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1.
基于Himawari-8卫星的逐时次海表温度融合 总被引:1,自引:0,他引:1
Himawari-8卫星是日本气象厅发射的新一代地球同步静止气象卫星,为获取逐时次海表温度产品提供了有力数据支持。本文以Himawari-8 AHI海表温度为基础,利用最优插值法融合GCOM-W1 AMSR2海表温度和NERA-GOOS现场观测资料,生成逐时次海表温度融合产品。为了充分利用邻近时刻的海表温度观测资料,利用Himawari-8 AHI海表温度和欧洲中期天气预报中心海面风速数据建立匹配数据集,研究建立海表温度日变化模型,实现邻近时刻海表温度的订正;为了消除多源海表温度间的系统偏差,以Himawari-8 AHI海表温度为目标数据,利用泊松方程对GCOM-W1 AMSR2海表温度进行偏差订正。实验验证结果表明,利用逐时次海表温度融合产品计算的日增温情况与海面风速具有较好的相关性,间接证实了逐时次海表温度融合产品的准确性;另外,逐时次海表温度融合产品与现场观测海表温度的偏差为0.09℃、均方根误差为0.89℃,二者具有较好的一致性,说明逐时次海表温度融合产品具有较高的精度。 相似文献
2.
3套不同的SST再分析数据与中国近海浮标观测的对比研究 总被引:1,自引:0,他引:1
基于自然资源部浮标数据,通过分析均值差、均方根误差、相关系数和标准差偏差4个统计量,检验了2018年7月1日至8月6日全时段及该时段内3个台风(1808号台风“玛利亚”、1810号台风“安比”、1812号台风“云雀”)过境期间,3套海表面温度(Sea Surface Temperature,SST)再分析资料(OISST、OSTIA SST、RTG SST)在中国近海区域的可靠性。对比结果表明,在全时段内,3套SST再分析资料都能在一定程度上反映中国近海SST的基本状况,其中OSTIA SST资料同浮标实测SST数据的均值差为0.12℃、相关系数为0.94,均优于OISST资料(均值差为–0.85℃、相关系数为0.90)和RTG SST资料(均值差为–0.17℃、相关系数为0.86)。通过对比单个浮标数据发现,相较约80%的MF浮标实测SST数据,OSTIA SST资料都显著优于RTG SST资料和OISST资料,具有较高的可信度。在台风过境期间,较之RTG SST资料和OISST资料,OSTIA SST资料同大部分浮标实测数据的均值差绝对值及均方根误差更小、相关系数更大,表明在高海况条件下,OSTIA SST资料能更真实地反映中国近海SST的基本状况。 相似文献
3.
基于变分理论算法实现了METOP-A卫星AVHRR传感器探测数据的海洋表面温度变分反演,进行了连续1个月的海表温度反演试验,并分别从全球、分纬度带和天气系统活跃区域3个方面,将变分反演结果(VAR SST)与利用统计回归方法反演相同卫星得到的海表温度产品(GBL SST)、其他海温融合产品(OISST)及实际浮标观测数据等进行一系列评估。从全球评估指标看出,以OISST为参照,VAR SST要优于GBL SST;以浮标观测为参照,VAR SST略逊于GBL SST,而且VAR SST还改进了GBL SST随时间波动大的缺点;从分纬度带对比看出,在与OISST对比时,VAR SST在低纬度地区和北半球中纬度地区的质量要优于GBL SST,海温反演精度较高。研究还表明,由于变分方法考虑了大气状态的变化,能够更加有效订正卫星遥感过程中大气的削弱作用,从而反演出精度更高的海表温度,尤其在天气系统较为复杂的区域效果明显。 相似文献
4.
本文研究了北太平洋海水表面温度的遥相关型,指出:北太平洋海温有3个遥相关区,分别在西风漂流区、亦道东太平洋区和阿拉斯加湾区。这3个相关区的结构十分类似于大气中的PNA结构。用赤道东太平洋和西风漂流区之间的海温差作为太平洋海温指数PTI,它能代表北太平洋65%海区的海温变化,可以作为太平洋海温场PNA结构的变化指数,用来监视剧Nino和反E1 Nino事件的发生和发展。 相似文献
5.
6.
