Examining the 30 August 2011 Oklahoma City fire with the GOES Fire Rating Product

NESDIS operational 24 hour fire hotspots and smoke detections from 30 August 2011.
A relatively large and dangerous fire occurred over NE OKC yesterday which burned homes and injured multiple firefighters throughout the evening and into the night. The origin of the fire is yet to be determined, but I thought it would be interesting to go back and examine what the GOES Fire Rating Product (FRP) observed from this event. The FRP uses GOES observed hotspots and attempted to rate their intensity based on the relative saturation of the pixel in the 3.9 micron band.


The OKC fire began sometime around 11-11:30am local time (or about 17 UTC). The fire was initially detected by the FRP at 1845 UTC with very weak 'rating' (gray color) of the hotspot, but it was several pixels wide (see image above).


At 2015 UTC the FRP detected the max intensity of the fire, as seen by the bright yellow pixels (see image above).


At 2130 UTC two additional fires were also detected by the FRP SW and NE of the OKC fire (see image above). These are also shown by the 24hr composite (topmost image). By 0015 UTC the OKC fire was no longer detected by FRP, but firefighters continued to put out small hotspots to avoid another start-up today. It should be noted that the FRP did shown a trend for each fire of starting with a low intensity, ramping up, reaching a peak intensity and then finally decreasing the intensity gradually until they disappeared, giving us confidence that the FRP is operating correctly.

Relying on GOES observed dryness

GOES surface dryness product from 30 August 2011 with the PSA dryness grids overlaid from 31 August 2011. Areas in red and yellow indicate significant surface dryness, with areas in green indicating relative moist surface areas. We see that the PSA dryness grids drop off sharply at the OK/KS/CO border, which is not reflected in the GOES surface dryness product.
Today during our fire weather forecast we attempted to analyze the burnable fuel threat and the relative dryness over our forecast area covering much of TX, OK and KS. Apparently there has been a data problem with the operational PSA dryness grids over KS today which forced us to rely on the GOES observed surface dryness and NDVI products, which gave us a unique 'data denial' experiment to determine the availability of dry fuels (see image above). We see that GOES observed surface dryness is very high (reds) over much of KS, so we had to include this area within our burnable fuels threat today.


7-day NDVI composite (left) and 28-day NDVI change (right) from 29 August 2011. Areas of green indicate regions of increased (or increasing) vegetation, while areas of brown indicate regions of decreased (or decreasing) vegetation.
We also examined the NDVI and NDVI change composites in our analysis to determine the amount of vegetation available over these extremely dry areas. If we look at the NDVI composite, much of this area is shown as not containing a lot of green vegetation (leftmost image above). However, examining the experimental NDVI change product, we do see that most of this area is showing signs of 'greening' (rightmost image above). From this we determined that the amount of vegetation is slightly increasing, but still relatively dry and burnable (from our observations using the GOES dryness and NDVI composite products).

Verifying yesterdays forecast and comparing to NSSL-WRF lightning threat

1800 UTC 24 August - 1200 UTC 25 August 2011 dry thunderstorm probability forecast with NLDN lightning detections from 0030 (top left), 0450 (top right) and 1150 UTC (bottom) on 25 August 2011.
At the beginning of the experiment today we 'verified' our previous day's forecast for dry thunder over much of the NW US. We had probabilities of dry thunderstorms reaching 40% over much of the area (see images above). When compared to the NLDN observed lightning activity, we see that our higher threat areas (30-40%) matched up fairly well with what occurred. Most of the storms over OR were classified as dry thunder, most likely due to their rapid storm motions. We could have extended our area a little further east to cover central ID (see last image above), which was suggested by the NSSL-WRF total lightning threat. When examining the GOES fire / hotspot detection product to our forecast, we did see a few new starts in the area, with at least one large fire confirmed by observers.

When we compare the observed lightning to that which was forecast by the NSSL-WRF total lightning product, we see that overall the NSSL-WRF tended to slightly downplay some of the lightning activity, but the spatial locations and timing were fairly well forecast (see yesterday's post). This product was developed and validated over the SE US, so the values in the west have yet to be compared directly. Part of this experiment is to get a general idea of how well this product could work over the western US, with the potential for use in operational fire weather forecasts.

Fire Weather Experiment... Day 2

HWT Fire Weather Experiment participants during domain selection map discussion.
Today we started our second day of the Fire Weather Experiment, building off of what we did yesterday by first examining the forecast we made against base reflectivity, NLDN lightning strikes and the GOES fire rating product (FRP) from UW-CIMSS. We did see the occurrence of multiple lightning strikes and relatively low base reflectivity over the area we forecast a possibility of dry thunderstorms, suggesting that there might have been some. While examining the FRP, we did see a few new start-ups over the area where lightning occurred (see figure below). However, as some participants noted, the fire rating product seemed to have only two colors for rating the fires, pale yellow or red. They were expecting to see a wider variety of fire 'ratings', so after the experiment was finished we made a few modifications to the color tables to help distinguish the ratings better.

Experimental probabilistic forecast for dry thunderstorms from 22 August 2011 with FRP detections overlaid.