The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability

The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability

The spatial pattern across the continental United States of the interannual variance of warm-season water-dependent evapotranspiration, a pattern of relevance to land-atmosphere feedback, cannot be measured directly. Alternative and indirect approaches to estimating the pattern, however, do exist,...

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Main Authors: Randal D. Koster, Guido D. Salvucci, Angela J. Rigden, Martin eJung, G. James Collatz, Siegfried D. Schubert
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-07-01
Series:Frontiers in Earth Science
Subjects:
evapotranspiration
interannual variability
climate variability
land-atmosphere interaction
Continental-scale
Online Access:http://journal.frontiersin.org/Journal/10.3389/feart.2015.00035/full
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spelling doaj-7d051919cd1a4072a72d304f2ca7ef0d2020-11-24T22:29:04ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632015-07-01310.3389/feart.2015.00035145140The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water AvailabilityRandal D. Koster0Guido D. Salvucci1Angela J. Rigden2Martin eJung3G. James Collatz4Siegfried D. Schubert5NASA/Goddard Space Flight CenterDepartment of Earth and Environment, Boston UniversityDepartment of Earth and Environment, Boston UniversityMax Planck Institute for BiogeochemistryLaboratory for Hydrospheric and Biospheric Sciences, NASA/Goddard Space Flight CenterNASA/Goddard Space Flight CenterThe spatial pattern across the continental United States of the interannual variance of warm-season water-dependent evapotranspiration, a pattern of relevance to land-atmosphere feedback, cannot be measured directly. Alternative and indirect approaches to estimating the pattern, however, do exist, and given the uncertainty of each, we use several such approaches here. We first quantify the water-dependent evapotranspiration variance pattern inherent in two derived evapotranspiration datasets available from the literature. We then search for the pattern in proxy geophysical variables (air temperature, streamflow, and NDVI) known to have strong ties to evapotranspiration. The variances inherent in all of the different (and mostly independent) data sources show some differences but are generally strongly consistent – they all show a large variance signal down the center of the U.S., with lower variances toward the east and (for the most part) toward the west. The robustness of the pattern across the datasets suggests that it indeed represents the pattern operating in nature. Using Budyko’s hydroclimatic framework, we show that the pattern can largely be explained by the relative strength of water and energy controls on evapotranspiration across the continent.http://journal.frontiersin.org/Journal/10.3389/feart.2015.00035/fullevapotranspirationinterannual variabilityclimate variabilityland-atmosphere interactionContinental-scale
collection DOAJ
language English
format Article
sources DOAJ
author Randal D. Koster
Guido D. Salvucci
Angela J. Rigden
Martin eJung
G. James Collatz
Siegfried D. Schubert
spellingShingle Randal D. Koster
Guido D. Salvucci
Angela J. Rigden
Martin eJung
G. James Collatz
Siegfried D. Schubert
The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability
Frontiers in Earth Science
evapotranspiration
interannual variability
climate variability
land-atmosphere interaction
Continental-scale
author_facet Randal D. Koster
Guido D. Salvucci
Angela J. Rigden
Martin eJung
G. James Collatz
Siegfried D. Schubert
author_sort Randal D. Koster
title The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability
title_short The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability
title_full The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability
title_fullStr The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability
title_full_unstemmed The Pattern Across the Continental United States of Evapotranspiration Variability Associated with Water Availability
title_sort pattern across the continental united states of evapotranspiration variability associated with water availability
publisher Frontiers Media S.A.
series Frontiers in Earth Science
issn 2296-6463
publishDate 2015-07-01
description The spatial pattern across the continental United States of the interannual variance of warm-season water-dependent evapotranspiration, a pattern of relevance to land-atmosphere feedback, cannot be measured directly. Alternative and indirect approaches to estimating the pattern, however, do exist, and given the uncertainty of each, we use several such approaches here. We first quantify the water-dependent evapotranspiration variance pattern inherent in two derived evapotranspiration datasets available from the literature. We then search for the pattern in proxy geophysical variables (air temperature, streamflow, and NDVI) known to have strong ties to evapotranspiration. The variances inherent in all of the different (and mostly independent) data sources show some differences but are generally strongly consistent – they all show a large variance signal down the center of the U.S., with lower variances toward the east and (for the most part) toward the west. The robustness of the pattern across the datasets suggests that it indeed represents the pattern operating in nature. Using Budyko’s hydroclimatic framework, we show that the pattern can largely be explained by the relative strength of water and energy controls on evapotranspiration across the continent.
topic evapotranspiration
interannual variability
climate variability
land-atmosphere interaction
Continental-scale
url http://journal.frontiersin.org/Journal/10.3389/feart.2015.00035/full
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