An upper-level trough digging over the southwestern U.S. began sending disturbances our way Thursday afternoon, and did not cease until late Friday night.

Several rounds of severe weather and heavy rainfall brought central Texas much-needed relief from an otherwise mainly dry month of May.

48-hour rainfall totals (Thursday AM – Saturday AM) from the LCRA Hydromet network.

Rainfall totals in the metro area approached 3 1/2″ in some areas by Friday night as the continued heavy rains caused flooding of several low-water crossings in the area.

That upper-level trough has now become cut-off from the main jet stream flow, sinking even deeper south into northern Mexico. This re-routing of the jet stream will steer the storms into south Texas over the next several days instead of here in central Texas.

That means that our Mother’s Day weekend is looking fantastic. Enjoy!

Storm reports and rainfall totals from Friday’s storm system are below.

Mostly Cloudy with scattered showers and thunderstorms on Saturday. Rains will will taper off by Saturday afternoon/early evening…with skies becoming partly cloudy. Lows Saturday morning will be generally in the 60s…with highs Saturday in the low 80s… to mid 80s Rio Grande Plains. Partly Cloudy and warm Sunday with lows in the 50s north to the lower 60s south. Highs Sunday will be in the upper 70s Hill Country to mid 80s Rio Grande Plains. (NWS)

PRELIMINARY LOCAL STORM REPORT...SUMMARY

NATIONAL WEATHER SERVICE AUSTIN/SAN ANTONIO TX

941 PM CDT FRI MAY 10 2013

..TIME...   ...EVENT...      ...CITY LOCATION...     ...LAT.LON...

..DATE...   ....MAG....      ..COUNTY LOCATION..ST.. ...SOURCE....

            ..REMARKS..

0500 PM     TSTM WND GST     REAGAN WELLS            29.55N  99.80W

05/10/2013  E60 MPH          UVALDE             TX   TRAINED SPOTTER

  (more...)

An approaching front and an ongoing series of upper level disturbances will combine to produce additional periods of rain and thunderstorms Friday, and possibly Saturday too. Some of the storms may be severe again Friday.

Severe weather reports were widespread Thursday evening as a large supercell thunderstorms tracked from Mason County across the entire southern part of the KXAN viewing area, all the way to Fayette County.

See the storm reports below.

Also below, you’ll see current radar, Doppler estimated rainfall totals, and rain totals from the LCRA Hydromet as of early Friday morning.

ESTIMATED STORM TOTAL RAINFALL:

STORM REPORTS FROM THURSDAY

0750 PM     HAIL             1 SW MASON              30.74N  99.24W

05/09/2013  E1.00 INCH       MASON              TX   LAW ENFORCEMENT

0815 PM     HAIL             9 SSW MASON             30.63N  99.29W

05/09/2013  M2.25 INCH       MASON              TX   CO-OP OBSERVER

            GOLF BALL TO BILLIARD BALL SIZE HAIL

0840 PM     HAIL             8 SSW MASON             30.64N  99.28W

05/09/2013  E1.75 INCH       MASON              TX   LAW ENFORCEMENT

  (more...)

On average, May is the Austin area’s wettest month, with close to 4.5 inches of rain. But, we are off to a very dry start this month, with only .01” falling so far. It looks like that will change soon though, as a complex storm system over the Rockies will give us a chance of beneficial rain over the next few days.

Some scattered showers and thunderstorms may develop Thursday, but there will be an even higher probability of rain and thunderstorms Friday. Rain could continue Saturday before some drier air moves in Sunday and Monday.

This time of year, it is not uncommon for thunderstorms to become severe. Areas west of IH-35 are in the “slight risk” category for severe storms Thursday. All of the KXAN viewing area is in the “slight risk” category Friday. Large hail and damaging winds will be the primary threat.

Those heavy thunderstorms should also bring some beneficial rainfall. The National Weather Service is forecasting rainfall totals of 1” to 2.5” across our area, with the heaviest amounts centered right on the Austin metro area.

Temperatures will remain near or just below normal through Friday, then well below normal Saturday, with highs only in the mid-70s. A return to highs in the 80s is forecast by Monday. There will be another chance for rain by Tuesday and Wednesday next week.

Here’s the latest information from the National Weather Service:

An unstable weather pattern will develop over the Southwestern US, leaving a series of weak disturbances aloft to pass across South Central Texas late this week. The first round of thunderstorms expected from this pattern should tap into afternoon heating on Thursday, resulting in a chance of strong to severe thunderstorms that could extend well into Thursday night. Large hail and damaging winds should be the main severe threats. The unstable pattern is expected to continue into Friday and possibly into Saturday as remnant outflow boundaries promote an additional focus for thunderstorm development. Rain chances may be further enhanced if a weak frontal boundary moves south from North Texas.

