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Acknowledgement · IR clouds: www.cwb.gov Educational and scientific purposes only.
Using LightningCast Probabilities as an aviation tool https://cimss.ssec.wisc.edu/satellite-blog/archives/59748
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Singapore Airlines Flight SQ321 encounters severe turbulence https://cimss.ssec.wisc.edu/satellite-blog/archives/59382
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Explosive eruption of Mount Ruang in Indonesia https://cimss.ssec.wisc.edu/satellite-blog/archives/58563
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Pyrocumulonimbus clouds in China https://cimss.ssec.wisc.edu/satellite-blog/archives/57772
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LightningCast products with Himawari-9 data https://cimss.ssec.wisc.edu/satellite-blog/archives/57502
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Large waves approaching Hawai’i https://cimss.ssec.wisc.edu/satellite-blog/archives/57187
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Tropical Storm Seven in the Coral Sea https://cimss.ssec.wisc.edu/satellite-blog/archives/56658
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Coming soon: CSPP Geo software to create LightningCast probability fields https://cimss.ssec.wisc.edu/satellite-blog/archives/56487
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Wednesday, January 3, 2024Animation of the GHRSST Level-3 supper-collated (L3S) daily Sea Surface Temperature (SST) v2.81 dataset derived from multiple low earth orbit (LEO) satellites by the NOAA Advanced Clear-Sky Processor for Ocean (ACSPO) system. The dataset can be accessed from the PO.DAAC Portal at https://doi.org/10.5067/GHLDY-3S281 (DOI: 10.5067/GHLDY-3S281).How to Download PO.DAAC Youtube Animations
via PO.DAAC https://podaac.jpl.nasa.gov/animations/GHRSST-L3S-LEO-Daily-SST-v2.81-dataset
Thursday, December 21, 2023The PO.DAAC is pleased to announce the availability of the PI-produced Parametrized Rain Impact Model (PRIM) for SMAP Level-2 V1.0 dataset produced by the University of Central Florida (UCF) Remote Sensing Lab (CFRSL), Orlando, FL and the University of Washington (UW) Applied Physics Lab (APL), Seattle, WA. This dataset provides sea water salinity on a 0.25-degree spatial grid and covers March 31, 2015 through October 1, 2021. Additional coverage may be provided in the future depending on the availability of required inputs such as rain rate from the IMERG V6B Final Run product.Each PRIM data file corresponds to one JPL SMAP Level 2B CAP Sea Surface Salinity V5.0 file, and contains coverage for one orbit on a given day. Its primary parameters include sea surface salinity at the surface (PRIM_S0m), at 1m depth (PRIM_S1m), and at 5m depth (PRIM_S5m), as well as ocean stratification probability (PSS). The data are distributed in netCDF4 file format and comply with CF/ACDD metadata conventions.The PRIM dataset and user guide are accessible via the dataset landing page on PO.DAAC web portal. Users are recommended to download the data using the podaac-data-subscriber. We also encourage users to visit PO.DAAC Cloud Data Page for detailed information about how to access the data from NASA Earthdata Cloud. General information regarding the SMAP mission is available from the mission website.DOI:10.5067/PRIMS-2RSW1 - https://doi.org/10.5067/PRIMS-2RSW1Citation:Jacob et al. 2023. Parameterized Rain Impact Model near-surface salinity and stratification estimates. Ver. 1.0. PO.DAAC, CA, USA. Dataset accessed [YYYY-MM-DD] at https://doi.org/10.5067/PRIMS-2RSW1.Reference:Drushka, K., Asher, W. E., Ward, B., & Walesby, K. (2016). Understanding the formation and evolution of rain-formed fresh lenses at the ocean surface. Journal of Geophysical Research: Oceans, 121(4), 2673-2689.Related PO.DAAC Animation: https://podaac.jpl.nasa.gov/animations/Parametrized-Rain-Impact-Model-for-SMAP-L2-V1.0Comments/Questions? Please contact podaac@podaac.jpl.nasa.gov or visit the PO.DAAC on Earthdata Forum.
