Environmental Scientist - Public education advocate whose posts support science-based sustainable healthy/biodiverse ecosystems, climate action, adaptation/resilience and cleantech
November 2, 2023 - By University of Massachusetts Amherst - "Working closely with local conservation group, researchers develop new model to predict #climatechange driven #saltwaterintrusion that is transferable to other vulnerable #coastalcommunities --- As the world warms and ice sheets melt, the ocean continually rises. The greater Boston area can expect to see between one and six feet of sea level rise by 2100, according to recent estimates (https://lnkd.in/eUuGPU3Z). To find out what this rise might mean for #freshwater supplies, a team of hydrogeologists from the University of Massachusetts Amherst, led by David Boutt, professor of Earth, geographic and climate sciences, partnered with the Southeastern Massachusetts Pine Barrens Alliance (SEMPBA) and 13 other grassroots environmental organizations to develop an innovative new model that can not only predict saltwater intrusion over the next 75 years, but also pinpoint the main sources of salt contamination today—#roadsalt and #humandevelopment. The team released the results of their study (https://lnkd.in/eyef2g86) in the recent report, Saltwater Intrusion #VulnerabilityAssessment in Plymouth, MA. “For many years now, I’ve been working with citizen stakeholders in the southeastern corner of Massachusetts,” says Boutt, “and in 2021, the Pine Barrens Alliance, an environmental group interested in preserving the area’s unique environmental character, approached me with an idea for a project to help assess how communities along the coast could best prepare for climate change.” Boutt and his colleagues, including recent UMass graduate and research assistant Alexander Kirshen, undergraduates Rachel King, graduate students Daniel Corkran and Carly Lombardo and postdoctoral researcher Brendan Moran, jumped at the opportunity to apply their academic research to an urgent, real-world problem close to home. Plymouth sits on top of a freshwater aquifer—the town’s sole source of water. Because #Plymouth extends to the ocean’s edge, it is extremely susceptible to rising sea levels. For their study, Boutt, Kirshen and colleagues peeked underground to see what was happening. #Groundwater, flowing beneath the surface of the land, and the ocean’s water, which, likewise, flows subterraneanly, push against each other and reach an equilibrium state. A well sunk on the freshwater side will flow with sweet water, but one that drills down into the brackish meeting point between fresh and salt will come up briny. As the oceans rise, that sub-surface saltwater pushes farther inland, and wells that have delivered pure water for generations can suddenly turn salty. Next, Boutt and Kirshen adopted an existing U.S. Geological Survey #hydrogeologicalmodel, which only focused on the onshore half of the hydrogeology equation, by extending its reach 5 kilometers offshore. The model includes ponds, streams, terrestrial recharge—or the rate and amount of precipitation that seeps down into the aquifer..." Continue reading