An unstable weather pattern will develop over the Southwestern US, leaving a series of weak disturbances aloft to pass across South Central Texas late this week. The first round of thunderstorms expected from this pattern should tap into afternoon heating on Thursday, resulting in a chance of strong to severe thunderstorms that could extend well into Thursday night. Large hail and damaging winds should be the main severe threats. The unstable pattern is expected to continue into Friday and possibly into Saturday as remnant outflow boundaries promote an additional focus for thunderstorm development. Rain chances may be further enhanced if a weak frontal boundary moves south from North Texas.

Here is the latest write-up from the Storm Prediction Center:

 SCATTERED TO LOCALLY NUMEROUS TSTMS IN CLUSTERS SHOULD DEVELOP OVER
   PORTIONS CENTRAL TX INTO SRN OK...INVOF COLD FRONT AND DRYLINE...IN
   FAVORABLE ENVIRONMENT FOR LARGE HAIL AND DAMAGING GUSTS.  A FEW
   SIGNIFICANT/DAMAGING HAIL EVENTS ALSO ARE POSSIBLE...PARTICULARLY
   RELATIVELY EARLY IN EPISODE WHEN STRONGEST /DISCRETE UPDRAFTS AND
   SUPERCELLS STRUCTURES ARE MOST PROBABLE.  STEEP/EML-RELATED MIDLEVEL
   LAPSE RATES...60S F MOIST-SECTOR SFC DEW POINTS AND AFTN DIURNAL
   HEATING WILL CONTRIBUTE TO VERY STG PRE-CONVECTIVE BUOYANCY...WITH
   FCST SOUNDINGS SUGGESTING MLCAPE COMMONLY 2000-3000 J/KG AND UP TO
   AROUND 4000 J/KG IN SOME AREAS.  

This article may not focus directly on Central Texas, however it gives us much more respect for those Meteorologists given the task of predicting floods.   There are so many variables to juggle and sort out, that it seems flood prediction is impossible.  Well it may not be “impossible” but we still do have a long way to go before the kinks get completely worked out.  Enjoy and a big thanks to our friends at the Associated Press:

FARGO, N.D. (AP) — Perched in a boat drifting slowly along the Red River, Dan Thomas kept one eye on a laptop and the other on a $60,000 piece of floating hardware that beamed sound waves deep into the flooding river. As the signal bounced off water molecules and returned, the laptop sorted it into data on the river’s depth and speed and transmitted it instantly to the National Weather Service.

Once there, the work by the U.S. Geological Survey’s water expert became part of the data stew the weather service relies upon to regularly update crest projections for rivers like the Red, which rose again this spring to briefly threaten Fargo and neighboring Moorhead, Minn. And the complexity of the science was never more evident than this year, when an early forecast of 40 feet prompted costly sandbagging only to be repeatedly revised downward until the Red barely broke a harmless 33 feet.

The apparent false alarm irritated some residents who questioned why the city spent $2 million preparing for the flood that wasn’t. And that irritated Fargo Mayor Dennis Walaker, who has sparred with the weather service himself in the past.

“They all become experts,” Walaker said. “You can’t believe how many times I get stopped throughout the day by people who tell me the water is not going to get to a certain level.”

Greg Gust, the weather service’s warning coordination meteorologist in Grand Forks, acknowledged the agency had heard criticism of its projections for Fargo. He said it is constantly studying ways to improve its performance, but will always have limitations.

“Many times the weather service is being asked to do the impossible,” Gust said. “We’re being asked to forecast an unknown situation out into the future. We don’t have a perfect knowledge what’s going on today in the system, and yet we’re supposed to be able to forecast some unknown point in the future where clearly we have no knowledge.

“That said, that’s the task of a forecaster.”

Flood fights have become routine on the Red River at Fargo, but this one came nearly a month later than ever before due to winter conditions that refused to loosen their grip.

“We don’t have anything to go on when these things go on so late,” Steve Buan, a weather service hydrologist who works on river forecasts in the region, lamented as the Red was rising.

Flood forecasting in this part of the continent starts with models for determining how much snow is on the ground. Observers record every snowfall. But it’s even more important to figure out how much water is in that snowpack, which requires melting samples. It can also be done by going airborne to measure the natural radiation coming from the soil — a factor affected by the water in the snowpack.

Next up is more modeling on what will happen when the snow melts, which includes a dizzying number of variables. Is the ground frozen? How deep? How much moisture is in the soil?

Months of drought worked in Fargo’s favor this year. So did a freeze-thaw cycle that melted snow and warmed the soil during the day — giving runoff a place to go — and then slowed or stopped the melting overnight.

Weather service hydrologists get data on snow depth, water content, frost depths and soil moisture levels from many different sources, including their network of observers. That network has been bolstered in the Red River Valley over the last couple years by several high schools and middle schools participating in the River Watch program of the Fargo-based International Water Institute.

The students melt snow samples to see how much water is in their local snowpack, institute director Chuck Fritz said. They use frost tubes placed in the ground that contain chemicals that change color to show how deep the frost goes. And they use infiltration rings to measure how fast the ground can absorb water.

