Science Team Publications List 2020
Pastor, F.; Valiente, J.A.; Khodayar, S. A Warming Mediterranean: 38 Years of Increasing Sea Surface Temperature. Remote Sens. 2020, 12, 2687. https://doi.org/10.3390/rs12172687
Bouali, M., Polito, P.S., Sato, O.T., Bernardo, P.S., & Vazquez-Cuervo, J. (2020). The impact of cloud masking on the climatology of sea surface temperature gradients. Remote Sensing Letters, 11, 1110-1117, https://doi.org/10.1080/2150704X.2020.1825865.
Bulgin, C.E., Merchant, C.J., & Ferreira, D. (2020). Tendencies, variability and persistence of sea surface temperature anomalies. Scientific Reports, 10, 7986, doi: https://doi.org/10.1038/s41598-020-64785-9.
CEOS SST-VC (2020), Current and future sea surface temperature missions: Towards 2050, pp 33. https://ceos.org/document_management/Virtual_Constellations/SST/Current_Future_SST_Missions_Towards_2050.pdf.
Ciani, D., Rio, M.-H., Nardelli, B.B., Etienne, H., & Santoleri, R. (2020). Improving the Altimeter-Derived Surface Currents Using Sea Surface Temperature (SST) Data: A Sensitivity Study to SST Products. Remote Sensing, 12, 1601, https://www.mdpi.com/2072-4292/12/10/1601.
Gangwar, R.K., & Thapliyal, P.K. (2020). Variational Based Estimation of Sea Surface Temperature from Split-Window Observations of INSAT-3D/3DR Imager. Remote Sensing, 12, 3142, https://www.mdpi.com/2072-4292/12/19/3142.
Gentemann, C.L., Scott, J.P., Mazzini, P.L.F., Pianca, C., Akella, S., Minnett, P.J., Cornillon, P., Fox-Kemper, B., Cetinić, I., Chin, T.M., Gomez-Valdes, J., Vazquez-Cuervo, J., Tsontos, V., Yu, L., Jenkins, R., De Halleux, S., Peacock, D., & Cohen, N. (2020). Saildrone: Adaptively Sampling the Marine Environment. Bulletin of the American Meteorological Society, 101, E744-E762, https://doi.org/10.1175/bams-d-19-0015.1.
Good, S., et al. (2020), The Current Configuration of the OSTIA System for Operational Production of Foundation Sea Surface Temperature and Ice Concentration Analyses, Remote Sensing, 12(4), 720, doi: https://doi.org/10.3390/rs12040720.
Kim, H.-Y., Park, K.-A., Kim, H.-A., Chung, S.-R., & Cheong, S.-H. (2020). Retrievals of Sea Surface Current Vectors from Geostationary Satellite Data (Himawari-8/AHI). Asia-Pacific Journal of Atmospheric Sciences, 56, 249-263, doi: https://doi.org/10.1007/s13143-019-00163-4.
Kim, M., Yang, H., & Kim, J. (2020). Sea Surface Temperature and High Water Temperature Occurrence Prediction Using a Long Short-Term Memory Model. Remote Sensing, 12, 3654, https://www.mdpi.com/2072-4292/12/21/3654.
Kuroda, H., & Toya, Y. (2020). High-Resolution Sea Surface Temperatures Derived from Landsat 8: A Study of Submesoscale Frontal Structures on the Pacific Shelf off the Hokkaido Coast, Japan. Remote Sensing, 12, 3326, https://www.mdpi.com/2072-4292/12/20/3326.
López García, M.J. (2020). SST Comparison of AVHRR and MODIS Time Series in the Western Mediterranean Sea. Remote Sensing, 12, 2241, https://www.mdpi.com/2072-4292/12/14/2241.
Merchant, C.J., Block, T., Corlett, G.K., Embury, O., Mittaz, J.P.D., & Mollard, J.D.P. (2020). Harmonization of Space-Borne Infra-Red Sensors Measuring Sea Surface Temperature. Remote Sensing, 12, 1048, https://www.mdpi.com/2072-4292/12/6/1048.
Merchant, C.J., & Embury, O. (2020). Adjusting for Desert-Dust-Related Biases in a Climate Data Record of Sea Surface Temperature. Remote Sensing, 12, 2554, https://www.mdpi.com/2072-4292/12/16/2554.
Merchant, C.J., Saux-Picart, S., & Waller, J. (2020). Bias correction and covariance parameters for optimal estimation by exploiting matched in-situ references. Remote Sensing of Environment, 237, 111590, doi: https://doi.org/10.1016/j.rse.2019.111590.
Minnett, P.J., Kilpatrick, K.A., Podestá, G.P., Evans, R.H., Szczodrak, M.D., Izaguirre, M.A., Williams, E.J., Walsh, S., Reynolds, R.M., Bailey, S.W., Armstrong, E.M., & Vazquez-Cuervo, J. (2020). Skin Sea-Surface Temperature from VIIRS on Suomi-NPP—NASA Continuity Retrievals. Remote Sensing, 12, https://doi.org/10.3390/rs12203369.
