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1.
Rapid warming of Large Marine Ecosystems 总被引:4,自引:1,他引:3
The need to understand local effects of global climate change is most urgent in the Large Marine Ecosystems (LMEs) since marine ecosystem-based management requires information on the LME scale. Reported here is a study of sea surface temperature (SST) change in the World Ocean LMEs in 1957–2006 that revealed strong regional variations in the rate of SST change. The rapid warming in 1982–2006 was confined to the Subarctic Gyre, European Seas, and East Asian Seas. These LMEs warmed at rates 2–4 times the global mean rate. The most rapid warming was observed in the land-locked or semi-enclosed European and East Asian Seas (Baltic Sea, North Sea, Black Sea, Japan Sea/East Sea, and East China Sea) and also over the Newfoundland–Labrador Shelf. The Indian Ocean LMEs’ warming was slow, while two major upwelling areas – California and Humboldt Currents – experienced a slight cooling. The Subarctic Gyre warming was likely caused by natural variability related to the North Atlantic Oscillation. The extremely rapid surface warming in the enclosed and semi-enclosed European and East Asian Seas surrounded by major industrial/population agglomerations may have resulted from the observed terrestrial warming directly affecting the adjacent coastal seas. Regions of freshwater influence in the European and East Asian Seas seem to play a special role in modulating and exacerbating global warming effects on the regional scale. 相似文献
2.
3.
《Ocean & Coastal Management》2006,49(9-10):640-648
Since the 1992 United Nations Conference on Environment and Development, considerable movement has been made by international organizations engaged in ocean affairs towards adopting ecosystem-based assessment and management practices. A decade later, at the World Summit on Sustainable Development (WSSD), another significant milestone was reached with the support, by over 100 countries, for a Plan of Implementation that agreed on several specific ecosystem-related targets including: achievement of “substantial” reductions in land-based sources of pollution by 2006; introduction of the ecosystems approach to marine resource assessment and management by 2010; designation of a network of marine protected areas by 2012; and the maintenance and restoration of fish stocks to maximum sustainable yield levels by 2015. An international financial mechanism, the Global Environment Facility (GEF), is assisting developing countries in meeting the WSSD targets by supporting Large Marine Ecosystem (LME) assessment and management projects. Of the 29 LMEs for which published case study information is available on analyses of principal forces driving changes in biomass yields, fishing effort was the primary forcing mechanism in 14 LMEs, climate forcing was the principal factor in 13 LMEs, eutrophication in one case and the data were inconclusive in another. Fishing effort was a secondary driver of change in biomass yields in the 13 LMEs driven by climate forcing. Mitigating actions for reducing fishing effort to promote recovery of lost biomass yield is proving successful in one case study. Actions for improving forecasts of oceanographic conditions affecting fish stocks are underway in four GEF-supported LME projects (e.g., Humboldt Current, Canary Current, Guinea Current and Benguela Current); measures to assess and manage excessive fishing effort are planned for eight LME projects, eutrophication reduction and control in another; and six LMEs with relatively stable decadal biomass yields appear suitable for mandating precautionary total allowable catch levels. The GEF/LME projects include countries that contributed to 45% of global marine biomass yields in 1999. 相似文献
4.
This study uses a comparative approach to examine responses of marine ecosystems to climatic regime shifts. The three seas surrounding the Korean peninsula, the Japan/East Sea, the East China Sea and the Yellow Sea represent three contiguous but distinct ecosystems. Sampling has been carried out by the National Fisheries Research and Development Institute of South Korea since 1965, using the same methods in all three seas. Sampling was generally synoptic. Amplitude time series of 1st EOF modes for temperature, salinity, zooplankton biomass and concentrations of four major zooplankton taxa were used to determine whether the three marine ecosystems respond in a similar manner to climate variations. Temporal patterns of the variables were strongly similar among the three seas at decadal time scales, but very weakly similar at interannual scales. All three seas responded to a climatic regime shift that occurred in 1989. Temperature, zooplankton biomass and copepod concentrations increased in the late 1980s or early 1990s in all three seas. Concentrations of amphipods, chaetognaths and euphausiids also increased in the Japan/East Sea and the East China Sea, but not the Yellow Sea. The Yellow Sea ecosystem differs strongly from the other two seas, and water exchange between the Yellow Sea and the East China Sea is much weaker than that between the East China Sea and Japan/East Sea. Spatial patterns of zooplankton determined by the EOF analysis were closely related to currents and fronts in each of the three seas. 相似文献
5.
