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Use of iron oxide nanoparticles for immobilizing phosphorus <em>in-situ</em>: increase in soil reactive surface area and effect on soluble phosphorus
Koopmans, G. F., Hiemstra, T., Vaseur, C., Chardon, W. J., Voegelin, A., & Groenenberg, J. E. (2020). Use of iron oxide nanoparticles for immobilizing phosphorus in-situ: increase in soil reactive surface area and effect on soluble phosphorus. Science of the Total Environment, 711, 135220 (13 pp.). https://doi.org/10.1016/j.scitotenv.2019.135220
The role of fine sediment characteristics and body size on the vertical movement of a freshwater amphipod
Mathers, K. L., Hill, M. J., Wood, C. D., & Wood, P. J. (2019). The role of fine sediment characteristics and body size on the vertical movement of a freshwater amphipod. Freshwater Biology, 64(1), 152-163. https://doi.org/10.1111/fwb.13202
Inorganic particles increase biofilm heterogeneity and enhance permeate flux
Chomiak, A., Sinnet, B., Derlon, N., & Morgenroth, E. (2014). Inorganic particles increase biofilm heterogeneity and enhance permeate flux. Water Research, 64, 177-186. https://doi.org/10.1016/j.watres.2014.06.045
Spatial heterogeneity of benthic methane dynamics in the subaquatic canyons of the Rhone River Delta (Lake Geneva)
Sollberger, S., Corella, J. P., Girardclos, S., Randlett, M. E., Schubert, C. J., Senn, D. B., … DelSontro, T. (2014). Spatial heterogeneity of benthic methane dynamics in the subaquatic canyons of the Rhone River Delta (Lake Geneva). Aquatic Sciences, 76(Suppl. 1), S89-S101. https://doi.org/10.1007/s00027-013-0319-2