Study: Major return on investment from improving climate observations

By the Cooperative Institute for Research in Environmental Studies

A well-designed climate observing system could help scientists answer knotty questions about climate while delivering trillions of dollars in benefits by providing decision makers information they need to protect public health and the economy in the coming decades, according to a new study published today.

The flip side is also true, said Elizabeth Weatherhead, a scientist at the Cooperative Institute for Research in Environmental Studies (CIRES) at the University of Colorado Boulder in Boulder, Colorado and lead author of the new study. The cost of failing to invest in improving our ability to predict and plan for droughts, floods, extreme heat events, famine, sea level rise and changes in freshwater availability could reach hundreds of billions of dollars each year, according to the new study accepted for publication in Earth’s Future, a journal of the American Geophysical Union.

NOAA’s GOES satellites are key to National Weather Service (NWS) operations, providing continuous satellite monitoring of the Earth’s environment for weather forecasting, storm warning, and meteorological research. New research shows that having a well-designed climate observing system could deliver trillions of dollars in benefits by providing decision makers information they need to protect public health and the economy in the coming decades.
Credit: NASA.

“Improving our understanding of climate not only offers large societal benefits but also significant economic returns,” Weatherhead said. “We’re not specifying which measurement or observing systems to target, we’re simply saying it’s a smart investment to address the most pressing societal needs.”

Data generated by the current assemblage of observing systems, including NOAA’s satellite and ground-based observing systems, have yielded significant insights into important climate questions. However, coordinated development and expansion of climate observing systems are required to advance weather and climate prediction to address the scale of risks likely in the future, according to the study’s authors.

For instance, the current observing system cannot monitor precipitation extremes throughout much of the world, and cannot forecast the likelihood of extreme flooding well enough to sufficiently guide rebuilding efforts. “The current decline of our Earth observing systems is likely to continue into the foreseeable future,” said Liz Moyer, a climate researcher at the University of Chicago who was not involved with the new study. “Unless action is taken—such as suggested in this paper—our ability to plan for and respond to some of the most important aspects of climate, including extreme events and water availability, will be significantly limited.”  

Weatherhead and a team of many prominent climate scientists urge that investments focus on tackling seven “grand challenges,” such as predicting extreme weather and climate shifts, the role of clouds and circulation in regulating climate, the regional sea level change and coastal impacts, understanding the consequences melting ice, and feedback loops involving carbon cycling. “Our approach is a very pragmatic way to address highest priorities,” she said.

In each category, observations are needed to inform process studies, to build long-term datasets against which to evaluate changing conditions, and ultimately to improve modeling and forecasting capabilities.

But benefits are likely broader: “Well planned observations are important to more than just understanding climate: predicting the weather and extreme events, and managing water availability and energy demand will all benefit,” said Deon Terblanche, director of research at the World Meteorological Organization in Geneva who was not involved with the new study.

“Developing observation systems focused on the major scientific questions with a rigorous evaluation process to ensure the measurement quality is fit-for-purpose—as the authors propose—will more than pay off in the long run,” said Tom Gardiner, a principal research scientist at the UK’s National Physical Laboratory in London who was not connected to the new study.

Objective evaluations of proposed observing systems, including satellites, ground-based or in-situ observations as well as new, currently unidentified observational approaches, will be needed to prioritize investments and maximize societal benefits, the authors propose.  

“We need to take a critical look at what’s needed to address the most important climate questions,” said Bruce Wielicki, a scientist at NASA’s Langley Research Center in Hampton, Virginia and co-author of the new study.

Not all new observing strategies would necessarily require expensive new systems like satellites, the authors pointed out. For example, after a devastating flood hit Fort Collins, Colorado in 1998, the state climatologist developed a network of trained volunteers to supplement official National Weather Service precipitation measurements using low-cost measuring tools and a dedicated web portal. The Community Collaborative Rain, Hail and Snow now counts thousands of volunteers nationwide who provide the data directly to the National Weather Service.

Using a rigorous evaluation process to develop a robust network of observation systems focused on the major scientific questions will more than pay off in the long run, the authors concluded.

“The economic risks from climate change are measured in trillions of dollars,” said Rich Sorkin, CEO of Jupiter, a Silicon Valley-based company that provides intelligence on weather and climate risks around the globe who was not involved with the new study. “So an improved, properly designed observing system, with commensurate investments in science and understanding, has the potential to be of tremendous value to society.”

— CIRES is a partnership of NOAA and the University of Colorado Boulder. This post originally appeared as a press release on the CIRES website.


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