Conductivity, Spatially Explicit Models, and the spmodel R Package
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Conductivity is an important indicator of the health of aquatic ecosystems and is linked to anthropogenic activity. Understanding patterns and drivers of conductivity is important for effective management. We modeled lake conductivity data (n = 3,311) collected as part of the U.S. Environmental Protection Agency’s National Lakes Assessment (NLA) using spatial indexing, a flexible and efficient approach to fitting spatially explicit statistical models to big data sets. These spatial statistical models build spatial dependence directly into modeling and offer vast improvements over models that assume the data observations are independent (e.g., 45% reduction in mean-squared prediction error). We find lake conductivity is strongly related to calcium oxide rock content, crop production, human development, precipitation, and temperature. We used a final spatial model to predict lake conductivity at hundreds of thousands of lakes distributed throughout the contiguous United States. These maps revealed higher lake conductivities in the arid Southwest and several Midwestern states, such as the Dakotas. The combination of federal monitoring data with spatial modeling can offer important insights into the patterns and drivers of water quality nationally. Lake conductivity models fit using spatial indexing are nearly identical to lake conductivity models fit using traditional spatial analysis methods but are nearly 50 times faster. Spatial indexing and other tools for spatial statistical modeling and prediction are readily available in the spmodel R package. The views expressed in this article are those of the author(s) and do not necessarily represent the views or policies of the U.S. Environmental Protection Agency.