Project Stormfury
Project Stormfury was an attempt to weaken tropical cyclones by flying aircraft into them and seeding with silver iodide. The project was run by the United States Government from 1962 to 1983. The hypothesis was that the silver iodide would cause supercooled water in the storm to freeze, disrupting the inner structure of the hurricane, and this led to seeding several Atlantic hurricanes. However, it was later shown that this hypothesis was incorrect. It was determined that most hurricanes do not contain enough supercooled water for cloud seeding to be effective. Additionally, researchers found that unseeded hurricanes often undergo the same structural changes that were expected from seeded hurricanes. This finding called Stormfury's successes into question, as the changes reported now had a natural explanation.
The last experimental flight was flown in 1971, due to a lack of candidate storms and a changeover in
Hypothesis
Cloud seeding was first attempted by Vincent Schaefer and Irving Langmuir. After witnessing the artificial creation of ice crystals, Langmuir became an enthusiastic proponent of weather modification.[1] Schaefer found that when he dumped crushed dry ice into a cloud, precipitation in the form of snow resulted.[2]
With regard to hurricanes, it was hypothesized that by seeding the area around the eyewall with silver iodide, latent heat would be released. This would promote the formation of a new eyewall. As this new eyewall was larger than the old eyewall, the winds of the tropical cyclone would be weaker due to a reduced pressure gradient.[3] Even a small reduction in the speed of a hurricane's winds would be beneficial: since the damage potential of a hurricane increased as the square of the wind speed,[4] a slight lowering of wind speed would have a large reduction in destructiveness.[4]
Due to Langmuir's efforts, and the research of Schaefer at General Electric, the concept of using cloud seeding to weaken hurricanes gathered momentum. Indeed, Schaefer had caused a major snowstorm on December 20, 1946 by seeding a cloud.[2] This caused GE to drop out for legal reasons. Schaefer and Langmuir assisted the U.S. military as advisors for Project Cirrus, the first large study of cloud physics and weather modification. Its most important goal was to try to weaken hurricanes.[5]
Project Cirrus
Project Cirrus was the first attempt to modify a hurricane. It was a collaboration of the
The project's two
At first the seeding was officially denied and it took years before the government admitted it. According to the Sept. 12, 1965 edition of the Fort Lauderdale News and Sun-Sentinel, in 1947 a hurricane "went whacky" and "Twelve years later it was admitted the storm had in fact been seeded."[8]
Between the projects
The
The first seeding experiment since the Cirrus disaster was attempted on September 16, 1961, into
The seedings into Hurricane Esther led to the establishment of Project Stormfury in 1962. Project Stormfury was a joint venture of the United States Department of Commerce and the United States Navy.[10]
Project BATON
The objective of Project BATON was the analysis of the life history of thunderstorms. A Department of Defense research activity supported by the Advanced Research Project Agency, Project BATON sought to expand understanding of storm physics as an aid to weather forecasting, fire prevention, and, possibly, for artificially controlling the weather. Dr. Helmut Weickmann, as an employee of the U.S, Army Signal Research and Development Laboratory, and Dr. Paul MacCready of Meteorology Research, Inc., were joint leaders of the Project BATON team.[11]
During the 1962 July–August storm season in Flagstaff, Arizona, the scientists, selected "guinea pig" storms, and seeded them with chemicals. Effects were thoroughly analyzed from the ground and from the air with time-lapse motion picture cameras, stereo still cameras, storm radar, lightning detectors, and airborne heat sensors. Among the agents inserted in selected clouds were "condensation nuclei" which temporarily increased the number of water droplets in the cloud, and pulverized dry ice, which turns a portion of the cloud to fine snow crystals that remain aloft. The utilization of these agents facilitated study of a storm's characteristics.[11]
Project STORMFURY begins
Robert Simpson became its first director, serving in this capacity until 1965.[12] There were several guidelines used in selecting which storms to seed. The hurricane had to have a less than 10 percent chance of approaching inhabited land within a day;[13] it had to be within range of the seeding aircraft; and it had to be a fairly intense storm with a well-formed eye.[9] The primary effect of these criteria was to make possible seeding targets extremely rare.[14]
