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1.
Jiangsu has the most abundant tidal flat resources among China's coastal provinces.To ease the conflict between the growing population and shrinking usable land and to promote regional sustainable development,large-scale coastal reclamation development activities have been performed in Jiangsu Province since 1949.The present study has integrated multi-source remote sensing images during 1974 to 2012 by using a Multi-point Fast Marching Method(MFMM) to extract the Jiangsu coastal reclamation areas for different time periods.The temporal and spatial patterns of the extent and elevation of the reclamation areas were analysed in order to determine the unused potential for future reclamation.It will provide information necessary to support the development and construction of tidal flats in Jiangsu.Results show that:(1) the reclaimed tidal flats along the Jiangsu coast cover more than 19.86×104 hm2,of which 13.97×104 hm2 is located in Yancheng,4.84×104 hm2 in Nantong,and 1.05×104 hm2 in Lianyungang;(2) the average elevation of the reclaimed Jiangsu tidal flats has gradually decreased over the last 40 years,while those in Dongtai and Rudong have showed particularly accelerated decrease since the 1990s;and(3) in 2012,very few unused tidal flats two meters above the sea level are left along the Jiangsu coast,and mainly concentrated in Yancheng.As there are still reserving some coastal land resources between 0-2 m,providing us with a potential for future development.All of these findings may be useful for researchers and local authorities for the development and utilization of tidal flat resources in Jiangsu. 相似文献
2.
Jiangsu has the most abundant tidal flat resources among China’s coastal provinces. To ease the conflict between the growing population and shrinking usable land and to promote regional sustainable development, large-scale coastal reclamation development activities have been performed in Jiangsu Province since 1949. The present study has integrated multi-source remote sensing images during 1974 to 2012 by using a Multi-point Fast Marching Method (MFMM) to extract the Jiangsu coastal reclamation areas for different time periods. The temporal and spatial patterns of the extent and elevation of the reclamation areas were analysed in order to determine the unused potential for future reclamation. It will provide information necessary to support the development and construction of tidal flats in Jiangsu. Results show that: (1) the reclaimed tidal flats along the Jiangsu coast cover more than 19.86×104 hm2, of which 13.97×104 hm2 is located in Yancheng, 4.84×104 hm2 in Nantong, and 1.05×104 hm2 in Lianyungang; (2) the average elevation of the reclaimed Jiangsu tidal flats has gradually decreased over the last 40 years, while those in Dongtai and Rudong have showed particularly accelerated decrease since the 1990s; and (3) in 2012, very few unused tidal flats two meters above the sea level are left along the Jiangsu coast, and mainly concentrated in Yancheng. As there are still reserving some coastal land resources between 0?2 m, providing us with a potential for future development. All of these findings may be useful for researchers and local authorities for the development and utilization of tidal flat resources in Jiangsu. 相似文献
3.
