Long-term changes in greenhouse gas emissions from French agriculture and livestock (1852–2014): From traditional agriculture to conventional intensive systems. Science of The Total Environment. 660:1486-1501.. 2019.
A long-term view of nutrient transfers through the Seine river continuum. Science of The Total Environment. 375(1-3):80-97.. 2007.
Long-term water quality in the lower Seine: Lessons learned over 4 decades of monitoring. Environmental Science & Policy. 58:141-154.. 2016.
Modeling historical changes in nutrient delivery and water quality of the Zenne River (1790s–2010): The role of land use, waterscape and urban wastewater management. Journal of Marine Systems.. 2012.
Modelling of faecal indicator bacteria (FIB) in the Red River basin (Vietnam). Environmental Monitoring and Assessment. 188(9). 2016.
Modelling the N cascade in regional watersheds: The case study of the Seine, Somme and Scheldt rivers. Agriculture, Ecosystems & Environment. 133(3-4):234-246.. 2009.
N, P, Si budgets for the Red River Delta (northern Vietnam): how the delta affects river nutrient delivery to the sea. Biogeochemistry. 107(1-3):241-259.. 2012.
New tools for modelling water quality of hydrosystems: An application in the Seine River basin in the frame of the Water Framework Directive. Science of The Total Environment. 375(1-3):274-291.. 2007.
Nitrate retention at the river–watershed interface: a new conceptual modeling approach. Biogeochemistry. 139(1):31-51.. 2018.
Nitrogen Behaviour and Nitrous Oxide Emission in the Tidal Seine River Estuary (France) as Influenced by Human Activities in the Upstream Watershed. Biogeochemistry. 77(3):305-326.. 2006.
The nitrogen cascade from agricultural soils to the sea: modelling nitrogen transfers at regional watershed and global scales. Philosophical Transactions of the Royal Society B: Biological Sciences. 368:20130123-20130123.. 2013.
Nitrogen cycling in a hypothetical scenario of generalised organic agriculture in the Seine, Somme and Scheldt watersheds. Regional Environmental Change. 11(2):359-370.. 2011.
Nitrogen fluxes from the landscape are controlled by net anthropogenic nitrogen inputs and by climate. Frontiers in Ecology and the Environment. 10(1):37-43.. 2012.
Nitrous oxide emissions and nitrate leaching in an organic and a conventional cropping system (Seine basin, France). Agriculture, Ecosystems & Environment. 213:131-141.. 2015.
Nitrous oxide emissions from denitrifying activated sludge of urban wastewater treatment plants, under anoxia and low oxygenation. Bioresource Technology. 99(7):2200-2209.. 2008.
Nitrous oxide emissions from secondary activated sludge in nitrifying conditions of urban wastewater treatment plants: Effect of oxygenation level. Water Research. 40(15):2972-2980.. 2006.
Nitrous oxide (N2O) in the Seine river and basin: Observations and budgets. Agriculture, Ecosystems & Environment. 133(3-4):223-233.. 2009.
Nutrient (N, P, Si) transfers in the subtropical Red River system (China and Vietnam): Modelling and budget of nutrient sources and sinks. Journal of Asian Earth Sciences. 37(3):259-274.. 2010.
Organic matter dynamics and budgets in the turbidity maximum zone of the Seine Estuary (France). Estuarine, Coastal and Shelf Science. 77(1):150-162.. 2008.
A participative network of organic and conventional crop farms in the Seine Basin (France) for evaluating nitrate leaching and yield performance. Agricultural Systems. 148:105-113.. 2016.
Phosphorus budget in the water-agro-food system at nested scales in two contrasted regions of the world (ASEAN-8 and EU-27). Global Biogeochemical Cycles. 29(9):1348-1368.. 2015.
Potential for recoupling production and consumption in peri-urban territories: The case-study of the Saclay plateau near Paris, France. Food Policy. 69:35-45.. 2017.
Pour s’alimenter, Paris a le choix entre se tourner vers ses terres ou vers la mer. La revue Durable. 43:24-27.. 2011.
Reconnecting crop and cattle farming to reduce nitrogen losses to river water of an intensive agricultural catchment (Seine basin, France): past, present and future. Environmental Science & Policy. 63:76-90.. 2016.
Reducing marine eutrophication may require a paradigmatic change. Science of The Total Environment. 635:1444-1466.. 2018.