The powerful winds that have fanned Arizona's massive Wallow fire into the state's second largest fire on record will diminish today, and the forecast for
Eastern Arizona calls for more modest afternoon winds of 15 - 20 mph through Saturday. For the first time this week, NOAA's Storm Prediction Center
has not issued red flag warnings for critical fire conditions in Eastern Arizona, and firefighters should be able to make progress battling the Wallow fire, which is 0% contained. Yesterday,
Luna, New Mexico, located about 50 miles northeast of the fire, had wind gusts in excess of 30 mph for almost 7 hours, temperatures near 80°F, and humidities as low as 5%. The fire has grown steadily this week--300 square miles on Sunday, 365 square miles on Monday, 484 square miles Tuesday, and 608 square miles on Wednesday. Its current size is about 50% of the size of Rhode Island. The fire is close to beating the
2002 Rodeo-Chediski fire (732 square miles) as Arizona's largest fire in recorded history. Smoke from the Wallow fire has now blown downwind over 2,000 miles over the Atlantic Ocean, as seen using
our wundermap for the U.S. with the Fire layer turned on. Smoke caused "Unhealthy" levels of air pollution (code red on the Air Quality Index) over much of new Mexico Wednesday. A separate fire burning in Southeast Arizona, the 167-square-mile Horseshoe Two fire, is the state's 5th largest fire on record, and is 50% contained. According to the
Interagency Fire Center, 3.6 million acres have burned in the U.S. so far this year, the most on record for this early in the year--and more than double the 10-year average from 2001 - 2010 of 1.4 million acres.
During May, 1.8 million acres burned, the greatest May fire acreage burned in the 12-year record. Extreme to exceptional drought conditions over most of Texas, New Mexico, and Eastern Arizona are largely responsible for the record fire season.
Figure 1. Smoke from Arizona's Wallow fire passed over the Washington DC area at a height of 5 - 9 km during the day on Wednesday, June 8, 2011. NASA Goddard's
micropulse lidar in Greenbelt, Maryland took a vertical profile of particles in the atmosphere during the day. A lidar (short for LIght Detection And Ranging) is a laser detection system that bounces light waves off of particles in the atmosphere to determine where clouds and elevated pollution layers exist. During the afternoon hours, the lidar also detected large amounts of air pollution particles near the surface (orange colors) after 18 UTC (2pm EDT.) Air quality in the Washington D.C. area during the day on June 8 for particles was
Moderate (84 on the Air Quality Index, code yellow), and was Unhealthy for Sensitive Groups (Air Quality Index of 150) for ozone pollution. The University of Maryland
Smog Blog is where I got this image from, and is a good place to get daily discussions of air pollution.
Figure 2. Smoke billows from the rapidly growing Wallow fire in Eastern Arizona in this image taken by NASA's Aqua satellite at 1:25pm MDT June 8, 2011. The actively burning fire front (outlined in red) surrounds a vast area of charred land. High winds propelled the fire, igniting spot fires as much as three miles ahead of the fire front. Image credit:
NASA.Flooding from 94L kills 23 people in HaitiThe large, disorganized tropical disturbance (94L) that brought heavy rains to Jamaica, Cuba, and Haiti early this week is no more, but at least
23 people are dead and six missing in Haiti due to torrential flooding rains from the disturbance.
Satellite-estimated rainfall amounts indicate 8 -10 inches of rain fell over Haiti's southwestern peninsula this week. The heaviest rains from the remains of 94L lie just north and west of Haiti, and may be capable of bringing 1 - 3 inches of rain to Haiti, the Bahamas, and eastern Cuba today. The NOGAPS model is suggesting the remains of 94L could reorganize into a strong tropical disturbance this weekend off the coast of South Carolina, but none of the other models are showing this. The NOGAPS model has had a poor track record handling the evolution of the wind shear pattern this week, and I'm not expecting any major regeneration of 94L.
Wind shear is very high 30 - 50 knots in the region between Cuba and South Carolina, making development very unlikely. Elsewhere in the Atlantic, none of the reliable computer models is predicting tropical cyclone development over the next seven days.
Figure 3. Morning satellite image of Hurricane Adrian.
First hurricane of the Eastern Pacific hurricane season formsHurricane Adrian is putting on an impressive bout of rapid intensification, and has emerged as the season's first hurricane in the Eastern Pacific Ocean. Adrian is in an ideal environment for intensification, with light wind shear and ocean temperatures of 30°C (86°), and will likely become a major hurricane later today. Adrian is expected to remain far enough offshore the coast of Mexico to not pose a threat to that country, at least for the next three days. June hurricanes in the Eastern Pacific are much more common than in the Atlantic.
NOAA's pre-season prediction of the Eastern Pacific hurricane season, issued on May 16, calls for below average activity, with 12 named storms, 6.5 hurricanes, and 2 major hurricanes, with an ACE index 75% of the median. The 1981-2010 averages for the Eastern Pacific hurricane season are 15 - 16 named storms, 8 - 9 hurricanes, and 4 major hurricanes.
Jeff Masters