A new piece of the climate puzzle

SURF, the Dutch organisation that provides high-performance computing, data storage, and digital services to support research and education, plays a crucial role in NASA’s PACE mission by processing and storing data from the Dutch-built SPEXone instrument. As SPEXone measures aerosols and clouds to study their impact on global warming, SURF’s Spider platform handles the intensive data processing. This enables scientists to better understand aerosols’ role in climate change, providing key insights into our planet’s future.

Tension at the launch base

It is a cloudy night on February 8 at Cape Canaveral in Florida. Together with his colleagues and people from Airbus and NASA, SRON researcher Otto Hasekamp sits in the open air to watch NASA launch the new PACE satellite. On board is the measurement instrument SPEXone, which Hasekamp and his team have been working on for six years. “Beforehand, I didn’t think: this will go wrong. But once you are sitting there at that moment, you feel the tension: this had better go well…” For a moment, there is complete silence at the launch base. Then the rocket takes off into the sky with a huge flame and a lot of smoke. The ground shakes and the sky lights up. “Our relief was great. Yes, that was quite special,” recalls Hasekamp.

 Climate change research

With the PACE mission, NASA is researching climate change by using various instruments to study the ocean and atmosphere. From hundreds of kilometres above Earth, these instruments examine the impact of tiny particles in the water and air invisible to the naked eye. SPEXone specifically investigates what role clouds and aerosols (small dust or liquid particles) play in global warming.

Warming even faster

Aerosols are a form of air pollution. They can consist of sea salt, desert dust, soot or ash. They also affect the climate: they cool
the atmosphere because they reflect sunlight. Water can also condense on aerosol particles, creating more cloud droplets. Those clouds then reflect more sunlight, which also has a cooling effect.

“But we don’t know how big that cooling effect is,” says Hasekamp. “So we also don’t know to what extent aerosols counteract global warming from greenhouse gases. This makes it difficult to predict the climate for the future. If the air becomes cleaner in the coming years because we reduce polluting industries, the global warming could accelerate even more.”

Contradictory

It sounds contradictory: as a consequence of making the air cleaner, the atmosphere heats up. “But you have to do it, because air
pollution is unhealthy. This new instrument, and the others on PACE, are going to provide some important pieces of the puzzle. This will help us better predict the amount of global warming.”

Available for science

SPEXone was developed in the Netherlands by SRON, the Netherlands Space Institute in Leiden, in collaboration with Airbus
Netherlands. The data sent by the instrument to Earth over the next few years will be processed and stored on SURF’s systems and then made available to the scientific community.

Reflected light

So how can the instrument observe these microscopic aerosols from such an altitude? “SPEXone actually measures the light
reflected from aerosols,” Hasekamp explains. “How the light is scattered, how much light it reflects, with what colours and from what angles, and how much light it absorbs: these all tell us something about the particle’s properties, such as its size. To convert those measurements of light into aerosol properties, we have developed all kinds of algorithms. These run on Spider, SURF’s data processing platform.”

Computing-intensive

Converting light to aerosols is a computationally intensive process. Every piece of earth measuring 5 by 5 kilometres is gauged,
and for each piece the measured light radiation is translated into aerosol properties. “NASA converts the data into a readable format and then we get the data to SURF. That will involve about 50 terabytes a year.”

Especially at the beginning of such a mission, a lot of things need to be optimised about those processing algorithms. “On the
Spider platform at SURF, we do what we call ‘scientific processing’: processing the data in lots of different ways and then choosing the best approach. This allows us to quickly create a good data product for the users. These are SRON researchers, but also others who want to use the data, such as European research consortia.”

The future of our planet

Minuscule aerosols, so far the big unknown in climate models, are the key to unravelling the complex interplay of elements in the
atmosphere. Meanwhile, the first measurement results are starting to come in at SURF. In the coming years, the PACE satellite will continue to make its rounds around the Earth, to shed new light on the future of our planet.

This is an edited version of a story first published on the SURF website: A new piece of the climate puzzle