NOAA GOES Image Viewer website
1 Jul 2025 - 08:02 EDT
1 Jul 2025 - 12:02 UTC

Hurricane Flossie at 16.9°N - 105.1°W

North Pacific Ocean

Last observation: 01 Jul 2025 - 12:00 UTC

« Active Storms »

29 Jun 2025 - 1 Jul 2025


NHC Storm Description:

1 Jul 2025 - 9:00 UTC ...FLOSSIE CONTINUES TO STRENGTHEN OFFSHORE THE COAST OF SOUTHWEST MEXICO... As of 3:00 AM CST Tue Jul 01 the center of Flossie was located near 16.9, -105.1 with movement WNW at 10 mph. The minimum central pressure was 981 mb with maximum sustained winds of about 85 mph.

1 Jul 2025 - 6:00 UTC ...FLOSSIE STRENGTHENS SOME MORE OFFSHORE SOUTHWEST MEXICO... As of 12:00 AM CST Tue Jul 01 the center of Flossie was located near 16.5, -104.7 with movement WNW at 10 mph. The minimum central pressure was 984 mb with maximum sustained winds of about 80 mph.

More storm history

1 Jul 2025 - 3:00 UTC ...FLOSSIE STRENGTHENS INTO A HURRICANE OFFSHORE SOUTHWEST MEXICO... As of 03:00 UTC TUE JUL 01 2025 the center of Flossie was located near 16.5, -104.3 with movement WNW at 10 mph. The minimum central pressure was 988 mb with maximum sustained winds of about 75 mph.

1 Jul 2025 - 0:00 UTC ...FLOSSIE FORECAST TO BECOME A HURRICANE TONIGHT OR TUESDAY... ...LOCALLY HEAVY RAINFALL POSSIBLE ALONG COASTAL SOUTHWESTERN MEXICO... As of 6:00 PM CST Mon Jun 30 the center of Flossie was located near 16.4, -103.9 with movement NW at 12 mph. The minimum central pressure was 996 mb with maximum sustained winds of about 65 mph.

30 Jun 2025 - 21:00 UTC ...FLOSSIE FORECAST TO BECOME A HURRICANE TONIGHT OR TUESDAY... ...LOCALLY HEAVY RAINFALL POSSIBLE ALONG COASTAL SOUTHWESTERN MEXICO... As of 3:00 PM CST Mon Jun 30 the center of Flossie was located near 16.2, -103.6 with movement NW at 12 mph. The minimum central pressure was 996 mb with maximum sustained winds of about 65 mph.

30 Jun 2025 - 18:00 UTC ...FLOSSIE CONTINUES TO STRENGTHEN... As of 12:00 PM CST Mon Jun 30 the center of Flossie was located near 15.9, -103.1 with movement NW at 10 mph. The minimum central pressure was 996 mb with maximum sustained winds of about 65 mph.

30 Jun 2025 - 15:00 UTC No current storm in NHC EP1 as of Mon, 30 Jun 2025 16:04:56 GMT

30 Jun 2025 - 12:00 UTC ...FLOSSIE A LITTLE STRONGER... As of 6:00 AM CST Mon Jun 30 the center of Flossie was located near 15.2, -102.1 with movement NW at 10 mph. The minimum central pressure was 1000 mb with maximum sustained winds of about 50 mph.

30 Jun 2025 - 9:00 UTC ...TROPICAL STORM WARNINGS ISSUED FOR PORTIONS OF THE SOUTHWESTERN MEXICO COAST... ...FLOSSIE EXPECTED TO BRING AREAS OF HEAVY RAIN ALONG THE COAST OF SOUTHWESTERN MEXICO...
Location: 15.0°N 15.0°N
Max sustained: 45 mph
Moving: NW at 10 mph
Min pressure: 1004 mb

