Posts Tagged With: alerting

From Lab to Living Room: OnAir Mets Bridge the Gap

eilts-blog-5-11-15I have spent quite a bit of time watching the local television meteorologists the last few days (as have most of you!) during the severe weather events we have had in Central Oklahoma. As a meteorologist who has been part of the Norman weather community for 30+ years it makes me proud to see how far we have come in providing life-saving information to citizens at large. On the other hand, on social media I constantly see negative comments, statements and jokes about the local television meteorologists. But I am here to tell you, that Mike Morgan, Damon Lane and David Payne all do a particularly credible job in communicating severe weather information to the public. Are they perfect? No. But do they provide a great service to the central Oklahoma community, hell yes! How many of us could be live on air for 5 hours straight, ingesting huge amounts of information from the NWS, storm spotters, etc. and managing storm chasers, on-air presentations, staying cool and relatively calm, and somehow doing that without a break? It is actually quite impressive. They earn their salaries on the few severe storm days that we have every spring.

I have seen a number of studies that show that during benign weather days, over 60% of people get their weather information from apps from national brands, but during severe weather over 90% of people turn to the local television meteorologists because they are local and they trust them.

We in the weather community should all rejoice in what they represent. They are the “tip of the spear” for the weather community, saving lives, communicating weather information that helps people stay safe, and providing assurance to hundreds of thousands of people on a regular basis. They showcase the technologies and severe storms’ knowledge that the Norman weather community has developed over the past five decades.

These television meteorologists’ main tool during severe storms is the dual polarized WSR-88D Doppler Weather Radar which was developed and proven at the National Severe Storms Laboratory (NSSL) and is now controlled, operated and continually enhanced by the NWS Radar Operations Center in Norman. The automated software used to detect and nowcast severe storms, tornadoes, hail and flash floods were initially developed at NSSL and have been embedded within the WSR-88D and in private sector television display systems.

Early storm “chasers” from NSSL and from the broader Norman weather community, and large experiments like VORTEX and VORTEX2 led by NSSL, have provided huge gains in knowledge about the structure of severe storms and tornadoes and the knowledge to understand what signatures in Doppler radar are associated with severe weather at the ground. This knowledge is utilized by these meteorologists in real-time during severe events.

Local television is also the primary way that citizens consume Tornado and Severe Thunderstorm Watches produced by the Storm Prediction Center based in Norman and also local warnings produced by the Norman Weather Forecast Office.

And even private sector companies, like our Norman-based company, Weather Decision Technologies, provide mobile apps (News9 Weather App, WeatherRadio and RadarScope), interactive weather maps (iMap), and other tools the television meteorologists use to help pass information to consumers.

I know many television meteorologists from all over the country, and I can tell you that each one of them is extremely passionate about their job. They are visible celebrities in their communities, with large responsibilities during severe weather events and take those responsibilities seriously. They make large investments in infrastructure and planning during the “off season” and then act on those plans during an outbreak.

In Oklahoma City, the three main meteorologists mentioned above have spent their whole careers building their knowledge of severe weather, Doppler weather radar, numerical models, and of course on-air presentation of weather. They provide great value to central Oklahoma, as do other local television meteorologists to their communities all over the United States. In OKC the investment in Doppler radars, on-air presentation capabilities, helicopters, storm chasers, etc. far exceeds other communities. The end result is a service to the society that saves lives and keeps people informed far better than any other medium. We should feel lucky that we are all benefactors of these large investments in our community that help keep us all safe.

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Do Early Tornado Events Portend for an Active Tornado Season this Spring?

After 2011’s tragic number of tornado-related deaths, and the large number of destructive tornadoes that hit densely populated areas, many people ask me if 2012 is going to be as big of a tornado year as last year. Now that we already have had deadly tornado events in February, plus the historical tornado outbreak on March 1st and 2nd in the Southeast, the interest in this year’s storm season is even more intense. The March event was historical because over 110 tornadoes were reported during the 2-day period, surpassing the largest number of tornadoes reported in any tornado outbreak in the month of March. Sadly, there were at least 40 fatalities from this outbreak.

US Tornado Deaths

provided by Harold Brooks of the National Severe Storms Laboratory

As you can see in the Figure (provided by Harold Brooks of the National Severe Storms Laboratory), the 552 deaths in 2011 were anomalously large compared to the number of deaths over the past 25 years, and so were the number of tornadoes (1,690 as reported by SPC). For comparison, in the past 10 years, we averaged 1,274 tornadoes per year in the US and an annual average of 56 deaths. In general, the National Weather Service did a great job in providing watches and warnings for the large events that caused a high proportion of deaths in 2011, with warnings often providing more than 20 minutes of advance notice. You can see from the figure below that there is a steady downward trend of tornado-related deaths in the United States over the past 50 years, which is attributable to the continuous improvements in technology and techniques made by the National Weather Service during that period. But last year was far from the norm or trend, hopefully we will not see another year like it for a long time.

Will 2012’s tornado season be as terrible as 2011? The short answer is that statistically speaking, it’s highly unlikely that the number of tornado deaths in 2012 will match or exceed the numbers in 2011. The reason for this is simply because in 2011 many EF-4 and EF-5 tornadoes struck high density urban centers, and simple odds make it unlikely this will happen again in 2012. This is not based on any physical reason other than statistical probability.

