Satellites Measured Temperatures In 167 Lakes Worldwide
In the first comprehensive global survey of temperature trends
in major lakes, NASA researchers determined Earth's largest lakes
have warmed during the past 25 years in response to climate change.
Researchers Philipp Schneider and Simon Hook of NASA's Jet
Propulsion Laboratory in Pasadena, CA, used satellite data to
measure the surface temperatures of 167 large lakes worldwide.
They reported an average warming rate of 0.81 degrees Fahrenheit
per decade, with some lakes warming as much as 1.8 degrees
Fahrenheit per decade. The warming trend was global, and the
greatest increases were in the mid- to high-latitudes of the
Northern Hemisphere.
"Our analysis provides a new, independent data source for
assessing the impact of climate change over land around the world,"
said Schneider, lead author of the study published this week in the
journal Geophysical Research Letters. "The results have
implications for lake ecosystems, which can be adversely affected
by even small water temperature changes." Small changes in water
temperature can result in algal blooms that can make a lake toxic
to fish or result in the introduction of non-native species that
change the lake's natural ecosystem.
Scientists have long used air temperature measurements taken
near Earth's surface to compute warming trends. More recently,
scientists have supplemented these measurements with thermal
infrared satellite data that can be used to provide a
comprehensive, accurate view of how surface temperatures are
changing worldwide.
The NASA researchers used thermal infrared imagery from National
Oceanic and Atmospheric Administration and European Space Agency
satellites. They focused on summer temperatures (July-September in
the Northern Hemisphere and January-March in the Southern
Hemisphere) because of the difficulty in collecting data in seasons
when lakes are ice-covered and/or often hidden by clouds. Only
nighttime data were used in the study
The bodies studied were selected from a global database of lakes
and wetlands based on size (typically at least 193 square miles or
larger) or other unique characteristics of scientific merit. The
selected lakes also had to have large surface areas located away
from shorelines, so land influences did not interfere with the
measurements. Satellite lake data were collected from the point
farthest from any shoreline.
The largest and most consistent area of warming was northern
Europe. The warming trend was slightly weaker in southeastern
Europe, around the Black and Caspian seas and Kazakhstan. The
trends increased slightly farther east in Siberia, Mongolia and
northern China. In North America, trends were slightly higher in
the southwest United States than in the Great Lakes region. Warming
was weaker in the tropics and in the mid-latitudes of the Southern
Hemisphere. The results were consistent with the expected changes
associated with global warming.
The satellite temperature trends largely agreed with trends
measured by nine buoys in the Great Lakes, Earth's largest group of
freshwater lakes in terms of total surface area and volume. The
lake temperature trends were also in agreement with independent
surface air temperature data from NASA's Goddard Institute for
Space Studies in New York. In certain regions, such as the Great
Lakes and northern Europe, water bodies appear to be warming more
quickly than surrounding air temperature.