Mary Palmieri | 2026 I.S. Symposium
Name: Mary Palmieri
Title: Reconstructing Cloud Cover from Tree Rings and Its Relationship with Tree Growth, Northeast United States
Majors: Geology; Statistical & Data Sciences
惭颈苍辞谤:听Music
Advisor: Greg Wiles
The climate of the Northeast United States has been changing rapidly since the 1970s, and cloud cover poses one of the biggest unknowns in climate modeling. Cloudiness has the potential to influence tree growth, and the temperate forests of the Northeast are poorly understood. In this study, nested principal component regression analysis was utilized to build a reconstruction of June through September (JJAS) cloud cover in the Northeast United States from 1801 to 2002. Ring width data from various oak species and latewood blue intensity data from eastern hemlock (Tsuga canadensis) were used to create a time series that explains at most 43.18% of the variance in average Northeast JJAS cloud cover. The reconstruction suggested that cloudiness in the 1800s and early 1900s was primarily forced by volcanoes and widespread deforestation. After the 1950s, cloud cover changes were dominated by rising sulfate aerosol and greenhouse gas emissions. Shifts in the 1920s and 1970s were likely intensified by coeval changes in the Atlantic Multidecadal Oscillation and Pacific Decadal Oscillation, respectively. High summer cloudiness is associated with less dense hemlock latewood and wider oak annual rings. However, precipitation has a more direct effect on tree growth than cloud cover. Hemlock trees are most impacted by decreased light availability and cloud-induced temperature changes, whereas oak trees are primarily limited by moisture. This study lays the groundwork for future paleoclimatic reconstructions of cloud cover using tree rings and provides a better understanding of Northeast temperate forest climate interactions, which will be integral given the uncertainty clouds pose in the wake of modern climate change.
Posted in Symposium 2026 on May 1, 2026.
