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On mountain peaks scattered across Colorado,  in attempts to generate snow. The process is called cloud seeding, and as global temperatures rise, more  and  are using it in sometimes desperate efforts to modify the weather.

But cloud seeding isn’t as simple as it sounds, and it might not be as promising as people wish.

As an , I have studied and  for 50 years. Cloud seeding  require the  with enough moisture, and the right temperature and wind conditions. The percentage increases in precipitation are small, and it’s difficult to tell when snow or rain fell naturally and when it was triggered by seeding.

How modern cloud seeding began

The modern age of weather modification began in the 1940s in Schenectady, New York. 

Vince Schaefer, a scientist working for General Electric,  to a freezer containing “” water droplets triggered a proliferation of ice crystals. 

 that the right mix of supercooled water drops and ice crystals could cause precipitation.  when ice crystals in clouds stick together. If ice-forming particles could be added to clouds, the scientists reasoned, moisture that would otherwise evaporate might have a greater chance of falling. Schaefer proved it could work.

On Nov. 13, 1946, Schaefer  from a plane into supercooled stratus clouds. “I looked toward the rear and was thrilled to see long streamers of snow falling from the base of the cloud through which we had just passed,” . A few days later, he wrote that trying the same technique appeared to have improved visibility in fog.

A colleague at GE, Bernie Vonnegut, searched through chemical tables for materials with a crystallographic structure similar to ice and discovered that  could have the same effect at temperatures below -20 C (-4 F) as dry ice.

Their research led to , a joint civilian-military program that explored seeding a variety of clouds, including supercooled stratus clouds, cumulus clouds and . Within a few years, communities and companies that rely on water were spending US$3 million to $5 million a year on cloud-seeding projects, particularly in the drought-troubled western U.S., .

But does cloud seeding actually work?

The results of about 70 years of research into the effectiveness of cloud seeding are mixed.

Most scientific studies aimed at evaluating the effects of seeding cumulus clouds have shown little to no effect. However, the results of seeding wintertime  – clouds that form as air rises over a mountain – have .

There are two basic approaches to cloud seeding. One is to seed supercooled clouds with silver iodide or dry ice, causing ice crystals to grow, consume moisture from the cloud and fall as snow or rain. It might be shot into the clouds in rockets or sprayed from an airplane or mountaintop. The second involves warm clouds and  materials like salt particles. These particles take on water vapor, becoming larger to fall faster.

The amount of snow or rain tied to cloud seeding has varied, with . In the U.S., studies have found a few percentage points of increase in precipitation. In a 2020 study, scientists  caused moisture inside clouds to thicken and fall. In all, about one-tenth of a millimeter of snow accumulated on the ground below in a little over an hour.

Another study, in 2015, used climate data and a  in the mountains of Wyoming to estimate that  for cloud seeding about a quarter of the time from November to April. But the results likely would increase the snowpack by for the season.

While encouraging, these experiments have by no means reached the level of significance that Schaefer and his colleagues had anticipated.

Weather modification is gaining interest again

 to determine when cloud seeding enhances precipitation and by how much.

People have raised a few concerns about negative effects from cloud seeding, but those effects appear to be minor. Silver ion is a , but the amount of silver iodide in seeded snowpack is so small that extremely sensitive instrumentation must be used to detect its presence. 

Meanwhile, extreme weather and droughts are increasing interest in weather modification. 

The World Meteorological Organization reported in 2017 that weather modification programs, including suppressing crop-damaging hail and increasing rain and snowfall, were underway in . My home state of Colorado has  for years. Regardless of the mixed evidence, many communities are counting on it to work.