Convergent approaches to determine an ecosystem's transpiration fraction

Berkelhammer, M.; Noone, D. C.; Wong, T. E.; Burns, S. P.; Knowles, J. F.; Kaushik, A.; Blanken, P. D.; Williams, M. W.

doi:10.1002/2016gb005392

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The NOAA IR serves as an archival repository of NOAA-published products including scientific findings, journal articles, guidelines, recommendations, or other information authored or co-authored by NOAA or funded partners. As a repository, the NOAA IR retains documents in their original published format to ensure public access to scientific information.

i

Convergent approaches to determine an ecosystem's transpiration fraction

2016
By Berkelhammer, M. ; Noone, D. C. ; Wong, T. E. ; ...
Source: Global Biogeochemical Cycles, 30(6), 933-951

[PDF-2.80 MB]

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Journal Title:

Global Biogeochemical Cycles
Personal Author:

Berkelhammer, M. ; Noone, D. C. ; Wong, T. E. ; Burns, S. P. ; Knowles, J. F. ; ... More +

Berkelhammer, M. ; Noone, D. C. ; Wong, T. E. ; Burns, S. P. ; Knowles, J. F. ; Kaushik, A. ; Blanken, P. D. ; Williams, M. W. Less -
NOAA Program & Office:

NESDIS (National Environmental Satellite, Data, and Information Service) ; CIRES (Cooperative Institute for Research in Environmental Sciences) ; NCEI (National Centers for Environmental Information)

NESDIS (National Environmental Satellite, Data, and Information Service) ; CIRES (Cooperative Institute for Research in Environmental Sciences) ; NCEI (National Centers for Environmental Information) Less -
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The transpiration (T) fraction of total terrestrial evapotranspiration (ET), T/ET, can vary across ecosystems between 20–95% with a global average of ∼60%. The wide range may either reflect true heterogeneity between ecosystems and/or uncertainties in the techniques used to derive this property. Here we compared independent approaches to estimate T/ET at two needleleaf forested sites with a factor of 3 difference in leaf area index (LAI). The first method utilized water vapor isotope profiles and the second derived transpiration through its functional relationship with gross primary production. We found strong agreement between T/ET values from these two independent approaches although we noted a discrepancy at low vapor pressure deficits (VPD). We hypothesize that this divergence arises because stomatal conductance is independent of humidity at low VPD. Overall, we document significant synoptic‐scale T/ET variability but minimal growing season‐scale variability. This result indicates a high sensitivity of T/ET to passing weather but convergence toward a stable mean state, which is set by LAI. While changes in T/ET could emerge from a myriad of processes, including aboveground (LAI) or belowground (rooting depth) changes, there was only minimal interannual variability and no secular trend in our analysis of T/ET from the 15 year eddy covariance time series at Niwot Ridge. If the lack of trend observed here is apparent elsewhere, it suggests that the processes controlling the T and E fluxes are coupled in a way to maintain a stable ratio.
Source:

Global Biogeochemical Cycles, 30(6), 933-951
DOI:

https://doi.org/10.1002/2016gb005392
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0886-6236;1944-9224;
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pdf
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American Geophysical Union (AGU)
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Journal Article
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urn:sha-512:6956fe87fd3596101b6ae77e1c59f5994b7b726dad84615a5189ec23a68b10b132b6fa11173fc6692daedd8869b5fe61dd9b2a39cf1b0ec913d293d3e292b5e4
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Convergent approaches to determine an ecosystem's transpiration fraction

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