Stephen Lofts

Solid-solution metal partitioning in the Humber rivers: application of WHAM and SCAMP

Modelling the role of humic acid in radiocaesium distribution in a British upland peat soil.

Deriving soil critical limits for Cu, Zn, Cd, and Pb: a method based on free ion concentrations.

Fractions affected and probabilistic risk assessment of Cu, Zn, Cd, and Pb in soils using the free ion approach.

Effect of pH on metal speciation and resulting metal uptake and toxicity for earthworms.

Developing a critical load approach for national risk assessments of atmospheric metal deposition.

Critical loads of metals and other trace elements to terrestrial environments.

Toxicity of proton-metal mixtures in the field: linking stream macroinvertebrate species diversity to chemical speciation and bioavailability.

Modelling the effects of copper on soil organisms and processes using the free ion approach: towards a multi-species toxicity model.

An intermediate complexity dynamic model for predicting accumulation of atmospherically-deposited metals (Ni, Cu, Zn, Cd, Pb) in catchment soils: 1400 to present.

Metal and proton toxicity to lake zooplankton: a chemical speciation based modelling approach.

Assessment of co-contaminant effects on uranium and thorium speciation in freshwater using geochemical modelling.

Determination and Prediction of Zinc Speciation in Estuaries.

Metal Bioavailability Models: Current Status, Lessons Learned, Considerations for Regulatory Use, and the Path Forward.

NanoSolveIT Project: Driving nanoinformatics research to develop innovative and integrated tools for nanosafety assessment.

Key principles and operational practices for improved nanotechnology environmental exposure assessment.

Enriching the Shared Socioeconomic Pathways to co-create consistent multi-sector scenarios for the UK.

Measuring ZnO nanoparticles available concentrations in contaminated soils using the diffusive gradient in thin-films (DGT) technique.