Issued at 300 AM CST Mon Jun 30 2025

30 Jun 2025 - 6:00 UTC ...FLOSSIE STARTING TO STRENGTHEN... ...EXPECTED TO BRING AREAS OF HEAVY RAIN ALONG THE COAST OF SOUTHWESTERN MEXICO...
Location: 14.4°N 14.4°N
Max sustained: 45 mph
Moving: NW at 9 mph
Min pressure: 1004 mb

Issued at 1200 AM CST Mon Jun 30 2025

30 Jun 2025 - 3:00 UTC ...FLOSSIE EXPECTED TO BRING AREAS OF HEAVY RAINS ALONG THE COAST OF SOUTHWESTERN MEXICO...
Location: 14.0°N 14.0°N
Max sustained: 40 mph
Moving: WNW at 8 mph
Min pressure: 1005 mb

Issued at 900 PM CST Sun Jun 29 2025

30 Jun 2025 - 0:00 UTC ...FLOSSIE EXPECTED TO BRING AREAS OF HEAVY RAINS ALONG THE COAST OF SOUTHWESTERN MEXICO...
Location: 13.7°N 13.7°N
Max sustained: 40 mph
Moving: WNW at 8 mph
Min pressure: 1005 mb

Issued at 600 PM CST Sun Jun 29 2025

29 Jun 2025 - 21:00 UTC ...FLOSSIE CONTINUES WEST-NORTHWESTWARD... As of 3:00 PM CST Sun Jun 29 the center of Flossie was located near 13.5, -100.4 with movement WNW at 8 mph. The minimum central pressure was 1005 mb with maximum sustained winds of about 40 mph.

29 Jun 2025 - 18:00 UTC ...FLOSSIE MOVING WEST-NORTHWESTWARD... As of 12:00 PM CST Sun Jun 29 the center of Flossie was located near 13.6, -100.1 with movement WNW at 9 mph. The minimum central pressure was 1005 mb with maximum sustained winds of about 40 mph.

29 Jun 2025 - 15:00 UTC ...DEPRESSION STRENGTHENS INTO TROPICAL STORM FLOSSIE... ...TROPICAL STORM WATCH EXTENDED NORTHWARD IN MEXICO... As of 9:00 AM CST Sun Jun 29 the center of Flossie was located near 13.4, -99.9 with movement W at 9 mph. The minimum central pressure was 1005 mb with maximum sustained winds of about 40 mph.

29 Jun 2025 - 12:00 UTC ...DEPRESSION BECOMING BETTER ORGANIZED... As of 6:00 AM CST Sun Jun 29 the center of Six-E was located near 13.2, -99.7 with movement W at 12 mph. The minimum central pressure was 1006 mb with maximum sustained winds of about 35 mph.

29 Jun 2025 - 9:00 UTC ...TROPICAL DEPRESSION SIX-E FORMS OFFSHORE SOUTHERN MEXICO... ...TROPICAL STORM WATCHES ISSUED ALONG THE COAST OF SOUTHWESTERN MEXICO... As of 3:00 AM CST Sun Jun 29 the center of Six-E was located near 13.0, -99.5 with movement W at 12 mph. The minimum central pressure was 1008 mb with maximum sustained winds of about 30 mph.

GeoColor GLM Flash Extent Density Air Mass RGB Day Night Cloud Micro Combo RGB Sandwich RGB Day Convection RGB 2 7 8 13 14 
GeoColor - True Color daytime, multispectral IR at night
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GeoColor is a multispectral product composed of True Color (using a simulated green component) during daytime, and an Infrared product that uses bands 7 and 13 at night. During the day, the imagery looks approximately as it would when viewed with human eyes from space. At night, the blue colors represent liquid water clouds such as fog and stratus, while gray to white indicate higher ice clouds, and the city lights come from a static database derived from the VIIRS Day Night Band.

GeoColor was developed at the Cooperative Institute for Research in the Atmosphere (CIRA) and the STAR Regional and Mesoscale Meteorology Branch (RAMMB). For a full description of the algorithm, please see this article.

