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Why 'Meteorological Winter' Starts December 1 | Weather.com
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Weather Explainers

What Is 'Meteorological Winter' And Why Does It Start On December 1?

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At a Glance

  • Winter officially begins in the Northern Hemisphere this year on Dec. 21.
  • For meteorologists, this season actually starts on Dec. 1.
  • Meteorologists break down the seasons into groups of three months.
  • These groups align closely with the annual trace of temperatures.

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M​eteorological winter arrives Friday, but you may wonder why this is happening weeks before the winter solstice.

T​he winter you're familiar with: The date on your calendar when winter begins is known as the winter solstice. In 2023, that will occur on Thursday, Dec. 21, at 10:27 p.m. ET.

That's the moment in time when the sun's most direct rays are shining farthest south on the Earth, directly over the Tropic of Capricorn. It's when the Northern Hemisphere is tilted farthest away from the sun.

This is the Earth's orientation relative to the sun at the winter solstice, with the most direct solar radiation over the Tropic of Capricorn.

H​ow the seasons you're familiar with are defined: The changing sun angle through the year due to the tilt of Earth's axis as it revolves around the sun is why we have what are called astronomical seasons.

T​he winter solstice begins astronomical winter, which lasts until the vernal (spring) equinox occurring March 20 or 21 each year.

In winter, the sun rises in the southeast and sets in the southwest, a much shorter path across the sky, which is why the length of daylight is significantly shorter, usually only 8 to 9 hours.

(Further beef up your forecast with our detailed, hour-by-hour breakdown for the next 8 days – only available on our Premium Pro experience.)

image
The orientation of the Earth relative to the sun at the northern hemisphere's winter solstice, vernal (spring) equinox, summer solstice and autumnal equinox.
(NOAA/NWS)

Meteorologists do this differently: When you examine average daily high and low temperatures through the year, you'll quickly notice a pattern.

The coldest three months of the year in the Northern Hemisphere are usually from the beginning of December through the end of February, while the warmest three months are typically from the beginning of June through the end of August.

These nice, clean, three-month buckets are known as meteorological winter and summer, respectively. Meteorological spring and fall land between the winter and summer buckets.

These temperature buckets don't line up nearly as well with the astronomical seasons, for example late December through late March.

A generic, sample trace of average high (red) and low (blue) daily temperatures the year. The coldest three months of the year are known as meteorological winter. The hottest such three months are meteorological summer. The transition between those two are meteorological spring and fall.
(NOAA/NWS)
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H​ow well that fits: Alaska-based climatologist Brian Brettschneider calculated that the Dec. 1-Feb. 28/29 meteorological winter is a better fit to the coldest time of year in most of the United States and Canada.

In an analysis of dozens of U.S. cities, Brettschneider found only Honolulu, Hawaii, had its coldest 90-day stretch extend deep into March.

(For even more granular weather data tracking in your area, view your 15-minute details forecast in our Premium Pro experience.)

For those who live in the northern U.S., this makes sense.

It seems silly when we say "winter is here" just days before Christmas, when many parts of the north have already had at least one significant snowfall or cold snap.

Another advantage to meteorological seasons is the ease of calculating seasonal statistics, since every meteorological season starts on the first of the month.

M​ORE ON WEATHER.COM

-​ Winter Outlook

-​ Winter Weather Terms

-​ How This Winter Could Be Different With A Strong El Niño

Jonathan Erdman is a senior meteorologist at weather.com and has been covering national and international weather since 1996. His lifelong love of meteorology began with a close encounter with a tornado as a child in Wisconsin. He studied physics at the University of Wisconsin-Madison, then completed his Master's degree working with dual-polarization radar and lightning data at Colorado State University. Extreme and bizarre weather are his favorite topics. Reach out to him on X (formerly Twitter), Threads, Facebook and Bluesky.

The Weather Company’s primary journalistic mission is to report on breaking weather news, the environment and the importance of science to our lives. This story does not necessarily represent the position of our parent company, IBM.

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