To the human eye, seawater appears a murky green, deep blue, luscious turquoise or often a mysterious grey.
But seen from a special satellite sensor orbiting Earth, the shifting colours of the worldās oceans can actually indicate the planetās biological response to such stresses as climate change and pollution.Ģż
āGreener shades are indicative of richer, more biologically productive marine areas,ā says Dalhousie oceanography professor Marlon Lewis, a key member of the NASA team that put this technology into space in 1997.
The SeaWiFS instrument (Sea-viewing Wide Field-of-view Sensor) circles the planet 14 times daily. Gathering daily data over land and sea, it gives scientists a global picture of variations in biological processes over space and time ā something that was impossible until a decade ago.
One thing measured through colour is the distribution of phytoplankton, one-celled organisms that are key indicators of ocean health. The microscopic plants absorb carbon dioxide, a major greenhouse gas, converting it with water and sunlight into carbon-based biomass, which supports almost all life on Earth.Ģż
āThe fish have to eat something,ā explains Dr. Lewis. āItās like we depend on grass to feed the cattle on land. Phytoplankton are as basic as that to the overall health of the marine food chain.ā
'Rightfully proud'Ģż
He joined other scientists last week at NASAās Goddard Space Flight Centre in Maryland, for a special 10th anniversary celebration of the sensor. āItās a remarkable achievement, and itās something NASA should be rightfully proud of ā¦ it has done for ocean science what the PC has done for computers,ā he said during a panel discussion, which was televised and webcast live on NASA TV.
Dr. Lewis recalled āan enormous amount of work at the outset,ā at a time when NASAās primary focus was space exploration. Taking a two-year leave of absence from pilipiliĀž» in the late 1980s, he worked as program officer at NASA Headquarters, where he was responsible for ocean colour research and planning the SeaWiFS program.
āThe applications for this data turned out to be much broader than we ever expected at the time,ā adds Dr. Lewis, who is also chairman, CEO and chief scientist of Satlantic Incorporated.
Tracking vanishing ice
The sensor is now tracking the Arcticās vanishing ice, and has been used in algae bloom experiments. It identified factors in a phytoplankton bloom that killed seabirds in the Pacific in 2005, and has also helped scientists better understand the oceanās response to El Nino and temperature change.ĢżĢż
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Its greatest legacy, says Dr. Lewis, is its wide reach. The ongoing data generated by the sensor is available to researchers of all types, including undergraduate students at pilipiliĀž». One current project at Dal involves monitoring the spawning of Atlantic cod off the coast of Newfoundland and Nova Scotia, by cross-referencing SeaWiFS data with information coming in through fish tags in the new Ocean Tracking Network.Ģż
For more details on the sensorās impact, visit .