Conservation tillage systems: a review of its consequences for greenhouse gas emissions, Soil Use Manage, vol.29, pp.199-209, 2013. ,
Managing soil carbon for climate change mitigation and adaptation in Mediterranean cropping systems: A meta-analysis, Agric. Ecosyst. Environ, vol.168, pp.25-36, 2013. ,
Nitrous oxide emission from soils after incorporating crop residues. Soil Use Manage, vol.16, pp.82-87, 2000. ,
Linear mixed-effects models using Eigen and S4. R package version 1.1-7, 2014. ,
Emissions of N2O and NO from fertilized fields: Summary of available measurement data, Glob. Biogeochem. Cycles, vol.16, pp.6-7, 2002. ,
Nitrous oxide emissions from soils: how well do we understand the processes and their controls?, Philos. Trans. R. Soc. Lond., B, Biol. Sci, vol.368, 2013. ,
Optimising chamber methods for measuring nitrous oxide emissions from plot-based agricultural experiments, Eur. J. Soil Sci, vol.65, pp.295-307, 2014. ,
An improved method for measuring soil N2O fluxes using a quantum cascade laser with a dynamic chamber, Eur. J. Soil Sci, vol.65, pp.643-52, 2014. ,
Soil emissions of nitricoxide in a seasonally dry tropical forest of Mexico, J. Geophys. Res. Atmos, vol.96, pp.15439-15484, 1991. ,
Statistical procedure for agricultural research. Package agricolae v.1.2-1. Available from: cran.r-project, 2014. ,
Nitrous oxide and carbon dioxide emissions from monoculture and rotational cropping of corn, soybean and winter wheat, Can. J. Soil Sci, vol.88, pp.163-174, 2008. ,
, Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions -A policy framework for climate and energy in the period from, 2014.
, , pp.52014-52029, 2014.
N2O and CH4 fluxes in potato fields: automated measurement, management effects and temporal variation, Geoderma, vol.105, pp.307-332, 2002. ,
, Atmos. Environ, vol.43, pp.5193-267, 2009.
Comparing the closed static versus the closed dynamic chamber flux methodology: implications for soil respiration studies, Plant Soil, vol.346, pp.145-51, 2011. ,
Low cost and state of the art methods to measure nitrous oxide emissions, Environ. Res. Lett, vol.8, p.25022, 2013. ,
, Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, 2013.
Spatial variability and biophysicochemical controls on N2O emissions from differently tilled arable soils, Biol. Fertil. Soils, vol.47, pp.753-66, 2011. ,
Effect of management, climate and soil conditions on N2O and NO emissions from an arable crop rotation using high temporal resolution measurements, Agric. For. Meteorol, vol.151, pp.228-268, 2011.,
URL : https://hal.archives-ouvertes.fr/hal-01000727
Cross-Validation of a mobile N2O flux prototype (IPNOA) using Micrometeorological and Chamber methods, J. Energy Power Engine, vol.9, pp.375-85, 2015.,
URL : https://hal.archives-ouvertes.fr/hal-01535226
Effect of crop residue incorporation on soil organic carbon (SOC) and greenhouse gas (GHG) emissions in European agricultural soils. Soil Use Manage, vol.30, pp.524-562, 2014. ,
Enclosure-based measurement of trace gas exchange: applications and sources of error, Blackwell Science, pp.14-50, 1995. ,
Assessing and mitigating N2O emissions from agricultural sols, Clim. Chang, vol.40, pp.7-38, 1998. ,
A comprehensive approach to soil-atmosphere trace-gas flux estimation with static chambers, Eur. J. Soil Sci, vol.61, pp.888-902, 2010. ,
Nitrous oxide emissions from European agriculture -an analysis of variability and drivers of emissions from field experiments, Biogeosciences, vol.10, pp.2671-82, 2013.,
URL : https://hal.archives-ouvertes.fr/hal-02522217
Chamber measurements of soil nitrous oxide flux: are absolute values reliable?, Soil Sci. Soc. Am. J, vol.72, pp.331-373, 2008. ,
Estimation of N2O emissions from agricultural soils in Canada. I. Development of a country specific methodology, Can. J. Soil Sci, vol.88, pp.641-54, 2008. ,
Emission of N2O, N2 and CO2 from soil fertilized with nitrate: Effect of compaction, soil moisture and rewetting, Soil Biol. Biochem, vol.38, pp.263-74, 2006. ,
Emissions of N2O from Scottish agricultural soils, as a function of fertilizer N, Nutri. Cycl. Agroecosyst, vol.52, pp.123-153, 1998. ,
Agriculture: Sustainable crop and animal production to help mitigate nitrous oxide emissions, Curr. Opin. Environ. Sustain, vol.9, pp.46-54, 2014. ,
, Soil taxonomy: A basic system of soil classification for making and interpreting soil surveys. USDA-SCS Agric, Handb. 436. U.S. Gov. Print. Office, 1975.
N2O and CH4 emissions from a fallow-wheat rotation with low N input in conservation and conventional tillage under a Mediterranean agroecosystem, Sci. Total Environ, vol.508, pp.85-94, 2015. ,
LMERConvenienceFunctions: a suite of functions to back-fit fixed effects and forward-fit random effects, as well as other miscellaneous functions. R package version 2.0, 2013. ,
Climate, duration, and N placement determine N2O emissions in reduced tillage systems: a meta-analysis, Glob. Chang. Biol, vol.19, pp.33-44, 2013. ,
Nitrogen oxide and methane emissions under varying tillage and fertilizer management, J. Environ. Qual, vol.34, pp.1467-77, 2005. ,
Challenges and opportunities for mitigating nitrous oxide emissions from fertilized cropping systems, Front. Ecol. Environ, vol.10, pp.562-70, 2012. ,
, Italian Journal of Agronomy, vol.10, p.669, 2015.