Simulation of the seasonal thermal structure in the Bohai Sea 总被引:1,自引:0,他引:1
The seasonal thermal structure in the Bohai Sea are examined with a three-dimensional boroclinic primitive equation model for shelf sea.The evolution of the seasonal thermal stratification is well simulated.The stratification appears early in April,first in the area off Qinhuangdao and it is well developed in the middle of May.It intensifies with synoptic and neap-spring fluctuations throughout the summer and reaches its maximum in the middle of July.Eventually,it is destroyed at the end of September.There are cold water belts between well-mixed and stratified regions.They are loGated on the mixed side of tidal fronts,and coincide with the isolines for a temperature difference of 1-2℃ between surface and bottom.The sea surface temperature (SST) distribution shows local maxima at the head of three bays and to the south of Qinhuangdao during the summer.The Bohai Sea responds to the variability in the atmospheric forcing and in tides with the synoptic and neap-spring variations of SST,as well as in the stratification and in variable positions of tidal fronts. 相似文献
6.
黄海暖流源区海表面温度锋面的结构及季节内演变 总被引:2,自引:0,他引:2
利用1985~2002年月均和每8天平均的AVHRR Pathfinder卫星海表面温度数据,分析了黄海暖流源区海表面温度锋面的分布特征及其季节和季节内演变过程的规律.分析结果表明,黄海暖流源区海表面温度锋面只在冬季及其前后出现,且是一个包含南北两支锋面的锋面系统,其北支锋面位于33°~34°N之间,大体呈东西走向,南支锋面沿长江浅滩边缘,呈西北东南走向,作者称之为黄海暖流源区锋面.该锋面从11月下旬于济州岛西部生成并向西北方向扩展,至1,2月份达到最大程度,于2月下旬后向东南方向退缩并在3月份至5月份之间消失.在该锋面系统的生长期和衰退期,其南北两支锋面有时于西端连接在一起而形成指向西北的舌状锋面.黄海暖流源区锋面的演变过程与黄海暖流的演变过程紧密相关,也对黄东海的质量和热量交换有重要影响. 相似文献
7.
The large marine ecosystem (LME) concept and approach has had a global impact on marine ecosystem-based management. The LME approach provides a framework for assessing and monitoring LMEs and is based on five modules: productivity, fish and fisheries, pollution and ecosystem health, socioeconomics, and governance. It appears that the LME approach is also being used to structure interventions to bring about change. Its appropriateness for the latter purpose is questioned. The major concerns are that the LME approach is not consistent with current thinking about enabling governance and its compartmentalized structure does not facilitate effective governance intervention. Current thinking on good governance suggests that it is more appropriate to approach governance interventions at the LME scale through multi-level governance policy cycles. 相似文献
8.
Thermal fronts and cross-frontal heat flux in the southern Huanghai Sea and the East China Sea 总被引:1,自引:0,他引:1
Synoptic features in/around thermal fronts and cross-frontal heat fluxes in the southern Huanghai./Yellow Sea and East China Sea (HES) were examined using the data collected from four airborne expendable bathythermograph surveys with horizontal approxmately 35 km and vertical 1 m(from the surface to 400 m deep) spacings. Since the fronts are strongly affected by HES current system, the synoptic thermal features in/around them represent the interaction of currents with surrounding water masses. These features can not be obtained from climatological data. The identified thermal features are listed as follows : ( 1 ) multiple boundaries of cold water, asymmetric thermocline intrusion, locally-split front by homogeneous water of approxmately 18 ℃, and mergence of the front by the Taiwan Warm Current in/around summertime southern Cheju - Changjiang/Yangtze front and Tsushima front; (2) springtime frontal eddy-like feature around Tsushima front; (3) year-round cyclonic meandering and summertime temperature-inversion at the bottom of the surface mixed layer in Cheju - Tsushima front; and (4) multistructure of Kuroshio front. In the Kuroshio front the mean variance of vertical temperature gradient is an order of degree smaller than that in other HES fronts. The southern Cheju- Changjiang front and Cheju -Tsushima front are connected with each other in the summer with comparable cross-frontal temperature gradient. However, cross-frontal heat flux and lateral eddy diffusivity are stronger in the southern Cheju - Changjiang front. The cross-frontal heat exchange is the largest in the mixing zone between the modified Huanghai Sea bottom cold water and the Tsushima Warm Current, which is attributable to enhanced thermocline intrusions. 相似文献
9.
基于笔者近年来对海洋锋的研究(1990;1992;1995)[1,5~7],本文初次探讨了东海海洋锋的分类问题。同时,对各类海洋锋的海洋学特征及其形成机理做了分析比较。并给出了各种海洋锋的垂直结构模式图。 相似文献
10.