A Model for Environmental Impact Assessment of Land Reclamation 总被引:2,自引:0,他引:2
Land reclamation is a complex marine environmental engineering and has a huge impact on social, economic, and physical environment. Reclamation environmental impact assessment (REIA) is also a complicated project, including the assessment of social economic background, ocean engineering, coastal geomorphology, sediment transportation, marine hydrodynamics and marine ecosystem and so on. Nowadays, a large number of land reclaimed projects have been carried out or in the process of construction along the coastal zone, thus, it is necessary to build up a framework on REIA to evaluate and quantify the environmental changes, to contribute to reclamation program, to reduce marine environmental disasters, and to sustain development of coastal zone. This article focuses on the research of REIA framework theory and puts forward a REIA model on land reclaimed evaluation, at the same time, applies this assessment system in Shenzhen City, which is a highly developed coastal city with an expectation of land reclamation. By use of the Remote Sensing (RS) and Geographic Information System (GIS) techniques, along with the topographic map and in situ survey in reclamation area, it concludes that the area of 2680 hectares in total has been reclaimed in Shenzhen city by the end of the year 2000. Thus, reclamation is usually applied to meet the needs for infrastructure, such as harbors, industries and highways in Shenzhen City. However, some serious negative impacts have been created to the coastal environment shown clearly in the following aspects. Firstly, it caused the dramatic changes of tidal flat and channels along the western coast, made this area more unstable, which is threatening the function of the harbor in this area. Secondly, Tidal prism has decreased rapidly. During the 20 years of reclamation, the tidal prism has been reduced by 20%~30% along the western coast in the Lingdingyang Estuary, and 15.6% in the Shenzhen Bay. As a result, the velocity of the tidal current has also declined, and the direction of the tidal current has changed, which is harmful to the dilution and diffusion process of the contaminants. Thirdly, it has threatened the eco-environment finally. More than 147 hectares of mangrove area along the coast of Shenzhen Bay, accounting for 48.8% of the total mangrove reserve area in this region, has been reclaimed only during the short period from 1988 to 2000. Thus, the biodiversity is decreasing, and more and more plants and animals are disappearing. Based on the above analyses of the environmental impacts, strategies and suggestions for the future reclamation in this area have been put forward in order to support the sustainable development of the coastal zone. 相似文献
4.
The El Ni?o Southern Oscillation(ENSO) is a natural phenomenon that relates to the fluctuation of temperatures over the Pacific Ocean. The ENSO significantly affects the ocean dynamics including upwelling event and coastal front. A recent study discovered the seasonal upwelling in the east coast of Peninsular Malaysia(ECPM), which is significant to the fishery industry in this region. Thus, it is vital to have a better understanding of the influence of ENSO towards the coastal upwelling and thermal front in the ECPM. The sea surface temperature(SST) data achieved from moderate resolution imaging spectroradiometer(MODIS) aboard Aqua satellite are used in this study to observe the SST changes from 2005 to 2015. However, due to cloud cover issue, a reconstruction of data set is applied to MODIS data using the data interpolating empirical orthogonal function(DINEOF) to fill in the missing gap in the dataset based on spatial and temporal available data. Besides, a wavelet transformation analysis is done to determine the temperature fluctuation throughout the time series. The DINEOF results show the coastal upwelling in the ECPM develops in July and reaches its peak in August with a clear cold water patch off the coast. There is also a significant change of SST distribution during the El Ni?o years which weaken the coastal upwelling event along the ECPM. The wavelet transformation analysis shows the highest temperature fluctuation is in 2009–2010 which indicates the strongest El Ni?o throughout the time period. It is suggested that the El Ni?o is favourable for the stratification in water column thus it is weakening the upwelling and thermal frontal zone formation in ECPM waters. 相似文献
5.
This paper describes the elevation and subsidence of coastal zone of southern Putian 3600 years BP, having basic characteristics of large magnitude, high frequency and fast rate. Among five times of elevation and subsidence ascertained so far, the largest magnitude of the subsidence is 12.5m, the largest magnitude of the elevation is 35.5 m, the difference of the magnitude of the elevation of beach rocks formed at the same time is 23.5 m, the average rate of the elevation and subsidence is from 5cm to 8 cm per year. The coastal elevation and subsidence over the last scores of years are of the faulted uplift zone in the south, of the faulted depression zone in the north, the average rates of the elevation and subsidence are respectively 6 cm per year and 8cm per year. In addition, it is found that the strong subsidences occurring in the past often have something to do with the big earthquakes. 相似文献
6.
