Sunday, June 28, 2026

DESCRIPTIVE TEXT NARRATIVE FOR SMOKE/DUST OBSERVED IN SATELLITE IMAGERY
THROUGH 2330Z June 28, 2026

SMOKE:
Northwest Territories/Alberta/Nunavut…
Several fires in the Northwest Territories and northern Alberta continued
to burn this evening, producing moderate-to-heavy density smoke plumes,
as well as a regional layer of light-to-heavy density smoke that spread
through the Northwest Territories into Nunavut. The smoke also extended
southward into northeastern British Columbia, Alberta, Saskatchewan,
and Manitoba, merging with the smoke generated by the individual fires
in Manitoba and Saskatchewan.

Manitoba/Saskatchewan…
Scattered wildfires in Manitoba and Saskatchewan were observed generating
localized moderate-to-heavy density smoke plumes. Smoke from these fires
accumulated into a layer of moderate-density smoke that spread across
northern Manitoba and Saskatchewan before extending northeast across
Nunavut into the Hudson Bay.

Ontario…
Multiple wildfires in western Ontario were observed generating individual
smoke plumes ranging in various densities extending northeast within
the province.

Quebec/Labrador…
Multiple wildfires across central Quebec and Labrador were observed
producing mostly moderate-to-heavy smoke plumes that generally drifted
to the southeast. A layer of light-to-moderate density smoke was
also observed dispersing over Quebec and the Hudson Bay into eastern
Ontario. Light-to-moderate smoke continued eastward into the Atlantic
Ocean and southwestward across Ontario, merging with the smoke from
Manitoba, Saskatchewan, and western Ontario before reaching the
Northeastern United States.

Canada…
Smoke from today’s fire activity, as well as remnant smoke from previous
days, has accumulated into a large layer of light-density smoke that
spanned from the Northwest Territories, across Nunavut and the Western
provinces, continuing east into Quebec and Labrador before drifting into
the Atlantic Ocean.

Southwestern US/Great Plains/Midwestern CONUS…
Multiple large wildfires continued to burn across Arizona, New Mexico,
Utah, and Colorado this evening, producing light-to-heavy smoke that
traveled towards the northeast. A large area of light-to-moderate density
smoke from these wildfires continued across the Central and Northern
Plains, eventually shifting direction towards the southeast over the
Midwestern United States.

Mexico/Pacific Ocean/Gulf of America/Southeastern US/Atlantic Ocean/
A large layer of light-density smoke, consisting of smoke from today’s
fire activity and remnant smoke from previous days, was observed across
the Mexican Pacific Coast, extending into the Pacific Ocean. Smoke was
also observed in the Bay of Campeche, the Yucatan Peninsula, and parts
of Central America. It continued across the Gulf of America and into
the southeastern US, ultimately reaching the Atlantic Ocean.

BLOWING DUST…
Caribbean…
Light dust from the Sahara Desert was observed spanning much of the
Caribbean Sea this evening.

GL


THIS TEXT PRODUCT IS PRIMARILY INTENDED TO DESCRIBE SIGNIFICANT AREAS OF
SMOKE ASSOCIATED WITH ACTIVE FIRES AND SMOKE WHICH HAS BECOME DETACHED
FROM THE FIRES AND DRIFTED SOME DISTANCE AWAY FROM THE SOURCE FIRE,
TYPICALLY OVER THE COURSE OF ONE OR MORE DAYS. AREAS OF BLOWING DUST ARE
ALSO DESCRIBED. USERS ARE ENCOURAGED TO VIEW A GRAPHIC DEPICTION OF THESE
AND OTHER PLUMES WHICH ARE LESS EXTENSIVE AND STILL ATTACHED TO THE SOURCE
FIRE IN VARIOUS GRAPHIC FORMATS ON OUR WEB SITE:

JPEG:http://www.ospo.noaa.gov/data/land/fire/currenthms.jpg
Smoke data:
https://satepsanone.nesdis.noaa.gov/pub/FIRE/web/HMS/Smoke_Polygons
Fire data:
https://satepsanone.nesdis.noaa.gov/pub/FIRE/web/HMS/Fire_Points

ANY QUESTIONS OR COMMENTS REGARDING THIS PRODUCT SHOULD BE SENT TO:
SSDFireTeam@noaa.gov

 


Unless otherwise indicated:
  • Areas of smoke are analyzed using GOES-EAST and GOES-WEST Visible satellite imagery.
  • Only a general description of areas of smoke or significant smoke plumes will be analyzed.
  • A quantitative assessment of the density/amount of particulate or the vertical distribution is not included.
  • Widespread cloudiness may prevent the detection of smoke even from significant fires.