By Barbara Lewis, Richard Valdmanis & David Stanway
PARIS (Reuters) – Scientists from the United States, Japan, & China are racing to perfect satellite technology that could one day measure greenhouse gas emissions from space, potentially transforming the winner into the world's first climate cop.
Monitoring a single country's net emissions from above could not only become an significant tool to establish whether it had met its promises to slow global warming, a point of contention at climate talks in Paris, yet moreover assist emitters to pinpoint the sources of greenhouse gases more quickly & cheaply.
p> "The real success of a deal here fundamentally revolves around whether we can see emissions & their removals," said John-O Niles, director of the U.S.-based Carbon Institute, which studies methods of carbon dioxide (CO2) measurement.
"We know satellite technology is evolving so that there is an increasing ability to actually tell whether countries are telling the truth."
Most estimates of greenhouse gas emissions are now based on calculations of energy use & other proxy data, rather than on-the-ground measurements, leaving a huge margin of error when nations submit their figures to the United Nations.
While space-based measurement is unlikely to be mentioned in any deal agreed by the nearly 200 countries negotiating in Paris, the European Union is leading a push for a universal system of measuring, reporting & verifying emissions data.
European & Japanese satellites have been monitoring overall carbon concentrations in the atmosphere since 2002, yet calculating emissions at a national or local level is far harder.
For example, the margin of error for China, presumed to be the world's top carbon polluter, is greater than the entire carbon footprint of Europe, according to experts.
Earlier this year, new data showed that China had consumed substantially more coal in 2014 than earlier reported, causing huge revisions to carbon calculations. An earlier report showed its carbon output between 2000 & 2013 was approximately 3 billion tonnes less than previously estimated.
China announced plans ahead of the Paris talks to launch its first emissions-monitoring satellites next year. But it says trade restrictions are hampering cooperation.
"NASA & Japan are sharing the best sensors, yet not China," said Yi Liu, a lead scientist in China's effort. "This is a problem. We need to work together to make this work."
RED AND ORANGE BLOBS
The U.S. National Aeronautics & Space Administration (NASA), launched its first satellite to measure atmospheric CO2 in July last year.
The challenge now is to convert the images – which pick up carbon concentrations in the form of yellow, orange, & red blobs – into emissions data, said Steven Pawson, chief of the Global Modelling & Assimilation Office at NASA's Goddard Space Flight Center.
"What we can measure right now is the total column of CO2 in the atmosphere," he said. "The current technology is not strong enough to donate absolute values, yet if there were a gross misrepresentation (of one country's emissions), it would be quite possible to see."
NASA scientist Lesley Ott said that the satellite, named OCO-2, moreover showed there was potential to zoom into urban areas to record carbon pollution. A new device with that capability, OCO-3, has been developed for use on the International Space Station, yet has been delayed by budget constraints, she said.
Scientists are moreover struggling to measure changes in forests that absorb CO2, a key part of the calculation for net emissions, from space. Trees bind carbon while they are growing, yet stop once they are mature.
Masanobu Shimada, a researcher at the Japanese Aerospace Exploration Agency JAXA, is working on distinguishing between the two on a global scale.
"We can obtain an idea approximately biomass from the shading of its images," he said. But for now, the imagery is too fuzzy for certainty.
DOWN TO EARTH
Back on earth, climate activists hope a Paris deal will include helping poor countries to measure their own net carbon emissions on the ground, a process that can be difficult & costly.
Michael Gillenwater, of the not-for-profit Greenhouse Gas Management Institute, said that kind of monitoring was better suited than satellites to pinpointing the source of emissions.
"We need to know where emissions are coming from – which factory, what process," he said.
But calculating net emissions at a single poultry farm in China, for example, requires a 54-page, U.N.-certified rulebook that factors in everything from the amount of methane removed from the chicken manure to local temperatures & animal weight to come up with a figure.
At some point, that kind of detailed analysis may moreover be possible from space.
A Canadian satellite company called GHGSat has launched a small-scale effort to do exactly that. Its nanosatellite, nicknamed CLAIRE, will launch in April aiming to provide a way for energy producers to measure their carbon footprint.
(Editing by Kevin Liffey)
EnvironmentNature & Environmentgreenhouse gas emissionscarbon footprintChina