Effect of sea surface wind on the seasonal variation of sea level in the east of China seas

Sea level seasonal variations in the east of China seas from 2004 to 2006 are simulated by the advanced ROMS model. The results show similar sea level spatial features with TOPEX/Poseidon observations, with annual ranges decreasing gradually from the sea coast to the Kuroshio region. By getting rid of wind stress in ROMS model, the simulated sea level results still show obvious seasonal variations. However, the phenomenon of sea level anomaly disappears in Min Zhe Current Coastwise （MZCF） and Su Bei current coastwise （SBCF）, and the change of it from coastal area to ocean recedes. The seal level difference between Bohai, Yellow Sea （BYS） and East China Sea （ECS） becomes weaker in spring and autumn. The annual differences decrease obviously, and the gradual change of annual ranges from seacoast to the Kuroshio almost disappears. The annual ranges in BYS are nearly identical. The annual range ratio without the wind stress to with the wind stress increases gradually from the sea coast to Kuroshio region.

Winter sea ice albedo variations in the Bohai Sea of China

Sea ice conditions in the Bohai Sea of China are sensitive to large-scale climatic variations. On the basis of CLARA-A1-SAL data, the albedo variations are examined in space and time in the winter（December, January and February） from 1992 to 2008 in the Bohai Sea sea ice region. Time series data of the sea ice concentration（SIC）, the sea ice extent（SIE） and the sea surface temperature（SST） are used to analyze their relationship with the albedo. The sea ice albedo changed in volatility appears along with time, the trend is not obvious and increases very slightly during the study period at a rate of 0.388% per decade over the Bohai Sea sea ice region.The interannual variation is between 9.93% and 14.50%, and the average albedo is 11.79%. The sea ice albedo in years with heavy sea ice coverage, 1999, 2000 and 2005, is significantly higher than that in other years; in years with light sea ice coverage, 1994, 1998, 2001 and 2006, has low values. For the monthly albedo, the increasing trend（at a rate of 0.988% per decade） in December is distinctly higher than that in January and February. The mean albedo in January（12.90%） is also distinctly higher than that in the other two months. The albedo is significantly positively correlated with the SIC and is significantly negatively correlated with the SST（significance level 90%）.

The Missing Time Calculation of the Hiatus Surface:A Case Study of the Upper Permian Reef Section the Platform Margin, Ziyun, Guizhou

Taken as an example the Upper Permian reef section on the carbonate platformmargin at Ziyun, Guizhou, the paper discusses the missing time of a hiatus surface, an impor-tant problem in chemical sequence stratigraphy, with the concept of cosmic chemistry. Then thepaper proposes a series of new concepts for chemical sequence stratigraphy, including the con-densation surface, relative compaction factor and time missing factor. Finally a quantitativecurve of Late Permian relative sea-level change in the Ziyun area is presented with timecoordinates.

SPATIAL VARIATION OF WINTER SEA SURFACE TEMPERATURE IN NORTH PACIFIC AND ITS RELATION TO ATMOSPHERIC OSCILLATION MODES

The spatial variation of sea surface temperature anomalies(SSTA) in the North Pacific Ocean during winter is investigated using the EOF decomposition method.The first two main modes of SSTA are associated with Pacific Decadal Oscillation(PDO) mode and North Pacific Gyre Oscillation(NPGO) mode,respectively.Moreover,the first mode(PDO) is switched to the second mode(NPGO),a dominant mode after mid-1980.The mechanism of the modes' transition is analyzed.As the two oceanic modes are forced by the Aleutian Low(AL) and North Pacific Oscillation(NPO) modes,the AR-1 model is further used to examine the possible effect and mechanism of AL and NPO in generating the PDO and NPGO.The results show that compared to the NPO,the AL plays a more important role in generating the NPGO mode since the 1970s.Likewise,both the AL and NPO affect the PDO mode since the 1980s.