With the development of modern oceanic observation technologies,coastal survey data have been experiencing a substantial growth.The integration management of the data from different disciplines,different sources and different formats has become a major research field in coastal geomorphology by using Geographic Information System (GIS).This paper puts forward a new methodology framework of GIS techniques in coastal ocean geomorphology,including data acquisition,process,analysis,and representation.It focuses on some major GIS techniques to study the land-ocean interaction mechanism,such as spatial analysis,submarine topography model and three-dimension (3D) visualization,and apply its result to coastal urban planning,harbor site selection and geomorphology environment about coral reef and islands on the continental shelf.The case studies cover the whole coastal ocean to serve the social community,economical development and diplomatic rights for decision-making all round in the coastal zone.The research shows clearly that the application of coastal multi-source geospatial platform has changed the traditional coastal geomorphology science dramatically from its research scope,fields and methods,however,as made clear in this paper,extracting accurate information from remote sensing data and GIS databases for coastal geomorphological applications is a nontrivial challenge that requires the combined knowledge and skills of information scientists and geomorphologists. 相似文献
7.
《海洋地质与第四纪地质》1983,(2)
The Hebei Plain is located in the northern part of the Great North ChinaPlain,bounded on the west by the Taihang Mis.,and facing the Bobai Sea onthe east.It is a structural subsiding zone since the Meso-Cenozoic.The Quater-nary system was deposited continuously over the Tertiary.The upper part ofthe Neogene system is a series of lacustrine sediments consisting of alternatedmudstone and sandstone in brownish-red,purple,grayish green,and brownish-yellow colours.The Quaternarys ystem is composed of alternated clayey soil colouredfrom gray to yellow,brown,and brownish red to purple(see Fig.1).Accordingto the data obtained in the prospecting of groundwater in the Hebei Plain sincerecent years,more than 40 boreholes have revealed volcanic deposits in the looseQuaternary sediments,distributed mainly in the surrounding of the Cangzhou cityand eastwards to the coastal area,also scattered sparsely in Hengshui,Shenxian,Jinxian,Shulu and Feixiang counties.The multilayered volcanic deposits aregenerally featured by 相似文献
8.
In this paper the seasonal variation and structural characteristics of the sea/ land breeze in the northern coastal area of" Shandong Peninsula are studied in two ways: one is the analysis of the observed wind data, and the other is numerical simulation and experiments. Firstly, the hour to hour wind data through the year 1984 at Longkou Meteorological Station and Yantai Oceanographic Station are analysed through energy spectra and hodograph. It is revealed from the analysed results that the effects of the sea/ land breeze in the area are notable in spring, summer and fall, especially in May. However, in winter the effects of sea / land breeze are not obvious. because the cold noitherly is prevailing. Secondly, a two-dimensional non- linear model of primitive equations is used to study the sea / land breeze circulation in May in the area. The results of numerical simulation consist basically with the analysed results of the observed sea / land breeze. A reasonable theoretical structure of the sea / land 相似文献
9.
A study of oil spill detection using ASAR images 总被引:5,自引:3,他引:2
The oil spilled worldwide causes ecological disasters that result in enormous damages to the quality of marine environment, and great expenses on clear-up operations are needed. Due to its wide coverage and day-night all-weather observation capability, Synthetic Aperture Radar (SAR) is an important tool for oil spill monitoring and detection. C-band SAR is well adapted to detect oil pollution because oil slicks dampen the Bragg waves and reduce radar backscattering coefficients. In order to detect the area of oil slicks, the algorithm consists of these steps:Preprocessing, Masking of land areas, Detection of dark spots, Spot feature extraction, Dark spot classification. In this paper, the authors examined two coastal regions around Hong Kong and Yantai, China. The obtained results performed on Envisat ASAR images have demonstrated that it is efficient to detect oil spill around the coastal regions. The methodology still needs to be refined with the collection of more SAR data in the near future. 相似文献
10.
基于随机集合的非传统型有效波极值模型 总被引:1,自引:0,他引:1
The analysis and design of offshore structures necessitates the consideration of wave loads. Realistic modeling of wave loads is particularly important to ensure reliable performance of these structures. Among the available methods for the modeling of the extreme significant wave height on a statistical basis, the peak over threshold method has attracted most attention. This method employs Poisson process to character- ize time-varying properties in the parameters of an extreme value distribution. In this paper, the peak over threshold method is reviewed and extended to account for subjectivity in the modeling. The freedom in selecting the threshold and the time span to separate extremes from the original time series data is incorpo- rated as imprecision in the model. This leads to an extension from random variables to random sets in the probabilistic model for the extreme significant wave height. The extended model is also applied to different periods of the sampled data to evaluate the significance of the climatic conditions on the uncertainties of the parameters. 相似文献
11.
