Dr. Kristina Keating’s research focuses on using near surface geophysics to investigate the top 100 m’s of Earth’s surface. In particular, she is interested in using near-surface geophysics for hydrogeologic, biogeochemical, and cryosphere investigations. Dr. Keating uses standard geophysical methods including seismic refraction and electrical resistivity, but much of her research is focused on a novel geophysical method, nuclear magnetic resonance (NMR). Past and on-going studies in her research group includes field investigations to understand the depth and distribution of permafrost in Svalbard, laboratory studies to improve geophysical estimations of hydraulic conductivity, and computer modeling to improve the interpretation and analysis of geophysical data.
Understanding the Interconnectedness of Climate Change, Salt Marsh Resilience, and Nuisance Mosquitoes
Webinar Format: GotoMeeting
Richard Lathrop, Professor, Director, Grant F. Walton Center for Remote Sensing & Spatial Analysis, Rutgers University
Lisa Auermuller, Assistant Manager and Coastal Training Program Coordinator, Jacques Cousteau NERR
Kaitlin Gannon, Education Coordinator, Jacques Cousteau NERR
Dina Fonseca, Rutgers University
As climate change and sea level rise alter salt marsh habitats, a less understood impact – with implications for human health – is how changes in marsh habitat affect the production and location of nuisance mosquito populations. Understanding how coastal ecosystems are being impacted by climate change, and how nuisance mosquito populations are changing, is critical to ensuring coastal managers make the most informed decisions going forward.
In this webinar, project team members will describe how data-collection, mapping, and modeling efforts have resulted in increased clarity about marsh habitat change to inform mosquito control and coastal restoration efforts in New Jersey. Future modeling and marsh‐upland edge mapping suggest that the marsh‐upland is and will be a hotspot for change, and field sampling confirmed that these “new” habitats can serve as breeding areas for mosquitoes. The team also developed environmental DNA (eDNA) assays for the most common salt marsh mosquitoes in the Middle Atlantic United States. Working closely with mosquito control agency personnel, the team has made major advancements in mosquito surveillance through the deployment of drone-based sampling of breeding pools paired with the eDNA analyses. The team also developed outreach materials to inform the public about health risks posed by mosquitoes, including how climate change might exacerbate those risks, and a module for middle/high school educators.