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1.
上海地区未来海平面上升及产生的可能影响 总被引:5,自引:0,他引:5
未来海平面变化,特别是由于地面沉降等引起的相对海平面上升,将对沿海地区的地质环境及人类的生存发展产生极大的影响,通过对影响上海地区海平面变化主要因素的概括,对未来的相对海平面变化作出了预测,对由海平面上升引起的环境效应作了阐述,提出了相应的防治对策。强调了控制上海地区的地面沉降,以减轻海平面上升所造成的危害,具有特殊而重要的意义。 相似文献
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相对海平面上升的危害与防治对策 总被引:2,自引:0,他引:2
胡俊杰 《地质灾害与环境保护》2005,16(1):66-70
相对海平面上升已成为中国沿海地区海洋地质环境灾害之一。本文在有关学者以往研究工作的基础上,对中国相对海平面上升所造成的危害作了进一步探讨,并提出一系列防治对策。相对海平面上升能够在沿海地区造成海岸侵蚀、风暴潮灾害加剧、海水入侵、水资源和水环境遭到破坏、沿海低地被淹、防汛工程功能降低等诸多灾害。为了减缓这些灾害,采取一定的防治对策是十分迫切和必要的,其中加强海平面变化监测和科学研究是基础,提高海堤标准、加强海堤管理与保护、施行海滩人工喂养是关键,此外还要辅以公众意识的提高。 相似文献
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长江三角洲地区的相对海平面上升与地面沉降 总被引:7,自引:0,他引:7
在有关学者以往研究工作的基础上,对长江三角洲地区的相对海平面上升和地面沉降问题作了分析探讨。认为相对海平面上升已经在并将继续在该区造成多种危害,地面沉降是影响相对海平面上升诸多因子中贡献率最大的因子,它主要由人类活动引起,同相对海平面上升一样.也是该区不容忽视的地质灾害之一。然而,由于采取了积极的控制措施,上海地区人为引起地面沉降在相对海平面上升中的贡献率已从20世纪50、60年代的90%以上降至目前的60%以下,但预计在未来几十年中仍将占相当大的比例,必须引起人们的高度警觉,采取更为积极的防治对策。 相似文献
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相对海平面变化对腕足动物群落取代的影响——以吐哈盆地北缘桃西沟上石炭统祁家沟组—奥尔土组剖面为例 总被引:6,自引:0,他引:6
相对海平面的升降变化引起的相对水深及相关生态条件的改变对腕足动物群具有影响。相对海平面变化的速度和幅度是引起腕足动物群面貌变化的重要因素。相对海平面的持续缓慢上升有利于腕足动物丰度的增加和分异度的提高,海平面的大幅度快速变化对腕足动物群落则是一个不利的因素,是造成腕足动物物种丰度下降、新种增加量减少乃至彻底死亡的重要原因。吐哈盆地北缘晚石炭世发育的5个腕足动物群落全部与相对海平面上升期有关。在海平面的持续缓慢上升期,腕足动物的丰度不断增加,分异度迅速提高;而在相对海平面下降期,本区陆源粗碎屑物大量注入,不适合腕足动物的生存。 相似文献
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多维动态GIS在海平面变化中的应用 总被引:1,自引:0,他引:1
随着空间对地观测技术的发展和集成,三维地理空间信息获取与更新的能力有了飞速的进步,海洋、环境等应用领域已逐步形成多维空间信息源。介绍了多维动态GIS的相关概念,多维数据、可视化在海平面变化中的研究现状,研究的主要方向等。我国沿海城市相对集中,人口密集,地势低洼,地面沉降严重,海平面上升给沿海城市和人民生活带来深远的影响。而多维动态GIS可以动态、可视化地演示海平面的变化,并对可能造成的危害进行预测和分析。因此,多维动态GIS对海平面上升变化过程的研究具有十分重要的意义。 相似文献
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相对海平面变化对腕足动物群落取代的影响--以吐哈盆地北缘桃西沟上石炭统祁家沟组一奥尔土组剖面为例 总被引:1,自引:0,他引:1
相对海平面的升降变化引起的相对水深及相关生态条件的改变对腕足动物群具有影响.相对海平面变化的速度和幅度是引起腕足动物群面貌变化的重要因素.相对海平面的持续缓慢上升有利于腕足动物丰度的增加和分异度的提高,海平面的大幅度快速变化对腕足动物群落则是一个不利的因素,是造成腕足动物物种丰度下降、新种增加量减少乃至彻底死亡的重要原因.吐哈盆地北缘晚石炭世发育的5个腕足动物群落全部与相对海平面上升期有关.在海平面的持续缓慢上升期,腕足动物的丰度不断增加,分异度迅速提高;而在相对海平面下降期,本区陆源粗碎屑物大量注入,不适合腕足动物的生存. 相似文献
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海平面上升对我国沿海低地的影响 总被引:3,自引:0,他引:3
介绍了影响我国沿海低地相对海平面上升的因素,讨论了相对海平面上升对我国海岸侵蚀、沿海低地淹没等影响以及风险等级划分的若干问题。 相似文献
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压实作用下广西典型红树林区沉积速率及海平面上升对红树林迁移效应的制衡 总被引:3,自引:0,他引:3
气候变化造成的海平面上升是迫使红树林向陆迁移的主要驱动力, 而其自身通过捕沙促淤不同程度的减缓了海平面上升速率的影响。基于广西典型红树林区8根短柱的210Pb测年和含水率分析, 以考虑/未考虑沉积物压实作用为研究情景, 通过对比研究红树林区潮滩地表高程抬升速率和相对海平面上升速率的大小关系, 揭示当前海平面上升对广西红树林向陆/向海迁移的驱动机制。研究发现:未考虑压实作用下的沉积速率约是考虑压实作用下沉积速率的1.00~1.34倍(平均1.12倍), 压实作用明显;压实沉积速率介于0.16~0.78 cm/a, 其底层压实沉积速率与潮滩地表高程抬升速率相等。压实作用下, 英罗湾和丹兜海红树林区的地表高程抬升速率小于相对海平面上升速率;与未考虑压实作用得到的结论相悖。由于广西红树林海岸大都建有防波堤, 限制了红树林向陆的迁移;表明英罗湾和丹兜海的红树林正面临海平面上升的威胁。压实作用校正与否对地表高程抬升速率与相对海平面上升速率相当的区域尤为重要。 相似文献
