L
Laurent Misson
Researcher at Centre national de la recherche scientifique
Publications - 46
Citations - 5958
Laurent Misson is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: Soil respiration & Ecosystem respiration. The author has an hindex of 33, co-authored 46 publications receiving 5403 citations. Previous affiliations of Laurent Misson include University of California, Berkeley & SupAgro.
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Journal ArticleDOI
Leaf physiological responses to extreme droughts in Mediterranean Quercus ilex forest
TL;DR: Changes in the relationship between photosynthetic parameters and water stress that are not currently included in drought parameterizations for modelling applications are revealed.
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Seasonality of photosynthetic parameters in a multi-specific and vertically complex forest ecosystem in the Sierra Nevada of California.
TL;DR: Variations in Vcmax were highly correlated with light, leaf mass per area and leaf nitrogen content on an area basis, andTemporal scaling of the parameters with each other seemed possible for C. cordulatus and P. ponderosa, however, lags between these variables likely reflect the influences of other factors.
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Morphological and phenological shoot plasticity in a Mediterranean evergreen oak facing long-term increased drought
Jean-Marc Limousin,Jean-Marc Limousin,Serge Rambal,Jean-Marc Ourcival,Jesús Rodríguez-Calcerrada,Ignacio Manuel Pérez-Ramos,Raquel Rodrıguez-Cortina,Laurent Misson,Richard Joffre +8 more
TL;DR: The drought-induced decrease in leaf area appeared to be a hydraulic adjustment to limit canopy transpiration and maintain leaf-specific hydraulic conductivity under drier conditions.
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Influences of canopy photosynthesis and summer rain pulses on root dynamics and soil respiration in a young ponderosa pine forest.
TL;DR: The seasonality of fine root dynamics with soil respiration in a ponderosa pine plantation located in the Sierra Nevada of California and how canopy photosynthesis influences fine root initiation, growth and mortality in this ecosystem was linked.
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Atmospheric aerosol light scattering and surface wetness influence the diurnal pattern of net ecosystem exchange in a semi-arid ponderosa pine plantation
TL;DR: The diurnal variation of net ecosystem exchange (NEE) showed an unusual pattern at the Blodgett Forest Ameriflux site, with late afternoon NEE lower than early morning (indicating more uptake), while air temperature and atmospheric vapor pressure deficit were much higher.