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Aquarius Level 3 data provides seasonal, rain-flagged sea surface salinity (SSS) measurements at a 1-degree spatial resolution. The dataset is derived from ascending passes of the Aquarius/SAC-D satellite, a joint NASA and CONAE mission, using a combination of three radiometers and a scatterometer for surface roughness correction. It represents version 5.0 of the processed, gridded standard mapped image product.
Aquarius Official Release Level 3 Rain-flagged Sea Surface Salinity Smoothed Standard Mapped Image Descending Monthly Data V5.0 provides gridded sea surface salinity (SSS) at 1-degree spatial resolution. The data is derived from the Aquarius/SAC-D satellite, a NASA-CONAE collaboration, using three radiometers and a scatterometer for surface roughness correction. It represents a smoothed, rain-flagged product created exclusively from satellite descending passes.
Aquarius Level 3 data provides monthly, gridded sea surface salinity measurements at 1-degree spatial resolution, specifically from satellite descending passes with rain-flagging applied. The dataset originates from the NASA-CONAE AQUARIUS/SAC-D satellite, which used three radiometers and a scatterometer operating at 1.413 GHz and 1.26 GHz, respectively, to measure brightness temperature and ocean backscatter for salinity retrieval. This processed product is designed for analyzing large-scale salinity patterns and their relation to ocean circulation and the freshwater cycle.
Aquarius Level 3 data provides global sea surface salinity maps at a 1-degree spatial resolution, derived from a satellite instrument using three radiometers and a scatterometer for surface roughness correction. This specific product is the mission cumulative dataset, containing only descending pass retrievals flagged for rain contamination. The Aquarius/SAC-D satellite was a collaborative mission between NASA and Argentina's CONAE.
Daily gridded sea surface salinity data at 1-degree spatial resolution is produced from the Aquarius/SAC-D satellite, a joint NASA and CONAE mission. The dataset incorporates rain-flagged corrections derived from a 1.26 GHz scatterometer and three radiometers measuring brightness temperature at 1.413 GHz across a 370 km swath. It supports analysis of ocean salinity patterns over daily, weekly, monthly, and seasonal timescales.
Global ocean data provides monthly climatological averages of sea surface salinity at a 1-degree spatial resolution, derived from descending satellite passes. The dataset is produced from NASA and CONAE's Aquarius/SAC-D satellite, which uses three radiometers at 1.413 GHz and a 1.26 GHz scatterometer to measure brightness temperature and ocean backscatter for salinity estimation. This rain-flagged product is designed to filter out precipitation effects, offering a stable long-term view of salinity patterns.
Aquarius Level 3 data provides gridded sea surface density at 1-degree spatial resolution, averaged annually from ascending satellite passes. The dataset is derived from version 5.0 of the Aquarius mission, a NASA-CONAE collaboration using a satellite instrument with three radiometers and a scatterometer. Surface density estimates are calculated using the TEOS-10 standard, combining retrieved salinity with collocated sea surface temperature data.
Seasonal averages of sea surface salinity are provided at a 1-degree spatial resolution, derived from the Aquarius/SAC-D satellite mission. The dataset is produced by three radiometers measuring brightness temperature at 1.413 GHz and a scatterometer at 1.26 GHz for surface roughness correction. It supports analysis of ocean salinity patterns and their relation to climate processes.
Aquarius Level 3 data provides daily, gridded sea surface density at a 1-degree spatial resolution, derived from the final V5.0 mission release. Surface density is calculated using the TEOS-10 standard, combining retrieved salinity from three satellite radiometers at 1.413 GHz with collocated sea surface temperature data. The dataset results from a NASA-CONAE satellite collaboration, using a scatterometer at 1.26 GHz to correct for ocean surface roughness in salinity estimation.
Aquarius Level 3 data provides daily, descending sea surface density estimates at a 1-degree spatial resolution. The dataset is derived from satellite-measured brightness temperature and backscatter, using the TEOS-10 equation with retrieved salinity and collocated sea surface temperature. It results from a NASA-CONAE collaboration using the three-radiometer Aquarius/SAC-D instrument.