via PO.DAAC https://podaac.jpl.nasa.gov/announcements/2023-12-21-Parametrized-Rain-Impact-Model-for-SMAP-L2-V1.0-Dataset-Release
#Typhoon #Jelawat
https://www.ssd.noaa.gov/PS/TROP/floaters/18W/imagery/vis_lalo-animated.gif Note: NOAA is keeping this gif animation up to date but the gif preview provided by Telegram does not evolve with time, thus click the url to watch the auto-updated gif please.
Cyclone Jasper https://cimss.ssec.wisc.edu/satellite-blog/archives/55848
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Mal forms in the South Pacific https://cimss.ssec.wisc.edu/satellite-blog/archives/55587
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#Typhoon #Sanba
https://www.ssd.noaa.gov/PS/TROP/floaters/16W/imagery/vis_lalo-animated.gif Note: NOAA is keeping this gif animation up to date but the gif preview provided by Telegram does not evolve with time, thus click the url to watch the auto-updated gif please.
Super Typhoon Bolaven reaches Category 5 intensity https://cimss.ssec.wisc.edu/satellite-blog/archives/55069
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#Typhoon #Ewiniar
https://www.ssd.noaa.gov/PS/TROP/floaters/01W/imagery/vis_lalo-animated.gif Note: NOAA is keeping this gif animation up to date but the gif preview provided by Telegram does not evolve with time, thus click the url to watch the auto-updated gif please.
Explosive eruption of Mount Ruang in Indonesia https://cimss.ssec.wisc.edu/satellite-blog/archives/58850
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Changes in the LightningCast domain for Guam https://cimss.ssec.wisc.edu/satellite-blog/archives/58071
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Tuesday, March 5, 2024Animation of the retrieved ocean surface wind speed over the period of 1 August 2018 to 20 February 2024, produced using the CYGNSS Level 3 Science Data Record (SDR) Version 3.2 dataset, which provides wind speed data retrieved from the Delay Doppler Mapping Instrument (DDMI) aboard the CYGNSS satellite constellation. The dataset can be accessed from the PO.DAAC Portal at https://doi.org/10.5067/CYGNS-L3X32 (DOI: 10.5067/CYGNS-L3X32).How to Download PO.DAAC Youtube Animations
via PO.DAAC https://podaac.jpl.nasa.gov/animations/Ocean-Surface-Wind-Speed-from-CYGNSS-L3-SDR-V3.2-2018-2024
Wednesday, February 28, 2024The Surface Water and Ocean Topography (SWOT) project is pleased to announce the public release of Level 2 Geophysical Data Record products from the onboard nadir altimeter (NALT) and the advanced microwave radiometer (AMR).This release includes the Geophysical Data Record (GDR) from each of the NALT and AMR instruments. The onboard NALT is a Jason-class dual frequency (Ku/C) altimeter. The onboard AMR is also a Jason-class radiometer but with two active strings that facilitate measurements on the left and right sides of the satellite nadir point.Product description documents for these products can be found online at:
<a href="//podaac.jpl.nasa.gov/swot?tab=datasets">https://podaac.jpl.nasa.gov/swot?tab=datasets</a>
<a href="https://www.aviso.altimetry.fr/en/missions/current-missions/swot.html">https://www.aviso.altimetry.fr/en/missions/current-missions/swot.html</a>
The datasets in this release include Cycles 400 to 578 (January 15 – July 10, 2023) during the SWOT commissioning and calibration phases (1-day repeat orbit), and Cycles 1-6 (July 21 – November 23, 2023) during the science phase (21-day repeat orbit). Note that some passes are not available in the later portion of cycle 578, and very early portions of Cycles 402 and 1 during orbit transitions as well as instrument turn on.Starting with this release, NALT and AMR GDR products will continue to be routinely released with a latency of < 90 days from the end of each repeat cycle.Users are advised of the following known limitations in the dataset:
The adaptive retracker has not yet been calibrated, so the adaptive retracker variables should be used with caution.
