The Great Wall as a Climate Frontier: Towards an Integrated Study of the Ordos Region

AB-3100 15 Seminary Place, New Brunswick, NJ, United States

Speaker: Nicola Di Cosmo, Institute for Advanced Studies. Abstract: Professor Cosmo will discuss the connections between the history of the Great Wall, local ecologies, and the impact of climate change, particularly focusing on the East Asian Monsoons. More information here.

Scallops and Their Habitats Under Global Change

Marine & Coastal Sciences Building -- Alampi Room 71 Dudley Rd, New Brunswick, NJ, United States

Speaker: Stephen Tomasetti, University of Maryland  More information here.

Exceptional Stratospheric Contribution to Human Fingerprints on Atmospheric Temperature

Marine & Coastal Sciences Building -- Alampi Room 71 Dudley Rd, New Brunswick, NJ, United States

Benjamin Santer will give a technical talk titled "Exceptional Stratospheric Contribution to Human Fingerprints on Atmospheric Temperature". The talk is hybrid and will take place on Nov. 12, 2024, at 3:30 PM in the Alampi Room, Marine and Coastal Sciences Building and Webinar through Zoom, with this registration link. This event is co-sponsored by RCEI and Rutgers Graduate Program in ...

FEMS Webinar on Microbial Impacts Climate Change

Speakers: Max Häggblom, Rutgers University; Cornelia U Welte, Radboud University; Susanne Liebner, Helmholtz Centre Potsdam; Joel E Kostka, Georgia Institute of Technology.  Abstract: Join us for the FEMS Microbiology Ecology Webinar on Microbial Impacts of Climate Change, an enlightening exploration into the pivotal role of microbial communities in our evolving climate. This session will explore the latest research uncovering how microorganisms in diverse ...

Using an Integrated Human-Earth System Model to Explore the Multisectoral Impacts of Global Change

ENR-223 14 College Farm Rd, New Brunswick, NJ, United States

Speaker: Neal Graham, Pacific Northwest National Laboratory. Abstract: Scientists leverage Global Circulation Models (GCMs) and Earth System Models (ESMs) to study how atmospheric and oceanic changes may evolve in time due to our complex and changing climate. For example, these models allow us to understand how precipitation and temperature may change in a world with radiative forcing of 2.6 W/m2 at ...