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本文搜集了32个验潮站的潮位记录,并对各站历年年平均海平面作线性回归分析。结果表明,最近20~80年来20个站的相对海平面上升,12个站的相对海平面下降。产生此结果的原因不仅是由于全球性理论海平面上升,而主要是由于现代地壳垂直形变及过量抽用地下水。因此,在沉降的三角洲和沿海平原上的验潮站,相对海平面上升;反之,在上升地块上的验潮站,则相对海平面下降。塘沽和吴淞两站的记录均已经地面沉降修正,不能用以计算该两地的相对海平面。由于特大的相对海平面上升(>10mm/a)均系过量抽用地下水所造成,为了预防和减轻今后海平面上升及其所引起的灾害,亟应采取严格措施,减小沿海地区的地下水开采量。 相似文献
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基于海洋站潮位观测和中国沿海海平面变化影响调查等数据,分析了辽东湾沿岸海平面变化及海岸侵蚀状况,并定量评估了未来海平面上升情景下,辽东湾两岸典型沙质海岸侵蚀影响和沙滩养护投入。分析预测和评估结果表明:1980-2017年,辽东湾沿海海平面上升速率为3.0 mm/a,其中辽东湾东岸沿海海平面上升速率明显高于西岸。2009-2017年,辽宁营口白沙湾、绥中网户、绥中南山港和绥中团山气象观测场岸段后退和下蚀较为严重,部分岸段滩肩蚀退达2~3 m/a。预计2100年,辽东湾沿海海平面上升幅度在20~48 cm之间,由海平面上升引发的辽东湾海岸侵蚀土地损失为23.1 km2,土地经济损失为1410万元。为减缓海岸侵蚀,旅游沙滩和一般沙滩养护总投入分别为11亿元和46亿元,全岸段养护成本较高,应选取旅游沙滩等重点岸段进行养护。 相似文献
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海平面上升对沿海城市的影响 总被引:2,自引:0,他引:2
全球气候变暖引起的海平面上升是沿海城市发展的共同环境背影,政府间气候变化委员会新近对海平面上升的最佳估计是,到2100年全球海平面将上升50cm,而大河三角洲区和沿海低平原区,由于沉积物压实,构造沉降过量开采地下水引起地面沉降,相对海平上升远远高于比值。 相似文献
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辽东湾两侧砂质海岸侵蚀灾害与防治 总被引:9,自引:1,他引:9
自20世纪60年代至90年代,由于多种原因,辽东湾东西两侧的初始沙质海岸侵蚀范围逐年扩大,侵蚀不断加剧,给当人民的生产和生活带来严重危害。由多年监测资料发现,侵蚀严重的熊岳岸线以2~4m/a的速率而大幅度后退,特别严重的地区最大后退达10km;辽西绥中某些岸段平均每年后退1~2m。20世纪90年代后期,由于一些海域管理措施的出台和相应的海岸防护工程的建设,海岸侵蚀逐渐减弱。通过现场调查和多年监测,分析了辽东湾东西两侧砂质海岸侵蚀的特点,认为海岸组成物质松散与海岸动力作用强烈是本区现代海岸侵蚀的基本条件,人为活动是关键因素,并提出了海岸侵蚀灾害的防治对策。 相似文献
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根据潮位资料分析,辽河三角洲平原和辽东湾东岸近四五十年来相对海平面处于上升趋势,从70年代以来平均每年上升量为5mm左右.考虑到辽河三角洲平原地面下沉以及全球性海平面将加速上升,预计下个世纪内,辽河三角洲平原相对海平面上升的速率将达到8-10mm/a,到2050年相对海平面上升量将达到40~55cm.利用遥感和地理信息系统,对不同的海平面上升量将造成的土地淹没损失进行了预测.如不加防护,相对海平面上升0.5m时,将淹没近4000km2,包括整个营口市区和半个盘锦市区;上升1.0m时,将淹没5000km2.对海平面上升将造成海岸侵蚀、风暴潮和洪涝等灾害加剧等影响也进行了分析. 相似文献
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位于里海北部的伏尔加三角洲属河控型三角洲,其水下坡度极度平缓。近百年来里海海平面升降幅度达3.46m,其变化可分为3个阶段:1900-1929年缓慢下降期,平均下降速率为1.1cm/a;1930-1977年快速下降期,平均速率为6.3cm/a;1978-1999年为快速上升期,平均上升速率达到8.8cm/a。在海平面下降阶段,伏尔加三角洲增长幅度达到每年2-180km^2,这是由于河流泥沙的沉积和浅水区出露水面而造成。海平面上升之时,较浅水下三角洲部分成为“缓冲带”,降低了海平面上升对三角洲的影响。尽管近20多年来海平面迅速上升,伏尔加三角洲并未发现海岸侵蚀、湿地损失、盐水入侵、海岸洪涝灾害等一般大河三角洲常见的现象。对比其它三角洲可以发现,各个大河三角洲各以不同的方式响应海平面的上升。 相似文献
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根据 Bruun法则 ,通过大量的试验证明了路易斯安娜障壁岛海平面的上升是其海岸快速侵蚀的一个重要原因 ,说明正在发生侵蚀的路易丝安娜障壁岛的滨面砂粒级沉积物所占比例较低。在 1 9世纪 80年代、2 0世纪 3 0年代和 80年代利用探测技术探测了密西西比河三角洲沿西部海岸线 1 50 m的海岸剖面。应用 RMS标准观察平衡剖面是否一直在测试的年代中保持不变。只有大约一半的测试剖面符合平衡面标准 ,表明 Bruun法则应用范围有一定的局限性。在研究范围内的 3 7个点中 ,利用符合平衡面标准的剖面和测得的相对海平面上升数据来测量海岸线后退速率… 相似文献