Version 5.0 is the official end-of-mission public data release from the AQUARIUS/SAC-D satellite mission. The dataset provides Level 3 sea surface salinity (SSS) as a standard mapped image, averaged over a 7-day temporal scale and gridded at a 1-degree spatial resolution. It is derived from a collaborative NASA and CONAE satellite instrument using three radiometers and a scatterometer for surface roughness corrections.
Global ocean coverage is provided by this Level 3 mapped dataset of daily sea surface salinity (SSS) at 1-degree spatial resolution. It represents the official end-of-mission public release (Version 5.0) from the NASA-CONAE AQUARIUS/SAC-D satellite, which used three radiometers and a scatterometer to measure brightness temperature and ocean backscatter for salinity retrieval. The data is also averaged over 7-day, monthly, and seasonal timescales.
Annual sea surface salinity data from the end-of-mission Aquarius/SAC-D satellite release, version 5.0. This Level 3 product provides gridded salinity values at a 1-degree spatial resolution, derived exclusively from ascending satellite passes. The dataset is a result of a NASA-CONAE collaboration, using a three-radiometer instrument with a 370 km swath and a scatterometer for surface roughness correction.
Aquarius Level 3 sea surface salinity standard mapped image data provides monthly averaged salinity values at a 1-degree spatial resolution, derived from descending satellite passes. This version 5.0 dataset is the official end-of-mission public release from the NASA/Argentinian CONAE AQUARIUS/SAC-D satellite mission. The data is produced using three radiometers and a scatterometer to measure brightness temperature and ocean backscatter for surface roughness corrections.
Aquarius V5.0 data provides 1-degree gridded seasonal sea surface salinity maps derived solely from satellite ascending passes. This final mission release stems from the NASA-CONAE AQUARIUS/SAC-D satellite, which used three radiometers at 1.413 GHz and a 1.26 GHz scatterometer to correct for ocean roughness. Its 370 km swath and multi-beam design offer a specific perspective on global ocean salinity dynamics.
Aquarius Level 3 data provides sea surface salinity mapped at a 1-degree spatial resolution averaged over seasonal time scales. This version 5.0 product is the official end-of-mission release from the NASA/CONAE AQUARIUS/SAC-D satellite, using only descending pass retrievals. The instrument uses three radiometers at 1.413 GHz and a scatterometer at 1.26 GHz to measure brightness temperature and ocean backscatter for salinity estimation.
Seasonal climatology data provides a long-term average of sea surface salinity (SSS) derived from the Aquarius/SAC-D satellite mission's final public release (Version 5.0). The dataset contains gridded SSS at a 1-degree spatial resolution, generated from measurements by three radiometers at 1.413 GHz and a 1.26 GHz scatterometer for surface roughness correction. This product results from a NASA and CONAE (Argentinian Space Agency) collaboration, with instrument footprints spanning a 370 km cross-track swath.
Aquarius Level 3 sea surface spiciness standard mapped image data provides gridded spice data at 1-degree spatial resolution averaged over a 7-day period for ascending satellite passes. This product, version 5.0, is derived from the Aquarius/SAC-D satellite instrument, a collaboration between NASA and Argentina's CONAE. The instrument uses three radiometers and a scatterometer to measure brightness temperature and ocean backscatter for salinity estimation.
Aquarius Level 3 sea surface spiciness standard mapped image data provides monthly averaged spice values at a 1-degree spatial resolution. This dataset originates from the Aquarius instrument on the NASA/CONAE AQUARIUS/SAC-D satellite, which uses three radiometers and a scatterometer to measure brightness temperature and ocean backscatter for salinity estimation. The data is part of Version 5.0 of the Aquarius project.
Aquarius Level 3 data provides seasonal averages of sea surface spiciness at a 1-degree spatial resolution. The dataset originates from the Aquarius/SAC-D satellite, a NASA-CONAE collaboration, using three radiometers and a scatterometer to measure brightness temperature and ocean backscatter for salinity estimation. It is available across multiple platforms, indicating its established use in the scientific community.