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政府间气候变化专门委员会1995年气候变化评价报告指出,全球海平面在过去的100年里上升了18cm,预测全球海平面将加速上升,在2050年时上升20cm,2100年时上升49cm.根据近40多年的验潮资料分析,中国沿岸海平面上升速率为1.4~2.0mm/a,与全球上升速率一致。由于沿海许多地区的严重地面沉降,地壳垂直升降的不同,以及其它因素的影响,我国沿岸海平面的相对上升各不相同,严重地区的上升速率要大得多。海平面的加速上升必将使我国沿海大部地区的风暴潮等自然灾害更加严重。 相似文献
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This Special Issue deals with the impact of climate change on western European coastal systems. Notwithstanding the inherent problems of studying geological data in terms of climate shifts, the results show that on the meso- and the macroscale of time, climatic forcing is a major drive for coastal change. However, its impact is largely influenced by other factors. Sediment availability plays a dominant role in the evolution of coastal systems and it can be considered one of the most important thresholds at the land-ocean interface. Sea-level changes are expected to have a significant impact on most European coasts. There is particular concern for the tidally influenced flats and marshes, and for those coastal areas known to have already a net sediment deficit and to be threatened by erosion. Areas where isostatic uplift has countered sea-level rise until now, are expected to become subject to coastal erosion in the near future under an accelerated sea-level rise scenario. The sensitivity and vulnerability of coastal systems to climate shifts is shown to be largely controlled by storm magnitude and fetch. A particular case of vulnerability is the impact of tsunamis. Finally, the consequences of human interference have been demonstrated in many cases. The implementation of geoscientific studies for rational, comprehensive and cost-effective strategies on a regional or national level of integrated coastal zone management is reviewed. 相似文献
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Sea-level rise will increase the area covered by hurricane storm surges in coastal zones. This research assesses how patterns
of vulnerability to storm-surge flooding could change in Hampton Roads, Virginia as a result of sea-level rise. Physical exposure
to storm-surge flooding is mapped for all categories of hurricane, both for present sea level and for future sea-level rise.
The locations of vulnerable sub-populations are determined through an analysis and mapping of socioeconomic characteristics
commonly associated with vulnerability to environmental hazards and are compared to the flood-risk exposure zones. Scenarios
are also developed that address uncertainties regarding future population growth and distribution. The results show that hurricane
storm surge presents a significant hazard to Hampton Roads today, especially to the most vulnerable inhabitants of the region.