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为保护亚龙湾砂质海岸及其生态系统,文章采用2016年和2019年的监测数据以及2008年的历史数据,依据相关技术标准和方法,从岸线后退速率和岸滩下蚀速率2个方面综合评价亚龙湾砂质海岸的侵蚀状况和侵蚀强度,并分析其原因。研究结果表明:亚龙湾砂质海岸存在持续性较强且较严重的海岸侵蚀;2008-2016年岸线后退速率和年均土地损失面积分别约为-1.00 m/a和2 080 m2,2016-2019年岸线后退速率和年均土地损失面积分别约为-1.80 m/a和9 836 m2,亚龙湾海岸侵蚀有明显加剧的趋势;2016-2019年亚龙湾东部和西部海岸的岸滩下蚀速率分别约为-13.3 cm/a和-36.2 cm/a,西部岸滩下蚀速率远高于东部岸滩;亚龙湾全段为强侵蚀等级,其中东部岸段为强侵蚀等级,西部岸段为严重侵蚀等级;造成亚龙湾海岸侵蚀的原因主要包括海岸工程建设、植被破坏和海平面上升。 相似文献
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中国近海海平面变化研究进展 总被引:7,自引:0,他引:7
通过对近10年来中国近海海平面变化研究成果的分析得出:(1)中国海域海平面变化时空差异明显,沿海海平面高值出现在8—9月,最低值出现在2—3月,季节最大差值可达20.75 cm;黄海和东海海区东南高、西北低;南海夏季西低东高,冬季东低西高;从辽宁到广西海平面上升速率差异大,范围在-2.1~10 mm/a之间;相对海平面上升较快区域主要是黄河三角洲、长江三角洲和珠江三角洲,2050年3个地区海平面预计分别上升980、720、520 mm。(2)地面沉降已经成为中国东部沿海相对海平面上升速率高的重要影响因素,在黄河三角洲和长江三角洲人口密集地区尤为突出。(3)每年8—9月为我国一年中的海平面最高月份,此时也正是热带气旋影响中国东南沿海的高峰时段,在季风、热带气旋等共同作用下,东南沿海高海平面将对东南沿海城市安全构成严重威胁。 相似文献
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Based on long-term tide gauge observations in the last 60 years, the temporal and spatial variation characteristics of sea level change along the coast of China are analyzed. The results indicate that the sea level along the coast of China has been rising at an increasing rate, with an estimated acceleration of 0.07 mm/a2. The rise rates were 2.4 mm/a, 3.4 mm/a and 3.9 mm/a during 1960–2020, 1980–2020 and 1993–2020, respectively. In the last 40 years, the coastal sea level has risen fastest in the South China Sea and slowest in the Yellow Sea. Seasonal sea levels all show an upward trend but rise faster in winter and spring and slower in autumn. Sea level change along the coast of China has significant periodic oscillations of quasi-2 a, 4 a, 7 a, 11 a, quasi-19 a and 30–50 a, among which the 2–3 a, 11 a, and 30–50 a signals are most remarkable, and the amplitude is approximately 1–2 cm. The coastal sea level in the most recent decade reached its highest value in the last 60 years. The decadal sea level from 2010 to 2019 was approximately 133 mm higher than the average of 1960–1969. Empirical orthogonal function analysis indicates that China’s coastal sea level has been changing in a north-south anti-phase pattern, with Pingtan and Fujian as the demarcation areas. This difference was especially obvious during 1980–1983, 1995–1997 and 2011–2013. The coastal sea level was the highest in 2016, and this extreme sea level event was analyzed to be related mainly to the anomalous wind field and ENSO. 相似文献
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中国沿岸现代相对海平面上升加剧 总被引:5,自引:0,他引:5
本文用线性回归方法,分两个时段分析了中国沿岸25个验潮站相对海平面的年变化速度,计算了相应时段的平均海面,结果表明,中国沿岸现代相对海平面上升加剧。另外,本文还对海平面变化原因进行了讨论。 相似文献
