2018
DOI: 10.5194/hess-2018-57
|View full text |Cite
Preprint
|
Sign up to set email alerts
|

Using StorAge Selection functions to quantify ecohydrological controls on the time-variant age of evapotranspiration, soil water, and recharge

Abstract: Abstract. Quantifying ecohydrological controls on soil water availability is essential to understand temporal variations in catchment storage. Soil water is subject to numerous time-variable fluxes (evaporation, root-uptake, and recharge), each with 10 different water ages which in turn affect the age of water in storage. Here, we adapt StorAge Selection (SAS) function theory to investigate water flow in soils and identify soil evaporation and root-water uptake sources from depth. We use this to quantify the e… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
4
1

Citation Types

7
24
2

Year Published

2018
2018
2020
2020

Publication Types

Select...
6

Relationship

3
3

Authors

Journals

citations
Cited by 12 publications
(33 citation statements)
references
References 45 publications
7
24
2
Order By: Relevance
“…Similar to findings by Smith et al (2018) for the heather site in Bruntland Burn, our estimates for A E at that site were highest during periods of limited infiltration (e.g. 10-year return period drought in summer 2013 at Bruntland Burn in Fig.…”
Section: What Controls Travel Times and Water Ages In Evapotranspiratsupporting
confidence: 86%
See 4 more Smart Citations
“…Similar to findings by Smith et al (2018) for the heather site in Bruntland Burn, our estimates for A E at that site were highest during periods of limited infiltration (e.g. 10-year return period drought in summer 2013 at Bruntland Burn in Fig.…”
Section: What Controls Travel Times and Water Ages In Evapotranspiratsupporting
confidence: 86%
“…Further, observed differences in the isotopic compositions of mobile and bulk soil water in the field were often related to the potential age differences of waters sampled at different mobilities (Landon et al, 1999;Brooks et al, 2010;Geris et al, 2015;Sprenger et al, 2015a;Oerter and Bowen, 2017). Our results and recent simulations by Smith et al (2018) support such interpretations, as the water in the slow flow domain was generally older than the water in the fast flow domain (A Ss > A Sf ). However, since the differences between A Ss and A Sf were variable in time and were often maximized in early spring, such anomalies in water ages are likely to be reflected in the isotopic compositions of the water, with the older water in small pores being less depleted in heavy isotopes (originating partly from autumn precipitation) than the young water in larger soil pores draining recently infiltrated isotopically depleted snowmelt or winter precipitation.…”
Section: What Controls Soil Water Storage and Water Ages?supporting
confidence: 77%
See 3 more Smart Citations