Study challenges climate change's link to our wild winter jet stream
Peer-Reviewed Publication
Updates every hour. Last Updated: 26-Jun-2025 09:10 ET (26-Jun-2025 13:10 GMT/UTC)
A Dartmouth study uses machine learning to reexamine whether climate change is causing large waves in the polar jet stream that have brought Arctic-like temperatures and storms to temperate regions of the United States in recent years. The researchers constructed a timeline of the jet stream's wintertime variability since 1901 and found it's in the latest of several “wavy” periods from the past 125 years, most of which predate significant effects of climate change. The authors report that climate change is likely not amplifying extreme winter weather by making the jet stream wavier, but through more direct links such as a warmer atmosphere that retains more moisture.
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A groundbreaking study in PLOS Biology from researchers at Harvard University, offers a fresh and compelling answer to the fundamental evolution mystery of how mammals went from sprawling like lizards to upright; revealing the path to upright posture wasn’t linear, but full of unexpected detours, evolutionary experimentation, and dramatic anatomical upheaval.
In the ever-evolving landscape of geospatial technology, innovations are steadily advancing our capabilities in Earth monitoring and urban planning. Precise positioning technologies and geoinformation science have become essential for various applications, from scientific research on global climate change and earthquake monitoring to supporting major initiatives in satellite navigation and smart city development. This article explores recent advancements in the field, including improvements in Terrestrial Reference Frame accuracy, real-time seismic monitoring through Global Navigation Satellite Systems (GNSSs), the development of advanced hyperspectral imaging systems, new techniques for ionospheric irregularity detection, and the creation of three-dimensional (3D) building space datasets for urban planning. These developments, while incremental, collectively enhance our ability to understand and manage our planet's resources and urban environments with greater precision and insight.