Modeling lake conductivity in the contiguous United States using spatial indexing for big spatial data
Citation:
Dumelle, M., J. Ver Hoef, A. Handler, R. Hill, M. Higham, AND A. Olsen. Modeling lake conductivity in the contiguous United States using spatial indexing for big spatial data. Spatial Statistics. Elsevier Ltd, Oxford, Uk, 59:100808, (2024). https://doi.org/10.1016/j.spasta.2023.100808
Impact/Purpose:
Lake conductivity is an important indicator of the health of an aquatic ecosystem. We build spatial statistical models for lake conductivity using spatial indexing, an approach for handling large spatial data. Using lake conductivity data from USEPA’s National Lakes Assessment, we find that spatial indexing performs well and is computationally efficient. We also find that calcium oxide, crop presence, human development, temperature, and precipitation are significantly related to lake conductivity. Both the statistical approach and the lake conductivity takeaways are useful for USEPA, partners, and the general public.
Description:
Conductivity is an important indicator of the health of aquatic ecosystems. We model large amounts of lake conductivity data collected as part of the United States Environmental Protection Agency's National Lakes Assessment using spatial indexing, a flexible and efficient approach to fitting spatial statistical models to large data sets. Spatial indexing is capable of accommodating various spatial covariance structures as well as features like random effects, geometric anisotropy, partition factors, and non-Euclidean topologies. We use spatial indexing to compare lake conductivity models, show that calcium oxide rock content, crop production, human development, precipitation, and temperature are strongly related to lake conductivity. We use this model to predict lake conductivity at hundreds of thousands of lakes distributed throughout the contiguous United States. We find that lake conductivity models fit using spatial indexing are nearly identical to lake conductivity models fit using traditional methods but are significantly faster. Spatial indexing is readily available in the spmodel R package.
URLs/Downloads:
DOI: Modeling lake conductivity in the contiguous United States using spatial indexing for big spatial data