Variability in tree water uptake determined with stable water isotopes in an African tropical montane forest

Variability in tree water uptake determined with stable water isotopes in an African tropical montane forest

Ecohydrological processes in tropical rainforests are insufficiently understood, and existing studies yield contradictory results. We investigated relative contributions of different soil depths to tree water uptake of 83 trees and possible species‐specific differences in a 50 × 50 m forest plot at...

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Veröffentlicht in:Ecohydrology 2021-04, Vol.14 (3), p.n/a
Hauptverfasser: Hahn, Melanie, Jacobs, Suzanne Robin, Breuer, Lutz, Rufino, Mariana C., Windhorst, David
Format: Artikel
Sprache:eng
Schlagworte:
Allocations
Bayesian analysis
Bayesian mixing model
Climatic conditions
deuterium
Ecohydrology
Fluxes
Forest ecosystems
Forests
hydrogen isotopes
Interpolation
Isotopes
Moisture content
Montane environments
montane forest
Mountain forests
oxygen isotopes
Probability theory
Rainforests
Soil
Soil characteristics
Soil investigations
Soil water
stable water isotopes
Terrestrial ecosystems
tree water uptake
Trees
Tropical climate
Tropical forests
Uptake
Variability
Water
Water depth
Water uptake
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Zusammenfassung:Ecohydrological processes in tropical rainforests are insufficiently understood, and existing studies yield contradictory results. We investigated relative contributions of different soil depths to tree water uptake of 83 trees and possible species‐specific differences in a 50 × 50 m forest plot at four dates in a tropical montane forest in Kenya using stable water isotopes and the Bayesian mixing model framework MixSIAR. We found distinct individual tree differences (e.g. Drypetes gerrardii taking 75% of its water from
ISSN:1936-0584
1936-0592
DOI:10.1002/eco.2278