Litcius/Paper detail

Designing More Informative Multiple-Driver Experiments

Mridul K. Thomas, Ravi Ranjan

2023Annual Review of Marine Science20 citationsDOIOpen Access PDF

Abstract

For decades, multiple-driver/stressor research has examined interactions among drivers that will undergo large changes in the future: temperature, pH, nutrients, oxygen, pathogens, and more. However, the most commonly used experimental designs-present-versus-future and ANOVA-fail to contribute to general understanding or predictive power. Linking experimental design to process-based mathematical models would help us predict how ecosystems will behave in novel environmental conditions. We review a range of experimental designs and assess the best experimental path toward a predictive ecology. Full factorial response surface, fractional factorial, quadratic response surface, custom, space-filling, and especially optimal and sequential/adaptive designs can help us achieve more valuable scientific goals. Experiments using these designs are challenging to perform with long-lived organisms or at the community and ecosystem levels. But they remain our most promising path toward linking experiments and theory in multiple-driver research and making accurate, useful predictions.

Topics & Concepts

Computer scienceEnvironmental scienceAdvanced Multi-Objective Optimization AlgorithmsComplex Systems and Decision MakingInnovation Diffusion and Forecasting