Publications by authors named "Emily R Nodine"
Article Synopsis
- Extreme weather events, particularly storms, have become more frequent and intense due to climate change, impacting ecosystems globally.
- Storms influence lake environments through runoff and physical mixing, leading to changes in physical and chemical conditions that affect phytoplankton communities.
- The study aims to synthesize current knowledge on how storms affect phytoplankton dynamics, identify research gaps, and propose future directions for understanding these impacts in various lake types.
Lake water quality is affected by local and regional drivers, including lake physical characteristics, hydrology, landscape position, land cover, land use, geology, and climate. Here, we demonstrate the utility of hypothesis testing within the landscape limnology framework using a random forest algorithm on a national-scale, spatially explicit data set, the United States Environmental Protection Agency's 2007 National Lakes Assessment. For 1026 lakes, we tested the relative importance of water quality drivers across spatial scales, the importance of hydrologic connectivity in mediating water quality drivers, and how the importance of both spatial scale and connectivity differ across response variables for five important in-lake water quality metrics (total phosphorus, total nitrogen, dissolved organic carbon, turbidity, and conductivity).
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