针对使用NCEP再分析数据和辐射传输方程法反演SST出现偏差较大的问题,以HJ-1B SST反演为例,从修正大气透过率入手,提出中心点算法和均值点算法2种辐射传输方程改进算法。2种改进算法对大气透过率偏差和HJ SST反演偏差均有明显改善,反演的HJ SST与MODIS SST均呈现显著的一致性。MODIS SST验证表明2种改进算法的平均偏差和均方差在0.5 ℃左右;浮标SST验证表明均值点算法的反演精度较高,其平均偏差为0.55 ℃,而中心点算法的为0.81 ℃。 相似文献
7.
A primitive equation model and a statistical predictor are coupled by data assimilation in order to combine the strength of both approaches. In this work, the system of two-way nested models centred in the Ligurian Sea and the satellite-based ocean forecasting (SOFT) system predicting the sea surface temperature (SST) are used. The data assimilation scheme is a simplified reduced order Kalman filter based on a constant error space. The assimilation of predicted SST improves the forecast of the hydrodynamic model compared to the forecast obtained by assimilating past SST observations used by the statistical predictor. This study shows that the SST of the SOFT predictor can be used to correct atmospheric heat fluxes. Traditionally this is done by relaxing the model SST towards the climatological SST. Therefore, the assimilation of SOFT SST and climatological SST are also compared. 相似文献
8.
The Visible and Infrared Scanner (VIRS) aboard the Tropical Rainfall Measuring Mission (TRMM) is a five-channel radiometer
with wavelength from 0.6 to 12 μm. Daily 0.125° sea surface temperature (SST) data from VIRS were first produced at the National
Space Development Agency (NASDA) for comparison with SST from TRMM Microwave Imager (TMI). In order to obtain accurate high
spatial resolution SST for the merging of SST from infrared and microwave measurements, new SST retrieval coefficients of
the Multichannel SST (MCSST) algorithm were generated using the global matchups from VIRS brightness temperature (BT) and
Global Telecommunications System (GTS) SST. Cloud detection was improved and striping noise was eliminated. One-year global
VIRS level-1B data were reprocessed using the MCSST algorithm and the advanced cloud/noise treatments. The bias and standard
deviation between VIRS split-window SST and in situ SST are 0.10°C and 0.63°C, and for triple-window SST, are 0.06°C and 0.48°C.
The results indicate that the reprocessing algorithm is capable of retrieving high quality SST from VIRS data.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
9.
海面温度变化影响台风"海棠"强度的数值研究 总被引:1,自引:0,他引:1
通过对台风"海棠"5 d的数值模拟,研究海表温度(SST)变化对台风强度的影响。与NCEP月平均海表温度相对比,在中尺度大气模式中引入热带测雨卫星(TRMM)微波成像仪(TMI)/先进微波扫描辐射计(AMSR-E)来考察SST对台风"海棠"路径和强度的影响。研究结果表明,每天变化SST的试验模拟的台风强度和路径整体效果不错;模拟的台风路径不敏感于SST的变化,而台风强度的变化不仅取决于由于台风移动引发的SST冷却的幅度大小,而且取决于SST冷却区域的相对位置。在台风"海棠"强烈发展过程中,台风中心右侧冷却区对台风中心气压影响很小;台风强烈发展过后,SST冷却区开始影响台风强度,但造成台风中心气压下降幅度不大,6 h内台风中心气压减弱约3.9 hPa。海面热量通量和海面风速与SST的分布都有良好的相关性:在SST变化为正值的暖水区,感热通量和潜热通量都是一个正的通量分布的极值区,并有风速极大值区域存在;在台风右侧相应的冷却区,则存在着负的通量异常和风速极小值区域。 相似文献
10.
长江口海域表层水温的季节、年际变化 总被引:4,自引:0,他引:4
为研究长江口与黄东海SST变化的异同,根据长江口区引水船海洋站1959~2001年、大戢山海洋站1977~2000年月平均表层水温资料,安徽大通水文站1968~1999年月平均径流量资料,利用功率谱分析、Mann—Kendall突变检验及相关分析方法,分析长江口区表层水温的季节、年际变化特征。结果表明:长江口区表层水温最高值出现在8月份,最低值出现在2月份。长江口区表层水温的年际变化存在准2年和3~5年的显著振荡周期,东亚季风和长江径流对其变化有影响。长江口区表层水温突变出现在1989年。 相似文献
11.
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
12.
