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Electronic Resource

NEMIS, a predictive model of denitrification on the field scale (2000)

Hénault, C. ; Germon, J. C.

Oxford, UK : Blackwell Science Ltd

European journal of soil science 51 (2000), S. 0

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ISSN: 1365-2389

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: We have developed a predictive model of denitrification in soils, NEMIS, based on data from a cultivated field composed of denitrification rates measured on undisturbed soil cores and the corresponding soil water-filled pore space, nitrate content and respiration. This model is a multiplicative combination of a potential denitrification rate measured under standard conditions defined in this paper, and dimensionless functions of nitrate content, water-filled pore space and temperature. The model was applied to two further databases obtained independently of its definition. Significant correlation was observed between the simulated and measured denitrification rates. The sensitivity of NEMIS to systematic variations of the input variables and of the coefficients included in the dimensionless functions was tested using these databases. NEMIS seems to be a very useful tool particularly adapted for interpolating a small number of denitrification measurements from a simple database composed of soil potential denitrification rate and the evolution of soil water-filled pore space, nitrate content and temperature. Its main limitation is its high sensitivity to the water-filled pore space from which denitrification starts to occur and which is included in the water function.〈section xml:id="abs1-2"〉〈title type="main"〉NEMIS, un modèle prédictif de la dénitrification à l'échelle de la parcelle cultivée Résumé NEMIS, un modèle prédictif de la dénitrification dans les sols, a été défini à partir d'une base de données obtenue dans un sol cultivé et composée de vitesses de dénitrification mesurées sur des échantillons de sol non remaniés et les valeurs correspondantes de taux de saturation en eau, de teneur en nitrates et de vitesses de respiration. Ce modèle est une combinaison multiplicative entre une vitesse potentielle de dénitrification mesurée dans des conditions standardisées définies dans ce papier et de fonctions sans dimension de la teneur en nitrates, du taux de saturation en eau et de la température du sol. Ce modèle a ensuite été utilisé sur deux jeux de données indépendantes et des corrélations significatives ont été observées entre mesures et simulations. La sensibilité du modèle lors de variations systématiques du niveau des variables d'entrée ainsi que des coefficients inclus dans les fonctions sans dimension a été testée sur ces jeux de données. NEMIS apparaît comme un outil très utile d'interpolation entre quelques points de mesures de dénitrification à partir d'un jeu de données relativement simple comprenant le potentiel de dénitrification du sol et l'évolution du taux de saturation en eau, de la teneur en nitrates et de la température du sol. La principale limite de NEMIS est sa grande sensibilité au taux de saturation en eau du sol à partir duquel le processus de dénitrification commence à fonctionner.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2389.2000.00314.x

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Predicting in situ soil N2O emission using NOE algorithm and soil database (2005)

Hénault, C. ; Bizouard, F. ; Laville, P. ; [et al.]

Oxford, UK : Blackwell Science Ltd

Global change biology 11 (2005), S. 0

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ISSN: 1365-2486

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography

Notes: This paper presents a new algorithm, Nitrous Oxide Emission (NOE) for simulating the emission of the greenhouse gas N2O from agricultural soils. N2O fluxes are calculated as the result of production through denitrification and nitrification and reduction through the last step of denitrification. Actual denitrification and nitrification rates are calculated from biological parameters and soil water-filled pore space, temperature and mineral nitrogen contents. New suggestions in NOE consisted in introducing (1) biological site-specific parameters of soil N2O reduction and (2) reduction of the N2O produced through nitrification to N2 through denitrification. This paper includes a database of 64 N2O fluxes measured on the field scale with corresponding environmental parameters collected from five agricultural situations in France. This database was used to test the validity of this algorithm. Site per site comparison of simulated N2O fluxes against observed data leads to mixed results. For 80% of the tested points, measured and simulated fluxes are in accordance whereas the others resulted in an important discrepancy. The origin of this discrepancy is discussed. On the other hand, mean annual fluxes measured on each site were strongly correlated to mean simulated annual fluxes. The biological site-specific parameter of soil N2O reduction introduced into NOE appeared particularly useful to discriminate the general level of N2O emissions from site to site. Furthermore, the relevance of NOE was confirmed by comparing measured and simulated N2O fluxes using some data from the US TRAGNET database. We suggest the use of NOE on a regional scale in order to predict mean annual N2O emissions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-2486.2004.00879.x

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3

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Diversity of denitrifying microflora and ability to reduce N2O in two soils (1998)

Chèneby, D. ; Hartmann, A. ; Hénault, C. ; [et al.]