No suitable storms formed in the
On August 23, 1963, Hurricane Beulah was the site of the next seeding attempt. It had an indistinct eyewall. In addition, mistakes were made, as the seedings of silver iodide were dropped in the wrong places. As a consequence, nothing happened.[10] The next day, another attempt was made, and the seeders hit their targets. The eyewall was observed to fall apart and be replaced by another eyewall with a larger radius.[15] The sustained winds also fell by twenty percent.[15] All in all, the results of the experiments on Beulah were "encouraging but inconclusive."[16]
In the six years after Beulah, no seedings were conducted for several different reasons. In 1964, measurement and observation equipment was not ready to be used.[15] The year after that, all flights were used for additional experimentation in non-hurricane clouds.[15]
Joanne Simpson became its director beginning in 1965.[12][17] While out to sea in August of the 1965 Atlantic hurricane season, Stormfury meteorologists decided that Hurricane Betsy was a good candidate for seeding.[13] However, the storm immediately swung towards land, and on September 1, the planned flights were canceled. For some reason, the press was not notified that there were no seedings, and several newspapers reported that it had begun.[13] As Betsy passed close to the Bahamas and smashed into southern Florida, the public and Congress thought that seeding was underway and blamed Stormfury.[13] It took two months for Stormfury officials to convince Congress that Betsy was not seeded, and the project was allowed to continue.[13] A second candidate, Hurricane Elena, stayed too far out to sea.[15]
After Betsy, two other hurricanes came close to being seeded. Hurricane Faith was considered a likely candidate, but it stayed out of range of the seeding planes.[15] That same year, recon flights were conducted into Hurricane Inez, but there were no seedings.[15] Both the 1967 and 1968 seasons were inactive. Because of that, there were no suitable seeding targets in either of those two seasons.[15]
Dr. R. Cecil Gentry became the director of Stormfury in 1968.[18] There were no more near-seedings until 1969. In the interim, equipment was improved. What once was the primitive method of hand-dumping dry ice was replaced with rocket canisters loaded with silver iodide, and then gun-like devices mounted on the wings of the airplanes that fired silver iodide into the clouds. Observation equipment was improved.[13] Additional reconnaissance data was utilized to modify the working hypothesis. The new theory took cumulus towers outside the eyewall into account. According to the revised theory, by seeding the towers, latent heat would be released. This would trigger the start of new convection, which would then cause a new eyewall. Since the new eyewall was outside the original one, the first eyewall would be choked of energy and fall apart. In addition, since the new eyewall was broader than the old one, the winds would be lower due to a less sharp pressure difference.[13]
Hurricane Debbie in 1969 provided the best opportunity to test the underpinnings of Project Stormfury. In many ways it was the perfect storm for seeding: it did not threaten any land; it passed within range of seeding aircraft; and was intense with a distinct eye.[19] On August 18 and again on August 20, thirteen planes flew out to the storm to monitor and seed it. On the first day, windspeeds fell by 31%.[15] On the second day, windspeeds fell by 18%.[15] Both changes were consistent with Stormfury's working hypothesis. Indeed, the results were so encouraging that "a greatly expanded research program was planned."[20] Among other conclusions was the need for frequent seeding at close to hourly intervals.[21]
The 1970 and 1971 seasons provided no suitable seeding candidates.[15] Despite this, flights were conducted into Hurricane Ginger. Ginger was not a suitable storm for seeding, due to its diffuse, indistinct nature. The seeding had no effect. Ginger was the last seeding done by Project Stormfury.[15]
After the seedings
Atlantic hurricanes meeting all of the criteria were extremely rare, which made duplication of the "success" reached with Hurricane Debbie extremely difficult. Meanwhile, developments outside of meteorology hindered the cause of hurricane modification.
