Reconstruct the AMSR-E/2 thin ice thickness algorithm to create a long-term time series of sea-ice production in Antarctic coastal polynyas
暂无分享,去创建一个
[1] T. Tamura,et al. Dominant frazil ice production in the Cape Darnley polynya leading to Antarctic Bottom Water formation , 2022, Science advances.
[2] G. Marshall,et al. The performance of the ERA‐Interim and ERA5 Atmospheric Reanalyses over Weddell Sea Pack Ice , 2022, Journal of Geophysical Research: Oceans.
[3] A. Hogg,et al. How Does Antarctic Bottom Water Cross the Southern Ocean? , 2022, Geophysical Research Letters.
[4] A. Fraser,et al. Eighteen-year record of circum-Antarctic landfast-sea-ice distribution allows detailed baseline characterisation and reveals trends and variability , 2021, The Cryosphere.
[5] K. Ohshima,et al. Mapping of Active Frazil for Antarctic Coastal Polynyas, With an Estimation of Sea‐Ice Production , 2021, Geophysical Research Letters.
[6] Yan Liu,et al. A 14-yr Circum-Antarctic Iceberg Calving Dataset Derived from Continuous Satellite Observations , 2021, Earth System Science Data.
[7] T. Tamura,et al. Recent recovery of Antarctic Bottom Water formation in the Ross Sea driven by climate anomalies , 2020, Nature Geoscience.
[8] Liyun Dai,et al. Ice Production in Ross Ice Shelf Polynyas during 2017-2018 from Sentinel-1 SAR Images , 2020, Remote. Sens..
[9] S. Hou,et al. Robustness of the Recent Global Atmospheric Reanalyses for Antarctic Near-Surface Wind Speed Climatology , 2020, Journal of Climate.
[10] T. Tamura,et al. Landfast ice controls on sea-ice production in the Cape Darnley Polynya: A case study , 2019, Remote Sensing of Environment.
[11] S. Ackley,et al. Frazil ice growth and production during katabatic wind events in the Ross Sea, Antarctica , 2019, The Cryosphere.
[12] T. Tamura,et al. Reduced Sea Ice Production Due to Upwelled Oceanic Heat Flux in Prydz Bay, East Antarctica , 2019, Geophysical Research Letters.
[13] Sohey Nihashi,et al. Estimation of Thin-Ice Thickness and Discrimination of Ice Type From AMSR-E Passive Microwave Data , 2019, IEEE Transactions on Geoscience and Remote Sensing.
[14] Giuseppe Aulicino,et al. A New Approach for Monitoring the Terra Nova Bay Polynya through MODIS Ice Surface Temperature Imagery and Its Validation during 2010 and 2011 Winter Seasons , 2018, Remote. Sens..
[15] Takeshi Tamura,et al. Coastal polynyas: Winter oases for subadult southern elephant seals in East Antarctica , 2018, Scientific Reports.
[16] Hoi Ming Lam,et al. Erroneous sea-ice concentration retrieval in the East Antarctic , 2018, Annals of Glaciology.
[17] K. Ohshima,et al. Sea-ice production in the northern Japan Sea , 2017 .
[18] Sohey Nihashi,et al. Sea-Ice Production in Antarctic Coastal Polynyas Estimated From AMSR2 Data and Its Validation Using AMSR-E and SSM/I-SSMIS Data , 2017, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.
[19] T. Tamura,et al. Dense shelf water spreading from Antarctic coastal polynyas to the deep Southern Ocean: A regional circumpolar model study , 2017 .
[20] Rubao Ji,et al. Synchronicity between ice retreat and phytoplankton bloom in circum‐Antarctic polynyas , 2016 .
[21] S. Willmes,et al. Long-term coastal-polynya dynamics in the southern Weddell Sea from MODIS thermal-infrared imagery , 2015 .
[22] S. Kern,et al. Inter-comparison and evaluation of sea ice algorithms: towards further identification of challenges and optimal approach using passive microwave observations , 2015 .
