Climate Change Indicators in the United States Snow Cover

Climate Change Indicators in the United States: Snow Cover
www.epa.gov/climate-indicators - Updated August 2016

Snow Cover

This indicator measures the amount of land in North America that is covered by snow.

Background

Snow cover refers to the amount of land covered by snow at any given time. Naturally, it is influenced
by the amount of precipitation that falls as snow. Air temperature also plays a role because it
determines whether precipitation falls as snow or rain, and it affects the rate at which snow on the
ground melts. As temperature and precipitation patterns change, so can the overall area covered by
snow.

Snow cover is not just something that is affected by climate change; it also exerts an influence on
climate. Because snow is white, it absorbs only a small portion of the sunlight that hits it (10 to 20
percent in the case of fresh snow), and it reflects the rest back to space. In contrast, darker surfaces
such as bare ground and open water absorb the majority of the energy they receive and heat up more
quickly. In this way, the overall amount of snow cover affects patterns of heating and cooling over the
Earth's surface. More snow means more energy reflects back to space, resulting in cooling, while less
snow cover means more energy is absorbed at the Earth's surface, resulting in warming.

On a more local scale, snow cover is important for many plants and animals. For example, some plants
and animals rely on a protective blanket of snow to insulate them from sub-freezing winter
temperatures. Humans and ecosystems also rely on snowmelt to replenish streams and groundwater.
Snow cover also keeps the soil moist, so if the snow melts away earlier in the spring, the soil may dry out
sooner, which can stress plants and increase the risk of wildfire.1

About the Indicator

This indicator tracks the area covered by snow since 1972, based on maps generated by analyzing
satellite images collected by the National Oceanic and Atmospheric Administration. Figure 1 was created
by analyzing weekly maps to determine the total extent of snow cover, then averaging the weekly
observations together to get a value for each year. Figure 2 uses the same method, but with average
snow cover calculated for each season: spring (defined as March-May), summer (June-August), fall
(September-November), and winter (December-February). These two figures cover all of North
America, not including Greenland. Figure 3 focuses on the contiguous 48 states plus Alaska. It shows the
average date when snow first starts to cover the ground in the fall, the average last date of snow cover
in the spring, and the length of time between them. These snow cover season dates have been averaged
over all parts of the country that regularly receive snow.

• When averaged over the entire year, snow covered an average of 3.24 million square miles of
North America during the period from 1972 to 2015 (see Figure 1).

Key Points

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Climate Change Indicators in the United States: Snow Cover
www.epa.gov/climate-indicators - Updated August 2016

•	The extent of snow cover has varied from year to year. The average area covered by snow has
ranged from 3.0 million to 3.6 million square miles, with the minimum value occurring in 1998
and the maximum in 1978 (see Figure 1).

•	Between 1972 and 2015, the average extent of North American snow cover decreased at a rate
of about 3,300 square miles per year. The average area covered by snow during the most recent
decade (2006-2015) was 3.21 million square miles, which is about 4 percent smaller than the
average extent during the first 10 years of measurement (1972-1981)—a difference of 122,000
square miles, or approximately an area the size of New Mexico (see Figure 1).

•	Decreases in snow cover have largely occurred in spring and summer, whereas fall and winter
snow cover have remained fairly steady over the time period studied (see Figure 2). Spring and
summer snow cover can have a particularly important influence on water supplies.

•	Since 1972, the U.S. snow cover season has become shorter by nearly two weeks, on average
(see Figure 3). By far the largest change has taken place in the spring, with the last day of snow
shifting earlier by 19 days since 1972. In contrast, the first date of snow cover in the fall has
remained relatively unchanged.

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Climate Change Indicators in the United States: Snow Cover

www.epa.gov/climate-indicators - Updated August 2016

Figure 1. Snow-Covered Area in North America, 1972-2015

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1980

1985

1990

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Year

2000

2005

2010

2015

2020

This graph shows the average area covered by snow in a given calendar year, based on an analysis of
weekly maps. The area is measured in square miles. These data cover all of North America (not including
Greenland).

Data source: Rutgers University Global Snow Lab, 20162

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www.epa.gov/climate-indicators- Updated August 2016

Figure 2. Snow-Covered Area iri North America by Season, 1972-2015

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Summer
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1970 1975 1980 1985 1990 1995 2000 2005 2010 2015 2020

Year

Spring
(March - May)
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Fall

(September - November)

This graph shows the average area covered by snow during spring (March-May), summer (June-August),
fall (September-November), and winter (December-February), based on an analysis of weekly maps. The
area is measured in square miles. These data cover all of North America (not including Greenland).

Data source: Rutgers University Global Snow Lab, 20163

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Climate Change Indicators in the United States: Snow Cover

www.epa.gov/climate-indicators - Updated August 2016

Figure 3. Snow Cover Season in the United States, 1972-2013

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Nov 29

Start of snow cover

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1977 1982 1987 1992 1997 2002 2007 2012

Year

This figure shows the timing of each year's snow cover season in the contiguous 48 states and Alaska,
based on an average of all parts of the country that receive snow every year. The shaded band spans
from the first date of snow cover until the last date of snow cover.

Data source: NOAA, 20154

Indicator Notes

Although satellite-based snow cover maps are available starting in the mid-1960s, some of the early
years are missing data from several weeks during the summer, which would lead to an inaccurate
annual average. Thus, the indicator is restricted to 1972 and later, with all years having a full set of data.

Data Sources

The data for this indicator were provided by the Rutgers University Global Snow Lab, which posts data
online at: http://climate.rutgers.edu/snowcover, and the National Oceanic and Atmospheric
Administration's National Environmental Satellite, Data, and Information Service, which collects satellite
measurements and compiles maps at: www.nesdis.noaa.gov.

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Climate Change Indicators in the United States: Snow Cover
www.epa.gov/climate-indicators - Updated August 2016

1	Harpold, A.A., and N.P. Molotch. 2015. Sensitivity of soil water availability to changing snowmelt timing in the
western U.S. Geophysical Research Letters 42(19):8011-8020.

2	Rutgers University Global Snow Lab. 2016. Area of extent data: North America (no Greenland). Accessed January
2016. http://climate.rutgers.edu/snowcover.

3	Rutgers University Global Snow Lab. 2016. Area of extent data: North America (no Greenland). Accessed January
2016. http://climate.rutgers.edu/snowcover.

4	NOAA (National Oceanic and Atmospheric Administration). 2015. Snow cover maps. Accessed November 2015.
ftp://eclipse.ncdc.noaa.gov/pub/cdr/snowcover.

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