In the early 1970s, the Navy withdrew from the project.
The plan was to begin again in 1976, and seed typhoons by flying out of
Similar plans to operate Stormfury in the eastern north Pacific or in the Australian region also collapsed.[24]
Failure of the working hypothesis
Multiple eyewalls had been detected in very strong hurricanes before, including Typhoon Sarah[25] and Hurricane Donna.[26] Double eyewalls were usually only seen in very intense systems. They had also been observed post-seeding in some of the seeded storms. At the time, the only observations of rapid changes in eyewall diameter, other than during presumably successful seedings, occurred during rapid changes in storm intensity.[27] It remained unclear whether the seedings caused the secondary eyewalls or whether it was just part of a natural cycle[28] (because correlation does not imply causation). It was initially thought that eyewall changes similar to those observed in seeded but not unseeded systems provided the evidence that Project Stormfury was a success. But if it was later observed that such eyewall changes were common in unseeded systems as well, such observations would throw doubt on the hypothesis and assumptions driving Project Stormfury.[29]
Data and observations did in fact begin to accumulate that debunked Stormfury's working hypothesis. Beginning with Hurricanes
Other observations in Hurricanes Anita, David,
Those observations called the basis for Project Stormfury into question. In the middle of 1983, Stormfury was finally canceled after the hypothesis guiding its efforts was invalidated.[34]
Legacy
In the sense of weakening hurricanes to reduce their destructiveness, Project Stormfury was a complete failure because it did not distinguish between natural phenomena in tropical cyclones and the impact of human intervention.[32] Millions of dollars had been spent. In the end, "[Project] STORMFURY had two fatal flaws: it was neither microphysically nor statistically feasible."[34]
In addition, Stormfury had been a primary generator of funding for the
However, Project Stormfury had positive results as well. Knowledge gained during flights proved invaluable in debunking its hypotheses.[36] Other science resulted in a greater understanding of tropical cyclones. In addition, the Lockheed P-3s were perfectly suitable for gathering data on tropical cyclones, allowing improved forecasting of these monstrous storms.[36] Those planes were still used by the NOAA as of 2005.[37]
Former Cuban president Fidel Castro alleged that Project Stormfury was an attempt to weaponize hurricanes.[38]
See also
Notes
- ^ a b c Davies p 85
- ^ a b Whipple p. 150
- ^ Landsea D9
- ^ a b Landsea D5
- ^ a b c d e f Whipple p 151
- ^ a b Willoughby, Jorgensen, Black, and Rosenthal p 505
- ^ Havens p. 61
- ^ Vinciguerra, T. (12 Sept. 1965). Betsy's Turnaround Stirs Big Question. Fort Lauderdale News and Sun-Sentinel. Section C, page 1.
- ^ a b Davies p 89
- ^ a b c Davies p 90
- ^ a b staff writers (August 1962). "Project BATON Probes Thunderstorm Origins To Improve Forecasts" (PDF). Army Research and Development. p. 12. Retrieved September 22, 2013.
- ^ a b Rob Gutro (1 June 2005). "Meet Dr. Joanne Simpson: Chief Scientist Emeritus for Meteorology, Earth Sun Exploration Division". Goddard Space Flight Center. Archived from the original on 17 June 2008.
- ^ a b c d e f g Whipple p 153
- ^ a b c d Whipple p 154
- ^ a b c d e f g h i j k l m Willoughby, Jorgensen, Black, and Rosenthal p 507
- ^ R. Cecil Gentry, quoted in Davies p 90
- ^ Herbert Leib (October 1966). "Project Stormfury" (PDF). ESSA World. Environmental Satellite Services Administration: 4.
- ^ Staff (October 1968). "ESSA, Navy, Air Force Alert for 1968 Stormfury Season" (PDF). ESSA World. Environmental Satellite Services Administration: 34.