[23] Takeshi Tamura,et al. Sea ice production variability in Antarctic coastal polynyas , 2015 .
[24] Sohey Nihashi,et al. Circumpolar Mapping of Antarctic Coastal Polynyas and Landfast Sea Ice: Relationship and Variability , 2015 .
[25] Marko Mäkynen,et al. Thin Ice Detection in the Barents and Kara Seas With AMSR-E and SSMIS Radiometer Data , 2015, IEEE Trans. Geosci. Remote. Sens..
[26] Fengming Hui,et al. Ocean-driven thinning enhances iceberg calving and retreat of Antarctic ice shelves , 2015, Proceedings of the National Academy of Sciences.
[27] Takeshi Tamura,et al. Improved mapping of sea ice production in the Arctic Ocean using AMSR‐E thin ice thickness algorithm , 2014 .
[28] Mark Buehner,et al. An Assessment of Sea-Ice Thickness Along the Labrador Coast From AMSR-E and MODIS Data for Operational Data Assimilation , 2014, IEEE Transactions on Geoscience and Remote Sensing.
[29] Josefino C. Comiso,et al. INTERANNUAL VARIABILITY IN SUMMER SEA ICE MINIMUM, COASTAL POLYNYAS AND BOTTOM WATER FORMATION IN THE WEDDELL SEA , 2013 .
[30] Takeshi Tamura,et al. Antarctic Bottom Water production by intense sea-ice formation in the Cape Darnley polynya , 2013 .
[31] Luca Pietranera,et al. High resolution observations of the Terra Nova Bay polynya using COSMO-SkyMed X-SAR and other satellite imagery , 2013 .
[32] Takeshi Tamura,et al. Estimation of thin ice thickness from AMSR-E data in the Chukchi Sea , 2013 .
[33] A. Fraser,et al. East Antarctic Landfast Sea Ice Distribution and Variability, 2000–08 , 2012 .
[34] T. Tamura,et al. Potential regime shift in decreased sea ice production after the Mertz Glacier calving , 2012, Nature Communications.
[35] Guy D. Williams,et al. Antarctic Bottom Water from the Adélie and George V Land coast, East Antarctica (140–149°E) , 2010 .
[36] Takeshi Tamura,et al. Thickness and production of sea ice in the Okhotsk Sea coastal polynyas from AMSR‐E , 2009 .
[37] Stefan Kern,et al. Wintertime Antarctic coastal polynya area: 1992–2008 , 2009 .
[38] Thorsten Markus,et al. The AMSR-E NT2 sea ice concentration algorithm: Its basis and implementation , 2009 .
[39] J. Comiso. Enhanced sea ice concentrations and ice extents from AMSR-E data , 2009 .
[40] Takeshi Tamura,et al. Mapping of sea ice production for Antarctic coastal polynyas , 2008 .
[41] G. Williams,et al. Formation and export of dense shelf water from the Adélie Depression, East Antarctica , 2008 .
[42] L. Kaleschke,et al. Sea ice remote sensing using AMSR‐E 89‐GHz channels , 2008 .
[43] Naohiko Hirasawa,et al. Estimation of Thin Ice Thickness and Detection of Fast Ice from SSM/I Data in the Antarctic Ocean , 2007 .
[44] David G. Barber,et al. Investigations of newly formed sea ice in the Cape Bathurst polynya: 2. Microwave emission , 2007 .
[45] Dorothy K. Hall,et al. Assessment of EOS Aqua AMSR-E Arctic Sea Ice Concentrations Using Landsat-7 and Airborne Microwave Imagery , 2006, IEEE Transactions on Geoscience and Remote Sensing.
[46] Ron Kwok,et al. Estimation of the thin ice thickness and heat flux for the Chukchi Sea Alaskan coast polynya from Special Sensor Microwave/Imager data, 1990–2001 , 2004 .
