Cyanotoxin mixture models: Relating environmental variables and toxin co-occurrence to human exposure risk

Victoria Christensen; Erin A. Stelzer; Barbara C. Scudder Eikenberry; Hayley T. Olds; Jaime F. LeDuc; Ryan P. Maki; Jack E. Norland; Eakalak Khan

doi:10.1016/j.jhazmat.2021.125560

Cyanotoxin mixture models: Relating environmental variables and toxin co-occurrence to human exposure risk

Journal of Hazardous Materials

By: Victoria Christensen, Erin A. Stelzer, Barbara C. Scudder Eikenberry, Hayley T. Olds, Jaime F. LeDuc, Ryan P. Maki, Jack E. Norland, and Eakalak Khan

https://doi.org/10.1016/j.jhazmat.2021.125560

Links

More information: Publisher Index Page (via DOI)
Data Release: USGS data release - Data and model archive for multiple linear regression models for prediction of weighted cyanotoxin mixture concentrations and microcystin concentrations at three recurring bloom sites in Kabetogama Lake in Minnesota
Download citation as: RIS | Dublin Core

Abstract

Toxic cyanobacterial blooms, often containing multiple toxins, are a serious public health issue. However, there are no known models that predict a cyanotoxin mixture (anatoxin-a, microcystin, saxitoxin). This paper presents two cyanotoxin mixture models (MIX) and compares them to two microcystin (MC) models from data collected in 2016–2017 from three recurring cyanobacterial bloom locations in Kabetogama Lake, Voyageurs National Park (Minnesota, USA). Models include those using near-real-time environmental variables (readily available) and those using additional comprehensive variables (based on laboratory analyses). Comprehensive models (R² = 0.87 MC; R² = 0.86 MIX) explained more variability than the environmental models (R² = 0.58 MC; R² = 0.57 MIX). Although neither MIX model was a better fit than the MC models, the MIX models produced no false negatives in the calibration dataset, indicating that all observations above regulatory guidelines were simulated by the MIX models. This is the first known use of Virtual Beach software for a cyanotoxin mixture model, and the methods used in this paper may be applicable to other lakes or beaches.

Study Area

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Cyanotoxin mixture models: Relating environmental variables and toxin co-occurrence to human exposure risk
Series title	Journal of Hazardous Materials
DOI	10.1016/j.jhazmat.2021.125560
Volume	415
Year Published	2021
Language	English
Publisher	Elsevier
Contributing office(s)	Upper Midwest Water Science Center
Description	125560, 13 p.
Country	United States
State	Minnesota
Other Geospatial	Kabetogama Lake
Google Analytic Metrics	Metrics page