.国产短视频

国产短视频

国产短视频College of Marine Science

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One Scientist鈥檚 Noisy Data is Another Scientist鈥檚 Treasure

Illustration of GRACE-FO in orbit. Courtesy of NASA/JPL-Caltech.

Illustration of GRACE-FO in orbit. Courtesy of NASA/JPL-Caltech.

By: Carey Schafer, Web Content Developer, 国产短视频College of Marine Science

Don Chambers, PhD, professor at the 国产短视频College of Marine Science, has never shied away from difficult scientific questions. Chambers鈥 latest scientific venture involves studying the deepest ocean currents. From space. 鈥淲hat can I say?鈥 said Chambers. 鈥淚鈥檝e always liked a challenge.鈥

Amazing GRACE

In the early 2000s, Chambers was working as a postdoctoral fellow at the University of Texas Center for Space Research when his advisor, Byron Tapley, PhD, along with German scientist, Christoph Reigber, PhD, joined forces with NASA to form the (GRACE) mission.

Launched in March of 2002, GRACE鈥檚 mission is to map variations in Earth鈥檚 gravity field from space. GRACE looks like a space train, a pair of satellites that fly 220 kilometers apart, 500 kilometers above the Earth鈥檚 surface. It鈥檚 this unique design, two satellites flying at a precise distance from one another, that allows GRACE to measure the Earth鈥檚 gravity field with a high accuracy.

As the satellites move over an area of stronger gravity, which corresponds to a greater mass concentration, the lead satellite is pulled away from the trailing satellite. As the satellites continue along their path, the trailing satellite 鈥渃atches up鈥 to the lead satellite as they pass over the gravity anomaly. These miniscule changes in distance between the two satellites allow for the calculation of the gravity field.

When the batteries on GRACE finally died in October of 2017, ten years beyond the expected lifetime of the mission, scientists, including Chambers, were eager to continue the legacy. So, GRACE Follow On (GRACE-FO) was launched in May of 2018 and continues to map Earth鈥檚 gravity field from space.

With 18 years of nearly continuous gravity data, scientists have used GRACE to study everything from changes in groundwater storage to the melting of glaciers on Greenland.

Rising Above the Noise

Studying deep ocean currents from space may seem counterintuitive. Certainly, for many involved with the GRACE mission, it seemed implausible at first.

鈥淚鈥檓 looking at a signal that is about 100 times smaller than the signals that people who are looking at the ice sheets or hydrology are familiar looking at,鈥 said Chambers. 鈥淚n a lot of early papers, the way noise was classified in the GRACE mission was to look at the signal over the ocean and to assume it was all noise. And I鈥檓 actually trying to demonstrate that no, it鈥檚 actually not noise, there is a coherent signal there.鈥

Makowski, Chambers, and Bonin at the European Geophysical Union Meeting in Vienna, Austria where Makowski presented her GRACE research. Photo courtesy of Don Chambers, 国产短视频College of Marine Science.

Makowski, Chambers, and Bonin at the European Geophysical Union Meeting in Vienna, Austria where Makowski presented her GRACE research. Photo courtesy of Don Chambers, 国产短视频College of Marine Science.

So, Chambers set out to prove the signal over the ocean was more than noise. Chambers鈥 former student and College of Marine Science graduate, Jessica Makowski, was able to show that GRACE measurements of the Antarctic Circumpolar Current (ACC) aligned with the expected physical dynamics of the current. These data not only demonstrated that Chambers and Makowski were seeing more than noise in the data, but also allowed them to pick up on fine scale fluctuations within the current that had not been previously observed.

鈥淏ack when GRACE was still new, much of the oceanographic community was skeptical of its results,鈥 said Jennifer Bonin, PhD, a scientific researcher with Chambers鈥 group. 鈥淢any scientists focused on demonstrating that GRACE was able to observe the same major signals found in their ocean models 鈥 and were convinced that if they could not do so, GRACE was wrong.鈥

鈥淒on was one of the first to move beyond verification checks, to actually do new ocean science with GRACE with the goal of proving how GRACE could help improve the models, rather than the other way around,鈥 said Bonin.

Current Events

Chambers鈥 previous work set out to prove GRACE could be used to accurately observe deep ocean currents. Now, he wanted to apply those hard-earned skills. So, he set his sights on an even bigger challenge: understanding the role two major currents play in global climate.

Both of these currents, the ACC and the Deep Western Boundary Current in the Atlantic, play a significant role in the Earth鈥檚 climate.

This is an example of the kinds of datasets Don Chambers, PhD, enjoys wrestling with. This plot shows Antarctic Circumpolar Current (ACC) transport variability over time and its relationship to wind fluctuations. It鈥檚 not an uncomplicated exercise, as GRACE satellite data is processed at three different locations (corresponding to the three colored lines). Figure courtesy of Don Chambers, 国产短视频College of Marine Science.

This is an example of the kinds of datasets Don Chambers, PhD, enjoys wrestling with. This plot shows Antarctic Circumpolar Current (ACC) transport variability over time and its relationship to wind fluctuations. It鈥檚 not an uncomplicated exercise, as GRACE satellite data is processed at three different locations (corresponding to the three colored lines). Figure courtesy of Don Chambers, 国产短视频College of Marine Science.

The ACC transports more water per second than any other current on the planet and connects all three major ocean basins, acting as a means of oceanic communication across the planet. It also functions as an insulating blanket, separating the warm water of the subtropics from the cold water surrounding Antarctica.

The Deep Western Boundary Current in the Atlantic is made up of cold, dense water known as North Atlantic Deep Water (NADW). This water mass is an integral part of the overturning circulation which is responsible for transporting warm water (and heat) from the tropics to the poles and vice versa.

Using the now 18-year-long time series from GRACE, Chambers and his team hope to gain novel insight into how these currents function and how they鈥檙e responding to climate change. 鈥淭oday, data from GRACE are the only measurements that are capable of measuring these deep currents at a regular timescale, on an ongoing basis, and not just a snapshot,鈥 said Chambers. 鈥淭his gives us unprecedented insight into how these currents behave, how they have changed over the last 18 years, and how they may change in the future.鈥

The behavior of these currents and the role they play in climate is subject to decades-long debate. While potentially intimidating to some, Chambers was eager to throw his hat into the ring and demonstrate just how powerful GRACE could be for untangling some of the biggest questions related to the ocean鈥檚 role in climate change.

This is not the first time Chambers has found himself employing an under-utilized tool to answer a big scientific question. Much of Chambers鈥 career has centered on studying global sea level trends using satellite altimetry, a technology which when first introduced in the 1980s, was met with a healthy dose of skepticism from the scientific community. Yet, Chambers recognized the importance of satellite altimetry and today has even combined altimetry data with GRACE data to further our understanding of anthropogenic sea level rise.

鈥淒on has always been willing to ask questions along the forefront of science - and has been able to answer them,鈥 said Bonin. 鈥淏ut, I think that, above all, Don does research because he is curious. He works to understand the world.鈥

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