Validation and sensitivity of the FINE Bayesian network for forecasting aquatic exposure to nano-silver
Title | Validation and sensitivity of the FINE Bayesian network for forecasting aquatic exposure to nano-silver |
Publication Type | Journal Article |
Year of Publication | 2014 |
Authors | Money, ES, Barton, LE, Dawson, J, Reckhow, KH, Wiesner, MR |
Journal | Science of The Total Environment |
Volume | 473-474 |
Pagination | 685 - 691 |
Date Published | 03/2014 |
ISSN | 00489697 |
Abstract | The adaptive nature of the Forecasting the Impacts of Nanomaterials in the Environment (FINE) Bayesian network is explored. We create an updated FINE model (FINEAgNP-2) for predicting aquatic exposure concentrations of silver nanoparticles (AgNP) by combining the expert-based parameters from the baseline model established in previous work with literature data related to particle behavior, exposure, and nano-ecotoxicology via parameter learning. We validate the AgNP forecast from the updated model using mesocosm-scale field data and determine the sensitivity of several key variables to changes in environmental conditions, particle characteristics, and particle fate. Results show that the prediction accuracy of the FINEAgNP-2 model increased approximately 70% over the baseline model, with an error rate of only 20%, suggesting that FINE is a reliable tool to predict aquatic concentrations of nano-silver. Sensitivity analysis suggests that fractal dimension, particle diameter, conductivity, time, and particle fate have the most influence on aquatic exposure given the current knowledge; however, numerous knowledge gaps can be identified to suggest further research efforts that will reduce the uncertainty in subsequent exposure and risk forecasts. |
DOI | 10.1016/j.scitotenv.2013.12.100 |
Short Title | Science of The Total Environment |