The Climate System Dynamics group in the Dept of Environmental, Earth and Atmospheric Sciences at the University of Massachusetts Lowell studies the movement of atmospheric water and its exchanges with Earth's surface. We examine the processes that control this movement, including those related to evaporation and atmospheric circulation, to better understand the development of high-impact weather and climate events. We are interested in using insights from this work to explain the role of climate in shaping societies and ecosystems in the past, and to prepare for climate related impacts in the future.
Latest Group News
Jan 2025: Check out our recent paper led by Daniel Swain on hydroclimate volatility in a warming world.
Jan 2025: Check out our recent paper led by William Rush on the implications of atmospheric river detection algorithm differences on our understanding of atmospheric river responses to global climate change.
Dec 2024: Ali Fallah has been awarded the NSF NCAR Advanced Study Program Graduate Visitor Fellowship. Congratulations Ali!!
Oct 2024: Check out our recent paper led by Nicole Arellano on the use of triple oxygen isotopes to study precipitation.
June 2024: Check out our recent paper led by graduate student Ali Fallah on the impact of vegetation assimilation on flash drought detection and characteristics.
Jan 2025: Check out our recent paper led by Daniel Swain on hydroclimate volatility in a warming world.
Jan 2025: Check out our recent paper led by William Rush on the implications of atmospheric river detection algorithm differences on our understanding of atmospheric river responses to global climate change.
Dec 2024: Ali Fallah has been awarded the NSF NCAR Advanced Study Program Graduate Visitor Fellowship. Congratulations Ali!!
Oct 2024: Check out our recent paper led by Nicole Arellano on the use of triple oxygen isotopes to study precipitation.
June 2024: Check out our recent paper led by graduate student Ali Fallah on the impact of vegetation assimilation on flash drought detection and characteristics.