Nicolas Fanin researcher ORCID ID = 0000-0003-4195-855X
Fanin, Nicolas, 1985-....
![Sudoc [ABES], France](/viaf/images/flags/SUDOC.png "Sudoc [ABES], France")
VIAF ID: 299870237 (Personal)
Permalink: http://viaf.org/viaf/299870237
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Works
| Title | Sources |
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| Aboveground litter quality is a better predictor than belowground microbial communities when estimating carbon mineralization along a land-use gradient |
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| Advancing the mechanistic understanding of the priming effect on soil organic matter mineralisation |
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| artikull shkencor i botuar në vitin 2022 |
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| Can the comparison of above- and below-ground litter decomposition improve our understanding of bacterial and fungal successions? |
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| Comparing the effects of litter quantity and quality on soil biota structure and functioning: Application to a cultivated soil in Northern France |
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| Distinct microbial limitations in litter and underlying soil revealed by carbon and nutrient fertilization in a tropical rainforest |
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| Does variability in litter quality determine soil microbial respiration in an Amazonian rainforest? |
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| Eco-enzymatic stoichiometry and enzymatic vectors reveal differential C, N, P dynamics in decaying litter along a land-use gradient |
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| Effects of mixing tree species and water availability on soil organic carbon stocks are depth dependent in a temperate podzol |
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| Ericoid shrubs shape fungal communities and suppress organic matter decomposition in boreal forests |
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| An experimental test of the hypothesis of non-homeostatic consumer stoichiometry in a plant litter-microbe system |
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| Functional breadth and home-field advantage generate functional differences among soil microbial decomposers. |
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| Global maps of soil temperature |
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| Grassland ecosystems resilience to climatic stresses under different management intensities. An approach based on the microbial functional trait concept.. |
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| Home‐field advantage of litter decomposition: from the phyllosphere to the soil |
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| Impact of plant functional group and species removals on soil and plant nitrogen and phosphorus across a retrogressive chronosequence |
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| Interaction between tree diversity and water availability on nutrient cycling in forests |
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| Interaction entre la diversité des espèces d’arbres et la ressource en eau sur le recyclage des nutriments en forêt. |
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| Interactive effects of C , N and P fertilization on soil microbial community structure and function in an A mazonian rain forest |
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| Limitations nutritives des microorganismes décomposeurs du sol et de la litière en forêt tropicale de Guyane française |
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| Litter fingerprint on microbial biomass, activity, and community structure in the underlying soil |
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| Long-term effects of species loss on community properties across contrasting ecosystems |
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| Microplastics negatively affect soil fauna but stimulate microbial activity: insights from a field-based microplastic addition experiment |
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| A plant economics spectrum of litter decomposition among coexisting fern species in a sub-tropical forest |
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| The ratio of Gram-positive to Gram-negative bacterial PLFA markers as an indicator of carbon availability in organic soils |
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| Relative Importance of Climate, Soil and Plant Functional Traits During the Early Decomposition Stage of Standardized Litter |
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| Résilience des écosystèmes prairiaux aux stress climatiques selon l'intensité de gestion. Une approche par le concept de trait fonctionnel microbien |
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| Response of bacterial communities to Pb smelter pollution in contrasting soils. |
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| Root trait-microbial relationships across tundra plant species |
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| Root traits and soil micro‐organisms as drivers of plant–soil feedbacks within the sub‐arctic tundra meadow |
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| Soil enzymes in response to climate warming: Mechanisms and feedbacks |
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| Soil fauna promote litter decomposition but do not alter the relationship between leaf economics spectrum and litter decomposability |
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| Stoichiometric plasticity of microbial communities is similar between litter and soil in a tropical rainforest |
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| (A)synchronous Availabilities of N and P Regulate the Activity and Structure of the Microbial Decomposer Community |
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| Temporal dynamics of litter quality, soil properties and microbial strategies as main drivers of the priming effect |
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| Toward a Generalizable Framework of Disturbance Ecology Through Crowdsourced Science |
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| Tree species identity drives nutrient use efficiency in young mixed‐species plantations, at both high and low water availability |
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| Water availability is a stronger driver of soil microbial processing of organic nitrogen than tree species composition |
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| When plants eat rocks: Functional adaptation of roots on rock outcrops |
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| Wood-decay type and fungal guild dominance across a North American log transplant experiment |
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