The demographics of water: A review of water ages in the critical zone

M Sprenger, C Stumpp, M Weiler… - Reviews of …, 2019 - Wiley Online Library
The time that water takes to travel through the terrestrial hydrological cycle and the critical
zone is of great interest in Earth system sciences with broad implications for water quality …

Transit time estimation in catchments: Recent developments and future directions

P Benettin, NB Rodriguez, M Sprenger… - Water Resources …, 2022 - Wiley Online Library
Water transit time is now a standard measure in catchment hydrological and ecohydrological
research. The last comprehensive review of transit time modeling approaches was …

Time‐varying storage–water age relationships in a catchment with a mediterranean climate

NB Rodriguez, KJ McGuire… - Water Resources Research, 2018 - Wiley Online Library
Recent studies on the relationships between catchment storage and water ages using
Travel Time Distributions (TTDs), Residence Time Distributions (RTDs), and StorAge …

Exploring source water mixing and transient residence time distributions of outflow and evapotranspiration with an integrated hydrologic model and Lagrangian …

RM Maxwell, LE Condon, M Danesh‐Yazdi… - …, 2019 - Wiley Online Library
Understanding the time water takes as it moves from rain or snowmelt through the terrestrial
system to arrive as stream discharge, or evapotranspiration (ET) is an important hydrologic …

Your work is my boundary condition!: Challenges and approaches for a closer collaboration between hydrologists and hydrogeologists

M Staudinger, M Stoelzle, F Cochand, J Seibert… - Journal of …, 2019 - Elsevier
Hydrologists and hydrogeologists both study the flux and storage of water with the numerous
interactions and feedback mechanisms of surface water and groundwater. Traditionally …

[HTML][HTML] Transit time tracing using wetness-adaptive StorAge Selection functions—application to a Mediterranean catchment

N Hachgenei, G Nord, L Spadini, P Ginot, C Voiron… - Journal of …, 2024 - Elsevier
Not just the quantities but also the transit times are of crucial importance for understanding
the transfer of water through a catchment. This information is essential, for example, for …

Catchment travel times from composite storage selection functions representing the superposition of streamflow generation processes

NB Rodriguez, J Klaus - Water Resources Research, 2019 - Wiley Online Library
Catchment travel times integrate the multitude of hydrological flow processes and provide
insights into catchment functioning. StorAge Selection (SAS) functions describe how …

Age‐ranked storage‐discharge relations: A unified description of spatially lumped flow and water age in hydrologic systems

CJ Harman - Water Resources Research, 2019 - Wiley Online Library
A storage‐discharge relation tells us how discharge will change when new water enters a
hydrologic system but not which water is released. Does an incremental increase in …

Three‐dimensional distribution of groundwater residence time metrics in the glaciated United States using metamodels trained on general numerical simulation …

JJ Starn, LJ Kauffman, CS Carlson… - Water Resources …, 2021 - Wiley Online Library
Residence time distribution (RTD) is a critically important characteristic of groundwater flow
systems; however, it cannot be measured directly. RTD can be inferred from tracer data with …

Transport and water age dynamics in soils: A comparative study of spatially integrated and spatially explicit models

M Asadollahi, C Stumpp, A Rinaldo… - Water Resources …, 2020 - Wiley Online Library
We address transport by transit times (ie, the age of water parcels leaving a storage as
discharge, deep loss, or evapotranspiration) in subvertical soil systems, key to our …