Challenges in understanding the risks to natural and semi-natural vegetation from ozone exposure. Italian Journal of Agronomy. 3:53-59.. 2008.
Closing the global ozone yield gap: Quantification and co-benefits for multi-stress tolerance.. Global Change Biology. (Not yet assigned to an issue). 2018.
Comments on JA Fernandez, MT Boquete, A. Carballeira, JR Aboal (2015). A critical review of protocols for moss biomonitoring of atmospheric deposition: Sampling and sample preparation. Science of the Total Environment 517: 132-150. Science of the Total Environment. 538:1024-1026.. 2015.
A comparison of North American and Asian exposure-response data for ozone effects on crop yields. Atmospheric Environment. 43:1945-1953.. 2009.
Correlation between atmospheric deposition of Cd, Hg and Pb and their concentrations in mosses specified for ecological land classes covering Europe. Atmospheric Pollution. 4:267-274.. 2013.
Country-specific correlations across Europe between modelled atmospheric cadmium and lead deposition and concentrations in mosses. Environmental Pollution. 166:1-9.. 2012.
Evidence of ozone-induced visible foliar injury in Hong Kong using Phaseolus vulgaris as a bioindicator.. 2020.
Evidence of widespread effects of ozone on crops and (semi-)natural vegetation in Europe (1990-2006) in relation to AOT40-and flux-based risk maps. Global Change Biology. 17:592-613.. 2011.
First Europe-wide correlation analysis identifying factors best explaining the total nitrogen concentration in mosses. Atmospheric Environment. 44:3485-3491.. 2010.
First thorough identification of factors associated with Cd, Hg and Pb concentrations in mosses sampled in the European Surveys 1990, 1995, 2000 and 2005. Journal of Atmospheric Chemistry. 63:109-124.. 2009.
Have ozone effects on carbon sequestration been overestimated? A new biomass response function for wheat Biogeosciences. 11:4521-4528.. 2014.
Heavy metal and nitrogen concentrations in mosses are declining across Europe whilst some "hotspots" remain in 2010. Environmental Pollution. 200:93-104.. 2015.
Identifying ozone-sensitive communities of (semi-)natural vegetation suitable for mapping exceedance of critical levels. Environmental Pollution. 146:736-743.. 2007.
Impacts of summer ozone exposure on the growth and overwintering of UK upland vegetation. Atmospheric Environment. 40:4088-4097.. 2006.
Implications of climate change for the stomatal flux of ozone: A case study for winter wheat. Environmental Pollution. 146:763-770.. 2007.
Limited potential of crop management for mitigating surface ozone impacts on global food supply. Atmospheric Environment. 45:2569-2576.. 2011.
Mapping correlations between nitrogen concentrations in atmospheric deposition and mosses for natural landscapes in Europe. Ecological Indicators. 36:563-571.. 2014.
Meta-analysis of the relative sensitivity of semi-natural vegetation species to ozone. Environmental Pollution. 146:754-762.. 2007.
Metal accumulation in mosses across national boundaries: Uncovering and ranking causes of spatial variation. Environmental Pollution. 151:377-388.. 2008.
Mosses as biomonitors of atmospheric heavy metal deposition: Spatial patterns and temporal trends in Europe. Environmental Pollution. 158:3144-3156.. 2010.
New stomatal flux-based critical levels for ozone effects on vegetation. Atmospheric Environment. 45:5064-5068.. 2011.
Nitrogen availability does not affect ozone flux-effect relationships for biomass in birch (Betula pendula) saplings.. 2019.
Nitrogen concentrations in mosses indicate the spatial distribution of atmospheric nitrogen deposition in Europe. Environmental Pollution. 159:2852-2860.. 2011.
Organochlorines burden in moss H. cupressiforme and topsoil across Serbia. Environmental Geochemistry and Health.. 2020.