The global mean sea surface model WHU2013

The mean sea surface （MSS） model is an important reference for the study of charting datum and sea level change. A global MSS model named WHU2013, with 2′ × 2′ spatial resolution between 80° S and 84°N, is established in this paper by combining nearly 20 years of multi-satellite altimetric data that include Topex/Poseidon （T/P）, Jason-1, Jason-2, ERS-2, ENVISAT and GFO Exact Repeat Mission （ERM） data, ERS-1/168, Jason-1/C geodetic mission data and Cryosat-2 low resolution mode （LRM） data. All the ERM data are adjusted by the collinear method to achieve the mean along-track sea surface height （SSH）, and the combined dataset of T/P, Jason-1 and Jason-2 from 1993 to 2012 after collinear adjustment is used as the reference data. The sea level variations in the non-ERM data （geodetic mission data and LRM data） are mainly investigated, and a combined method is proposed to correct the sea level variations between 66°S and 66°N by along-track sea level variation time series and beyond 66°S or 66°N by seasonal sea level variations. In the crossover adjustment between multi-altimetric data, a stepwise method is used to solve the problem of inconsistency in the reference data between the high and low latitude regions. The proposed model is compared with the CNES-CLS2011 and DTU13 MSS models, and the standard derivation （STD） of the differences between the models is about S cm between 80°S and 84°N, less than 3 cm between 66°S and 66°N, and less than 4 cm in the China Sea and its adjacent sea. Furthermore, the three models exhibit a good agreement in the SSH differences and the along-track gradient of SSH following comparisons with satellite altimetry data.

Impacts of XBT,TAO,Altimetry and ARGO Observations on the Tropical Pacific Ocean Data Assimilation

This study aims at assessing the relative impacts of four major components of the tropical Pacific Ocean observing system on assimilation of temperature and salinity fields. Observations were collected over a period between January 2001 through June 2003 including temperature data from the expendable bathythermographs （XBT）, thermistor data from the Tropical Ocean Global Atmosphere Tropical Atmosphere-Ocean （TOGA-TAO） mooring array, sea level anomalies from the Topex/Poseidon and Jason-1 altimetry （T/P-J）, and temperature and salinity profiles from the Array for Real-time Geostrophic Oceanography （ARGO） floats. An efficient three-dimensional variational analysis-based method was introduced to assimilate the above data into the tropical-Pacific circulation model. To evaluate the impact of the individual component of the observing system, four observation system experiments were carried out. The experiment that assimilated all four components of the observing system was taken as the reference. The other three experiments were implemented by withholding one of the four components. Results show that the spatial distribution of the data influences its relative contribution. XBT observations produce the most distinguished effects on temperature analyses in the off-equatorial region due to the large amount of measurements and high quality. Similarly, the impact of TAO is dominant in the equatorial region due to the focus of the spatial distribution. The Topex/Poseidon-Jason-1 can be highly complementary where the XBT and TAO observations are sparse. The contribution of XBT or TAO on the assimilated salinity is made by the model dynamics because no salinity observations from them are assimilated. Therefore, T/P-J, as a main source for providing salinity data, has been shown to have greater impacts than either XBT or TAO on the salinity analysis. Although ARGO includes the subsurface observations, the relatively smaller number of observation makes it have the smallest contribution to the assimilation system.

联合Jason-1与GRACE卫星数据研究全球海平面变化

海平面变化主要由海水质量变化和比容海平面变化组成。联合GRACE时变重力场与Jason-1卫星测高数据分别研究了全球平均海平面及其质量分量与比容分量的季节性变化(2002-09—2008-04),联合两种卫星数据所得平均海平面变化在周年振幅和相位上与WOA05海洋模型结果具有一致性。估算出研究时间段内全球平均海平面变化及其两个主要分量的长期性趋势,在超过6.5a的时间尺度上,全球平均海平面以+2.0±0.4mm/a的速率上升,其中海水质量变化分量的贡献为+1.4±0.4mm/a,比容变化分量的贡献为+0.5±0.3mm/a。

