about
Climate extremes and the carbon cycle.Effects of climate extremes on the terrestrial carbon cycle: concepts, processes and potential future impactsRecord dry summer in 2015 challenges precipitation projections in Central Europe.Short-term favorable weather conditions are an important control of interannual variability in carbon and water fluxesDependence of drivers affects risks associated with compound events.Ecosystem impacts of climate extremes crucially depend on the timingQuantifying soil moisture impacts on light use efficiency across biomes.Impacts of droughts and extreme-temperature events on gross primary production and ecosystem respiration: a systematic assessment across ecosystems and climate zonesHave precipitation extremes and annual totals been increasing in the world's dry regions over the last 60 years?Refining multi-model projections of temperature extremes by evaluation against land–atmosphere coupling diagnosticsReviews and syntheses: An empirical spatiotemporal description of the global surface–atmosphere carbon fluxes: opportunities and data limitationsA few extreme events dominate global interannual variability in gross primary productionCarbon cycle extremes during the 21st century in CMIP5 models: Future evolution and attribution to climatic driversExtreme events in gross primary production: a characterization across continentsImpact of large-scale climate extremes on biospheric carbon fluxes: An intercomparison based on MsTMIP dataDetection and attribution of large spatiotemporal extreme events in Earth observation dataWas the extreme Northern Hemisphere greening in 2015 predictable?Quantifying changes in climate variability and extremes: Pitfalls and their overcomingInformation-geometric approach to inferring causal directionsBivariate return periods of temperature and precipitation explain a large fraction of European crop yieldsAsymmetric responses of primary productivity to altered precipitation simulated by ecosystem models across three long-term grassland sitesDetecting impacts of extreme events with ecological in situ monitoring networksRanking drivers of global carbon and energy fluxes over landAn extended approach for spatiotemporal gapfilling: dealing with large and systematic gaps in geoscientific datasetsClimate Classifications: the Value of Unsupervised ClusteringModelling carbon sources and sinks in terrestrial vegetationSensitivity of atmospheric CO2 growth rate to observed changes in terrestrial water storageVarying soil moisture–atmosphere feedbacks explain divergent temperature extremes and precipitation projections in central EuropeFuture climate risk from compound eventsA drought event composite analysis using satellite remote-sensing based soil moistureImpact of soil moisture on extreme maximum temperatures in EuropeA submonthly database for detecting changes in vegetation-atmosphere couplingFactors controlling decomposition rates of fine root litter in temperate forests and grasslandsA Guided Hybrid Genetic Algorithm for Feature Selection with Expensive Cost FunctionsConcurrent 2018 Hot Extremes Across Northern Hemisphere Due to Human‐Induced Climate ChangeRainfall manipulation experiments as simulated by terrestrial biosphere models: Where do we stand?Countrywide climate features during recorded climate-related disastersA meta-analysis of 1,119 manipulative experiments on terrestrial carbon-cycling responses to global changeInferring causation from time series in Earth system sciences
P50
Q30662126-8FEC67FF-C6A7-45C2-AE76-4EB1D56B7E3AQ30907492-9BD5628C-B543-44BA-87CC-F142EB0047A7Q31109284-46528519-FDD4-40D3-8687-446405C3E715Q37320221-D2C171E1-7D97-441E-86CC-8D615441B615Q41012864-51596535-C016-4E57-84F0-9D94BB863CCCQ42746092-E9C3370E-C8B7-4CE6-A3E8-03CE0BB2A3ADQ51731761-2359533F-5056-4AAE-90BC-F57C38E361BFQ56754916-B2E554BB-670B-4BA2-9477-C4F095C45ED6Q56754928-D4541FBA-BCE1-4562-B16B-F629ABFEBCA5Q56754931-BDDED8DE-F3D7-42EF-AC8B-E753E007CE01Q56754932-46378297-5A42-4752-A796-49C097FD4BF2Q57059333-499A51E1-B696-48B9-8991-89545906100AQ57059342-54CCEEB8-FEE6-4AD8-B91B-EED2300BDE24Q57059353-0E6640B2-7F1B-4906-9B49-9E01C1C0C70AQ57059368-37C880DB-A011-4A87-BAB8-CD2FEFE17C62Q57059407-54E24366-9E9F-4068-8D1D-7D0DE50A5243Q57159650-90A9F8A2-43A0-44FA-B31A-4444F99DFF8EQ57242184-D94975D4-7DBA-4EC3-9536-A2BDC8335E2EQ57340947-436E7242-2A64-463C-B027-F0338E1CC912Q57890531-82E211B3-DE81-42BA-8D97-DF4FEC8166B2Q58049231-919CD35D-8086-4760-A8D8-6F5418652B9DQ58069289-57F893F0-6AF2-47A8-84A0-6DD54ACD2A11Q58069304-A5097C30-0B17-4447-A2B5-4536CB844D20Q58069309-D4286A57-4EB1-490A-B4F3-DBBEDF05DBD9Q58069318-01FB35A1-6761-4668-A195-5D51C50D1497Q58387230-DD4D6496-6DB6-439D-8F4D-BF46B45BB3B8Q58387234-D54E5A32-DF2E-4248-9F31-1A87B7710601Q58387236-14110B64-2DE1-44BD-A598-1AC7E7836210Q58387240-4D78CDAA-0DB4-40E4-94B4-8F606B9E700BQ58387243-C97BFF05-8D01-4BF6-B9D5-C8A2BA472F40Q58387249-13E60881-2608-41B4-B76F-40D14469C08BQ58387250-8BB3092F-4598-4073-AFE3-4750237C4C45Q58387255-ECDBBE28-A4D7-4B5D-AB2D-65623644039DQ58387260-8C78D274-966D-4130-A8E5-AF44C6BCB809Q67224867-298A64BE-534B-44DC-82A7-76033D2986A9Q89506944-E9D6EC97-87BB-4383-80DD-C6832EE2EBB5Q90283094-C8122837-7062-4403-A9DD-F2BCF4320C30Q92710327-50777314-0B04-433C-BB50-E6E9D88C6345Q92761119-980AF234-6DA2-486B-9BF2-F2DD7FAD51D9
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jakob Zscheischler
@ast
Jakob Zscheischler
@en
Jakob Zscheischler
@es
Jakob Zscheischler
@nl
Jakob Zscheischler
@sl
type
label
Jakob Zscheischler
@ast
Jakob Zscheischler
@en
Jakob Zscheischler
@es
Jakob Zscheischler
@nl
Jakob Zscheischler
@sl
prefLabel
Jakob Zscheischler
@ast
Jakob Zscheischler
@en
Jakob Zscheischler
@es
Jakob Zscheischler
@nl
Jakob Zscheischler
@sl
P106
P1153
51462516800
P31
P496
0000-0001-6045-1629