about
Where does the carbon go? A model-data intercomparison of vegetation carbon allocation and turnover processes at two temperate forest free-air CO2 enrichment sitesMaximum height in a conifer is associated with conflicting requirements for xylem design.The unseen iceberg: plant roots in arctic tundra.Root structural and functional dynamics in terrestrial biosphere models--evaluation and recommendations.Carbon dioxide stimulation of photosynthesis in Liquidambar styraciflua is not sustained during a 12-year field experiment.Chemical and anatomical changes in Liquidambar styraciflua L. xylem after long term exposure to elevated CO2.Leaf respiration (GlobResp)--global trait database supports earth system models.Needle age and season influence photosynthetic temperature response and total annual carbon uptake in mature Picea mariana treesA test of the hydraulic vulnerability segmentation hypothesis in angiosperm and conifer tree species.CO2 enhancement of forest productivity constrained by limited nitrogen availability.Forest water use and water use efficiency at elevated CO2 : a model-data intercomparison at two contrasting temperate forest FACE sites.Hydraulic redistribution of water from Pinus ponderosa trees to seedlings: evidence for an ectomycorrhizal pathway.Sphagnum physiology in the context of changing climate: emergent influences of genomics, modelling and host-microbiome interactions on understanding ecosystem function.Informing models through empirical relationships between foliar phosphorus, nitrogen and photosynthesis across diverse woody species in tropical forests of Panama.Dynamics of water transport and storage in conifers studied with deuterium and heat tracing techniques.Converging patterns of uptake and hydraulic redistribution of soil water in contrasting woody vegetation types.Elevated CO₂ enhances leaf senescence during extreme drought in a temperate forest.Asymmetrical effects of mesophyll conductance on fundamental photosynthetic parameters and their relationships estimated from leaf gas exchange measurements.Impacts of tree height on leaf hydraulic architecture and stomatal control in Douglas-fir.In situ separation of root hydraulic redistribution of soil water from liquid and vapor transport.Species-specific partitioning of soil water resources in an old-growth Douglas-fir-western hemlock forest.Hydraulic redistribution in a Douglas-fir forest: lessons from system manipulations.Hydraulic redistribution of soil water in two old-growth coniferous forests: quantifying patterns and controlsAlteration of foliar flavonoid chemistry induced by enhanced UV-B radiation in field-grown Pinus ponderosa, Quercus rubra and Pseudotsuga menziesiiDecadal biomass increment in early secondary succession woody ecosystems is increased by CO enrichmentAcclimation and adaptation components of the temperature dependence of plant photosynthesis at the global scaleSimulated projections of boreal forest peatland ecosystem productivity are sensitive to observed seasonality in leaf physiology†Rapid loss of an ecosystem engineer: Sphagnum decline in an experimentally warmed bogSpecies-Specific Shifts in Diurnal Sap Velocity Dynamics and Hysteretic Behavior of Ecophysiological Variables During the 2015-2016 El Niño Event in the Amazon Forest
P50
Q28650210-D69A9D12-E530-4BB7-8FDE-0420741B1C46Q30484345-C3F61B66-4B13-43EA-91B1-7E065BED11BDQ30850461-A310E071-5C42-4AB3-B670-4B7A643347A8Q30855705-A19417A5-B950-4C15-B9EA-BF05A1E918E8Q30870428-FCA880A4-7040-4B3F-A4C4-78A57193B2B3Q30885238-35656E2C-31D1-432F-8647-1699DDC55A85Q30914491-06A8965B-4E25-4AE0-AB79-E8ABF7809276Q30983683-D12543EF-F0B1-4AB8-A10F-0788EF3F7B3DQ31090645-810DA978-6C67-402F-AB57-440EF250AD38Q33727630-D03C11A4-7B94-43D9-8E68-C627D8C80D0BQ34625025-B57AA81F-9AF7-4DB6-8573-D7048FA6F007Q34754974-A4AF0FC0-7065-4378-A37D-93C229F37BFEQ35285535-1474530A-C0CA-4CC1-BB79-5458B9DD2C32Q36199467-AF71709A-0B57-420D-840B-63711D5C2C5CQ39241947-B41DC379-B701-416C-9655-4E8A0D39E64EQ39241955-DD4F7C6C-A569-472A-8FAB-486D6E97A532Q39579423-382C527C-F72B-491B-A334-D3DFACAB89A4Q46984048-77EBE65A-AA93-4746-B686-40E18776110FQ47294090-F20E8762-8EDC-4208-8560-6B9268A542DEQ51592948-BFF90C42-3EFE-4CBE-A2E4-CDAAAC3F2ABFQ51712452-D4916D2D-A5D1-4A10-A203-02E5D2D43C6AQ51718608-5D84103D-22D1-4B94-8EE5-4425BF313ACBQ58403119-3E789122-FC35-4D82-B907-F44CD743BBD8Q58403135-E1202C87-E810-4F2A-A49B-A614BDA0BE83Q61796009-A6EE27CD-DD20-41D1-BBE1-BCD17AF4E8EBQ63387680-C2CF8A7B-24DF-480D-8BBC-7898E9B5C51FQ91160782-FECB7246-D760-4C5F-BDEE-79976F4E6639Q91585600-8219C5C8-5A73-4D90-8BA5-444A4CFE9935Q91971928-C3F5D81D-046C-44DA-A748-FF173035E33E
P50
description
researcher ORCID ID = 0000-0002-0680-4697
@en
wetenschapper
@nl
name
Jeffrey M Warren
@ast
Jeffrey M Warren
@en
Jeffrey M Warren
@es
Jeffrey M Warren
@nl
type
label
Jeffrey M Warren
@ast
Jeffrey M Warren
@en
Jeffrey M Warren
@es
Jeffrey M Warren
@nl
prefLabel
Jeffrey M Warren
@ast
Jeffrey M Warren
@en
Jeffrey M Warren
@es
Jeffrey M Warren
@nl
P1053
B-9375-2012
P106
P31
P3829
P496
0000-0002-0680-4697