我国冬季气温的年际变化及其与大气环流和海温异常的关系

利用我国160个台站49个冬季（1951／1952-1999／2000年）的气温资料和NCEP／NCAR再分析资料，通过波谱分析的方法提取变量的年际变化分量（周期小于8年部分）进行分析，结果发现：在年际变化的时间尺度上，我国冬季气温表现为全国一致变化型（EOF1）和南北反相变化型（EOF2）两个主要模态，并可以解释总方差60％以上的变化。进一步分析表明，在年际变化尺度上，与气温全国一致变化型相联系的大气环流表现出海陆气压差的改变以及与此相关的东亚大槽强度的变化和东亚高空急流位置的南北移动；赤道中东太平洋的异常海温对这一模态的出现有一定的预示意义，而中国近海的海温则更多的是被动地随气温改变。与南北反相变化型相联系的大气环流表现出显著的北极涛动特征，这一模态的出现会使得次年春季的西北太平洋海温呈现以30°N为界南北反相变化的形态；而北太平洋的海温异常可能对这一模态的形成有一定的作用。这两个模态的空间分布虽然与年代际尺度上的分布非常相似，但它们的相对强弱和对应的环流却有很大的差异。分析显示，全国一致变化型可能更多地表现出年代际变化的特征，而南北反相变化型更多地表现出年际变化的特征；结果还表明，我国冬季气温的变化在不同的时间尺度上是受不同因子影响的。因此，在研究我国冬季气温变化时，将不同的时间尺度分开考虑是十分必要的。

浅水多波束测深潮汐改正技术研究

提出了一种顾及潮时差变化的多验潮站多边形潮汐分区改正数学模型,设计了海量多波束数据通用的虚拟单验潮站改正模式。应用结果表明,该模型准确地再现了时变水位场,实现了区域瞬时海面的无缝拼接,较好地解决了多波束条带采用传统潮汐分区改正模型引起的断层及锯齿状问题。

间断面缺失时间的计算问题——以贵州紫云上二叠统台地边缘礁剖面为例

本文以贵州紫云上二叠统碳酸盐台地边缘礁剖面为例,运用宇宙化学的概念,讨论了化学层序地层学研究中一个至关重要的问题,即各种间断面缺失时间的估算,由此而提出一系列有关化学层序地层理论的新概念,包括时间凝缩面、时间间断面、相对压实因子和时间缺失因子等。最后还恢复了具线性时标的紫云地区晚二叠世相对海平面变化定量曲线。

亚洲冬季地表气温与北半球海平面气压场的关系

利用NCEP资料对 1 949～ 1 999年间的地表气温进行经验正交函数分解 (EOF) ,得到的前两个模态均表明 ,2 0世纪 70年代中期以后 ,在两个模态迭加的情况下 ,亚洲大部分区域冬季气温升高 ,增暖明显 ,发生了显著的年代际变化。奇异值分解 (SVD)冬季亚洲地表气温和北半球海平面气压场得到的结果说明 ,北极涛动对亚洲冬季气温的年代际变化有显著影响 ,其次北太平洋海平面气压与陆地海平面气压的反相分布可能对亚洲冬季气温的年际变化有影响。

北太平洋区域浅层海温与海平面气压场年代际异常关系的分析

用奇异值分解(SVD)方法,研究了北太平洋区域1、7月浅层海温(ST)异常与同期海平面气压(SLP)异常场的关系.结果表明:(1)统计显著的主要是第一模态,且1月的0～80 m层、7月的20～120 m的上层ST′与SLP′第一模态层际差异很小;(2)年代际变化是该区域海气相互作用的主要时域特征,'突变'发生在1970年代后半期,1月的年代际变化早于7月的1～2年;(3)合成分析表明,年代际变化的环流实质是北太平洋中部前期(1970年代中叶以前)ST持续偏高,相应1(7)月阿留申低压(北太平洋副高)偏弱、位置偏西(变化不明显),而东亚冬(夏)季风偏弱,反之亦然.

全球海温异常年代际分量的方差贡献及其与中国气候异常的相关

将全球海洋海表温度异常 (SSTA)分解为年代际、年际变化两部分 ,用方差分析法给出年代际变化分量显著的洋区及其季节变化 ,用奇异值分解 (SVD)方法分析了它与中国冬温(冬季平均气温 )、夏雨 (夏季总降水量 )年代际异常分量的同期和时滞相关联系的时空结构。结果表明 ,无论冬、夏 ,SSTA的方差构成中 ,年代际变化分量方差均较年际变化分量显著 ;SSTA年代际分量正异常时 ,中国 (以北方和东部为主 )易出现一致的冬温正异常 ,长江流域、华南夏雨易出现正异常 ,而华北夏雨易出现负异常 ;反之亦然。

