FOOTPRINT Project papers page

The following is a selection of scientific papers relating to work undertaken under the FOOTPRINT Project. Abstracts are available on this site, for full copies follow the links on each page to request a reprint.

• Jarvis, N.J. (2007). A review of non-equilibrium water flow and solute transport in soil macropores: principles, controlling factors and consequences for water quality. European Journal of Soil Science, 58: 523-546.
• Stenemo, F. and Jarvis, N.J. (2007). Accounting for uncertainty in pedotransfer functions in vulnerability assessments of pesticide leaching to groundwater. Pest Management Science, 63(9): 867-875.
• Reichenberger, S., Bach, M., Skitschak, A. and Frede H.G. (2007). Mitigation strategies to reduce pesticide inputs into ground- and surface water and their effectiveness: a review. The Science of the Total Environment, 384: 1-35.
• Blenkinsop, S., Fowler, H.J., Dubus, I.G., Nolan, B.T. and Hollis, J.M. (2008). Developing climatic scenarios for pesticide fate modelling in Europe. Environmental Pollution, 154: 219-231.
• Barriuso, E., Benoit, P. and Dubus, I.G. (2008). The formation of pesticide bound residues in soil: magnitude, controlling factors and reversibility. Environmental Science & Technology, 42(6): 1845-1854.
• Nolan, B.T., Dubus, I.G., Surdyk, N., Fowler, H.J., Burton, A., Hollis, J.M., Reichenberger, S. and Jarvis, N.J. (2008). Identification of key climatic factors regulating the transport of pesticides in leaching and to tile drains. Pest Management Science, 64(9): 933-944.
• Centofanti, T., Hollis, J.M., Blenkinsop, S., Fowler, H.J., Truckell, I., Dubus, I.G. and Reichenberger, S. (2008). Development of agro-environmental scenarios to support pestcide risk assessment in Europe. The Science of the Total Environment, 407: 574-588.
• Jarvis, N.J., Moyes, J., Hollis, J.M., Reichenberger, S., Lindahl, A. and Dubus, I.G. (2009). A conceptual model of soil susceptibility to macropore flow. Vadose Zone Journal, 8: 902-910.
• Lindahl, A.I., Dubus, I.G. and Jarvis, N.J. (2009). Site classification to predict the abundance of the deep-burrowing earthworm Lumbricus terrestris L. Vadose Zone Journal, 8: 911-915.