Users are advised of the following upcoming changes in the datasets:
In the coming weeks, the processing baseline of the SWOT L2 Nadir altimeter products will evolve to use the same MSS (CNES_CLS_2022) and the same MDT (CNES_CLS_2022) as the SWOT KaRIn L2_LR_SSH products.
Users are also advised of the following differences between OGDR, IGDR and GDR:
The OGDR is a non-validated product that is available with a typical latency of < 7 hours.
The IGDR is a partially validated product that is available with a typical latency of < 2 days.
The GDR is a validated product that will become available with a typical latency of < 90 days after the start of release.
See <a href="//podaac.jpl.nasa.gov/SWOT-Level2-Nadir-Altimeter-and-Advanced-Microwave-Radiometer-Data-Product-Specifications">SWOT Level 2 Nadir Altimeter and Advanced Microwave Radiometer Data Product Specifications (Provenance of auxiliary data in OGDR, IGDR, and GDR products and Altimeter retracker outputs in OGDR, IGDR, and GDR)</a> The NALT and AMR data products in this release are accessible at both NASA’s PO.DAAC and CNES AVISO distribution centers. Information on accessing these data is provided below.CNES AVISOThe SWOT Nadir Altimeter and Radiometer (O/I)-GDR products can be accessed on the AVISO+ web portal and through a new platform of the AVISO+ CNES Data Center's long-term archive catalog, accessible directly using AVISO+ credentials. Further information on SWOT data access can be found via the dedicated webpage on AVISO+: <a href="https://www.aviso.altimetry.fr/en/missions/current-missions/swot/access-to-data.html">https://www.aviso.altimetry.fr/en/missions/current-missions/swot/access-to-data.html</a>The GDR products in this release are listed below along with the corresponding Digital Object Identifier (DOI) landing pages:Poseidon-3C Nadir Altimeter
SWOT_L2_NALT_GDR (DOI: <a href="https://doi.org/10.24400/527896/a01-2023.009">10.24400/527896/a01-2023.009</a>)Advanced Microwave Radiometer
SWOT_L2_RAD_GDR (DOI: <a href="https://doi.org/10.24400/527896/a01-2023.010">10.24400/527896/a01-2023.010</a>)NASA PO.DAACThe datasets in this release are listed below with links to the corresponding dataset landing pages on the PO.DAAC web portal (<a href="//podaac.jpl.nasa.gov/swot">https://podaac.jpl.nasa.gov/swot</a>).Poseidon-3C Nadir Altimeter
SWOT_L2_NALT_GDR_2.0…
Large waves over the Central and South Pacific Ocean https://cimss.ssec.wisc.edu/satellite-blog/archives/56651
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Tropical Invest 90P in the Coral Sea https://cimss.ssec.wisc.edu/satellite-blog/archives/56584
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Wednesday, January 3, 2024The PO.DAAC is pleased to announce the public release of the NOAA/STAR GHRSST Level 3S (super-collated) version 2.81 SST datasets, produced from the Low Earth Orbiting (LEO) JPSS (NPP, N20, N21), Metop-FG (Metop-A, B C) and NASA (Aqua, Terra) satellites.The L3S-LEO is a family of global multi-sensor L3S gridded 0.02º resolution SST products. The L3S-LEO-PM (afternoon orbit) SST is derived from VIIRSs flown onboard JPSS satellites (NPP, N20 and N21) and MODIS onboard Aqua, by collating individual satellite ACSPO L3U SST data. It comprises 2 daily files, day and night, corresponding to nominal local equator crossing times around 01:30/13:30, respectively. The L3S-LEO-DY (daily) further combines L3S-LEO-PM and AM SSTs, both day and night, from afternoon (PM; NPP, N20, N21, Aqua) and mid-morning