CAREER: High-Resolution Modeling of Late Holocene Environmental Volatility in Temperate North America: Using Quantitative Wood Anatomy to Improve Understanding of Extreme Weather

NSF Award Search · 01003031DB NSF RESEARCH & RELATED ACTIVIT · $498,408 · view on nsf.gov ↗

Abstract

Understanding how extreme weather varies in type, magnitude, and frequency is critical for anticipating future risks to the social, ecological, and economic security of the nation. This project will use novel methods of tree-ring analysis to produce detailed records of past rainfall and temperature extremes during the last millennium across temperate North America. The project will also develop accessible visual materials and tutorials, connecting students across wide-ranging fields to create a unique project-based learning environment that enhances participation and capacity in the STEM workforce. With this CAREER award, the project will apply novel dendrochronological techniques in quantitative wood anatomy (QWA) to develop high-resolution temperature and precipitation proxy records to augment an existing network of baseline paleoclimate information. QWA parameters will then be used to improve the temporal precision of reconstructed environmental volatility over the Common Era, with an increased emphasis on the trends and drivers of extreme weather conditions. In doing so, the project will address these specific research objectives: 1) increase the spatiotemporal coverage of high-resolution paleoclimate records across North America, 2) use QWA methods to improve the resolution and robustness of paleoclimate estimates from tree-rings in the temperate latitudes of North America, and 3) identify and quantify the natural forcing mechanisms on extreme weather conditions prior to the Industrial era. The education plan of this CAREER award emphasizes integrating QWA research with creative visual methods to 1) motivate young students to pursue STEM-based inquiry through easily accessible and engaging opportunities for in-depth exploration of paleoenvironmental and atmospheric science, and 2) involve interdisciplinary groups of undergraduate students in hands-on, engaging experiences where they learn STEM skills through the development of paleoenvironmental science tut

Key facts

NSF award ID
2540613
Awardee
University of Tennessee Knoxville (TN)
SAM.gov UEI
FN2YCS2YAUW3
PI
Karen King
Primary program
01003031DB NSF RESEARCH & RELATED ACTIVIT
All programs
CAREER-Faculty Erly Career Dev
Estimated total
$498,408
Funds obligated
$434,286
Transaction type
Continuing Grant
Period
07/01/2026 → 06/30/2031