2004年—2013年WindSat海表面温度产品与浮标观测对比

朱恩泽; 张雷; 石汉青; 廖麒翔; 龙智勇

doi:10.11834/jrs.20165093

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2004年—2013年WindSat海表面温度产品与浮标观测对比
Accuracy of Wind Sat sea surface temperature: Comparison of buoy data from 2004 to 2013
2016年20卷第2期页码：315-327
纸质出版日期： 2016 ，
DOI： 10.11834/jrs.20165093

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[1]朱恩泽,张雷,石汉青,廖麒翔,龙智勇.2004年—2013年WindSat海表面温度产品与浮标观测对比[J].遥感学报,2016,20(02):315-327.

ZHU Enze, ZHANG Lei, SHI Hanqing, et al. Accuracy of Wind Sat sea surface temperature: Comparison of buoy data from 2004 to 2013[J]. Journal of Remote Sensing, 2016,20(2):315-327.
[1]朱恩泽,张雷,石汉青,廖麒翔,龙智勇.2004年—2013年WindSat海表面温度产品与浮标观测对比[J].遥感学报,2016,20(02):315-327. DOI： 10.11834/jrs.20165093.

ZHU Enze, ZHANG Lei, SHI Hanqing, et al. Accuracy of Wind Sat sea surface temperature: Comparison of buoy data from 2004 to 2013[J]. Journal of Remote Sensing, 2016,20(2):315-327. DOI： 10.11834/jrs.20165093.

摘要

利用美国国家浮标数据中心NDBC和热带大气海洋计划TAO浮标的海表面温度数据

对Wind Sat 2004年—2013年近10年的海表面温度产品进行了验证。结果表明

在美国沿岸海域

Wind Sat反演得到的海表面温度的平均偏差为0.10°C

标准偏差为0.59°C;在近赤道太平洋海域

反演得到的海表面温度的平均偏差为–0.15°C

标准偏差为0.33°C。Wind Sat海表面温度在夏季相对浮标实测值有正偏差增大和负偏差缩小的趋势

在美国东海岸以及墨西哥湾区域部分站点反演得到的海表面温度的标准偏差较大

其标准偏差超过1°C。在5–10 m/s风速段

Wind Sat海表面温度反演效果比较理想

平均偏差和标准偏差相对恒定。当风速大于12 m/s时

Wind Sat海表面温度反演的不确定性明显增加。与AMSR-E月平均海表面温度产品对比发现

夏季

Wind Sat SST较AMSRE偏低;冬季

Wind Sat SST较AMSR-E偏高。

Abstract

Sea Surface Temperature（SST） is one of the important parameters of hydrodynamic and oceanographic research. It has been widely utilized in the study of climate change

weather forecasting

numerical weather prediction（NWP）

atmospheric and oceanographic applications

fisheries

and other sciences. This study compares SST derived from Wind Sat to those directly observed by NDBC/TAO buoy and SST provided by AMSR-E. In the collocation of Wind Sat and buoy data

an SST value with a rain rate larger than zero was rejected. Collocation adopted a ±30 min time constraint and 25 km maximum separation. A total of 82

247 Wind Sat-NDBC collocations and 366

693 WindSat-TAO collocations were acquired. Rsults show that Wind Sat SST has a mean bias of 0.10 °C and standard deviation of 0.59 °C in the coastal and offshore waters of the United States. In the tropical Pacific Ocean

Wind Sat SST has a mean bias of –0.15 °C and standard deviation of 0.33 °C. In addition

Wind Sat SST has an increasing warm bias or a decreasing cool bias in summer. The standard deviations of the satellite-derived SST are both relatively large in the US East Coast and in the Gulf of Mexico; the standard deviations of certain regions are higher than 1 °C. When the buoy wind speed ranges from 5 m/s to 10 m/s

the accuracy of Wind Sat SST is good

and the mean bias and standard deviation are relatively constant. When the buoy wind speed exceeds 12m/s

the uncertainty of Wind Sat SST increases. Global comparison with AMSR-E shows that Wind Sat monthly averaged SST is cooler than that of AMSR-Ein summer and warmer in winter. Even though it has operated beyond its designed life of seven years

Wind Sat SST continues to exhibit acceptable accuracy. Wind Sat retrieves SST better in tropical Pacific and worse in US coasts and in the Gulf of Mexico. The part of wind direction correction in retrieval algorithms needs to be improved to increase the accuracy of SST retrieval under conditions of high wind speed.