1. Ecohydrological interfaces as hotspots of ecosystem processes2. Biological activity as trigger of enhanced ecohydrological interface activity3. The four interfaces of riparian zones4. Organizational principles of hyporheic exchange flow and biogeochemical cycling in river networks across scales5. Groundwater-lake interfaces6. Coastal-groundwater interfaces7. Identifying and quantifying water fluxes at ecohydrological interfaces8. Heat as a hydrological tracer9. Sampling at groundwater-surface water interfaces10. Automated sensing methods for dissolved organic matter and inorganic nutrient monitoring in freshwater systems11. Tracing hydrological connectivity with aerial diatoms12. Measurement of metabolic rates at the sediment-water interface using experimental ecosystems13. Using diel solute signals to assess ecohydrological processing in lotic systems14. Evolving molecular methodologies for monitoring pathogenic viruses in ecohydrological interfaces15. Global environmental pressures16. Restoration of interface functions

Stefan Krause and David M. Hannah, School of Geography, Earth and Environmental Science, University of Birmingham, UKNancy B. Grimm, School of Life Sciences, Arizona State University, Tempa, USA