Supporting Information for Predicting current and future background ion concentrations in German surface water under climate change Le Trong Dieu Hien Mira Kattwinkel Klaus Schützenmeister John R. Olson Charles P. Hawkins Ralf B. Schäfer 10.6084/m9.figshare.7218179.v1 https://rs.figshare.com/articles/journal_contribution/Supporting_Information_for_Predicting_current_and_future_background_ion_concentrations_in_German_surface_water_under_climate_change/7218179 Salinization of surface waters is a global environmental issue that can pose a regional risk to freshwater organisms, potentially leading to high environmental and economic costs. Global environmental change including climate and land use change can increase the transport of ions into surface waters. We fit both multiple linear regression (LR) and random forest (RF) models on a large spatial dataset to predict Ca<sup>2+ </sup>(266 sites), Mg<sup>2+ </sup>(266 sites), and SO<sub>4</sub><sup>2-</sup> (357 sites) ion concentrations as well as electrical conductivity (EC—a proxy for total dissolved solids with 410 sites) in German running water bodies. Predictions in both types of models were driven by the major factors controlling salinity including geologic and soil properties, climate, vegetation and topography. The predictive power of the two types of models was very similar with RF explaining 71–76% of the spatial variation in ion concentrations and LR explaining 70–75% of the variance. Mean square errors for predictions were all smaller than 0.06. The factors most strongly associated with stream ion concentrations varied among models but rock chemistry and climate were the most dominant. The RF model was subsequently used to forecast the changes in EC that was likely to occur for the period of 2070 to 2100 in response to just climate change—i.e. no additional effects of other anthropogenic activities. The future forecasting shows approximately 10% and 15% increases in mean EC for Representative Concentration Pathways 2.6 and 8.5 (RCP2.6 and RCP8.5) scenarios, respectively.This article is part of the theme issue ‘Salt in freshwaters: causes, ecological consequences and future prospects’. 2018-10-17 13:47:23 salinization streams chemistry modelling forecast