Spatial and Temporal Scale Variations of Sea Surface Temperature in the East Sea Using NOAA/AVHRR Data 总被引:1,自引:0,他引:1
Sea surface temperature fields in the East Sea are composed of various spatial structures such as eddies, fronts, filaments,
turbulent-like features and other mesoscale variations associated with the oceanic circulations of the East Sea. These complex
SST structures have many spatial scales and evole with time. Semi-monthly averaged SST distributions based on extensive satellite
observations of SSTs from 1990 through 1995 were constructed to examine the characteristics of their spatial and temporal
scale variations by using statistical methods of multi-dimensional autocorrelation functions and spectral analysis. Two-dimensional
autocorrelation functions in the central part of the East Sea revealed that most of the spatial SST structures are anisotropic
in the shape of ellipsoids with minor axes of about 90–290 km and major axes of 100–400 km. Two dimensional spatial scale
analysis demonstrated a consistent pattern of seasonal variation that the scales appear small in winter and spring, increase
gradually to summer, and then decrease again until the spring of the next year. These structures also show great spatial inhomogeneity
and rapid temporal change on time scales as short as a semi-month in some cases. The slopes in spectral energy density spectra
of SSTs show characteristics quite similar to horizontal and geostrophic turbulence. Temporal spectra at each latitude are
demonstrated by predominant peaks of one and two cycles per year in all regions of the East Sea, implying that SSTs present
very strong annual and semi-annual variations.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
11.
南黄海西北部夏季潮锋的观测和分析 总被引:3,自引:1,他引:2
根据2001-2004年逐年6月多学科综合调查资料和同期NASA的MODIS/Terra卫星遥感SST资料,对南黄海西北部夏季潮锋的不连续分布现象做了分析;并通过三维潮流数值模式计算Simpson-Hunter参数(以下简称S-H参数)分布,对不连续分布的形成机制做了讨论.层化季节南黄海西北部的苏北浅滩-海州湾外侧和山东半岛东部的成山头-石岛外海存在显著潮锋现象,而在两海域之间、青岛以东的山东半岛南部121°~122°E的近岸海域无显著潮锋持续存在;较高分辨率的潮流数值模拟的结果表明潮锋的不连续性分布主要是由潮混合和地形的共同作用而形成.潮锋不连续处海域潮混合较弱,层化现象更为显著.南黄海西北部底层锋形态较为显著,位于通过潮流模式计算的Simpson-Hunter参数1.8~2.4之间,与2.2等值线分布较为一致;表层锋则在海州湾外侧和石岛沿岸海域较为明显.潮锋不连续的分布特征对该海域的生态环境造成一定的影响,叶绿素a、中华哲水蚤、鳀鱼卵子等的数量分布都在潮锋显著的苏北浅滩-海州湾外侧和成山头-石岛外海海域形成较为密集的分布. 相似文献
12.
海表水温变动对东、黄海鲐鱼栖息地分布的影响 总被引:6,自引:2,他引:4
海表水温(SST)通常是表征鱼类栖息地分布的主要指标。本文根据1999—2007年我国大型灯光围网的鲐鱼生产统计数据,结合海洋遥感获得的SST,分析了渔汛期间鲐鱼栖息地的适宜SST范围,探讨了SST变动情况下鲐鱼栖息地的变化趋势。研究结果表明,东、黄海鲐鱼7—12月的适宜SST范围为15~30℃。根据政府气候变化专门委员会(IPCC)第四份评估报告,本文拟定4种SST上升的情况,即(1)每月平均SST+0.5℃;(2)每月平均SST+1℃;(3)每月平均SST+2℃;(4)每月平均SST+4℃。结果显示,东、黄海鲐鱼的潜在栖息有明显向北移动的趋势,并且栖息地面积逐渐减小。研究认为,全球气候变化引起的SST上升,可能会对近海鲐鱼栖息地造成严重的影响。 相似文献
13.
