A "cone of uncertainty" for Hurricane Irma (left) and Hurricane Harvey (right). Both cones are from 2017 and are therefore identical to each other in their construction. |
The cone is updated each year prior to the start of hurricane season, and it almost always shrinks each year too. Hurricane track forecasts are gradually improving, meaning that in general, there is less uncertainty where a storm will track now than there was a decade ago. In fact, a two-day forecast now is as accurate as a one-day forecast was a decade ago, and a five-day forecast now is more accurate than a three-day forecast was two decades ago! The map below shows the new 2019 cone overlaid on the 2014, 2009, and 2004 cones for comparison.
Since the cone is so widely used yet sometimes misunderstood, here are some key refreshers:
- The cone does not tell you anything about where impacts will be experienced. Even for a perfect down-the-middle track forecast, impacts such as strong wind, heavy rain, storm surge, and tornadoes will extend beyond the cone.
- The cone does not tell you anything about the size of the storm. Regardless of how strong they are, hurricanes come in a wide range of sizes. Recently, NHC has added the observed size of the wind field to their cone graphics to help illustrate this (see the Irma and Harvey examples above... the orange and red shading indicates the extent of tropical storm and hurricane force winds at the time the forecast was issued).
- The cone does not tell you anything about the actual uncertainty associated with the forecast. Since the size of the cone is fixed, it cannot become more narrow or broad to accommodate a more or less predictable environment.
- Nothing magically happens at the edge of the cone. If a hurricane is approaching and you are scrutinizing each new forecast to see if you are inside the cone or not, you are missing the point of it. It is arbitrarily chosen to be the 67% historical probability threshold... a 75% probability cone would be larger, and a 50% probability cone would be smaller.
- If you use the cone graphics from NHC, there is some information about intensity provided. At each forecast point, there is a letter written inside the black dot corresponding to a general intensity range: D (tropical depression), S (tropical storm), H (hurricane), and M (major hurricane (Category 3+)). But keep in mind that there is uncertainty associated with the intensity forecasts too!
Other important terms:
Storm Surge Watch: the possibility of life-threatening inundation from rising water moving inland from the shoreline generally within 48 hours.
Storm Surge Warning: the danger of life-threatening inundation from rising water moving inland from the shoreline generally within 36 hours.
Hurricane Watch: sustained winds of 74 mph (64 knots or 119 km/hr) or higher are possible. Because hurricane preparedness activities become difficult once winds reach tropical storm force, the hurricane watch is issued 48 hours in advance of the anticipated onset of tropical-storm-force winds.
Hurricane Warning: sustained winds of 74 mph (64 knots or 119 km/hr) or higher are expected. Because hurricane preparedness activities become difficult once winds reach tropical storm force, the warning is issued 36 hours in advance of the anticipated onset of tropical-storm-force winds.
Tropical Storm Watch: sustained winds of 39-73 mph (34-63 knots or 63-118 km/hr) are possible within the specified area within 48 hours.
Tropical Storm Warning: sustained winds of 39-73 mph (34-63 knots or 63-118 km/hr) are expected somewhere within the specified area within 36 hours.
Strong winds and thunderstorms arrive well before the center of the storm (sometimes a couple days), so when the time comes, be sure to plan and finalize your preparations prior to the expected arrival of tropical storm force winds, not the expected arrival of the center.
And if you missed it earlier, I have some general hurricane information and preparedness tips at http://bmcnoldy.blogspot.com/2019/04/2019-hurricane-season-intro-local.html
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you wrote "a 50% probability cone would be larger, and a 75% probability cone would be smaller"... isn't that backward? the size of the cone is directly proportional to the probability the storms stays within it, not inversely proportional... in theory you could expand the cone so big to guarantee the storm would stay inside, but that would defeat the purpose of having the cone in the first place
ReplyDeleteYep... a typo, thanks for catching it!
ReplyDelete