Please credit CIRA/NOAA when using GeoColor imagery.

NOTE: Lighted areas shown in nighttime images are not real-time depictions of city lights. The layer is derived from a compilation of JPSS VIIRS Day Night Band images and is included for orientation purposes.

 • CIRA GeoColor Product Quick Guide

GeoColor GLM Flash Extent Density Sandwich RGB 2 7 8 13 
Tropical Pacific GeoColor animation
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GeoColor is a multispectral product composed of True Color (using a simulated green component) during daytime, and an Infrared product that uses bands 7 and 13 at night. During the day, the imagery looks approximately as it would when viewed with human eyes from space. At night, the blue colors represent liquid water clouds such as fog and stratus, while gray to white indicate higher ice clouds, and the city lights come from a static database derived from the VIIRS Day Night Band.

GeoColor was developed at the Cooperative Institute for Research in the Atmosphere (CIRA) and the STAR Regional and Mesoscale Meteorology Branch (RAMMB). For a full description of the algorithm, please see this article.

Please credit CIRA/NOAA when using GeoColor imagery.

NOTE: Lighted areas shown in nighttime images are not real-time depictions of city lights. The layer is derived from a compilation of JPSS VIIRS Day Night Band images and is included for orientation purposes.

 • CIRA GeoColor Product Quick Guide

GeoColor GLM Flash Extent Density Sandwich RGB 2 7 8 13 
Mexico GeoColor animation
empty placeholder

GeoColor is a multispectral product composed of True Color (using a simulated green component) during daytime, and an Infrared product that uses bands 7 and 13 at night. During the day, the imagery looks approximately as it would when viewed with human eyes from space. At night, the blue colors represent liquid water clouds such as fog and stratus, while gray to white indicate higher ice clouds, and the city lights come from a static database derived from the VIIRS Day Night Band.

GeoColor was developed at the Cooperative Institute for Research in the Atmosphere (CIRA) and the STAR Regional and Mesoscale Meteorology Branch (RAMMB). For a full description of the algorithm, please see this article.

Please credit CIRA/NOAA when using GeoColor imagery.

NOTE: Lighted areas shown in nighttime images are not real-time depictions of city lights. The layer is derived from a compilation of JPSS VIIRS Day Night Band images and is included for orientation purposes.

 • CIRA GeoColor Product Quick Guide

GeoColor GLM Flash Extent Density Sandwich RGB 2 7 8 13 
Eastern East Pacific GeoColor animation
empty placeholder

GeoColor is a multispectral product composed of True Color (using a simulated green component) during daytime, and an Infrared product that uses bands 7 and 13 at night. During the day, the imagery looks approximately as it would when viewed with human eyes from space. At night, the blue colors represent liquid water clouds such as fog and stratus, while gray to white indicate higher ice clouds, and the city lights come from a static database derived from the VIIRS Day Night Band.

GeoColor was developed at the Cooperative Institute for Research in the Atmosphere (CIRA) and the STAR Regional and Mesoscale Meteorology Branch (RAMMB). For a full description of the algorithm, please see this article.

Please credit CIRA/NOAA when using GeoColor imagery.

NOTE: Lighted areas shown in nighttime images are not real-time depictions of city lights. The layer is derived from a compilation of JPSS VIIRS Day Night Band images and is included for orientation purposes.

 • CIRA GeoColor Product Quick Guide

GeoColor GLM Flash Extent Density Sandwich RGB 2 7 8 13 
GOES-West - All States GeoColor animation
empty placeholder

GeoColor is a multispectral product composed of True Color (using a simulated green component) during daytime, and an Infrared product that uses bands 7 and 13 at night. During the day, the imagery looks approximately as it would when viewed with human eyes from space. At night, the blue colors represent liquid water clouds such as fog and stratus, while gray to white indicate higher ice clouds, and the city lights come from a static database derived from the VIIRS Day Night Band.