Wayne Goeken, a monitoring and education specialist with the institute, explained how infiltration rings work. They drive a 10-inch ring of PVC pipe about 2 inches into the ground in the fall. Then when the ground starts to thaw in the spring, students pour 4 inches of water into the ring and use a ruler to measure at one minute, three minutes, five minutes and longer intervals whether and how fast the water soaks into the ground. Then the schools feed that data to the weather service.

Forecasters run actual and predicted rainfall through their models, Buan said. They use more modeling tools for how the water will flow downstream. And they have to take into account potential changes in how much water is held back in reservoirs, such as Lake Traverse at the southern end of the Red River watershed.

Once forecasters have an idea of how much water is coming, their models also tell them about the relationship between the projected stream flows and how high the river will be at any given flow rate, which ultimately helps them predict how high the river will rise.

Most of those broad principles hold true for most river systems, Buan said. Perhaps the biggest difference between forecasting the Red and more southerly systems like the Mississippi’s is the need to account for frost in the ground in northern states and how it affects runoff rates, he said. The different topography is also a factor. The Red River Valley has almost no slope; the Mississippi has considerably more.

Predicting flooding on the East and West Coasts is a bit different from the nation’s midsection, he said. The Mississippi River watershed drains most of the country between the Appalachians and the Rockies, so floods in it tend to last longer. Eastern watersheds tend to be smaller and steeper so the floods come up quickly and fall quickly. Western rivers are often heavily dammed.

Thomas, the USGS hydrologist who was working on the Red earlier this week, said he finds the work fascinating.

“To me, just to see how deep the river is and how fast it is flowing is interesting,” Thomas said.

And Goerken said he reminds students that what they’re doing isn’t just an academic exercise.

“Maybe you can’t be there laying sandbags in Fargo, but this is a valuable contribution to the flood fight, too, so people know what’s coming their way,” he said.

With the wild bouts of severe weather that have impacted the U.S. in recent years, it’s no surprise meteorologists are looking for even better ways of predicting how big and how strong tornado outbreaks will be. Weather researchers are making strides. Check out the article below from NOAA on a new tornado outbreak predicting method.

One of the country’s most active tornado days of 2012 was April 14, when 153 twisters were reported, including this one near Cherokee, Oklahoma. Since that date, tornadic activity has run far below average. (Photo © Bob Henson.)

Researchers develop method to better predict severity of tornado outbreaks

Weather forecasters would love to be able to predict the severity of tornado outbreaks, giving those in their path potentially life-saving information.

Now, using new experimental high-resolution forecast models, researchers have developed a method to help forecasters better predict the severity of tornado outbreaks. A report on this work by scientists at NOAA’s National Severe Storms Laboratory and the NOAA Cooperative Institute for Mesoscale Meteorological Studies at the University of Oklahoma is available online and will be included in the April 2013 print edition of the journal of Weather and Forecasting.

Researchers found that the amount of rotation in the rapidly rising air within simulated storms – a measure known as updraft helicity — was strongly related to the track-length of observed tornadoes in previous severe weather events.

These results show the potential for forecasters to use this measure to make very reliable predictions of the magnitude of spring season tornado outbreaks. Researchers also found that they could predict with a high degree of certainty, the most destructive tornado outbreaks, which typically occur only once every few years.

(more…)

The video below shows a unique phenomenon caused by a solar flare. It’s worth the quick download!

From 3dsun.org:

Sunspot group AR1739, just now emerging over the sun’s northeastern limb, erupted on May 3rd, producing an M5-class flare and a “solar tornado.” iPhone movie | iPad movie | iPhone image | iPad image

From NASA:

NASA Study Projects Warming-Driven Changes in Global Rainfall

WASHINGTON — A NASA-led modeling study provides new evidence that global warming may increase the risk for extreme rainfall and drought.

The study shows for the first time how rising carbon dioxide concentrations could affect the entire range of rainfall types on Earth.

Analysis of computer simulations from 14 climate models indicates wet regions of the world, such as the equatorial Pacific Ocean and Asian monsoon regions, will see increases in heavy precipitation because of warming resulting from projected increases in carbon dioxide levels. Arid land areas outside the tropics and many regions with moderate rainfall could become drier.

The analysis provides a new assessment of global warming’s impacts on precipitation patterns around the world. The study was accepted for publication in the American Geophysical Union journal Geophysical Research Letters.

“In response to carbon dioxide-induced warming, the global water cycle undergoes a gigantic competition for moisture resulting in a global pattern of increased heavy rain, decreased moderate rain, and prolonged droughts in certain regions,” said William Lau of NASA’s Goddard Space Flight Center in Greenbelt, Md., and lead author of the study.

The models project for every 1 degree Fahrenheit of carbon dioxide-induced warming, heavy rainfall will increase globally by 3.9 percent and light rain will increase globally by 1 percent. However, total global rainfall is not projected to change much because moderate rainfall will decrease globally by 1.4 percent.

(more…)