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利用中国沿岸验潮站GNSS和邻近地区陆态网络GNSS基准站观测数据,结合卫星高度计和验潮站海平面观测数据分析了中国沿海验潮站及其邻近地区陆地垂直运动特征。中国沿海海平面观测以及验潮站和陆态网GNSS基准站观测结果显示,中国沿海省区市及沿海验潮站陆地垂直运动总体表现为:辽宁至江苏沿海上升、上海至福建泉州沿海沉降、福建厦门至广西沿海升降交替的格局,局部滨海平原地区如华北平原天津南部、河北平原的沧县则表现出显著的沉降特征。验潮站陆地的抬升与沉降是沿海相对海平面变化的重要组成部分,准确掌握验潮站及其邻近区域的陆地垂直运动特征,可为沿海相对海平面变化分析、海平面变化影响评估以及未来海平面上升预测提供依据。 相似文献
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海平面上升对中国沿海地区影响初析 总被引:2,自引:0,他引:2
近五十年来中国沿岸海平面变化总的呈上升趋势,年变率平均为1.4mm/a,中国沿岸地形复杂,未来海平面上升可能影响的主要脆弱区为黄河、长江和珠江三大三角洲和滨海平原,其可能受害区域估计达35000km^2。影响中国沿岸相对海平面上升的主要因素有:近代地壳垂直运动和地面沉降,台风和风暴潮,海岸侵蚀和海咸水入侵等。 相似文献
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布容法则及其在中国海岸上的应用 总被引:12,自引:1,他引:11
布容(Bruun)法则是预测海平面上升引起海岸侵蚀最早的方法也是最简单的方法。根据中国砂质和淤泥质海岸的情况,布容法则可定性地解释海平面上升与海岸侵蚀的关系,在满足它要求条件的海岸地段和发育时期,用它预测海岸侵蚀或许是可能的。但是,若不严格审查海岸环境和条件,把它作为海平面上升情况预测海岸侵蚀的普遍模式,有待更多的研究加以证明。 相似文献
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Coastal erosion and flooding are major threats to coastal dwellers, and the situation is predicted to worsen as a result of the impacts of climate change and associated sea level rise. In order to identify the level of vulnerability of various sections of Ghana's coastline for planning and future hazard management, a coastal vulnerability index approach was adopted for the creation of the relative vulnerability map. The coastal vulnerability variables used include geomorphology, coastal elevation, geology, local subsidence, sea level rise, shoreline change rates, mean tidal range, mean wave height and population density of the coastal areas. Risk factors were assigned to the various variables, and all the factors were combined to calculate the coastal vulnerability for the coastal front of each administrative district along the coast. The outcome was used to produce a vulnerability index map of coastal districts in Ghana. The results revealed that parts of the central coast and the eastern coasts of Ghana were the most vulnerable. It was identified that about 50% of the 540km shoreline of Ghana is vulnerable. This assessment will facilitate the long-term adaptation planning and hazard mitigation to inform the management of Ghana's coast. 相似文献
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Tariq Masood Ali Khan D. A. Razzaq Qamar-Uz-Zaman Chaudhry Dewan Abdul Quadir Anwarul Kabir Majajul Alam Sarker 《Marine Geodesy》2002,25(1):159-174
