SeaWifs Ocean Colour Data
From the SeaWifs NASA website:\n\nThe purpose of the Sea-viewing Wide Field-of-view Sensor (SeaWiFS) Project is to provide quantitative data on global ocean bio-optical properties to the Earth science community. Subtle changes in ocean colour signify various types and quantities of marine phytoplank...
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| Format: | Dataset |
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data.gov.au
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| Online Access: | https://researchdata.edu.au/seawifs-ocean-colour-data/1937025 http://data.gov.au/dataset/8fe31f1a-bb70-4433-92a8-594e3154bf0e |
| Summary: | From the SeaWifs NASA website:\n\nThe purpose of the Sea-viewing Wide Field-of-view Sensor (SeaWiFS) Project is to provide quantitative data on global ocean bio-optical properties to the Earth science community. Subtle changes in ocean colour signify various types and quantities of marine phytoplankton (microscopic marine plants), the knowledge of which has both scientific and practical applications. The SeaWiFS Project will develop and operate a research data system that will process, calibrate, validate, archive and distribute data received from an Earth-orbiting ocean colour sensor.\n\nThe concentration of microscopic marine plants, called phytoplankton, can be derived from satellite observation and quantification of ocean colour. This is due to the fact that the colour in most of the world's oceans in the visible light region, (wavelengths of 400-700 nm) varies with the concentration of chlorophyll and other plant pigments present in the water, i.e., the more phytoplankton present, the greater the concentration of plant pigments and the greener the water. \n\nOcean colour data have been deemed critical by the oceanographic community for the study of ocean primary production and global biogeochemistry. &Primary production& refers to the organic material in the sea that is produced by &primary producers.& These &primary producers,& i.e. algae and some bacteria, exist at the lowest levels of the food chain and use sunlight or chemical energy, rather than other organic material, as sources of energy. It is thought that marine plants remove carbon from the atmosphere at a rate equivalent to terrestrial plants, but knowledge of interannual variability is very poor.\n\nSince an orbiting sensor can view every square kilometer of cloud-free ocean every 48 hours, satellite-acquired ocean color data constitute a valuable tool for determining the abundance of ocean biota on a global scale and can be used to assess the ocean's role in the global carbon cycle and the exchange of other critical ... |
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