- ^ Whipple pp 153–154
- ^ Gentry, quoted in Davies p 91
- ^ Black, Senn, and Courtright p 216
- ^ a b c Davies p 91
- ^ Williams
- ^ Willoughby, Jorgensen, Black, and Rosenthal p 508
- ^ Black, Senn, and Courtright p 210
- ^ Jordan and Schatzle pp 354-56
- ^ Black, Senn, and Courtright p 213
- ^ a b Willoughby, Clos, and Shorebah p 396
- ^ a b Willoughby, Jorgensen, Black, and Rosenthal p 511
- ^ Goldenberg
- ^ Willoughby, Jorgensen, Black, and Rosenthal p 509
- ^ a b Hurricane Research Division
- ^ Landsea C4
- ^ a b Willoughby, Jorgensen, Black, and Rosenthal p 513
- ^ Davies p 92
- ^ a b c Davies p 93
- ^ Swanson and Williams
- ^ Jack Shafer (March 22, 2010). "Schooling Ross Douthat in Conspiracy Theory". Slate. Retrieved 2024-04-21.
References
- Peter Black; Harry Senn; Charles Courtright (March 1972). "Airborne Radar Observations of Eye Configuration Changes, Bright Band Distribution, and Precipitation Tilt During the 1969 Multiple Seeding Experiments in Hurricane Debbie" (PDF). Monthly Weather Review Volume 100 Number 3. American Meteorological Society. pp. 208–217. Retrieved June 8, 2006.
- Pete Davies (2000). Inside the Hurricane: Face to Face with Nature's Deadliest Storms. Henry Holt and Company. ISBN 0-8050-6574-1.
- Stan Goldenberg (n.d.). "What are "concentric eyewall cycles" (or "eyewall replacement cycles") and why do they cause a hurricane's maximum winds to weaken?" (FAQ). Tropical Cyclone FAQ Subject D8. Hurricane Research Division. Retrieved June 8, 2006.
- Hurricane Research Division (n.d.). "History of Project Stormfury". Hurricane Research Division. Retrieved June 8, 2006.
- C.L. Jordan; Frank Schatzle (September 1961). "The 'Double Eye' of Hurricane Donna" (PDF). Monthly Weather Review Volume 89 Number 9. American Meteorological Society. pp. 354–356. Retrieved June 8, 2006.
- Chris Landsea (n.d.). "Has there ever been an attempt or experiment to reduce the strength of a hurricane ?" (FAQ). Tropical Cyclone FAQ Subject C4. Hurricane Research Division. Retrieved June 8, 2006.
- Chris Landsea (n.d.). "How does the damage that hurricanes cause increase as a function of wind speed?" (FAQ). Tropical Cyclone FAQ Subject D5. Hurricane Research Division. Retrieved June 8, 2006.
- Havens, Barrington S. (July 1952). History of Project Cirrus. General Electric Research Laboratory. Retrieved September 25, 2019.
- Chris Landsea (n.d.). "What causes each hurricane to have a different maximum wind speed for a given minimum sea-level pressure?" (FAQ). Tropical Cyclone Faq Subject D9. Hurricane Research Division. Retrieved June 8, 2006.
- Bob Swanson; Jack Williams (October 19, 2005). "Attempts to weaken, destroy hurricanes". Answers Archive. USA Today. Retrieved June 8, 2006.
- ABC Whipple (1982). Storm. Time Life Books. ISBN 0-8094-4312-0.
- Jack Williams (n.d.). "Stormfury attempted to weaken hurricanes". Answers Archive. USA Today. Retrieved June 8, 2006.
- H.E. Willoughby; D.P. Jorgensen; R.A. Black; S.L. Rosenthal (May 1985). "Project STORMFURY: A Scientific Chronicle 1962–1983". .
- H.E. Willoughby; J.A. Clos; M.G. Shorebah (February 1982). "Concentric Eye Walls, Secondary Wind Maxima, and the Evolution of the Hurricane Vortex". Journal of the Atmospheric Sciences. 39 (2). ]
External links