CIMSS Satellite Blog

GOES-13 visible images (Hurricane Norbert)

GOES-13 visible imagery (above) revealed the rather large eye of Hurricane Norbert on 08 October 2008 — Norbert was a Category 4 storm at that time, and the eye appeared to be about 30-35 nautical miles in diameter.  Hurricane Norbert underwent a period of rapid intensification during the pre-dawn hours on 08 October, which was clearly seen on a plot of the Advanced Dvorak Technique intensity estimate (below) from the CIMSS Tropical Cyclones site.

CIMSS Advanced Dvorak Technique

To illustrate the diversity of tropical cyclone spatial scales, it is interesting to compare the large eye of Hurricane Norbert (in the eastern Pacific Ocean) with the small cluster of deep convection around the core of Tropical Storm Marco (2 days earlier in the Gulf of Mexico) — Marco is not much larger than the eye of Norbert! The visible and IR images shown below are from the same satellite (GOES-13) at the same time of day (20:00 UTC), displayed with the same magnification (zoomed in to an effective 0.5 km resolution). According to the National Hurricane Center discussions, Tropical Storm Marco may have been one of the smallest tropical cyclones on record, with tropical storm force winds only extending about 10 nautical miles away from the center.

GOES-13 visible images (Hurricane Norbert and Tropical Storm Marco)

GOES-13 IR images (Hurricane Norbert and Tropical Storm Marco)

GOES-12 IR image + QuikSCAT WindSat wind vectors

An image of the GOES-12 10.7 µm IR channel (with an overlay of QuikSCAT WindSat wind vectors) from the CIMSS Tropical Cyclones site (above) revealed that wind speeds were near 50 knots within a curved band of deep convection located just to the east of the center of Subtropical Storm Laura on 29 September 2008.

Animations of the GOES-12 10.7 µm IR channel and visible channel images (below) showed the curved band of deep convection developing further and wrapping around the northern and then the western quadrants of the storm during the hours that followed; small-scale swirls were also seen on the visible imagery, rotating around the low-level center of Laura.

GOES-12 10.7 µm IR images

GOES-12 visible images

Laura was eventually classified as a Tropical Storm on the following day (30 September).

GOES-12 6.5 µm water vapor images

GOES-12 6.5 micrometer “water vapor channel” imagery (above) revealed a pronounced warming/drying signature (darker orange colors) as Hurricane Kyle was beginning the transition to an extratropical system on 28 September 2008. GOES-12 water vapor brightness temperatures were as warm as 268º K (-5.15º C) at 16:45 and 17:02 UTC — and the rapid trend of warming/drying suggested that strong subsidence was occurring in that region.

A comparison of the 4-km resolution GOES-12 and the 1-km resolution MODIS water vapor channel data (below) yielded similar brightness temperature values within the core of the warm/dry region (-5.1º C on MODIS, -7.5º C on GOES-12).

GOES-12 6.5 µm and MODIS 6.7 µm water vapor images

Curiously, the GOES-12 sounder total column ozone product (animation) did not exhibit a high ozone feature co-located with the warm/dry pocket seen on the water vapor imagery (below) — if this dry air were due to a stratospheric intrusion or a tropopause fold, ozone values would normally increase to the 350-400 Dobson Unit range (green to red colors).

AWIPS images of GOES-12 water vapor and total column ozone