渤海表层悬浮泥沙的空间模态及其时间变化

针对整个渤海海域悬浮泥沙分布全貌研究的不足,基于2000—2004年连续5年的354个SeaWiFS反演的渤海表层悬沙浓度资料,经多年月平均得到其季节变化特征;通过经验正交函数分解,给出其空间模态及时间系数,揭示渤海表层悬浮泥沙的空间分布特征及其随时间的变化。渤海表层悬沙浓度除秦皇岛海域外近岸高,离岸低,辽东湾东岸浓度远大于西岸;冬季浓度最高,春秋次之,除河口海域外夏季浓度最低;河口海域冬夏季均为浓度高值区。经验正交分解显示第一空间模态反映渤海悬沙浓度的总体分布特征,其显著变化周期为12个月,显示渤海表层悬沙的季节变化特征。第二空间模态反映黄河入海径流对渤海表层悬沙浓度分布格局的影响,其周期为6个月,代表黄河口海域悬沙浓度的变化周期。第三模态显示渤海不同海域悬沙浓度的增加或减小过程并不同步,存在明显的位相差异。

应用数字滤波消除潮位短周期波动对确定海平面变化趋势的影响

由一元线性回归分析的正则方程计算表明，在验潮记录较短的客观条件下，验潮序列中的周期波动对确定海平面变化趋势的影响是显著的。着重讨论采用数字滤波方法消除周期小于４年的短周期波动对确定海平面变化趋势的影响，并设计了最平滤波器，其通带截止频率对应的周期为４年，即应用最平滤波器对月均验潮序列进行低通滤波，基本上可消除周期小于４年的短周期波动对确定海平面变化趋势的影响。

中国近海及邻近海域高精度高分辨率海面高的确定

利用新的海潮模型(NAO99B)更为合理的共线方法和交叠平差技术,有效改善了ERM数据的径向轨道误差和时变海面高的影响,提高了浅海海域测高数据的测高精度。

东海黑潮活跃区表层流场的半年内时间尺度变化研究

利用高时空分辨率的资料，对东海黑潮表层海流的半年内时间尺度变化特征进行了分析研究，得到主要以下结论：（1）东海黑潮表层海流在台湾东北海区和吐噶喇海峡附近海区存在着最为显著的变化；（2）那里的表层海流都存在半年内时间尺度的变化，其谱峰主要在50～70d及90～140d两个频段内，两个准周期变化的基本特征都是异常气旋涡和反气旋涡的准周期转换；（3）异常气旋涡和反气旋涡的活动都与东海黑潮在两个海区的流轴变化相联系，气旋涡与黑潮流轴在该海区的向东南退缩相伴，而反气旋涡与黑潮流轴在该海区的向西北推进相伴；（4）初步分析表明，在台湾东北海域导致50～70d变化的异常涡旋主要源于黑潮自身存在的中尺度过程，而90～140d的变化则主要受从台湾以东传来的中尺度涡影响。类似地，吐噶喇海峡附近的黑潮海流同样在50～70d及90～140d两个频段内存在显著的准周期变化，回归分析表明，导致50～70d变化主要源于上游黑潮海流的中尺度过程，而90～140d的变化则主要受琉球群岛以东传来的中尺度涡影响。

连云港区台风增水预报方法探讨

本文采用增水峰、谷时与高、低潮时的对应关系预报未来24小时之内的增水峰、谷时。采用增水峰增、减趋势外延和回归计算相结合的方法预报其峰值。然后,利用模拟的增水曲线,对港区内的台风增水及潮位进行预报,效果很好。

散射计资料对台风海平面气压场的反演和定位的新方法研究

文章首先利用QuikSCAT散射计获取的海面风场资料,利用华盛顿大学行星边界层(UWPBL)模式对台风海平面气压场进行反演(称为直接反演),并对其强度进行了分析;然后对获取的海面风场,采用变分方法对风场进行分解,分解出无旋和有旋风场,对分解出的有旋风场,再利用UWPBL模式对魔羯台风的海平面气压场进行了反演,对所得结果与通常直接反演、NCEP海平面气压场及台风报文资料进行一一对比,结果表明:新的反演定位的方法对台风海平面气压场中心气压的定位精度有了进一步的提高,此种定位的方法为散射计资料在台风中的实际应用开辟了一条新的思路.