KAEX KAEX 170653Z 13007KT 9SM -RA FEW120 21/19 A2992 RMK AO2 RAB39 PRESFR SLP135 P0001 T02060194
KAUS KAUS 170653Z 11012KT 10SM -TSRA SCT022CB BKN039 21/20 A2987 RMK AO2 LTG DSNT ALQDS SLP104 FRQ LTGICCCCG SE TS SE MOV SE P0024 T02110200 $
KBPT KBPT 170726Z AUTO 01009KT 3SM +RA BR OVC035 22/20 A2992 RMK AO2 LTG DSNT W AND NW P0056 T02170200
KBTR KBTR 170653Z AUTO 09003KT 10SM CLR 22/21 A2996 RMK AO2 SLP144 T02170211
KCLL KCLL 170653Z AUTO 19009KT 10SM -RA FEW110 20/19 A2990 RMK AO2 LTG DSNT SW AND W SLP120 P0003 T02000189
KCRP KCRP 170651Z 17008KT 10SM FEW018 SCT030 SCT045 SCT250 28/25 A2983 RMK AO2 SLP099 FRQ LTGICCC DSNT NE CB DSNT NE T02780250
KCXO KCXO 170653Z AUTO VRB05KT 10SM BKN110 20/18 A2992 RMK AO2 RAE34 SLP127 P0003 T02000183
KDLF KDLF 170716Z AUTO 09008KT 2 3/4SM HZ CLR 26/23 A2982 RMK AO2 VIS 2 3/4V4 SLP084 $
KDWH KDWH 170653Z AUTO 10005KT 10SM -RA BKN110 19/18 A2990 RMK AO2 SLP123 P0002 T01940183
KEFD KEFD 170650Z 04006KT 7SM BR SCT015 BKN090 20/19 A2992
KGLS KGLS 170738Z AUTO 02013KT 10SM FEW070 BKN110 19/19 A2989 RMK AO2 LTG DSNT E-S RAE37 PRESFR P0001 T01890189 $
KGPT KGPT 170653Z 10003KT 10SM CLR 24/22 A2994 RMK AO2 SLP139 T02390222 $
KHOU KHOU 170653Z 07008KT 10SM RA FEW015 SCT050 BKN140 BKN250 21/19 A2991 RMK AO2 TSE52 PRESFR SLP133 OCNL LTG DSNT E-SW CB DSNT E-SW P0002 T02110189
KHRL KHRL 170652Z AUTO 15011KT 10SM SCT020 BKN028 BKN034 28/26 A2981 RMK AO2 SLP095 T02780256
KIAH KIAH 170653Z 07006KT 10SM -RA FEW035 FEW100 OVC130 20/20 A2990 RMK AO2 SLP125 P0003 T02000200
KLCH KLCH 170653Z AUTO 00000KT 10SM -RA SCT075 BKN095 22/21 A2994 RMK AO2 LTG DSNT E AND SE SLP145 P0002 T02220206 $
KMOB KMOB 170656Z AUTO 07005KT 10SM CLR 22/21 A2999 RMK AO2 SLP151 T02220211
KMSY KMSY 170653Z 00000KT 10SM FEW020 BKN250 26/21 A2996 RMK AO2 SLP147 T02560211 $
KSGR KSGR 170653Z AUTO 08009KT 10SM BKN075 OVC090 20/19 A2989 RMK AO2 RAE13B21E44 PRESFR SLP122 P0000 T02000194
KTME KTME 170735Z AUTO 00000KT 10SM FEW085 FEW120 20/20 A2992 RMK AO2

Next Generation Radar

This is a composite plot of the radar summary, echo tops, storm movement, TVS and MESO signatures and watch boxes. The radar summary is color coded by precip type. Greens, yellows and reds are rain. Pinks are mixed precipitation (freezing rain, sleet). Blues are snow. NOTE: Radar data is susceptible to a phenomena called anomalous propagation. This generally happens at night and appears as a area of 20 dBZ echos (darkest green) which is centered around each radar site and expands with time. To try and reduce the problem, low echo values near the radar sites have been removed.

GOES 13 Visible Radar

This image is the equivalent of taking a black and white photo of the earth. The bright areas show where the sun is being reflected back into space as a result of clouds or snow cover. Clouds and snow show up white. The thicker the cloud, the brighter the color. Land surfaces show up as gray and ocean surfaces nearly black. The major limitation to visible imagery is that it is only valid during daylight.

GOES 13 Infrared 12 Hour Loop

This type of image shows heat based radiation from the infrared spectrum. In other words, the warmer the surface, the more infrared radiation it emits. For a satellite image, cooler surfaces are bright and warmer surfaces are dark. Since the atmosphere cools as you increase in altitude, clouds would show up as bright areas and land surfaces as dark areas. In addition, low clouds will be more gray and higher clouds will show up more white. Tall thunderstorm clouds will show up as bright white and fog will be hard to discern from land areas. A large advantage of IR is that you can view it 24 hours a day.

Surface Data

This is a composite map contain the following analyses: radar summary (color filled areas), surface data plot (composite station model), frontal locations (in various bold lines) and pressure contours (in thin blue lines).