12.
为了探究SBAS-InSAR技术在海岸带填海造陆区形变监测的适用性,本文基于28景Sentinel-1A影像,利用SBAS-InSAR技术获取了天津港填海造陆区2018年1月至2019年11月的地表形变信息,揭示天津港填海造陆区的地表形变特征,并分析沉降速率与填海造陆的时间、土地利用类型的关系。结果表明:天津港填海造陆区具有沉降速率范围跨度大、不均匀沉降和多个沉降漏斗的特点,沉降速率范围为-74.9~19.7mm/a;沉降速率与填海造陆时间成反比,早期填海造陆区沉降速率较小,新填海造陆区沉降速率较大;不同土地利用类型的沉降速率差异大。该研究验证了SBAS-InSAR技术在填海造陆区形变监测应用的可行性,为海岸带、海岛礁、滩涂等沿海地区的地面沉降的监测与分析提供了思路。 相似文献
13.
珠江口是我国沿海地面沉降灾害较严重地区之一,长期地面沉降威胁着人类生产生活的质量和安全。针对传统InSAR在河口等沿海地区空间采样率不足的现状,采用基于KS检验和特征分解的DS-InSAR时序分析方法,获得了珠江口地区2015—2018年间地面沉降监测数据,并分析了几处沉降严重地区的沉降特征和原因。采用的DS-InSAR方法在沥青路面、裸土等非城市区域提取了较大密度的高相干点,提高了时序InSAR形变反演的精度。研究表明,研究区域总体呈地面沉降趋势且分布不均匀,珠江三角洲西北部和东南部为主要沉降区,最大沉降速率可达25 mm/a,珠江口西岸沉降相对东岸分布更广,沉降量更大。 相似文献
14.
为探明九龙江河口地区地面沉降情况,本研究采用小基线集合成孔径雷达干涉测量(small baseline subset interferometric synthetic aperture radar, SBAS InSAR)和永久散射体合成孔径雷达干涉测量(persistent scatterer interferometric synthetic aperture rader, PS InSAR)技术获取了2017年1月至2022年3月地面沉降的时空分布信息和演变规律,并结合实地调查数据和水文地质调查监测资料对地面沉降成因进行了系统分析。研究结果表明:SBAS InSAR和PS InSAR两种方法均发现在研究期间九龙河口地区地面整体呈现出沉降趋势,SBAS InSAR监测结果发现研究区沉降速率为6.2 mm/a;研究期间该区域的沉降中心持续扩大且沉降量呈增加趋势,最大累积沉降量达到250 mm以上,主要分布在浮宫镇中南部地区、海澄镇、东园镇中南部地区、角美镇和榜山镇东南部地区;该区域由于大量抽取地下水用于养殖,地下水位下降,引起淤泥层发生固结排水、压密,从而导致地面沉降。 相似文献
15.