Thermal and haline fronts in the Yellow/East China Seas: Surface and subsurface seasonality comparison 总被引:1,自引:0,他引:1
Seasonal variability of surface and subsurface thermal/haline fronts in the Yellow/East China Seas (YES) has been investigated
using three-dimensional monthly-mean temperature and salinity data from U.S. Navy’s Generalized Digital Environmental Model
(Version 3.0). The density-compensated Cheju-Yangtze Thermal/Haline Front has (northern and southern) double-tongues. The
northern tongue is most evident throughout the depth from December to April. The southern tongue is persistent at the subsurface
with conspicuous haline fronts. The thermal (haline) frontal intensity of the northern tongue is controlled mainly by the
temperature (salinity) variation on the shoreward (seaward) side of the front. The cold water over the Yangtze Bank is influential
in generating the southern tongue and intensifying the Tsushima Thermal Front. The year-round Cheju-Tsushima Thermal Front
is evident throughout the depth and intensifies from July to December. The northern arc of the Yangtze Ring Haline Front is
manifest in spring and is sustained until summer, whereas the southern one is fully developed in summer because of eastward
migration of the Yangtze Diluted Water. The area showing strong frontal intensity in the Chinese Coastal Haline Front shifts
seasonally north and south along the Zhejiang-Fujian coast. The Generation and evolution of YES fronts are closely associated
with YES circulation (inferred from the linkage of the water masses). Moreover, the subsurface temperature/salinity evolution
on the fronts in the Yellow Sea differs from that in the East China Sea owing to local factors such as wintertime vertical
mixing and a summertime strong thermocline above the Yellow Sea Bottom Cold Water. 相似文献
14.
《Marine Policy》2013
The concept that underlies the interventions of the Global Environment Facility (GEF) International Waters Program is adaptive management at the Large Marine Ecosystem (LME) scale across the sequence of interventions from assessment and analysis to development of regional strategic action programs and national implementation of action plans to address transboundary environmental concerns. The GEF has provided grants to recipient countries in the East Asian Seas region covering five LMEs since the early 1990s and amounting to about US$200 million. This paper analyses GEF support to the Seas of the East Asian Region to draw lessons for future investments in LME management. To identify investment gaps and the overarching drivers of environmental degradation across scales, transboundary diagnostic analysis of LMEs need to be linked to analysis of existing investment flows. Most funding for implementation of strategic action programs should be targeted at the national level, as interventions at this level are on average leveraging much more co-financing to GEF projects than regional interventions. Better coordination and agreed procedures and methodologies among different regional entities, programs and projects are necessary in regions, such as the EAS, with multiple regional initiatives at different scales. Better coordination of financial support to programs and projects operating at different scales would also strengthen the extent to which ecosystem-based management could be applied through better harmonization of management frameworks and tools for marine and coastal management from local to national to regional levels. Strategies towards achieving sustainable financing should be encouraged and implemented to ensure adaptive management and achievement of goals and targets under SAPs. 相似文献
15.
Kuh Kim Yun Bae Kim Jong Jin Park SungHyun Nam Kyung-Ae Park Kyung-Il Chang 《Ocean Science Journal》2005,40(1):25-44
Long-term, continuous, and real-time ocean monitoring has been undertaken in order to evaluate various oceanographic phenomena
and processes in the East/Japan Sea. Recent technical advances combined with our concerted efforts have allowed us to establish
a real-time monitoring system and to accumulate considerable knowledge on what has been taking place in water properties,
current systems, and circulation in the East Sea. We have obtained information on volume transport across the Korea Strait
through cable voltage measurements and continuous temperature and salinity profile data from ARGO floats placed throughout
entire East Sea since 1997. These ARGO float data have been utilized to estimate deep current, inertial kinetic energy, and
changes in water mass, especially in the northern East Sea. We have also developed the East Sea Real-time Ocean Buoy (ESROB)
in coastal regions and made continual improvements till it has evolved into the most up-to-date and effective monitoring system
as a result of remarkable technical progress in data communication systems. Atmospheric and oceanic measurements by ESROB
have contributed to the recognition of coastal wind variability, current fluctuations, and internal waves near and off the
eastern coast of Korea. Long-term current meter moorings have been in operation since 1996 between Ulleungdo and Dokdo to
monitor the interbasin deep water exchanges between the Japanese and Ulleung Basins. In addition, remotely sensed satellite
data could facilitate the investigation of atmospheric and oceanic surface conditions such as sea surface temperature (SST),
sea surface height, near-surface winds, oceanic color, surface roughness, and so on. These satellite data revealed surface
frontal structures with a fairly good spatial resolution, seasonal cycle of SST, atmospheric wind forcing, geostrophic current
anomalies, and biogeochemical processes associated with physical forcing and processes. Since the East Sea has been recognized
as a natural laboratory for global oceanic changes and a clue to abrupt climate change, we aim at constructing a 4-D continuous
real-time monitoring system, over a decade at least, using the most advanced techniques to understand a variety of oceanic
processes in the East Sea. 相似文献
16.