东海沿岸海水表层温度的变化特征及变化趋势 总被引:15,自引:0,他引:15
根据东海沿岸引水船、嵊山、大陈、南麂、北礵、平潭、厦门和东山8个海洋观测站的40a表层海水温度(SST)资料进行了统计与分析.研究结果表明:东海沿岸SST主要受制于太阳辐射,呈南高北低分布,但也不同程度地受到当地地理环境、气候环境、水文环境的影响;SST的年变化具有显著的年周期和半年周期;东海沿岸SST存在多种显著周期的振荡,且南北测站SST的主导振荡有差异;就近40a的资料而言,东海沿岸的SST总体呈上升趋势,其中冬季上升幅度最大,暖冬是SST总体呈上升趋势的重要因素. 相似文献
13.
Sea surface temperature SST obtained from the initial version of the Korea Operational Oceanographic System(KOOS) SST satellite have low accuracy during summer and daytime. This is attributed to the diurnal warming effect. Error estimation of SST data must be carried out to use the real-time forecasting numerical model of the KOOS. This study suggests two quality control methods for the KOOS SST system. To minimize the diurnal warming effect, SSTs of areas where wind speed is higher than 5 m/s were used. Depending on the wind threshold value, KOOS SST data for August 2014 were reduced by 0.15°C. Errors in SST data are considered to be a combination of random, sampling, and bias errors. To estimate bias error, the standard deviation of bias between KOOS SSTs and climatology SSTs were used. KOOS SST data yielded an analysis error standard deviation value similar to OSTIA and NOAA NCDC(OISST) data. The KOOS SST shows lower random and sampling errors with increasing number of observations using six satellite datasets. In further studies, the proposed quality control methods for the KOOS SST system will be applied through more long-term case studies and comparisons with other SST systems. 相似文献
14.
海表温度是表征海洋表层热力状况的重要海洋参数,日均全天候覆盖的海温观测数据可为服务台风监测及其他海洋灾害时空演变的精细化预报提供数据支撑。可见光红外扫描辐射计和中分辨率光谱成像仪反演的海温产品具有较高的空间分辨率,但是红外遥感反演的海温产品受到云、雾和霾的影响,在云下存在大面积、无规律的缺值;微波辐射计反演的海温产品空间分辨率低,但可穿透云层,实现全天候海温观测。本文基于风云三号B、C、D三颗极轨气象卫星红外和微波遥感仪器反演的海温资料,利用经验正交函数插值法(DINEOF)重构得到全球海表温度产品。与全球分析场日平均海温OISST数据进行比较可知:原始海温资料的均方根误差为0.59~0.70℃,DINEOF重构后海温资料均方根误差降至0.10~0.34℃;相关系数从0.33~0.48提升到0.78~0.98。多传感器重构海温数据空间分布上连续可信,能够监测不同季节的海温变化特征及暖池空间模态。风云三号气象卫星微波遥感的加入显著提升了重构海温的空间连续覆盖率和时间分辨率。 相似文献
15.
用一个简单的海洋模式,研究了东亚季风异常对南海表层水温(SST)的影响,发现南海表层水温的甚低频振荡是东亚季风异常风应力强迫所致.这种甚低频振荡主要反映在深水区,其空间分布呈椭圆形,几乎与南海海盆形状一致。从海盆中央到边缘振幅逐渐减少,SST的甚低频振荡是非行进波,无明显传播特征。 相似文献
16.
Hiroshi Kawamura Huiling Qin Kohtaro Hosoda Futoki Sakaida Chunhua Qiu 《Journal of Oceanography》2010,66(6):855-864
Producing high-quality match-ups coupling the Japanese geostationary satellite, Himawari-6 (H6), and buoy SST observations,
we have developed the new SST retrieval method. Kawamura et al. (2010) developed the previous version of SST product called MTSAT SST, which left several scientific/technical questions.