In addition, future sea-level rise, population growth, and poorly planned development will increase the risk of storm-surge
flooding, especially for vulnerable people, thus suggesting that planning should steer development away from low-lying coastal
and near-coastal zones. 相似文献
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The current researches on risk assessment of geological disasters mainly focus on unexpected disasters such as collapses, landslides and mud-rock flows etc. As the convergence zone of land and sea, coastal zone is the most active and complex area of interactions of lithosphere, hydrosphere, atmosphere, biosphere and anthroposphere. The ecological environment of coastal zone is very fragile, so further systematical research on coastal geological hazard assessment and prevention is in urgent need. The author begins with the definition and research contents and selects three typical coastal geological disasters, namely, the seawater intrusion, coastline change and sea-level rise as the objects of study. The systematic analysis and study on assessment system and methods are conducted, hazard assessment factors are selected, and a completely set of coastal disaster assessment system is established based on the technique of GIS. We took Bao’an District of Shenzhen City as an example and carried out a case study. 相似文献
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本文以政府间气候变化专业委员会(IPCC)于2001年专门报告中关于21世纪内全球气候变化的温度和海平面变化的预估为前提。简要介绍了中国珊瑚礁的定位、类型和分布,对其进行了成熟度分类,评估了全球海平面变化对中国珊瑚礁的影响。据预测,21世纪我国各海域海平面上升以南海最大,为32 ~ 98cm,其平均上升速率为0.32 ~ 0.98cm/a。从海平面上升速率与珊瑚礁生长速率的理论对比分析,中国珊瑚礁基本上能与前者同步生长,即使海平面以预估高值上升,也不会威胁其生存。从中国珊瑚礁成熟度较高、其生长趋势以侧向生长为主的现实状况出发,未来全球海平面上升能为其创造向上生长的有利条件。从古地理学“将古论今”观点出发,自全新世6000aBP以来曾存在过的高海平面和较高表层海水温度的历史,也可以佐证,21世纪的全球海平面上升不会对中国珊瑚礁的存在和发育造成威胁。现存的珊瑚礁岛应对于全球海平面上升,可以做到“水涨岛高”,它们能够屹立于上升了的未来海平面之上;但对于岛上的人工建筑物则会被浸、被淹,或被淘蚀和破坏,因此必须根据海平面上升的幅度和速率,采取相应的防御措施。 相似文献
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Assessment of the sensitivity of the southern coast of the Gulf of Corinth (Peloponnese, Greece) to sea-level rise 总被引:1,自引:0,他引:1
Efthimios Karymbalis Christos Chalkias George Chalkias Eleni Grigoropoulou George Manthos Maria Ferentinou 《Central European Journal of Geosciences》2012,4(4):561-577
The eustatic sea-level rise due to global warming is predicted to reach approximately 18?C59 cm by the year 2100, which necessitates the identification and protection of sensitive sections of coastline. In this study, the classification of the southern coast of the Gulf of Corinth according to the sensitivity to the anticipated future sealevel rise is attempted by applying the Coastal Sensitivity Index (CSI), with variable ranges specifically modified for the coastal environment of Greece, utilizing GIS technology. The studied coastline has a length of 148 km and is oriented along the WNW-ESE direction. CSI calculation involves the relation of the following physical variables, associated with the sensitivity to long-term sea-level rise, in a quantifiable manner: geomorphology, coastal slope, relative sea-level rise rate, shoreline erosion or accretion rate, mean tidal range and mean wave height. For each variable, a relative risk value is assigned according to the potential magnitude of its contribution to physical changes on the coast as the sea-level rises. Every section of the coastline is assigned a risk ranking based on each variable, and the CSI is calculated as the square root of the product of the ranked variables divided by the total number of variables. Subsequently, a CSI map is produced for the studied coastline. This map showed that an extensive length of the coast (57.0 km, corresponding to 38.7% of the entire coastline) is characterized as highly and very highly sensitive primarily due to the low topography, the presence of erosionsusceptible geological formations and landforms and fast relative sea-level rise rates. Areas of high and very high CSI values host socio-economically important land uses and activities. 相似文献
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《China Geology》2019,2(1):26-39
Bulletins of China’s National Sea Level show that the average rising rate of sea-levels in China is 3.3 mm/a over the past 40 years, with an obviously accelerated rising trend in the last decade. The rate of relative sea-level rise of the Yangtze River Delta reached >10 mm/a after considering the land subsidence, and Bohai Bay is even greater than 25 mm/a. The impact of the sea level rise to the coastal area will be greater in the coming years, so carrying out an assessment of this rising trend is urgent. This paper, taking the coastal area of Tianjin and Hebei as examples, comprehensively evaluates the impact of sea-level rise through multitemporal remote sensing shoreline interpretation, ground survey verification, elevation measurements for both seawall and coastal lowlands. The results show that the average elevation of the measured coastal areas of Tianjin and Hebei is about +4 m, and the total area of >100 km2 is already below the present mean sea level. More than 270 km, ca. 31% of the total length of the seawall, cannot withstand a 1-in-100-year storm surge. Numerical simulations of the storm flooding on the west coast of Bohai Bay, for 1-in-50-years, 1-in-100-years, 1-in-200-years and 1-in-500-years, show that if there were no coastal dykes, the maximum flooding area would exceed 3000 km2, 4000 km2, 5300 km2 and 7200 km2, respectively. The rising sea has a direct and potential impact on the coastal lowlands of Tianjin and Hebei. Based on the latest development in international sea-level rise prediction research, this paper proposes 0.5 m, 1.0 m and 1.5 m as low, middle and high sea level rise scenarios by 2100 for the study area, and combines the land subsidence and other factors to the elevation of the existing seawall. Comprehensive evaluation results indicate that even in the case of a low scenario, the existing seawall will not be able to withstand a 1-in-100-years storm surge in 2030, and the potential flooding areas predicted by the model will become a reality in the near future. Therefore, the seawall design in the coastal areas of Tianjin and Hebei must consider the combined effects of land subsidence, sea level rise and the extreme storm surges caused by it.©2019 China Geology Editorial Office. 相似文献