heavy rainfall

Tropical Depression Beryl Drenches Florida And Georgia

At times Tropical storm beryl has been producing intense rainfall over the southeastern United States since coming ashore early on Monday May 28, 2012. The TRMM satellite had good views of Beryl's rainfall on Monday May 28, 2012 at 2033 UTC (4:33 PM EDT) and on Tuesday May 29, 2012 at 0127 UTC (Monday May, 28 2012 at 9:27 PM EDT). Data from TRMM's Microwave Imager (TMI) and Precipitation Radar (PR) are shown in two images from those orbits. These TRMM images show that bands of rainfall rotating around Beryl were mainly affecting only northern Florida and southeastern Georgia. A few areas of
Deadly Typhoon Nesat Hits The Philippines JacobAdmin Wed, 09/28/2011
Powerful typhoon Nesat (known locally as Pedring) came ashore in the Philippines on Tuesday September 27, 2011 causing the deaths of at least 33 people. Nesat was classified as a category three typhoon on the Saffir-Simpson scale with winds of 105 knots (~121 mph) before hitting the island of Luzon. The rainfall analysis above is the result of a TRMM-calibrated merged global Multi-satellite Precipitation Analysis (MPA) performed at Goddard Space Flight Center (GSFC). These MPA rainfall total estimates were for the period from 24-29 September 2011. This analysis indicates that the highest

Typhoon Roke Brings Heavy Rains to Japan

Typhoon Roke, which made landfall as a Category 1 typhoon along the southeast coast of Honshu near the city of Hamamatsu (about 200 km southwest of Tokyo), was responsible for bringing heavy rains and flooding to most of Japan. Heavy rains actually began effecting parts of southern Japan well before the cyclone neared the coast as tropical moisture from Roke streamed northward into a stalled out frontal boundary that was draped across southern Japan. Japan is also very mountainous, which can enhance the effect. The Tropical Rainfall Measuring Mission or TRMM satellite is used to measure

Tropical Storm Lee Joins with Frontal System to Soak the Eastern US

After forming in the north central Gulf of Mexico, Tropical Storm Lee came ashore over south central Louisiana on the morning of Sunday September 4th, 2011. Over the next two and a half days, the slow-moving storm worked its way across central Louisiana and central Mississippi and into northern Alabama, dumping heavy rains along the way. The primary mission of the Tropical Rainfall Measuring Mission or TRMM satellite is to measure rainfall over the global Tropics using a combination of passive microwave and active radar sensors. For expanded coverage, TRMM can be used to calibrate rainfall

Extreme Rainfall from Tropical Storm Lee

The rainfall analysis above is from TRMM calibrated precipitation estimates called Multi-satellite Precipitation Analysis (MPA). This product was developed by the precipitation research team in the Laboratory for Atmospheres at NASA Goddard Space Flight Center and uses satellite data collected in "real time"(3B42 ). This preliminary analysis shows the estimated total rainfall measured for the period from 30 August to 6 September 2011 and includes rainfall from other sources including tropical storm Lee. Tropical storm Lee has been dropping heavy rain since moving over land from the Gulf Of

Irene Drenches the Northeastern United States

The TRMM-based, near-real time Multi-satellite Precipitation Analysis (MPA) at the NASA Goddard Space Flight Center monitors rainfall over the global tropics. The analysis above shows MPA rainfall totals for the period from 20-29 August 2011. Hurricane Irene was dropping tremendous amounts of rainfall over the eastern United States during a part of this period and caused flooding from the Carolinas to the northeastern states. The heaviest rainfall totals of over 225 mm (~8.9 inches) were located in North Carolina where Irene first made landfall in the United States. Very heavy rainfall

TRMM Sees Rainy Emily

The TRMM satellite saw tropical storm Emily again on 4 August 2011 at 0122 UTC (9:22 PM EDT). An analysis of TRMM's Microwave Imager (TMI) and Precipitation Radar (PR) data showed that Emily was dropping heavy rainfall of over 50mm/hr (~2 inches) south of the Dominican Republic and produce some showers in Haiti. Life threatening flooding and landslides are possible as Emily moves slowly westward.

Japan gets Heaviest Rainfall from Songda

The TRMM-based, near-real time Multi-satellite Precipitation Analysis (TMPA) at the NASA Goddard Space Flight Center was used in the analysis above to show the total rainfall that occurred when super typhoon Songda was active in the western Pacific Ocean. TMPA rainfall totals are shown here for the period from 23 May to 31 May 2011. The rainfall analysis indicated that the highest rainfall totals of over 300mm (~11.8 inches) occurred in the Pacific east of the Philippines. The highest rainfall totals over land fell in the islands of southern Japan even though Songda had by then weakened to a