Footage showed the Nasa launch of the Orbiting Carbon Observatory-2
Nasa has launched a mission dedicated to measuring carbon dioxide (CO2) from space.
The Orbiting Carbon Observatory-2 (OCO-2) will help pinpoint the key locations on the Earth's surface where the gas is being emitted and absorbed.
A Delta rocket carrying the satellite lifted clear of the Vandenberg Air Force Base in California at 02:56 local time (09:56 GMT; 10:56 BST).
The ride to orbit took just under an hour.
The launch was delayed a day after Tuesday's countdown was aborted due to the failure of the water system used to dampen the noise and vibration generated by the rocket's first-stage engine and strap-on boosters.
OCO-2 carries the "2" designation because it is a replacement for a spacecraft that was destroyed on launch in 2009.
A camera mounted on the rocket's upper-stage watched OCO-2 separate in the direction of the Sun
The new $468m (£273m) mission should operate for at least two years.
Its key objective is to trace the global geographic distribution of CO2 in the atmosphere - measuring its presence down through the column of air to the planet's surface.
This should give scientists a better understanding of how the greenhouse gas cycles through the Earth system, influencing the climate.
Uncertain 'sinks'
Humans are currently adding nearly 40 billion tonnes of carbon dioxide to the atmosphere every year, principally from the burning of fossil fuels.
Only about half of this sum stays in the atmosphere, where it drives warming.
About half of the other half is absorbed into the ocean, with the remainder pulled down into land "sinks".
Exactly where, though, is highly uncertain.
It will likely include underappreciated areas of forest and grassland, but getting to the answers is complicated by the variability in the performance of sinks from year to year.
"Understanding what controls that variability is really crucial," said Dr Mike Gunson, the OCO-2 project scientist at Nasa's Jet Propulsion Laboratory.
"If we can do that today, it might inform us about what might happen in the future.
"Will those processes continue? Or will we see an abatement in their ability to absorb carbon dioxide, and does that increase the amount of CO2 in the atmosphere, obviously having climate change impacts."
Artist's impression: The satellite weighs about 455kg and will initially operate for two years
The observatory carries a single instrument - a spectrometer that breaks the sunlight reflected off the Earth's surface into its constituent colours, and then analyses the spectrum to determine how much carbon dioxide and molecular oxygen is present.
Combining the data on these two gases can be used to work out atmospheric concentrations.
Current CO2 concentrations in the atmosphere stand at about 400 parts per million.
OCO-2's precision should enable it to detect changes of one or two carbon dioxide molecules out of the 400.
However, to locate the sources and sinks, scientists will need to combine this information with models that estimate how CO2 is being moved and mixed through the air.
The mission follows on the heels of the Japanese Gosat (Greenhouse gases Observing SATellite) venture, which has been doing a similar job since 2009, although at a lower resolution than OCO-2 will manage.
The Nasa scientists say they have learnt a huge amount from the Gosat experience, and expect the US satellite's science return to be hugely boosted as a result.
Dr David Crisp, the science team leader on OCO-2, commented: "Our science team has been working very closely with the Japanese, and this has provided a critical series of opportunities to develop and then validate the algorithms we will use to analyse the data.
"We are now so much further ahead of where we would have been had we launched successfully in 2009. In fact, we now think that within a few months of [Wednesday's] launch, we'll be producing a product that will be far better than anything we could have produced in the nominal mission of [the original satellite]."
CO2 molecules have an oxygen atom either side of a carbon atom - hence the mission name: OCO
Plant health
One technique proved by Gosat that will be pursued by OCO-2 is the ability of a space-borne spectrometer to detect the glow induced in chlorophyll by sunlight.
Being able to sense a fluorescence in plants' key photosynthetic molecule makes it possible to assess the health of vegetation.
Over time, researchers should be able to tell, for example, if some forests are becoming stressed and therefore less efficient at absorbing CO2.
Europe has carbon missions of its own coming at the end of the decade.
The French space agency (Cnes) is developing a concept called MicroCarb, which, like Gosat and OCO-2 before it, will measure carbon dioxide concentrations.
Cnes is also working on a concept with the German space agency (DLR) called Merlin. This satellite would study the distribution of methane in the atmosphere.
And the European Space Agency (Esa) has approved a project called Biomass. It will employ an orbiting radar system to "weigh" the amount carbon stored in the world's forests.
Nasa engineers say it will take several weeks to get OCO-2 into its final operational orbit.
Following separation from the Delta, the satellite has to raise itself to the head of a train of other Nasa Earth-observing spacecraft that circle the globe at an altitude of 705km.
Where exactly our carbon dioxide emissions are absorbed on Earth is uncertain
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