Jones

  • An aerial view of the fjord in East Greenland after a landslide-tsunami occurred in September 2023. Copernicus, Sentinel-2, EO browser
    A melting glacier collapsed, sending the mountaintop it propped up careening into the Dickson Fjord in East Greenland. The impact created a 650-foot tall tsunami, which crashed back and forth between the steep channel walls. Tyler Jones puts the event into the context of arctic climate change.
  • A faceted white dome, home to the drilling rig of a coring expedition, sits atop the Greenland ice sheet. Photo by Christine Massey, University of Vermont.
    “We’re creating a world where these ice sheets are going to melt,” says Tyler Jones, explaining the results of a new study on fossilized plant and insect parts found at the bottom of Greenland's ice sheet.
  • Glaciologist Tobias Erhardt, in puffy red parka and black pants, uses a big metal drill to extract a shallow ice core at the East Greenland Ice-core Project camp.
    Glacial ice contains valuable data about climates past. Researchers like Tyler Jones are working to preserve those records for the future. A number of science teams are archiving ice cores in a remote cave in Antarctica, where the average temperature is -54 degrees Celsuis (-65 degrees Fahrenheit).
  • Valerie Morris, in puffy fur-lined parka, carries a section of the GISP2 ice core in a wooden tray at the NSF Ice Core Facility.
    Tyler Jones, Brad Markle, and Valerie Morris are leading a group of students in resampling the Greenland Ice Sheet Project Two (GISP2) core to investigate mechanisms of abrupt climate change and extreme events of the past. The original measurements (e.g., water isotopes) numbered a few thousand while the new measurements will create millions of data points.
  •  Boulder incoming PhD student Paloma Siegel carries an autonomous aircraft (~10 foot wingspan) away from an Alaskan landing strip after a flight
    For the second summer in a row, the Boulder Division of Public Safety's Flight Operations department is supporting important campus research in Alaska, as part of the Navigating the New Arctic project (principal investigator: Tyler Jones), which is being managed by researchers in the Stable Isotope Lab of INSTAAR.

  • Covered in netting to deflect stray golf balls, instruments gather methane data on the seventh hole of Midnight Sun Golf Course. Permafrost is rapidly thawing across the far north, deforming fairways here and releasing the highly potent greenhouse gas, which leads to more warming. PHOTOGRAPH: FRANKIE CARINO
    The Far North is thawing, unleashing clouds of planet-heating gas. Tyler Jones, Bruce Vaughn, and Kevin Rozmiarek use detectors on drones or carried by hand to measure methane release from permafrost in Alaska.
  • An ice core from the West Antarctic Ice Sheet Divide is giving scientists a hint at the continent’s seasonal temperatures across millennia. Photo by Heidi Roop/NSF, CC BY-NC-ND 4.0
    Researchers led by INSTAAR Tyler Jones used ice core data to reconstruct seasonal temperatures throughout the Holocene. The results link especially hot summers with patterns in Earth’s orbit. The results are the first seasonal temperature record stretching back 11,000 years.
  • Tyler Jones on the deck of a research vessel.
    By analyzing Antarctic ice cores, Boulder scientists and an international team of collaborators have revealed the most detailed look yet at the planet’s recent climactic history, including summer and winter temperatures dating back 11,000 years to the beginning of what is known as the Holocene. Published today in Nature, the study is the very first seasonal temperature record of its kind, from anywhere in the world. INSTAAR Tyler Jones is lead author of the study.

  • Rows and rows of silver tubes holding ice cores in an NSF freezer facility
    Core libraries store a treasure trove of data about the planet’s past. What will it take to sustain their future?
  • A satellite view of the Yukon River watershed in Alaska
    A new INSTAAR-led project will engage Indigenous and Western knowledge systems to better understand abrupt permafrost change in Alaska. The National Science Foundation selected the project as part of its Navigating the New Arctic funding area, one of ten “Big Ideas” that NSF is investing in as an area of profound national challenge and opportunity. The research project brings Alaskan communities together with social and natural scientists to examine changes in permafrost thaw lake environments, including associated effects on villages in the Yukon River watershed.
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