For solving them, 6,711 algorithm tuning match-ups with precise navigation and 240,476 validation match-ups are generated
for covering all seasons and wide ocean coverage. For discriminating the previous MTSAT SST, we call the new version of SST
H6 SST. It is found that the SZA dependences of MTSAT SST algorithm are different from area to area of SZA > 40–50° N/S. The
regionally different SZA dependences are treated by dividing the H6 disk coverage into five areas by the latitude lines of
40° N/S first and the longitude lines of 100° K and 180° K. Using the algorithm tuning match-ups, Nonlinear SST (NLSST) equations
are derived for all of the five areas. Though the sun zenith angle dependency correction term is also examined, there is no
significant regional difference. Therefore, this term is used in the H6 SST algorithm again. The new H6 SST equation is formed
by the areal NLSST and the sun zenith angle dependency term for each area. The statistical evaluation of H6 SST using the
validation match-ups show the small negative biases and the RMS errors of about 0.74° K for each area. For the full H6 disk,
the bias is −0.1° K and the RMS error 0.74° K. The histogram of H6 SST minus the in situ SST for each area has a similar Gaussian shape with small negative skewness, and the monthly validation of H6 SST for each
area is consistent with those for the whole period and the histograms 相似文献
17.
基于遥感数据,采用功率谱和相关性分析等方法,研究了长江口邻近海域海表温度(SST)的时空变化特征以及影响因素。结果表明:1982—2017年长江口邻近海域的SST 整体表现为每10 a升温约0.48 °C的趋势,且具有10.0,3.6,2.4和1.0 a的振荡周期。长期以来,冬、春、夏、秋四季的长江口邻近海域SST总体呈现升温趋势,其中春季的升温趋势最显著,而秋季变化趋势最不明显。研究海区的SST呈现明显西北—东南向温度递增的分布特征。此外,长江口径流量的变化对邻近海域的SST具有一定影响,从多年变化来看,径流量增大(减小),长江口邻近海域SST随之升高(降低),从月变化来看,3月、4月和9月的长江径流对SST有影响。气温对SST具有一定的强迫作用,大气温度的总体趋势是升高的,通过海气相互作用进行热传输,从而造成长江口邻近海域SST升温。 相似文献
18.
对南海北部珠江口采集的滨珊瑚骨骼地球化学温度计指标B/Ca、Mg/Ca、Sr/Ca、U/Ca和δ18O进行了分析,目的在于测试这些地化指标在径流冲淡水影响下的稳定性.测试方法是将各个地化指标与水温对比并进行相关性分析.结果表明,Sr/Ca比值与当地水温有最好的相关性(r2=0.59),说明Sr/Ca是最稳定的温度计指标.而δ18O(r2=0.46)、B/Ca(r2=0.43)和U/Ca(r2=0.41)与水温的相关系数相对较低,说明这些指标除受到水温控制以外还受到其他环境因素的影响.在这些指标中,相关性最低的是Mg/Ca(r2=0.27),说明Mg/Ca受到除水温以外的因素影响最为显著,这就限制了Mg/Ca作为有效的温度计指标应用于古气候重建的研究. 相似文献
19.
本文利用2016年的AMSR2、GMI、WindSat和HY-2A RM等星载微波辐射计海表温度(SST)数据,分析了北极卫星遥感SST数据的时空覆盖和产品精度情况。结果表明:北极星载微波辐射计SST冬季覆盖率和有效覆盖天数要低于夏季,GMI的SST有效覆盖率较低,AMSR2较高,联合使用AMSR2、GMI、WindSat和HY-2A RM星载微波辐射计SST数据,2月份覆盖率在12%~15%之间,有效观测天数优于26 d,8月份覆盖率全月高于26%,有效观测天数优于29 d。北极地区星载微波辐射计SST数据的误差均要大于全球平均水平,AMSR2数据精度较好,WindSat与AMSR2的精度相当,GMI的均方根误差约是AMSR2的2倍,HY-2A RM数据精度低于其他星载微波辐射计水平。 相似文献
20.
热带太平洋是影响全球气候系统的重要区域,热带太平洋海表温度(SST)的长期变化趋势模拟是国际研究领域关注的热点。基于12个参加第六期国际耦合模式比较计划(CMIP6)的模式结果,本研究对1950年至1999年间多模式模拟得到的热带太平洋SST增暖现象进行了初步评估。结果表明,不同模式对热带太平洋SST增暖的模拟能力差别较大,特别在赤道东太平洋区域,部分模式模拟得到了偏强的SST降温趋势,与实际观测中的SST增温趋势相反,多模式集合平均结果给出了中部型厄尔尼诺事件的增温趋势。通过引入SST增暖变率分析方法,本研究对多模式模拟的热带太平洋SST在过去50 a中的增暖内在变化进行了进一步评估,结果表明目前各模式对热带太平洋SST增暖变率模拟偏弱,空间分布差异较大。 相似文献