Turning the clock back on Arctic ecosystem computer modeling
Amy Loeffler
907-474-7933
Dec. 15, 2023
This week, scientists from the University of 有料盒子视频 Fairbanks are presenting their work alongside thousands of colleagues from around the world at the 2023 American Geophysical Union fall meeting. Some of their discoveries are featured here. You can also find out more about 有料盒子视频 at AGU by searching for #有料盒子视频xAGU on social media platforms.
Most ecosystem computer modeling that seeks to forecast the effects of climate change starts with the date of 1900, before industrialization鈥檚 fingerprints begin to be seen in the global environment.
But graduate student Hannah Mevenkamp鈥檚 ecosystem modeling starts much earlier. For her research with Arctic ecosystems at the University of 有料盒子视频 Fairbanks, she turns the clock back 15,000 years and runs her models beginning with the Pleistocene Era鈥檚 ice age 鈥 a time when woolly mammoths still roamed the Earth and humans first began appearing in 有料盒子视频.
She鈥檚 testing this increased timeline because some of the permafrost that exists today in the Arctic 鈥 a region that is feeling the effects of climate change more acutely than any other place on the globe 鈥 was created under conditions from the last ice age. At that time, according to the U.S. Geological Survey, glaciers covered 25% of the Earth鈥檚 surface.
鈥淭he history that something has gone through can change its future behavior, and I am testing to see if that holds true for permafrost. If this is the case, then it might mean we need to set the clock back for ecosystem modeling in the Arctic,鈥 said Mevenkamp.
The crux of Mevenkamp鈥檚 research seeks to determine whether there is value in telling the computer model that an ice age has occurred. Preliminary results indicate that setting the timeline back 15,000 years may have significant effects for modeling.
鈥淎rctic soils have a really long memory,鈥 Mevenkamp said. 鈥淎t least in high-latitude areas, it might be beneficial to run climate models that go further back.鈥