The differential interferometric synthetic aperture radar (DInSAR) remote sensing technique has proven to be invaluable in the remote monitoring of earth surface movements associated with the extraction and geostorage (subsurface injection) of natural resources (water, oil, gas). However, a significant limitation of this technique is the low density and uneven coverage that may be achieved over vegetated rural environments. The Intermittent Small Baseline Subset (ISBAS) method, an amended version of the established SBAS algorithm, has been designed to improve coverage over rural, vegetated, land cover classes by allowing for the intermittent coherence that is predominant in such areas. In this paper we perform a validation of the ISBAS method over an area of gas production and geostorage in North Holland, the Netherlands. Forty-two ERS-2 (SAR) C-band images (1995–2000) and 63 ENVISAT (ASAR) C-band images (2003–2010) were processed using the ISBAS technique and the derived measurements enabled the identification of subsidence patterns in rural and urban areas alike. The dominant feature was an area of subsidence to the west of Alkmaar, attributed to natural gas production from the Bergermeer reservoir, where subsidence rates in the region of 3 mm/year were measured. Displacements derived using linear and non-linear surface deformation models were validated with respect to the first order system of levelling benchmarks which form the Amsterdam Ordnance Datum (NAP). It was established that ISBAS products were accurate to within 1.52 mm/year and 1.12 mm/year for the ERS and ENVISAT data sets respectively. Errors achieved were comparable to results using persistent scatterers interferometry (PSI) during a validation activity carried out in the European Space Agency Terrafirma project. These results confirm the capability of the ISBAS method to provide a more regular sampling of land motion measurements over gas fields that may be critically used in future to infer the properties of buried, fluid-filled, porous rock. 相似文献
16.
河谷型、海岸带、海岛礁以及滩涂等区域地表形变信息的准确获取,迫切且关键。利用25景升轨和28景降轨Sentinel-1A数据,基于SBAS-InSAR技术,获取兰州城区2014年10月~2016年9月的地表沉降速率图和沿视线方向(line-of-sight,LOS)的时相位移量,探讨升降轨数据在河谷型城市地表形变监测中的适用性。结果表明:升降轨Sentinel-1A数据之间的时相位移量具有高度关联性,其中升轨数据在地形起伏较大区体现出良好的干涉性,而降轨数据在平坦区表现出较好的监测能力。兰州城区大部分区域处于稳定状态,但沙井驿、九州、小达坪、东岗、伏龙坪、西客站以及周边区域地表存在沉降趋势,最大沉降速率可达30 mm/年。联合升降轨Sentinel-1A数据监测河谷型、海岸带、海岛礁以及滩涂等区域地面沉降具有可行性和可靠性。 相似文献
17.
《Ocean & Coastal Management》2005,48(1):65-83
Substantial changes are taking place in the coastal landscape as a result of rapid urbanization. A series of environmental and resource problems have emerged owing to rapid urban development, including encroachment of agricultural land, land reclamation, silt deposition in rivers, and severe flooding. These problems have had a significant impact on sustainable development in Lingding Bay, the largest estuary of the Pearl River. This paper demonstrates that remote sensing can be effective in monitoring the dynamics of coastal zones, such as coastline movement, urban expansion, land-use changes, and migration of shoals and deep-water channels. Remote sensing data from 1978 to 1998 were used to detect the accelerating changes that have taken place in the study area. A hybrid approach has proved to be an effective way of improving remote sensing image classification, with multi-temporal compound imaging, for coastal change analysis. Geographic information system (Intergraph's modular GIS environment, MGE) software was used to assist planners in the analysis of such changes, by combining the maps from 1974, 1989 to 1997 and integrating the multiple (spatial and attribute) databases. The result demonstrates that: (1) the Pearl River estuary is being reclaimed, estuarine waterways are getting narrower; the area of water near Humen town has narrowed by 4–6 km; (2) shoals in Lingding Bay have reduced the area of water by 114 km2 over the past 23 years; the area of deep-water channels has declined by ∼24 km2, even with dredging; on average, the area of water has decreased by 5.9 km2 annually; western channels migrated eastwards 0.8 and 1.1 km during the first and second 10-year period, respectively; according to this scenario, the western channel will disappear from Lingding Bay in approximately 183 years; (3) land-use changes: 92% of shoal reclamation occurred in the 1980s and 80% of waterway reclamation happened during the 1990s; Panyu District of Guangzhou city leads the table in land reclamation, Zhongshan city is second, and Zhuhai city third; the area of reclamation in the last 10 years is slightly more (1.18 times) than in the previous 10 years, in particular, there was a 1.6- and 1.8-fold increase, respectively, for the Zhongshan and Zhuhai coastal regions; at the current rate of reclamation, Tangjia Bay in Zhuhai and Jiaoyi Bay in Dongwan will vanish in approximately 25 and 70 years, respectively; the decline of the bays will cause large-scale destruction of the aquatic environment—the consequences should not be ignored. The impact of such changes on flood control and prevention, and coastal planning, are also discussed. We stress the importance of regulating and controlling the long-term development of coastal areas in the Pearl River Delta. 相似文献
18.