The UNEP in its regional seas program in 1989 has included Pakistan in a group of countries which are vulnerable to the impact of rising sea level. If the present trend of sea level rise (SLR) at Karachi continues, in the next 50 years the sea level rise along the Pakistan Coast will be 50 mm (5 cm). Since the rising rates of sea level at Karachi are within the global range of 1-2 mm/year, the trends may be treated as eustatic SLR. Historical air temperature and sea surface temperature (SST) data of Karachi also show an increasing pattern and an increasing trend of about 0.67°C has been registered in the air temperature over the last 35 years, whereas the mean SST in the coastal waters of Karachi has also registered an increasing trend of about 0.3°C in a decade. Sindh coastal zone is more vulnerable to sea level rise than Baluchistan coast, as uplifting of the coast by about 1-2 mm/year due to subduction of Indian Ocean plate is a characteristic of Baluchistan coast. Within the Indus deltaic creek system, the area nearby Karachi is more vulnerable to coastal erosion and accretion than the other deltaic region, mainly due to human activities together with natural phenomena such as wave action, strong tidal currents, and rise in sea level. Therefore, The present article deals mainly with the study of dynamical processes such as erosion and accretion associated with sea level variations along the Karachi coast and surrounding Indus deltaic coastline. The probable beach erosion in a decade along the sandy beaches of Karachi has been estimated. The estimates show that 1.1 mm/year rise in sea level causes a horizontal beach loss of 110 mm per year. Therefore, coast eroded with rise in sea level at Karachi and surrounding sandy beaches would be 1.1 m during a period of next 10 years. The northwestern part of Indus delta, especially the Gizri and Phitti creeks and surrounding islands, are most unstable. Historical satellite images are used to analyze the complex pattern of sediment movements, the change in shape of coastline, and associated erosion and accretion patterns in Bundal and Buddo Islands. The significant changes in land erosion and accretion areas at Bundal and Buddo Islands are evident and appear prominently in the images. A very high rate of accretion of sediments in the northwestern part of Buddo Island has been noticed. In the southwest monsoon season the wave breaking direction in both these islands is such that the movement of littoral drift is towards west. Erosion is also taking place in the northeastern and southern part of Bundal Island. The erosion in the south is probably due to strong wave activities and in the northeast is due to strong tidal currents and seawater intrusion. Accretion takes place at the northwest and western parts of Bundal Island. By using the slope of Indus delta, sea encroachment and the land area inundation with rising sea level of 1 m and 2 m have also been estimated. 相似文献