲刷,此后强势回淤,总体处于弱淤积状态,该地形变化主要与辐射沙脊群区域沉积动力相关。根据2014—2019年区域余流流向数据,总体上看,泥沙的输运方向在近潮滩区域均指向潮滩方向,离潮滩区域以向东北输运为主;6年间潮滩范围逐渐扩大,泥沙向深槽输运,东部潮沟萎缩,持续向东北退移。在物源锐减和海平面逐年上升的背景下,研究区地形将长期处于弱淤积状态且淤积呈减缓趋势,风电场建设是该区域短周期内局部地形改造的主要因素之一。 相似文献
11.
Surface samples are used to determine onshore-offshore variations in heavy metal concentrations on tidal flats on Chongming and Hengsha Islands in the Yangtze Estuary, China. The Mann-Whitney U-Test suggests that proximity to the estuarine turbidity maximum does not result in significantly higher metal concentrations on tidal flats. Principal Components Analysis shows that grain-size is the primary control on metal concentrations, reflecting the occurrence of salt marsh and mud and sand flats. Sediment quality is comparable to that of pristine estuaries because of dilution by high river sediment loads. 相似文献
12.
Aaron T. David Pascale A. L. Goertler Stuart H. Munsch Brittany R. Jones Charles A. Simenstad Jason D. Toft Jeffery R. Cordell Emily R. Howe Ayesha Gray Michael P. Hannam William Matsubu Erin E. Morgan 《Estuaries and Coasts》2016,39(5):1491-1504
Compared to benthic and water-column invertebrate assemblages, considerably less is known about terrestrial arthropods inhabiting estuarine wetlands despite their importance to tidal wetland biodiversity and productivity. We also need to know more about how human modification of estuaries, including efforts to restore estuarine wetlands, affects these assemblages. To address this knowledge gap, we assembled data from multiple studies on terrestrial arthropod assemblages from 87 intertidal wetland sites in 13 estuaries along the west coast of North America. Arthropods were sampled between 1998 and 2013 with fallout traps deployed in wetlands for 1 to 3 days at a time. We describe patterns in the abundance and taxonomic composition of terrestrial arthropods and evaluate the relative ability of natural and anthropogenic factors to explain variation in abundance and composition. Arthropod abundance was highly variable. Vegetation assemblage, precipitation, and temperature best explained variation in arthropod abundance, while river discharge, latitude, and developed and agricultural land cover surrounding sampling sites were less important. Arthropod abundance rapidly achieved levels of reference wetlands after the restoration of tidal influence to leveed wetlands, regardless of surrounding land cover. However, arthropod assemblage composition was affected by the amount of developed land cover as well as restoration age. These results suggest that restoration of tidal influence to leveed wetlands can rapidly restore some components of estuarine wetland ecosystems but that recovery of other components will take longer and may depend on the extent of anthropogenic modification in the surrounding landscape. 相似文献
13.
H. N. McKellar D. L. Tufford M. C. Alford P. Saroprayogi B. J. Kelley J. T. Morris 《Estuaries and Coasts》2007,30(6):989-1006
Tidal freshwater sections of the Cooper River Estuary (South Carolina) include extensive wetlands, which were formerly impounded
for rice culture during the 1,700s and 1,800s. Most of these former rice fields are now open to tidal exchange and have developed
into productive wetlands that vary in bottom topography, tidal hydrography and vegetation dominants. The purpose of this project
was to quantify nitrogen (N) transport via tidal exchange between the main estuarine channel and representative wetland types
and to relate exchange patterns to the succession of vegetation dominants. We examined N concentration and mass exchange at
the main tidal inlets for the three representative wetland types (submerged aquatic vegetation [SAV], floating leaf vegetation,
and intertidal emergent marsh) over 18-21 tidal cycles (July 1998–August 2000). Nitrate + nitrite concentrations were significantly
lower during ebb flow at all study sites, suggesting potential patterns of uptake by all wetland types. The magnitude of nitrate
decline during ebb flow was negatively correlated with oxygen concentration, reflecting the potential importance of denitrification
and nitrate reduction within hypoxic wetland waters and sediments. The net tidal exchange of nitrate + nitrite was particularly
consistent for the intertidal emergent marsh, where flow-weighted ebb concentrations were usually 18–40% lower than during
flood tides. Seasonal patterns for the emergent marsh indicated higher rates of nitrate + nitrite uptake during the spring
and summer (> 400 μmol N m-2 tide-1) with an annual mean uptake of 248 ± 162 μmol m–2 tide–1. The emergent marsh also removed ammonium through most of the year (207 ± 109 μmol m–2 tide–1), and exported dissolved organic nitrogen (DON) in the fall (1,690 ± 793 μmol m–2 tide–1), suggesting an approximate annual balance between the dissolved inorganic N uptake and DON export. The other wetland types
(SAV and floating leaf vegetation) were less consistent in magnitude and direction of N exchange. Since the emergent marsh
site had the highest bottom elevation and the highest relative cover of intertidal habitat, these results suggest that the
nature of N exchange between the estuarine waters and bordering wetlands is affected by wetland morphometry, tidal hydrography,
and corresponding vegetation dominants. With the recent diversion of river discharge, water levels in the upper Cooper estuary
have dropped more than 10 cm, leading to a succession of wetland communities from subtidal habitats toward more intertidal
habitats. Results of this study suggest that current trends of wetland succession in the upper Cooper River may result in
higher rates of system-wide inorganic N removal and DON inputs by the growing distributions of intertidal emergent marshes. 相似文献
14.