冀津海岸带是国内港口和围填海工程集中分布区之一,高强度开发活动对土地利用变化产生深远影响。本研究基于中科院土地利用遥感监测数据,在原有分类系统基础上增加了养殖盐田用地、待利用地、滨海滩涂、浅海海域等4类利用类型,分析了改革开放以来土地利用时空变化特征及其驱因素。结果表明:(1)近40 a内土地利用总体动态度可达0.48%,土地利用强度不断上升,土地类型的主要转移方向为建设用地、养殖盐田用地及待利用地;(2)土地利用变化的峰值时段为2000-2010年,变化区域在空间上集中分布在距离海岸带3~8 km范围内,即黄骅、滨海新区、曹妃甸围填海区域及乐亭沿海陆域。地理加权回归结果显示,地形、中心城市、GDP、人口、港口等因素是对土地利用强度产生主要影响的因素,且人口及港口建设的驱动效应有所增强。土地财政依赖、过度超前规划是待利用地激增的主要政策性驱动因素,近10 a来的基本农田和滨海湿地保护政策降低了耕地和滩涂的缩减量。当前,冀津沿海地区应进一步提高待利用地使用效率,加强土地利用高强度变化区域的生态环境监测与修复。 相似文献
19.
Linbo Wu Jianxiu Wang Jie Zhou Tianliang Yang Xuexin Yan Yu Zhao 《Marine Georesources & Geotechnology》2020,38(8):947-969
AbstractShanghai has the largest newly reclaimed area in China’s coastal regions, and dredger fills are universally distributed in reclaimed lands there. Multi-scale geotechnical properties of dredger fills in region-scale (>1?km2), site-scale (1?m2–1?km2), mesoscale (1?cm2–1 m2), and microscale (1?µm2–1?cm2) were studied mainly through cone penetration investigation, borehole investigation, and microscopic inspections. Dredger impact craters, soil structures, and soil textures were investigated qualitatively and quantitatively to identify the dredger fills. Ultimate land subsidence since 1 July 2018 and land subsidence velocity characterized by the land subsidence from 1 July 2018 to 1 January 2019 were evaluated in Shanghai’s typical reclaimed regions. Afterwards, Bayesian network including sixteen variables was proposed for land subsidence risk assessment. Surface subsidence, land subsidence velocity, and comprehensive land subsidence were the most sensitive to data point location and average initial void ratio of underlying strata. These three risk variables were also highly correlated to the thickness of the dredger fill layer and the reclamation time. This finding indicates that variances of the four independent variables (i.e., data point location, average initial void of underlying strata, land reclamation time, and thickness of dredger fill layer) significantly decide variances of the three risk levels. 相似文献
20.
为进一步加强海域使用管理,促进海域开发利用和资源环境的可持续发展,文章建立围填海用海承载指数评价指标体系和评价模型,分析江苏13个县级行政区的围填海用海承载指数及其监测预警情况,并提出建议。研究结果表明:江苏围填海用海承载指数评价指标体系包括资源禀赋、开发利用强度、发展潜力和区域约束4个一级指标以及10个二级指标;江苏13个县级行政区的围填海用海承载指数为-0.46~9.63,呈显著的空间差异,其中中部辐射沙洲区的大丰区、东台市和如东县围填海用海承载条件良好,北部连云港市辖区以及南部南通市的通州区和启东市围填海用海承载条件较差;未来应建立围填海用海承载能力监测预警长效机制、严格实行围填海管控制度、合理调整和优化产业布局以及加强政府和社会的协同监督。 相似文献