GeoColor was developed at the Cooperative Institute for Research in the Atmosphere (CIRA) and the STAR Regional and Mesoscale Meteorology Branch (RAMMB). For a full description of the algorithm, please see this article.

Please credit CIRA/NOAA when using GeoColor imagery.

NOTE: Lighted areas shown in nighttime images are not real-time depictions of city lights. The layer is derived from a compilation of JPSS VIIRS Day Night Band images and is included for orientation purposes.

 • CIRA GeoColor Product Quick Guide

GeoColor Flash Extent Density / Band 13 Sandwich RGB 2 7 8 13 
Mesoscale - 16°N - 106°W
empty placeholder

GeoColor is a multispectral product composed of True Color (using a simulated green component) during daytime, and an Infrared product that uses bands 7 and 13 at night. During the day, the imagery looks approximately as it would when viewed with human eyes from space. At night, the blue colors represent liquid water clouds such as fog and stratus, while gray to white indicate higher ice clouds, and the city lights come from a static database derived from the VIIRS Day Night Band.

GeoColor was developed at the Cooperative Institute for Research in the Atmosphere (CIRA) and the STAR Regional and Mesoscale Meteorology Branch (RAMMB). For a full description of the algorithm, please see this article.

Please credit CIRA/NOAA when using GeoColor imagery.

NOTE: Lighted areas shown in nighttime images are not real-time depictions of city lights. The layer is derived from a compilation of JPSS VIIRS Day Night Band images and is included for orientation purposes.

 • CIRA GeoColor Product Quick Guide

GeoColor

True Color daytime, multispectral IR at night
1 Jul 2025 - 11:40 UTC

GLM FED

Lightning flash extent over GeoColor
1 Jul 2025 - 11:41 UTC

Day Convection

RGB used to identify areas of rapid intensification
1 Jul 2025 - 11:40 UTC

Day Night Cloud Micro Combo

Day: show cloud-top phase; Night: distinguish clouds / fog
1 Jul 2025 - 11:40 UTC

Air Mass RGB

RGB based on data from IR & water vapor
1 Jul 2025 - 11:40 UTC

Sandwich RGB

Blend combines IR band 13 with visual band 3
1 Jul 2025 - 11:40 UTC


Band 1

0.47 µm
Blue - Visible
1 Jul 2025 - 11:40 UTC

Band 2

0.64 µm
Red - Visible
1 Jul 2025 - 11:40 UTC

Band 3

0.86 µm
Veggie - Near IR
1 Jul 2025 - 11:40 UTC

Band 4

1.37 µm
Cirrus - Near IR
1 Jul 2025 - 11:40 UTC

Band 5

1.6 µm
Snow/Ice - Near IR
1 Jul 2025 - 11:40 UTC

Band 6

2.2 µm
Cloud Particle - Near IR
1 Jul 2025 - 11:40 UTC

Band 7

3.9 µm
Shortwave Window - IR
1 Jul 2025 - 11:40 UTC

Band 8

6.2 µm
Upper-Level Water Vapor - IR
1 Jul 2025 - 11:40 UTC

Band 9

6.9 µm
Mid-Level Water Vapor - IR
1 Jul 2025 - 11:40 UTC

Band 10

7.3 µm
Lower-level Water Vapor - IR
1 Jul 2025 - 11:40 UTC

Band 11

8.4 µm
Cloud Top - IR
1 Jul 2025 - 11:40 UTC

Band 12

9.6 µm
Ozone - IR
1 Jul 2025 - 11:40 UTC

Band 13

10.3 µm
Clean Longwave Window - IR
1 Jul 2025 - 11:40 UTC

Band 14

11.2 µm
Longwave Window - IR
1 Jul 2025 - 11:40 UTC

Band 15

12.3 µm
Dirty Longwave Window - IR
1 Jul 2025 - 11:40 UTC

Band 16

13.3 µm
CO₂ Longwave - IR
1 Jul 2025 - 11:40 UTC