利用多期Landsat-5 TM影像,结合植被分带信息、地物波谱特征和实地调查数据,提取上海地区滩涂湿地分布及其覆盖信息;在ArcGIS软件支持下,综合多期遥感影像解译结果和相应时段的水下地形信息,对上海市滩涂湿地空间分布及其变化进行分析。结果表明,近15年来上海市滩涂围垦量在不断增加;尽管滩涂湿地仍在继续淤涨,但淤涨速度明显减缓,且慢于围垦速度,这导致中高潮滩涂面积不断减少。 相似文献
15.
在长江河口潮滩、分流河道和水下三角洲共获得18个柱样,进行沉积学分析和210Pb测定,并对其中6根柱样进行137Cs测定。经研究发现,长江口外在水深25~30m,122°30′N,31°00′E附近存在一个泥质沉积中心,沉积速率达2.0~6.3cm/yr。另外,在潮滩和涨潮槽也获得较高沉积速率,其中南汇和横沙岛潮滩沉积速率(1.03~1.94cm/yr)高于崇明东滩(0.51~0.76cm/yr),涨潮槽沉积速率也达0.86cm/yr。此外,在石洞口、南汇、九段沙潮滩和三角洲前缘有部分柱样未获沉积速率,推测为沉积环境不稳定或沉积速率过快所致。 相似文献
16.
长江口沉积物210Pb分布及沉积环境解释 总被引:19,自引:0,他引:19
在长江河口潮滩、分流河道和水下三角洲共获得18个柱样,进行沉积学分析和210Pb测定,并对其中6根柱样进行137Cs测定。经研究发现,长江口外在水深25~30m,122°30′N,31°00′E附近存在一个泥质沉积中心,沉积速率达2.0~6.3cm/yr。另外,在潮滩和涨潮槽也获得较高沉积速率,其中南汇和横沙岛潮滩沉积速率(1.03~1.94cm/yr)高于崇明东滩(0.51~0.76cm/yr),涨潮槽沉积速率也达0.86cm/yr。此外,在石洞口、南汇、九段沙潮滩和三角洲前缘有部分柱样未获沉积速率,推测为沉积环境不稳定或沉积速率过快所致。 相似文献
17.
GIS支持下长江口深水航道治理一、二期工程对北槽拦门沙的影响分析 总被引:2,自引:0,他引:2
将1995~2003年间10幅不同时期的长江口海图资料数字化,利用地理信息系统(ArcInfo8.3)相应的模块进行处理,建立起不同时期的长江口水下数字高程模型。以此作为基础资料,从横断面、深泓线纵剖面以及平面变化等不同角度,对长江口北槽航道水下地形变化进行定量分析。结果表明:整治一期工程完成后,增加了主槽流速,减少了航道回淤,北槽形成了一条深8~10m的微弯深槽,水深基本稳定。二期工程基本保持了一期工程的河势,河床断面未发生重大调整。 相似文献
18.
Tidal marshes act as a buffer system for nutrients in the pore water and play important roles in controlling the budget of nutrients and pollutants that reach the sea. Spatial and seasonal dynamics of pore water nutrients were surveyed in three tidal marshes (Chongming Island, Hengsha Island, and Fengxian tidal flat) near the Yangtze Estuary and Hangzhou Bay from August 2007 to May 2008. Nutrient variations in pore water closely followed seawater quality in the estuaries, while the average concentration of NH4 +–N, the main form of inorganic nitrogen in pore water, was over two orders of magnitude higher than that in seawater which was dominated by nitrate. NH4 +–N export (13.81 μmol m?2 h?1) was lower than the import of (NO3 ?+NO2 ?)–N (?24.17 μmol m?2 h?1) into sediment over the 1-year period, hence reducing N-eutrophication in coastal waters. The export of SiO3 2?–Si and PO4 3?–P from tidal marshes regulated nutrient level and composition and lifted the ratio beyond potentidal element limitation in the coastal system. Moreover, macrophyte plants (Spartina alterniflora and Phragmites australis) played significant roles in controlling nutrient concentration in pore water and its exchange between marshes and estuaries. Fengxian marsh was characterized by higher nutrient concentrations and fluxes than other marshes in response to the more serious eutrophication in Hangzhou Bay than in the Yangtze Estuary. 相似文献
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20.
Nature-based solutions are rapidly gaining interest in the face of global change and increasing flood risks. While assessments of flood risk mitigation by coastal ecosystems are mainly restricted to local scales, our study assesses the contribution of salt marshes and mangroves to nature-based storm surge mitigation in 11 large deltas around the world. We present a relatively simple GIS model that, based on globally available input data, provides an estimation of the tidal wetland’s capacity of risk mitigation at a regional scale. It shows the high potential of nature-based solutions, as tidal wetlands, to provide storm surge mitigation to more than 80% of the flood-exposed land area for 4 of the 11 deltas and to more than 70% of the flood-exposed population for 3 deltas. The magnitude of the nature-based mitigation, estimated as the length of the storm surge pathway crossing through tidal wetlands, was found to be significantly correlated to the total wetland area within a delta. This highlights the importance of conserving extensive continuous tidal wetlands as a nature-based approach to mitigate flood risks. Our analysis further reveals that deltas with limited historical wetland reclamation and therefore large remaining wetlands, such as the Mississippi, the Niger, and part of the Ganges-Brahmaputra deltas, benefit from investing in the conservation of their vast wetlands, while deltas with extensive historical wetland reclamation, such as the Yangtze and Rhine deltas, may improve the sustainability of flood protection programs by combining existing hard engineering with new nature-based solutions through restoration of former wetlands. 相似文献