Characterizing the age distribution of catchment evaporative losses-Reference-Cited by-同舟云学术

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Characterizing the age distribution of catchment evaporative losses

Published:2015-12-29 Issue:8 Volume:30 Page:1308-1312
ISSN:0885-6087
Container-title:Hydrological Processes
language:en
Short-container-title:Hydrol. Process.

Author:

Soulsby C.¹,Birkel C.¹²,Tetzlaff D.¹

Affiliation:

1. Northern Rivers Institute; University of Aberdeen; AB24 3UF Aberdeen Scotland

2. Department of Geography; University of Costa Rica; 2060 San José Costa Rica

Funder

European Research Council ERC

PLATO

Publisher

Wiley

Subject

Water Science and Technology

Reference27 articles.

1. Modeling chloride transport using travel time distributions at Plynlimon;Benettin;Wales, Water Resources Research,2015

2. Advancing tracer-aided rainfall-runoff modelling: a review of progress, problems and unrealised potential;Birkel;Hydrological Processes,2015

3. Conceptual modelling to assess how the interplay of hydrological connectivity, catchment storage and tracer dynamics controls non-stationary water age estimates;Birkel;Hydrological Processes,2015

4. Catchment mixing processes and travel time distributions;Botter;Water Resources Research,2012

5. Methods to separate observed global evapotranspiration into the interception, transpiration and soil surface evaporation components;Blyth;Hydrological Processes,2011

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1. The Role of Topography in Controlling Evapotranspiration Age;Journal of Geophysical Research: Atmospheres;2023-09-12

2. Stable water isotopes and tritium tracers tell the same tale: no evidence for underestimation of catchment transit times inferred by stable isotopes in StorAge Selection (SAS)-function models;Hydrology and Earth System Sciences;2023-08-24

3. Importance of tree diameter and species for explaining the temporal and spatial variations of xylem water δ¹⁸O and δ²H in a multi‐species forest;Ecohydrology;2023-05-23

4. Upscaling Tracer‐Aided Ecohydrological Modeling to Larger Catchments: Implications for Process Representation and Heterogeneity in Landscape Organization;Water Resources Research;2023-02-24

5. The Age of Evapotranspiration: Lower‐Bound Constraints From Distributed Water Fluxes Across the Continental United States;Water Resources Research;2022-10

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