These are the data associated with each of the figures in the publication. This dataset is associated with the following publication: Thursby, G., K. Sappington, and M. Etterson. Coupling Toxicokinetic-Toxicodynamic and Population Models for Assessing Aquatic Ecological Risks to Time-Varying Pesticide Exposures. ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY. Society of Environmental Toxicology and Chemistry, Pensacola, FL, USA, 37(10): 2633-2644, (2018).

This data package was created 2025-12-03 10:32:08 by NPSTORET and includes selected project, location, and result data. Data are from Roy T. Tsuda and Terry J. Donaldson's (University of Guam Marine Laboratory) 2004 Technical Report #108 entitled "Cumulative and Secondary Impacts: Seawalker, Scuba Bob, and the Fish Eye Underwater Observatory, Piti and Cocos Lagoon, Guam" funded the National Oceanic and Atmospheric Administration and the Guam Coastal Management Program. The purpose of the project was to assess the cumulative and secondary impacts, i.e., repetitive occurrences within a confined area, of three marine recreational activities, i.e., Fish Eye Underwater Observatory in Piti Bay, Seawalkers in Piti Bay and Cocos Lagoon, and Scuba BOB (Breathing Observation Bubble) in Cocos Lagoon. Only Piti Bay data are presented here. Data contained in WAPA_NPSTORET_BE.ACCDB (NPSTORET back-end file) were filtered to include: Organization: - WAPA: War in the Pacific National Historical Park Project: - WAPA0023: Cumulative and Secondary Impacts: Seawalker, Scuba Bob, and the Fish Eye Underwater Observatory, Piti and Cocos Lagoon, Guam Station: - Include Trip QC And All Station Visit Results Value Status: - Accepted or Certified (exported as Final) or Final The data package is organized into six data tables: - Projects.csv - describes the purpose and background of the monitoring efforts - Locations.csv - documents the attributes of the monitoring locations/stations - Results.csv - contains the field measurements, observations, and/or lab analyses for each sample/event/data grouping - HUC.csv - enumerates the domain of allowed values for 8-digit and 12-digit hydrologic unit codes utilized by the Locations data table - Characteristics.csv - enumerates the domain of characteristics available in NPSTORET to identify what was sampled, measured or observed in Results - Taxon.csv - enumerates the domain of taxa available in NPSTORET to identify the organism sampled for Results Period of record for filtered data is 2004-01-16 to 2004-02-03. This data package is a snapshot in time of one National Park Service project. The most current data for this project, which may be more or less extensive than that in this data package, can be found on the Water Quality Portal at: https://www.waterqualitydata.us/data/Result/search?project=WAPA0023&mimeType=csv&zip=yes&dataProfile=biological&providers=STORET

Underlying modeling outputs used to generate Figures in the manuscript and supplemental figures. This dataset is associated with the following publication: Stanek, L., J. Xue, C. Lay, E. Helm, T. Speth, D. Lytle, M. Schock, and V. Zartarian. Modeled Impacts of Drinking Water Lead Reduction Scenarios on Children’s Exposures and Blood Lead Levels. ENVIRONMENTAL SCIENCE & TECHNOLOGY. American Chemical Society, Washington, DC, USA, 54(15): 9474-9482, (2020).

The dataset provides growth and toxicokinetic parameters for the simulations presented in the manuscript by Pollesch et al. Developing Integral Projection Models for Aquatic Ecotoxicology. This dataset is associated with the following publication: Pollesch, N., K. Flynn, S. Kadlec, J. Swintek, S. Raimondo, and M. Etterson. Developing integral projection models for ecotoxicology. ECOLOGICAL MODELLING. Elsevier Science BV, Amsterdam, NETHERLANDS, 464: 109813, (2022).

This dataset consists of the data used to create the tables and figures for this paper. This dataset is associated with the following publication: Baxter, L., K. Dionisio, P. Pradeep, K. Rappazzo, and L. Neas. Human exposure factors as potential determinants of the heterogeneity in city-specific associations between PM2.5 and mortality. Journal of Exposure Science and Environmental Epidemiology. Nature Publishing Group, London, UK, 29(4): 557-567, (2019).

Data sources for Pesticide in Water Calculator scenario simulations. This dataset is associated with the following publication: Awkerman, J., T. Purucker, S. Raimondo, and L. Oliver. Long-term, landscape-level assessment of aquatic pesticide exposure to identify amphibian ontological traits affecting vulnerability. Integrated Environmental Assessment and Management. Allen Press, Inc., Lawrence, KS, USA, 20(5): 1667-1676, (2024).

Resulting betas (health effects) from a variety of copollutant epidemiologic models used to analyze the impact of exposure measurement error on health effect estimates. This dataset is associated with the following publication: Dionisio , K., H.H. Chang, and L. Baxter. A simulation study to quantify the impacts of exposure measurement error on air pollution health risk estimates in copollutant time-series models.. ENVIRONMENTAL HEALTH. Academic Press Incorporated, Orlando, FL, USA, 15: 114, (2016).

The dataset provides the data used in each of the figures and tables in the final published manuscript specifically Figures 2-9 and Tables 10 and 11. Citation information for this dataset can be found in the EDG's Metadata Reference Information section and Data.gov's References section.

Understanding cumulative impacts from multiple stressors will be critical for successful management of the GBR under the Reef2050 Plan. The project will produce experimental analyses of concentration-response relationships for selected species under broad, controlled envelopes of sediments, turbidity, nutrients, light, salinity and temperature. Based on new understanding of threshold exposure values, existing and new field data we will produce exposure maps for individual stressors and explore techniques to summarize those into cumulative exposure maps. Results will inform spatial and temporal assessments of ecological risks, and management opportunities for a range of activities in the coastal zones and inshore GBR waters.