about
Global covariation of carbon turnover times with climate in terrestrial ecosystems.Enhanced seasonal CO2 exchange caused by amplified plant productivity in northern ecosystems.Codominant water control on global interannual variability and trends in land surface phenology and greenness.The response of ecosystem water-use efficiency to rising atmospheric CO2 concentrations: sensitivity and large-scale biogeochemical implications.A data-driven approach to identify controls on global fire activity from satellite and climate observations (SOFIA V1)Contrasting and interacting changes in simulated spring and summer carbon cycle extremes in European ecosystemsA novel bias correction methodology for climate impact simulationsTrend Change Detection in NDVI Time Series: Effects of Inter-Annual Variability and MethodologyExtreme fire events are related to previous-year surface moisture conditions in permafrost-underlain larch forests of SiberiaLPJmL4 – a dynamic global vegetation model with managed land – Part 1: Model descriptionLPJmL4 – a dynamic global vegetation model with managed land – Part 2: Model evaluationIdentifying environmental controls on vegetation greenness phenology through model–data integrationWidespread seasonal compensation effects of spring warming on northern plant productivityLarge-scale variation in boreal and temperate forest carbon turnover rate related to climateEmergent relationships on burned area in global satellite observations and fire-enabled vegetation modelsESA CCI Soil Moisture for improved Earth system understanding: State-of-the art and future directionsA novel bias correction methodology for climate impact simulationsEmergent relationships with respect to burned area in global satellite observations and fire-enabled vegetation modelsLPJmL4 – a dynamic global vegetation model with managed land: Part II – Model evaluationIdentifying required model structures to predict global fire activity from satellite and climate dataLPJmL4 – a dynamic global vegetation model with managed land: Part I – Model descriptionConstraining modelled global vegetation dynamics and carbon turnover using multiple satellite observationsGlobal ecosystems and fire: multi-model assessment of fire-induced tree cover and carbon storage reduction
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description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Matthias Forkel
@ast
Matthias Forkel
@en
Matthias Forkel
@es
Matthias Forkel
@nl
type
label
Matthias Forkel
@ast
Matthias Forkel
@en
Matthias Forkel
@es
Matthias Forkel
@nl
prefLabel
Matthias Forkel
@ast
Matthias Forkel
@en
Matthias Forkel
@es
Matthias Forkel
@nl
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P21
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0000-0003-0363-9697