accueil
délibérations pour définir les stratégies
de la plante au champ
du champ à l'exploitation agricole
du village au territoire
plus largement...
mots-clés
recherche avancée
Recherche
Aller au contenu principal
accueil
délibérations pour définir les stratégies
de la plante au champ
du champ à l'exploitation agricole
du village au territoire
plus largement...
mots-clés
recherche avancée
Recherche
From the soil plant system to the field
Collection
Titre
EN
From the soil plant system to the field
FR
De la plante au champ
Contenus
Tools
de 4
51–75 sur 99
Recherche avancée
Titre
Identifiant
Classe
Créé
Croissant
Décroissant
Trier
The simple AMG model accurately simulates organic carbon storage in soils after repeated application of exogenous organic matter
COMIFER JT MOS 2021 7 Avril_S Recous_Couplage des cycles du carbone et de l'azote
durée : 20'51
COMIFER JT MOS 2021 7 Avril_A Duparque_H Clivot_F Ferchaud: Modélisation de l'évolution du C organiq
Durée : 22'08
A well-established fact: rapid mineralization of organic inputs is an important factor for soil carbon sequestration
The Science and Semantics of “Soil Organic Matter Stabilization”
Est une partie de : Multi-Scale Biogeochemical Processes in Soil Ecosystems Editeur : John Wiley & Sons, Ltd
Soil carbon sequestration for climate change mitigation: Mineralization kinetics of organic inputs as an overlooked limitation
Conservation agriculture practices drive maize yield by regulating soil nutrient availability, arbuscular mycorrhizas, and plant nutrient uptake
Cropping and Farming systems
Root litter decomposition in a sub-Sahelian agroforestry parkland dominated by Faidherbia albida
Carbon sequestration capacity in no-till soil decreases in the long-term due to saturation of fine silt plus clay-size fraction
Cropping and Farming systems
Will fungi solve the carbon dilemma?
Estimates of carbon stocks in sandy soils cultivated under local management practices in Senegal’s groundnut basin
Simulating soil organic carbon in maize-based systems under improved agronomic management in Western Kenya
Reducing losses but failing to sequester carbon in soils – the case of Conservation Agriculture and Integrated Soil Fertility Management in the humid tropical agro-ecosystem of Western Kenya
Particulate organic matter as a functional soil component for persistent soil organic carbon
Particulate organic matter as a functional soil component for persistent soil organic carbon
Roots are key to increasing the mean residence time of organic carbon entering temperate agricultural soils
Carbon allocation to the rhizosphere is affected by drought and nitrogen addition
Chromolaena odorata (L.) K&R (Asteraceae) invasion effects on soil microbial biomass and activities in a forest-savanna mosaic
Soil organic carbon sequestration in temperate agroforestry systems – A meta-analysis
Soil organic carbon sequestration in temperate agroforestry systems – A meta-analysis
Spatial access and resource limitations control carbon mineralization in soils
Increasing the organic carbon stocks in mineral soils sequesters large amounts of phosphorus
Long-term, amplified responses of soil organic carbon to nitrogen addition worldwide
Climate drives global soil carbon sequestration and crop yield changes under conservation agriculture
Long-term afforestation accelerated soil organic carbon accumulation but decreased its mineralization loss and temperature sensitivity in the bulk soils and aggregates
de 4
51–75 sur 99