Springer

Biology and fertility of soils 28 (1998), S. 19-26

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ISSN: 1432-0789

Keywords: Key words Denitrifying microflora ; Nitrous oxide ; nosZ Gene ; Nitrous oxide reductase ; 16S rDNA

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract The ozone-depleting gas N2O is an intermediate in denitrification, the biological reduction of NO3 – to the gaseous products N2O and N2 gas. The molar ratio of N2O produced (N2O/N2O+N2) varies temporally and spatially, and in some soils N2O may be the dominant end product of denitrification. The fraction of NO3 –-N emitted as N2O may be due at least in part to the abundance and activity of denitrifying bacteria which possess N2O reductase. In this study, we enumerated NO3 –-reducing and denitrifying bacteria, and compared and contrasted collections of denitrifying bacteria isolated from two agricultural soils, one (Auxonne, soil A) with N2O as the dominant product of denitrification, the other (Châlons, soil C) with N2 gas as the dominant product. Isolates were tested for the ability to reduce N2O, and the presence of the N2O reductase (nosZ)-like gene was evaluated by polymerase chain reaction (PCR) using specific primers coupled with DNA hybridization using a specific probe. The diversity and phylogenetic relationships of members of the collections were established by PCR/restriction fragment length polymorphism of 16s rDNA. The two soils had similar numbers of bacteria which used NO3 – as a terminal electron acceptor anaerobically. However, the soil A had many more denitrifiers which reduced NO3 – to gaseous products (N2O or N2) than did soil C. Collections of 258 and 281 bacteria able to grow anaerobically in the presence of NO3 – were isolated from soil A and soil C, respectively. These two collections contained 66 and 12 denitrifying isolates, respectively, the others reducing NO3 – only as far as NO2 –. The presence of nosZ sequences was generally a poor predictor of N2O reducing ability: there was agreement between the occurrence of nosZ sequences and the N2O reducing ability for only 42% of the isolates; 35% of the isolates (found exclusively in soil A) without detectable nosZ sequences reduced N2O whereas 21% of the isolates carrying nosZ sequences did not reduce this gas under our assay conditions. Twenty-eight different 16S rDNA restriction patterns (using two restriction endonucleases) were distinguished among the 78 denitrifying isolates. Two types of patterns appeared to be common to both soils. Twenty-three and three types of patterns were found exclusively among bacteria isolated from soils A and C, respectively. The specific composition of denitrifying communities appeared to be different between the two soils studied. This may partly explain the differences in the behaviour of the soils concerning N2O reduction during denitrification.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003740050458

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4

Electronic Resource

Nitrous oxide emissions under different soil and land management conditions (1998)

Henault, C. ; Devis, X. ; Page, S. ; [et al.]

Springer

Biology and fertility of soils 26 (1998), S. 199-207

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ISSN: 1432-0789

Keywords: Key words Nitrous oxide emissions ; Soil chamber method ; Water-filled pore space ; Nitrous oxide reduction ; Nitrogen fertilization

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract Nitrous oxide (N2O) emissions of three different soils – a rendzina on cryoturbed soil, a hydromorphic leached brown soil and a superficial soil on a calcareous plateau – were measured using the chamber method. Each site included four types of land management: bare soil, seeded unfertilized soil, a suboptimally fertilized rapeseed crop and an overfertilized rapeseed crop. Fluxes varied from –1g to 100g N2O-nitrogen ha–1 day–1. The highest rates of N2O emissions were measured during spring on the hydromorphic leached brown soil which had been fertilized with nitrogen (N); the total emissions during a 5-month period exceeded 3500gNha–1. Significant fluxes were also observed during the summer. Very marked effects of soil type and management were observed. Two factors – the soil hydraulic behaviour and the ability of the microbial population to reduce N2O – appear to be essential in determining emissions of N2O by soils. In fact, the hydromorphic leached brown soil showed the highest emissions, despite having the lowest denitrification potential because of its water-filled pore space and low N2O reductase activity. Soil management also appears to affect both soil nitrate content and N2O emissions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003740050368

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5

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Influence of different agricultural practices (type of crop, form of N-fertilizer) on soil nitrous oxide emissions (1998)

Hénault, C. ; Devis, X. ; Lucas, J. L. ; [et al.]

