about
Processes driving nocturnal transpiration and implications for estimating land evapotranspiration.Soil microbial diversity and soil functioning affect competition among grasses in experimental microcosms.Changes in leaf phenology of three European oak species in response to experimental climate change.Functional diversity of leaf nitrogen concentrations drives grassland carbon fluxes.Plant diversity increases soil microbial activity and soil carbon storage.Elevated CO2 maintains grassland net carbon uptake under a future heat and drought extremePlant functional diversity increases grassland productivity-related water vapor fluxes: an Ecotron and modeling approach.Plant species diversity as a driver of early succession in abandoned fields: a multi-site approach.A coordinated set of ecosystem research platforms open to international research in ecotoxicology, AnaEE-France.Endogenous circadian rhythms in pigment composition induce changes in photochemical efficiency in plant canopies.Effect of elevated CO2 on the demography of a leaf-sucking mite feeding on bean.Top canopy nitrogen allocation linked to increased grassland carbon uptake in stands of varying species richness.European infrastructures for sustainable agriculture.Carbon allocation to volatiles and other reproductive components in male Ficus carica (Moraceae).Responses of wild plants to nitrate availability : Relationships between growth rate and nitrate uptake parameters, a case study with two Bromus species, and a survey.Feeding rates of the woodlouse Armadillidium vulgare on herb litters produced at two levels of atmospheric CO2.Effects of light quality and quantity on growth of the clonal plant Eichhornia crassipesEffects of tension wood on specific conductivity and vulnerability to embolism of Quercus ilex seedlings grown at two atmospheric CO2 concentrationsGenotypic variation in the response of two perennial grass species to elevated carbon dioxide
P50
Q30971708-25B7CD01-F83D-46B7-A82A-867FDA8804F9Q33211702-5C4261CB-6BC8-4344-9EA6-BDB25A7F97F4Q33560359-7E2C8CFB-89E7-44EB-B04A-29F5E91E8861Q35083874-82D35C0D-6C90-41D4-967E-97DA66C0E5EEQ35596157-D4EF7A9B-FCB5-4934-8C69-979B1CA6AA72Q36019543-D7393DDF-A7A3-4619-B42B-E50756B7A02CQ36196544-1F9EBEC8-5046-4293-A999-9DED4272A9EAQ36312516-C14ED8A4-6F5C-4417-B4E3-2487F450F7CEQ38387217-7E1488E6-1FB2-4C2D-9A71-ACFE2DBBF254Q39140438-05FA3A64-B374-47D3-92C4-3F7BD2B18306Q40771396-4348E20E-4E42-4911-8BC2-022C4AB3CB52Q41436927-4CC57C25-DFB5-4211-A222-2F016F14DE02Q50091448-3933E6F4-B190-40FC-BB5C-C58F95CB445DQ51165589-3614A3F6-DF4D-4A4F-91C9-526F0972F6BAQ51336406-B464FFF0-54C8-49AB-B532-DF7B7B472135Q54176745-75607668-09BB-4003-8266-C5B2E6341ED9Q56504052-B42A014A-565F-4DC2-910D-EFC558AB806BQ60567831-63681B97-C641-4390-8599-E537C2155BDAQ60567832-85A190BA-9F23-4219-BE42-B68805712A81
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
J Roy
@ast
J Roy
@en
J Roy
@es
J Roy
@nl
type
label
J Roy
@ast
J Roy
@en
J Roy
@es
J Roy
@nl
prefLabel
J Roy
@ast
J Roy
@en
J Roy
@es
J Roy
@nl
P106
P31
P496
0000-0003-2275-9870