Park, K.-A., Woo, H.-J., Chung, S.-R., & Cheong, S.-H. (2020). Development of Sea Surface Temperature Retrieval Algorithms for Geostationary Satellite Data (Himawari-8/AHI). sia-Pacific Journal of Atmospheric Sciences, 56, 187-206, doi: https://doi.org/10.1007/s13143-019-00148-3.
Park, K.-A., Woo, H.-J., & Lee, E.-Y. (2020). The application of a hybrid sea surface temperature algorithm to COMS geostationary satellite data in the Northwest Pacific Ocean. International Journal of Remote Sensing, 41, 5953-5973, doi: https://doi.org/10.1080/01431161.2019.1688889.
Reid, R., Good, S., & Martin, M.J. (2020). Use of Uncertainty Inflation in OSTIA to Account for Correlated Errors in Satellite-Retrieved Sea Surface Temperature Data. Remote Sensing, 12, 1083, https://www.mdpi.com/2072-4292/12/7/1083.
Saha, K., Dash, P., Zhao, X., & Zhang, H.-m. (2020). Error Estimation of Pathfinder Version 5.3 Level-3C SST Using Extended Triple Collocation Analysis. Remote Sensing, 12, 590, https://www.mdpi.com/2072-4292/12/4/590.
Skirving, W., Marsh, B., De La Cour, J., Liu, G., Harris, A., Maturi, E., Geiger, E., & Eakin, C.M. (2020). CoralTemp and the Coral Reef Watch Coral Bleaching Heat Stress Product Suite Version 3.1. Remote Sensing, 12, 3856, https://www.mdpi.com/2072-4292/12/23/3856.
Vazquez-Cuervo, J., Gomez-Valdes, J., & Bouali, M. (2020). Comparison of Satellite-Derived Sea Surface Temperature and Sea Surface Salinity Gradients Using the Saildrone California/Baja and North Atlantic Gulf Stream Deployments. Remote Sensing, 12, 1839, https://www.mdpi.com/2072-4292/12/11/1839.
Wang, S.-j., Cui, P., Zhang, P., Yang, Z.-d., Hu, X.-q., Ran, M.-n., Liu, J., Lin, M., & Qiu, H. (2020). FY-3C/VIRR Sea Surface Temperature Products and Quality Validation. Journal of Applied Meteorological Science, 31, doi: https://doi.org/10.11898/1001-7313.20200608.
Wick, G.A., & Castro, S.L. (2020). Assessment of Extreme Diurnal Warming in Operational Geosynchronous Satellite Sea Surface Temperature Products. Remote Sensing, 12, 3771, https://www.mdpi.com/2072-4292/12/22/3771.
Wirasatriya, A., Hosoda, K., Setiawan, J.D., & Susanto, R.D. (2020). Variability of Diurnal Sea Surface Temperature during Short Term and High SST Event in the Western Equatorial Pacific as Revealed by Satellite Data. Remote Sensing, 12, 3230, https://www.mdpi.com/2072-4292/12/19/3230.
Woo, H.-J., & Park, K.-A. (2020). Inter-Comparisons of Daily Sea Surface Temperatures and In-Situ Temperatures in the Coastal Regions. Remote Sensing, 12, 1592, https://www.mdpi.com/2072-4292/12/10/1592.
Woo, H.-J., Park, K.-A., Li, X., & Lee, E.-Y. (2018). Sea Surface Temperature Retrieval from the First Korean Geostationary Satellite COMS Data: Validation and Error Assessment. Remote Sensing, 10, 1916, https://www.mdpi.com/2072-4292/10/12/1916.
Yang, M., Guan, L., Beggs, H., Morgan, N., Kurihara, Y., & Kachi, M. (2020). Comparison of Himawari-8 AHI SST with Shipboard Skin SST Measurements in the Australian Region. Remote Sensing, 12, 1237, https://www.mdpi.com/2072-4292/12/8/1237.
Yang, Chunxue, Francesca Elisa Leonelli, Salvatore Marullo, Vincenzo Artale, Helen Beggs, Bruno Buongiorno Nardelli, Toshio Michael Chin, Vincenzo De Toma, Simon Good, Boyin Huang, Christopher J. Merchant, Toshiyuki Sakurai, Rosalia Santoleri, Jorge Vazquez-Cuervo, Huai-Min Zhang, Andrea Pisano (2020) Sea Surface Temperature intercomparison in the framework of the Copernicus Climate Change Service (C3S), J. Climate, https://doi.org/10.1175/JCLI-D-20-0793.1.
王素娟, -., 崔鹏, -., 张鹏, -., 杨忠东, -., 胡秀清, -., 冉茂农, -., 刘健, -., 林曼筠, -., & 邱红, -. (2020). – FY-3C/VIRR海表温度产品及质量检验. – 应用气象学报, – 31, – 729, doi: https://doi.org/10.11898/1001-7313.20200608.