Scientist drill at the bottom of the Arctic OceanArtic ice formed about 45 million years ago - roughly 14 million years ahead of previous predictions - according to new research published in Nature. An international team of scientists, including Brown geologist Steven Clemens, says this startling evidence shows that glaciers formed in tandem at Earth's poles, providing important insights into global climate change.
In order to gather their data scientists went with two ice-breakers a drill ship. The ice breakers went through an ice sheet up to 5 meters think, and the drill ship gathered sediment from 430 meters below the seafloor along the Lomonsov Ridge - an undersea sliver of the Eurasian continent that broke away and sunk, as the Arctic Ocean opened to the Atlantic and Pacific oceans.
Evidence from the core samples suggested that glaciers had formed in the Arctic 14 million years earlier than scientists had thought. This means that the immense sheets of ice at the Earth's poles formed simultaneously, something researchers call "bipolar symmetry". This is the first time scientists have pulled up prehistoric geologic records from the frigid vault of the Arctic Ocean.
Previously, geologists believed glaciers formed in Antarctica long before they appeared in the Arctic. "In the past, scientists thought shifting tectonic plates and changes in ocean circulation patterns in the Southern Hemisphere may have prompted ice to form earlier in Antarctica," Clemens said. "But there was other data that contradicted this theory. Now much of what we know about the evolution of ice on Earth makes more sense. And the evidence underscores the importance of greenhouse gases as a driver of climate change. If you inject or remove large amounts of carbon in the atmosphere, you get truly global climate change."
Earth shifted from a "greenhouse" climate to an "icehouse" climate roughly 45 million years ago, a dramatic cooling that changed wind patterns, ocean currents, and land and ocean temperatures and had a profound impact on plant and animal life. How this change played out in the Arctic, however, has never been decisively documented. That history, recorded by the sediment on the seafloor, sits locked under thick, dense ice.
Clemens said the major finding - evidence of ice-deposited debris 45 million years ago - came in the form of pebbles. Why? Glaciers scrape across the land as they grow, carrying ground rock with them. When glaciers reach the sea, some of that ice shears off and forms icebergs, which shed pebbles as they melt.
This evidence of synchronous ice formation in the Arctic and Antarctic in the past may help bolster the evidence of "bipolar symmetry" today. In recent months, scientists have reported rapid melting of the worlds' ice, from the Antarctic ice sheet to Greenland glaciers. Many scientists believe the shrinking ice is linked to a sharp increase in greenhouse gases.
"Bipolar ice forms together and melts together," Clemens said. "Carbon levels are a huge driver of ice volume and global climate change, at all time scales."
Scientists dug up sediment cores containing a stunning 54 million years of climate history. Working in a German laboratory, Clemens and other members of the science team studied the samples to determine their physical, mineralogical and biological makeup.
Sediment from the most recent era, stretching from the present to about 25 million years ago, was marked by clay with coarse sand. The sand, along with small pebbles, comes from continents - blown by wind or carried by icebergs that deposited these bits onto the seafloor. These samples contained plankton - clear signs of salt water.
Sediment dating from 25 to 44 million years ago was marked by condensed silt containing no discernible signs of biological life. This era is a mystery, a hole in the historical record.
Sediment dating back 44 to 49 million years ago contained remnants of both fresh- and salt-water algae in the clay, including a surprise - spores of Azolla, a fresh-water fern. Scientists believe that fresh water may have sat on the surface, with denser salt water sitting toward the bottom. The evidence suggests that the ocean was in transition, moving from the prehistoric "greenhouse" world to the "icehouse" world that exists today.
Sediment from the earliest era, dating from 49 to 54 million years ago, was silty clay containing Apectodinium, microfossils that are strong markers of an abrupt warming event. This evidence suggests that Arctic was as warm as the subtropics about 55 million years ago - much warmer than previously estimated.Photo Credits: IODP/ECORD Science Operator