Thierry Morvan scite author profile

An indicator to evaluate the proportion of exogenous organic matter (EOM) remaining in soils over the long-term after application has been developed. A database was constructed with analytical data corresponding to 83 EOMs, including sludges, composts, animal wastes, mulches, plant materials and fertilizers. The data included results of proximal analysis (soluble, SOL, hemicellulose-, HEM, cellulose-, CEL, and lignin-like, LIC, fractions, in g kg-1 total organic matter) and of carbon (C) mineralization during long-term incubations under laboratory conditions (in g kg-1 exogenous organic C, EOC). The potential residual organic C after EOM application to soil was assessed from the extrapolation of the incubation results. Then, partial least square regression was used to relate EOM characteristics to the proportion of potentially residual organic C previously determined from the incubations. The biochemical fractions of EOM were not predictive enough to develop the indicator. The proportion of organic C mineralized during 3 days of incubation (C3d) was cumulated and appeared to be the most predictive variable of residual organic C. The proposed indicator of residual organic carbon in soils (expressed as g EOC kg-1) was IROC = 445 + 0.5 SOL - 0.2 CEL + 0.7 LIC - 2.3 C3d. The indicator was calculated for the main types of EOM applied to soils. When compared with the few field data of residual C measured in long-term field experiments, the values provided by the indicator seemed to be over-estimated (i.e. EOC degradation could be faster under field conditions than during laboratory incubations)

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Biochemical composition and kinetics of C and N mineralization of animal wastes: a typological approach

Morvan

Nicolardot²,

Péan

2005

Biol Fertil Soils

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Bayesian calibration of the nitrous oxide emission module of an agro-ecosystem model

Lehuger¹,

Gabrielle²,

Oijen³

et al. 2009

Agriculture, Ecosystems & Environment

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processes, which are modelled as the product of a potential rate with three dimensionless factors 10 related to soil water content, nitrogen content and temperature. These equations involve a total 11 set of 15 parameters, four of which are site-specific and should be measured on site, while the 12 other 11 are considered global, i.e. invariant over time and space. We first gathered prior informa- scales.

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Structure and activity of the denitrifying community in a maize-cropped field fertilized with composted pig manure or ammonium nitrate

Dambreville¹,

Hallet²,

Nguyen³

et al. 2006

110

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One alternative to mineral fertilization is to use organic fertilizers. Our aim was to compare the impacts of 7-year applications of composted pig manure and ammonium nitrate on the structure and activity of the denitrifying community. Mineralization and organization of N, denitrification rates and N2O/N2 ratio were also investigated. Fourteen months after the last application, the potential denitrifying activity (+319%), N mineralization (+110%) and organization (+112%) were higher under pig compost than under ammonium nitrate fertilization. On the other hand, the N2O/(N2O+N2) ratio was lower (P<0.05, n=5) under organic fertilization. These effects of organic fertilization were in accordance with its higher total carbon content and microbial biomass. Fingerprints and clone library analyses showed that the structure of the denitrifying community was affected by the fertilization regime. Our results reveal that organic or mineral fertilizer applications could affect both structure and activity of the denitrifying community, with a possible influence on in situ N2O fluxes. These effects of the fertilization regime persisted for at least 14 months after the last application.

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Thierry Morvan

Processes controlling ammonia emission from livestock slurry in the field

Indicator of potential residual carbon in soils after exogenous organic matter application

Biochemical composition and kinetics of C and N mineralization of animal wastes: a typological approach

Bayesian calibration of the nitrous oxide emission module of an agro-ecosystem model

Structure and activity of the denitrifying community in a maize-cropped field fertilized with composted pig manure or ammonium nitrate

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