Bibliography

Found 97 results
[ Author(Asc)] Title Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
M
Mills G., Sharps K., Simpson D., Pleijel H., Broberg M., Uddling J., Jaramillo F., Davies W.J., Dentener F., Van den Berg M. et al..  2018.  Ozone pollution will compromise efforts to increase global wheat production.. Global Change Biology. 24:3560-3574.
Mills G., Hayes F., Jones M.LM, Cinderby S..  2007.  Identifying ozone-sensitive communities of (semi-)natural vegetation suitable for mapping exceedance of critical levels. Environmental Pollution. 146:736-743.
Mills G., Hayes F., Norris D., Hall J., Coyle M., Cambridge H., Cinderby S., Abbott J., Cooke S., Murrells T..  2011.  Impacts of Ozone Pollution on Food Security in the UK: a Case Study for Two Contrasting Years, 2006 and 2008.
Mills G., Harmens H., Wagg S., Sharps K., Hayes F., Fowler D., Sutton M., Davies B..  2016.  Ozone impacts on vegetation in a nitrogen enriched and changing climate. Environmental Pollution. 208:898-908.
Mills G., Pleijel H., Malley C.S., Sinha B., Cooper O.R., Schultz M.G., Neufeld H., Simpson D., Sharps K., Feng Z. et al..  2018.  Tropospheric Ozone Assessment Report: Present-day tropospheric ozone distribution and trends relevant to vegetation.. Elementa: Science of the Anthropocene. 6(1):47.
Mills G., Harmens H..  2011.  Ozone Pollution: A hidden threat to food security.
Mills G., Pleijel H., Braun S., Buker P., Bermejo V., Calvo E., Danielsson H., Emberson L., Fernandez I.G, Grunhage L. et al..  2011.  New stomatal flux-based critical levels for ozone effects on vegetation. Atmospheric Environment. 45:5064-5068.
Mills G., Harmens H., Hayes F..  2017.  Flux-based critical levels of ozone pollution for vegetation: Overview of new developments.
Mendaš G., Romanić S.H., Jovanović G., Urošević M.A., Ilić M., Milićević T., Popović A..  2020.  Organochlorines burden in moss H. cupressiforme and topsoil across Serbia. Environmental Geochemistry and Health.
Maas R., Grennfelt P..  2016.  Towards Cleaner Air: Scientific Assessment Report.
Maas R., Grennfelt P..  2016.  Towards Cleaner Air: Summary for Policymakers.
H
Holy M., Pesch R., Schroder W., Harmens H., Ilyin I., Alber R., Aleksiayenak Y., Blum O., Coskun M., Dam M. et al..  2009.  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.
Holland M., Kinghorn S., Emberson L., Cinderby S., Ashmore M., Mills G., Harmens H..  2006.  Development of a framework for probabilistic assessment of the economic losses caused by ozone damage to crops in Europe.
Hicks K., Harmens H., Ashmore M., Hall J., Cinderby S., Frey S., Cooper D., Rowe E., Emmett B..  2008.  Impacts of nitrogen on vegetation.
Hayes F., Mills G., Williams P., Harmens H., Buker P..  2006.  Impacts of summer ozone exposure on the growth and overwintering of UK upland vegetation. Atmospheric Environment. 40:4088-4097.
Hayes F., Sharps K., Harmens H., Roberts I., Mills G..  2020.  Tropospheric ozone pollution reduces the yield of African crops.
Hayes F., Mills G., Harmens H., Norris D..  2008.  Evidence of widespread ozone damage to vegetation in Europe (1990 – 2006).
Hayes F, Perring M.  2021.  Webinar Q&A: Ozone pollution in tropical agriculture.
Hayes F., Mills G., Alonso R., González-Fernández I., Coyle M., Grunhage L., Gerosa G., Karlsson P.E., Marzuoli R..  2019.  A Site-Specific Analysis of the Implications of a Changing Ozone Profile and Climate for Stomatal Ozone Fluxes in Europe.
Hayes F., Sharps K., Harmens H., Mills G..  2016.  Field evidence of ozone impact on vegetation in ambient air (2007-2015).
Hayes F, Sharps K.  2020.  Ozone impacts: Legumes.
Hayes F., Jones M.LM, Mills G., Ashmore M..  2007.  Meta-analysis of the relative sensitivity of semi-natural vegetation species to ozone. Environmental Pollution. 146:754-762.
Hayes F., Harmens H., Sharps K., Radbourne A..  2020.  Ozone dose-response relationships for tropical crops reveal potential threat to legume and wheat production, but not to millets.

Pages