Regarding the number of tornadoes expected for this year, that is an interesting scientific question. I have talked to many people in the Norman weather community over the past couple of weeks and asked them what they thought the Spring Severe Storm season would be like. The consensus is that Spring 2012 will likely be an active severe weather year but no one believes it will be as active as 2011. I have heard this from research scientists, storm chasers and operational meteorologists. The reasons that each knowledgeable person gave me varied, but in general most people agreed that the large scale weather patterns are different now than they were in 2011 so we should expect different results.

Looking back at 2011, there were many meteorological reasons for the large number of tornadoes and strong destructive tornadoes; one of the key reasons was that a very strong jet stream set up which frequently pushed upper-level energy to the Southeast part of the U.S. contributing to the outbreaks. This is more common during La Niña events, which is a phenomenon where sea surface temperatures in the central and eastern Pacific around the equator are cooler than normal.

In early 2012 La Niña is still around, but climate forecasts for the next few months suggest that the current La Niña condition is fading fast and likely by the May time frame will be in a near neutral (normal) pattern. Another key ingredient to severe weather is warm moist air. And in the South and Southeast this winter there have been very few strong cold fronts that have penetrated all the way through the Gulf of Mexico; so Gulf sea surface temperatures are already near 70 degrees.

What does this mean for weather and storms east of the Rockies during the spring storm season? Based upon discussions with a large number of my “severe weather expert” friends, I would say there are two camps, one that believes that early events this spring in the SE will likely continue due to the large scale weather patterns and the warm moist air that is nearby, creating a good environment for storms; then as La Niña abates and upper level patterns shift, storms and tornadoes will be reduced and tend more towards climatology as we get to the May time frame, this would result in a slightly above average year for tornadoes with the biggest events in the Southeast in March and April.

The second camp is similar in that they believe that early in the year there will be the strong and frequent severe storms in the SE for the reasons stated above but this camp believes that as La Niña abates and upper patterns shift, that energy will be directed over the Central Plains causing more frequent and severe events in that region in May and June. In this scenario, we would expect a very active year in total with the number of tornadoes well above climatology.

I personally am in the second camp. I believe that the most likely scenario is for the most frequent and severe storms to be in the SE in the next two months and then we should see that energy and thus storms move west into the Central Plains culminating in a very active severe weather and tornado season.

March 1st starts the unofficial “tornado season” in the Central Plains. There will be big tornado events and sadly people will be killed. Everyone that lives east of the Rockies should own a weather radio for your home and have the iMap Weather Radio App on their iPhone (WDT launched version 2 on March 2nd, Android launches in late April). Both provide lifesaving alerts. iMap Weather Radio provides “follow-me” alerts plus an interactive map with your location and the warnings overlaid on top of radar data. Additionally, in areas where WDT has media partners you can watch their live streaming television feed within the app during severe storm events. WDT has spent three years developing iMap Weather Radio and has a fully redundant computing infrastructure to ensure that watches and warnings are delivered in a timely manner. We are very proud of the app and the alerting systems we have built, and our goal is to save lives.

Over the coming months I will post to this blog at least once a week and more often during severe weather events.

Categories: Alerting, Severe Weather, Tornado | Tags: , , , , , , , , , | Leave a comment

The Hurricane Cone of Probability

Although I spent most of my career focusing on severe weather and its detection and nowcasting, I regularly observe how the National Hurricane Center (NHC) communicates threats from hurricanes, drawing corollaries with how severe thunderstorm and tornado threats are transmitted to the public. My impression is that the NHC has spent considerable time over the years working on how to represent hurricane locations to the public.

Cone of Probability for Hurricane Alex 2010

Cone of Probability for Alex (2010)

You may or may not know how the “hurricane cone of probability” produced by NHC is created. The cone represents the probable track of the center of the tropical cyclone and on average 67% (2/3) of the center locations will fall within that cone. They can calculate this cone because they assume that their forecast errors in the past 5 years will be the same as their existing forecasts.

I have always been impressed at how rigorous NHC’s approach is in calculating the probability cone. This is quite different than severe thunderstorm warnings or tornado warnings where local NWS meteorologists “on the fly” have to determine the size and location of the warning.

Of course there are issues in both approaches. If you think about the NHC cone of probability, if 2/3 of the forecasted center locations are within the cone, that means that 1/3 will be outside the cone. And I think that just as much of an issue is that the public interprets the area of the cone as the area where hurricane damage will occur, but that is not the case. NHC is representing where they believe 2/3 of the centers of hurricanes will fall, and hurricane force winds, surges, etc. definitely extend out from the center location by many miles.

On the severe thunderstorm and tornado warning side, the size and location of the polygon is placed in such a way that the meteorologist believes that the hazardous weather will always occur within the polygon. It would be interesting to see statistics on what percent of tornadoes for example occur outside tornado warnings, but my guess is that number will be very small. The biggest issue with tornado warnings is false alarms.

So all in all, communicating information to the public about hazards from hurricanes and severe thunderstorms and tornadoes is a difficult task. Meteorologists producing these warnings and forecasts have to deal with the reality that inherently all forecasts of meteorological events are by their nature not perfect. Thus, in the meteorological community we try to express the hazards to the public by making warnings or cones of probability larger in size and time than will ever actually occur to cover the uncertainty in our capability to forecast these events. Ultimately, progress in science and our capability to collect data on these events will help us reduce the uncertainty, leading to more precise and accurate warnings and forecasts.

Categories: Alerting, Hurricane | Tags: , , , | Leave a comment

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