Based on the analysis of the quality level in a Pathfinder 4km daily nighttime Sea Surface Temperature product (PFSST) in the East China Seas (ECS) from 1985 to 2004, the proportion of high-quality data was lower than that in the global level. Additionally, the PFSST maps showed clearly the void and anomaly data impacted by atmospheric contamination. In order to solve the above problem, an optimal algorithm was established through introducing the structure function, setting up the daily first-guess sea surface temperature (SST) field and taking PFSST product of the highest quality as reference points. Comparisons were done between this optimally interpolated SST and the selected original PFSST and the simultaneous in situ measurements. It illustrated it was possible to exactly estimate the SST values in the ECS during the recent two decades. The mean bias error and the root mean square error between data sets optimally evaluated and in situ observed were lower than those between the previous global estimations and in situ measurnments. 相似文献
17.
东海东北部春季若干重要水文结构的分析 总被引:7,自引:2,他引:7
本文主要基于韩国海洋研究所在东海沿岸海洋过程试验中收集的CTD资料,分析了1995年春季出现在东海东北部的一些重要水文结构。结果表明,一种锋涡状结构出现在黑潮向东转折点附近。它不仅使邻近海域的水文结构变得更复杂,而且诱发黑潮水与陆架水间活跃的交换。在陆架坡折处观测到若干孤立的陆架水块,可能是锋涡的卷挟作用所致;该海域存在4个水团,即黑潮水、对马暖流水、陆架水和混合水。对马暖流水分为上下两层:上层水为变性黑潮水,盐度比黑潮水约低0.1,底层对马暖流水仅位于冲绳海槽区,并有着与黑潮中层水相同的温、盐特性;一种双锋结构出现在邻近黑潮的陆架边缘附近。在内陆架形成的陆架锋,由北向南伸展时,愈来愈偏向陆架边缘。而黑潮锋沿九州以西深槽的陆架边缘向北伸展。在黑潮转折点附近,两锋几乎合并为一条锋。狭窄的锋带由黑潮水及其变性水和陆架水的混合水所占据。 相似文献
18.
本文全面地讨论了潮流、风暴和环流等动力作用对东海陆架沉积作用的影响。根据作用于陆架的主要动力营力可将陆架划分为三个动力沉积区:潮流沉积区、环流沉积区和复合沉积区。东海陆架表层沉积物与现代水动力条件处于平衡状态,因此,中、外陆架的广阔砂带应属原地现代沉积,而不是晚更新世的残留沉积。 相似文献
19.
1.5 Ma以来南海南北上部水体温度变化对比 总被引:3,自引:0,他引:3
浮游有孔虫表层海水古温度转换函数、表层暖水种属种含量比值,以及次表层暖水种含量的变化,表明南海北部1.5Ma以来表层、次表层海水温度逐渐降低,其主要变化阶段为0.86~0.94Ma和0.64~0.68Ma。与南海南部西太平洋暖池区的17957站研究结果对比.发现南海南部1.5Ma以来表层、次表层海水温度逐渐增加.发生的主要时间为1.23~1.3Ma和0.64~0.68Ma。南海北部的上部海水结构变化主要受东亚冬季风影响,而南海南部则主要受西太平洋暖池影响,因此,南海南、北上部海水温度的变化说明0.9Ma后尤其是0.68Ma以来东亚冬季风强化,西太平洋暖池加强。 相似文献
20.
Trends of sea surface temperature and sea surface temperature fronts in the South China Sea during 2003–2017 总被引:2,自引:0,他引:2
The trends of the sea surface temperature(SST) and SST fronts in the South China Sea(SCS) are analyzed during2003–2017 using high-resolution satellite data. The linear trend of the basin averaged SST is 0.31°C per decade,with the strongest warming identified in southeastern Vietnam. Although the rate of warming is comparable in summer and winter for the entire basin, the corresponding spatial patterns of the linear trend are substantially different between them. The SST trend to the west of the Luzon Strait is characterized by rapid warming in summer, exceeding approximately 0.6°C per decade, but the trend is insignificant in winter. The strongest warming trend occurs in the southeast of Vietnam in winter, with much less pronounced warming in summer. A positive trend of SST fronts is identified for the coast of China and is associated with increasing wind stress. The increasing trend of SST fronts is also found in the east of Vietnam. Large-scale circulation, such as El Ni?o, can influence the trends of the SST and SST fronts. A significant correlation is found between the SST anomaly and Ni?o3.4 index, and the ENSO signal leads by eight months. The basin averaged SST linear trends increase after the El Ni?o event(2009–2010), which is, at least, due to the rapid warming rate causing by the enhanced northeasterly wind. Peaks of positive anomalous SST and negatively anomalous SST fronts are found to co-occur with the strong El Ni?o events. 相似文献