[47] Dorothy K. Hall,et al. Sea ice surface temperature product from MODIS , 2004, IEEE Transactions on Geoscience and Remote Sensing.
[48] Nicholas R. T. Biggs,et al. Polynya Dynamics: a Review of Observations and Modeling , 2004 .
[49] K. Arrigo,et al. Phytoplankton dynamics within 37 Antarctic coastal polynya systems , 2003 .
[50] Seelye Martin,et al. Observations of ice thickness and frazil ice in the St. Lawrence Island polynya from satellite imagery, upward looking sonar, and salinity/temperature moorings , 2003 .
[51] Giorgio Budillon,et al. Dynamics and Variability of Terra Nova Bay Polynya , 2002 .
[52] T. Markus,et al. Coastal polynyas in the southern Weddell Sea: Variability of the surface energy budget , 2002 .
[53] K. Ohshima,et al. Relationship between ice decay and solar heating through open water in the Antarctic sea ice zone , 2001 .
[54] Thorsten Markus,et al. An enhancement of the NASA Team sea ice algorithm , 2000, IEEE Trans. Geosci. Remote. Sens..
[55] Charles Fowler,et al. High-latitude surface temperature estimates from thermal satellite data , 1997 .
[56] D. Rothrock,et al. Thin ice thickness from satellite thermal imagery , 1996 .
[57] T. Markus,et al. A method to estimate subpixel‐scale coastal polynyas with satellite passive microwave data , 1995 .
[58] G. König‐Langlo,et al. Parameterization of the downward long-wave radiation at the Earth's surface in polar regions;Parameterisierung der bodennahen Gegenstrahlung in polaren Regionen , 1994 .
[59] Donald J. Cavalieri,et al. The contribution of Alaskan, Siberian, and Canadian coastal polynyas to the cold halocline layer of the Arctic Ocean , 1994 .
[60] Donald J. Cavalieri,et al. A microwave technique for mapping thin sea ice , 1994 .
[61] H. Hellmer,et al. Deep and Bottom Water of the Weddell Sea's Western Rim , 1993, Science.
[62] P. Ponganis,et al. Foraging behaviour of emperor penguins as a resource detector in winter and summer , 1992, Nature.
[63] Josefino C. Comiso,et al. Sea ice and oceanic process on the Ross Sea continental shelf , 1989 .
[64] Donald K. Perovich,et al. The role of shortwave radiation in the summer decay of a sea ice cover , 1987 .
[65] C. Pease,et al. The size of wind‐driven coastal polynyas , 1987 .
[66] Peter D. Killworth,et al. Deep convection in the World Ocean , 1983 .
[67] G. Maykut. Energy exchange over young sea ice in the central Arctic , 1978 .
[68] R. Reed,et al. On Estimating Insolation over the Ocean , 1977 .
[69] E. Carmack,et al. Frontal zone mixing and Antarctic Bottom water formation in the southern Weddell Sea , 1976 .
[70] J. Kondo,et al. Air-sea bulk transfer coefficients in diabatic conditions , 1975 .
[71] S. Jacobs,et al. Ross sea oceanography and antarctic bottom water formation , 1970 .
[72] Interactive comment on “ High-resolution mapping of circum-Antarctic landfast sea ice distribution , 2000 – 2018 ” , 2020 .
[73] T. Scambos,et al. Validation of Avhrr and Modis ice Surface temperature products using in Situ radiometers , 2006, Annals of Glaciology.
[74] Takeshi Tamura,et al. Estimation of thin Sea-ice thickness from NOAA AVHRR data in a polynya off the Wilkes Land coast, East Antarctica , 2006, Annals of Glaciology.
[75] M. Paget,et al. Effects of regional fast-ice and iceberg distributions on the behaviour of the Mertz Glacier polynya, East Antarctica , 2001, Annals of Glaciology.
[76] S Martin,et al. Frazil Ice in Rivers and Oceans , 1981 .