Summer temperatures on the Norwegian archipelago of Svalbard in the High Arctic are now higher than during any time over the last 1,800 years, including a period of higher temperatures in the northern hemisphere known as the Medieval Warm Period, according to a new study. In an analysis of algae buried in deep lake sediments, a team of scientists calculated that summer temperatures in Svalbard since 1987 have been 2 to 2.5 degrees Celsius (3.6 to 4.5 degrees F) warmer than during the Medieval Warm Period, which lasted from roughly 950 to 1250 AD. The Medieval Warm Period is often cited by climate change skeptics as proof that the planet has experienced periods of high temperatures in recent centuries unrelated to the burning of fossil fuels. The algae, which make more unsaturated fats in colder periods and more saturated fats in warmer periods, reveal critical clues about past climates. Scientists were able to date the lake specimens by analyzing grains of glass emitted by a series of well-known Icelandic volcanoes that left unique chemical time markers. The study is published in the journal Geology.
High-Arctic Summers Are Warmer than Any Time in 1,800 years
More From E360
-
Climate
Scientists Are Trying to Coax the Ocean to Absorb More CO2
-
INTERVIEW
Marina Silva on Brazil’s Fight to Turn the Tide on Deforestation
-
Solutions
Solomon Islands Tribes Sell Carbon Credits, Not Their Trees
-
INTERVIEW
With Sea Turtles in Peril, a Call for New Strategies to Save Them
-
RIVERS
Jared Kushner Has Big Plans for Delta of Europe’s Last Wild River
-
Energy
A Nuclear Power Revival Is Sparking a Surge in Uranium Mining
-
OPINION
Despite Official Vote, the Evidence of the Anthropocene Is Clear
-
INTERVIEW
At 11,500 Feet, a ‘Climate Fast’ to Save the Melting Himalaya
-
Oceans
Octopuses Are Highly Intelligent. Should They Be Farmed for Food?
-
Climate
Nations Are Undercounting Emissions, Putting UN Goals at Risk
-
Solutions
As Carbon Air Capture Ramps Up, Major Hurdles Remain
-
ANALYSIS
How China Became the World’s Leader on Renewable Energy