orbit (AM; Metop-A, B , C) satellites, plus Terra MODIS between 2000-02-24 and 2021-12-31, into a single daily SST product.The L3S-LEO-PM and DY datasets are produced with the NOAA enterprise Advanced Clear Sky Processor for Ocean (ACSPO) v2.81 SST system, by the NOAA Center for Satellite Applications and Research (STAR). The datasets are formatted as netCDF-4, in compliance with the Group for High Resolution Sea Surface Temperature (GHRSST) Data Processing Specification version 2.0 (GDS2). Detailed information regarding the GHRSST Level 3S products are available from the GHRSST website and also via PO.DAAC’s GHRSST mission webpage.The near-real time (NRT) data are produced with a 3-6 hours latency, and then replaced with Re-ANalysis (RAN) files, within ~2-months. Both datasets are described and discoverable via the PO.DAAC dataset information pages, and accessible via the Cloud OPeNDAP and Harmony API services. We recommend users to download the data with the podaac-data-subscriber python tool.DOI:L3S_LEO_PM-STAR-v2.81 https://doi.org/10.5067/GHLPM-3S281L3S_LEO_DY-STAR-v2.81 https://doi.org/10.5067/GHLDY-3S281References: O. Jonasson, I. Gladkova, A. Ignatov, Y. Kihai, 2022: Towards global daily gridded super-collated SST product from low earth orbiting satellites (L3S-LEO-Daily) at NOAA. SPIE Defense + Commercial Sensing 2022, 12118, https://doi.org/10.1117/12.2620103 O. Jonasson, I. Gladkova, A. Ignatov, Y. Kihai, 2021: Algorithmic improvements and consistency checks of the NOAA global gridded super-collated SSTs from low Earth orbiting satellites ACSPO L3S-LEO. SPIE Defense + Commercial Sensing 2021, 11752, doi.org/10.1117/12.2585819 O. Jonasson, A. Ignatov, V. Pryamitsyn, B. Petrenko, Y. Kihai, 2022: JPSS VIIRS SST Reanalysis Version 3, Remote Sens., 14, 3476. https://doi.org/10.3390/rs14143476 O. Jonasson, A. Ignatov, V. Pryamitsyn, B. Petrenko, Y. Kihai, 2023: NOAA MODIS SST Reanalysis Version 1. Remote Sens., 15(23), 5589; https://doi.org/10.3390/rs15235589Related PO.DAAC Animation: https://podaac.jpl.nasa.gov/animations/GHRSST-L3S-LEO-Daily-SST-v2.81-datasetComments/Questions? Please contact podaac@podaac.jpl.nasa.gov or visit the PO.DAAC on Earthdata Forum.
via PO.DAAC https://podaac.jpl.nasa.gov/node/1922
Pyrocumulonimbus cloud in Australia https://cimss.ssec.wisc.edu/satellite-blog/archives/56132
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FrontpageParametrized Rain Impact Model for SMAP L2 V1.0Link: https://podaac.jpl.nasa.gov/animations/Parametrized-Rain-Impact-Model-for-SMAP-L…This graphic illustrates information gathered from the Parametrized Rain Impact Model for SMAP L2 V1.0
via PO.DAAC https://podaac.jpl.nasa.gov/node/1919
Cyclone Jasper makes landfall in Australia https://cimss.ssec.wisc.edu/satellite-blog/archives/55943
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Eruption of Mount Marapi in West Sumatra https://cimss.ssec.wisc.edu/satellite-blog/archives/55792
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Eruption of Klyuchevskaya on the Kamchatka Peninsula https://cimss.ssec.wisc.edu/satellite-blog/archives/55417
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LIS Observations of lightning within the eyewall of Typhoon Bolaven https://cimss.ssec.wisc.edu/satellite-blog/archives/55093
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SAR wind observations over Super Typhoon Bolaven https://cimss.ssec.wisc.edu/satellite-blog/archives/55066
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