Springer

Biology and fertility of soils 27 (1998), S. 299-306

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ISSN: 1432-0789

Keywords: Key words Nitrous oxide emissions ; Soil chamber method ; Nitrogen fertilizer types ; Wheat ; Rapeseed crop

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract N2O emissions were periodically measured using the static chamber method over a 1-year period in a cultivated field subjected to different agricultural practices including the type of N fertilizer (NH4NO3, (NH4)2SO4, CO(NH2)2 or KNO3 and the type of crop (rapeseed and winter wheat). N2O emissions exhibited the same seasonal pattern whatever the treatment, with emissions between 1.5 and 15 g N ha–1 day–1 during the autumn, 16–56 g N ha–1 day–1 in winter after a lengthy period of freezing, 0.5–70 g N ha–1 day–1 during the spring and lower emissions during the summer. The type of crop had little impact on the level of N2O emission. These emissions were a little higher under wheat during the autumn in relation to an higher soil NO3 – content, but the level of emissions was similar over a 7-month period (2163 and 2093 g N ha–1 for rape and wheat, respectively). The form of N fertilizer affected N2O emissions during the month following fertilizer application, with higher emissions in the case of NH4NO3 and (NH4)2SO4, and a different temporal pattern of emissions after CO(NH2)2 application. The proportion of applied N lost as N2O varied from 0.42% to 0.55% with the form of N applied, suggesting that controlling this agricultural factor would not be an efficient way of limiting N2O emissions under certain climatic and pedological situations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003740050437

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6

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Experimental determination of nitrogen kinetic isotope fractionation: Some principles; illustration for the denitrification and nitrification processes (1981)

Mariotti, A. ; Germon, J. C. ; Hubert, P. ; [et al.]

Springer

Plant and soil 62 (1981), S. 413-430

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ISSN: 1573-5036

Keywords: Denitrification ; Nitrification ; Nitrogen isotope fractionation ; Nitrogen-15 natural abundance

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary A few principles relative to the presentation and use of nitrogen stable isotopic data are briefly reviewed. Some classical relationships between the isotope composition of a substrate undergoing a single-step unidirectional reaction, are introduced. They are illustrated through controlled experiments on denitrification in a soil, and through nitrification by pure cultures ofNitrosomonas europaea. In the latter case, the isotope fractionation is calculated from the isotopic composition of the residual substrate, then of the product and the result is shown to be statistically the same for the two procedures. The isotopic enrichment factor for denitrification is −29.4±2.4‰ at 20°C, and −24.6±0.9‰ at 30°C; for nitrification this factor is −34.7±2.5‰ under the experimental conditions employed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02374138

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Effets des techniques culturales sans labour sur le stockage de carbone dans le sol en contexte climatique tempéré (2009)

Metay, A ; Mary, B ; Arrouays, D ; [et al.]

Canadian Science Publishing

In: Canadian Journal of Soil Science. 2009; 89(5): 623-634. Published 2009 Nov 01. doi: 10.4141/cjss07108.

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Publication Date: 2009-11-01

Description: En régions de climat tempéré, les terres cultivées ont un potentiel de stockage de carbone que l’on peut tenter d’utiliser pour réduire d’autant les émissions de CO2 atmosphérique par des pratiques culturales adaptées et notamment par les techniques culturales sans labour (TCSL). Cette capacité de stockage de carbone dans le sol a été évaluée sur l’essai de longue durée de Boigneville (Bassin de Paris, France) et a été comparée aux données de la littérature internationale. Le suivi du stock de carbone du sol sous une rotation maïs-blé indique une tendance à un stockage modéré tant en système labouré (0,10 t C ha-1 an-1 sur 28 ans) qu’en TCSL (respectivement 0,21 t et 0,19 t C ha-1 an-1 pour le travail superficiel et le semis direct sur cette même période). Avec une absence de différence significative entre le semis direct et le travail superficiel, l’effet spécifique moyen des TCSL évalué à 0,10 t C ha-1 an-1 sur 28 ans apparait sensiblement plus faible que celui mesuré sur les 20 premières années et évalué à 0,20 t C ha-1 an-1. Ces valeurs, inférieures à d’autres valeurs largement diffusées par ailleurs, et cette variation décroissante de la capacité de stockage avec la durée de TCSL sont cohérentes avec la tendance moyenne observée à partir d’un large échantillonnage de données de la littérature internationale. L’évolution de ce stockage de carbone est discutée en lien avec les indications sur l’évolution du stock de carbone des sols de cette même région, les indicateurs de stockage potentiel, et les implications liées à l’évolution du climat.Mots clés: Techniques de culture sans labour, travail superficiel, semis direct, stockage de carbone, séquestration, mitigation, gaz à effet de serre, essai de longue durée, climat tempéré

Print ISSN: 0008-4271

Electronic ISSN: 1918-1841

Topics: Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition