Everything about life on Earth depends on life in the ocean. After all, this is a blue
planet, with about 70 percent of the total surface awash with one of the most common
molecular compounds known: water.
The oceans regulate the planet’s biological wellbeing. But water alone is not enough.
Life in its most common forms demands a ready supply of a particular element if it’s to
It’s the same stuff that composes lowly coal, and it’s the core of proud tree trunks.
Carbon is the root of all life on Earth, and as its complex dance carries it through the
biosphere, the Earth’s state of health responds.
By monitoring the color of reflected light via satellite, scientists can determine how
successfully plant life is photosynthesizing. A measurement of photosynthesis is
essentially a measurement of successful growth, and growth means successful use of
Until now, scientists have only had a continuous record of photosynthesis on land.
But following three years of continual data collected by the Sea-viewing Wide
Field-of-view Sensor (SeaWiFS) instrument,
NASA has gathered the first record of photosynthetic productivity in the oceans. The
process begins with a measurement of surface chlorophyll concentration.
Chlorophyll is the material that allows plant cells to convert sunlight into energy, thus
enabling them to grow. It’s a green substance, and thus a good indicator of overall
plant health: robust forests and lush lawns and vibrant phytoplankton blooms appear
green. By measuring chlorophyll concentration, scientists can determine the health
and growth of plants in a given area. By extension, healthy color signatures indicate
the successful use of carbon, the fundamental building block for life. In other words,
lots of green indicates lots of chlorophyll; lots of chlorophyll implies healthy
photosynthesis; strong photosynthesis indicates growth, and growth indicates
successful use of carbon.
The above image shows the amount of chlorophyll present in the oceans, and the
amount of vegetation on land. Purple and blue represent low levels of chlorophyll, while
green, yellow, and red indicate progressively higher concentrations. On land, brown pixels
show areas of little vegetation, while blue-green represents dense vegetation.