Energy balance closure at FLUXNET sites

A comprehensive evaluation of energy balance closure is performed across 22 sites and 50 site-years in FLUXNET, a network of eddy covariance sites measuring long-term carbon and energy fluxes in contrasting ecosystems and climates. Energy balance closure was evaluated by statistical regression of tu...

Full description

Bibliographic Details
Published in:Agricultural and Forest Meteorology
Main Authors: Valentini Riccardo, Wilson Kell, Goldstein Allen, Falge Eva, Aubinet Marc, Baldocchi Dennis, Berbigier Paul, Bernhofer Christian, Ceulemans Reinhart, Dolman Han, Field Chris, Grelle Achim, Ibrom Andreas, Law B.E, Kowalski Andy, Meyers Tilden, Moncrieff John, Monson Russ, Oechel Walter, Tenhunen John, Verma Shashi
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier Science Publishing Company, Inc.
Subjects:
Energy balance
FLUXNET
Eddy covariance technique
Arctic
Online Access:https://repository.rudn.ru/records/article/record/74832/
id ftrudnuniv:oai:repository.rudn.ru:r/74832
record_format openpolar
spelling ftrudnuniv:oai:repository.rudn.ru:r/74832 2023-05-15T15:13:52+02:00 Energy balance closure at FLUXNET sites Valentini Riccardo Wilson Kell Goldstein Allen Falge Eva Aubinet Marc Baldocchi Dennis Berbigier Paul Bernhofer Christian Ceulemans Reinhart Dolman Han Field Chris Grelle Achim Ibrom Andreas Law B.E Kowalski Andy Meyers Tilden Moncrieff John Monson Russ Oechel Walter Tenhunen John Verma Shashi https://repository.rudn.ru/records/article/record/74832/ EN eng Elsevier Science Publishing Company, Inc. https://doi.org/10.1016/S0168-1923(02)00109-0 https://repository.rudn.ru/records/article/record/74832/ Agricultural and Forest Meteorology Energy balance FLUXNET Eddy covariance technique Article ftrudnuniv https://doi.org/10.1016/S0168-1923(02)00109-0 2022-01-03T09:49:06Z A comprehensive evaluation of energy balance closure is performed across 22 sites and 50 site-years in FLUXNET, a network of eddy covariance sites measuring long-term carbon and energy fluxes in contrasting ecosystems and climates. Energy balance closure was evaluated by statistical regression of turbulent energy fluxes (sensible and latent heat (LE)) against available energy (net radiation, less the energy stored) and by solving for the energy balance ratio, the ratio of turbulent energy fluxes to available energy. These methods indicate a general lack of closure at most sites, with a mean imbalance in the order of 20%. The imbalance was prevalent in all measured vegetation types and in climates ranging from Mediterranean to temperate and arctic. There were no clear differences between sites using open and closed path infrared gas analyzers. At a majority of sites closure improved with turbulent intensity (friction velocity), but lack of total closure was still prevalent under most conditions. The imbalance was greatest during nocturnal periods. The results suggest that estimates of the scalar turbulent fluxes of sensible and LE are underestimated and/or that available energy is overestimated. The implications on interpreting long-term CO2 fluxes at FLUXNET sites depends on whether the imbalance results primarily from general errors associated with the eddy covariance technique or from errors in calculating the available energy terms. Although it was not entirely possible to critically evaluate all the possible sources of the imbalance, circumstantial evidence suggested a link between the imbalance and CO2 fluxes. For a given value of photosynthetically active radiation, the magnitude of CO2 uptake was less when the energy imbalance was greater. Similarly, respiration (estimated by nocturnal CO2 release to the atmosphere) was significantly less when the energy imbalance was greater. Article in Journal/Newspaper Arctic Peoples' Friendship University of Russia (RUDN): Open repository Arctic Agricultural and Forest Meteorology 113 1-4 223 243
institution Open Polar
collection Peoples' Friendship University of Russia (RUDN): Open repository
op_collection_id ftrudnuniv
language English
topic Energy balance
FLUXNET
Eddy covariance technique
spellingShingle Energy balance
FLUXNET
Eddy covariance technique
Valentini Riccardo
Wilson Kell
Goldstein Allen
Falge Eva
Aubinet Marc
Baldocchi Dennis
Berbigier Paul
Bernhofer Christian
Ceulemans Reinhart
Dolman Han
Field Chris
Grelle Achim
Ibrom Andreas
Law B.E
Kowalski Andy
Meyers Tilden
Moncrieff John
Monson Russ
Oechel Walter
Tenhunen John
Verma Shashi
Energy balance closure at FLUXNET sites
topic_facet Energy balance
FLUXNET
Eddy covariance technique
description A comprehensive evaluation of energy balance closure is performed across 22 sites and 50 site-years in FLUXNET, a network of eddy covariance sites measuring long-term carbon and energy fluxes in contrasting ecosystems and climates. Energy balance closure was evaluated by statistical regression of turbulent energy fluxes (sensible and latent heat (LE)) against available energy (net radiation, less the energy stored) and by solving for the energy balance ratio, the ratio of turbulent energy fluxes to available energy. These methods indicate a general lack of closure at most sites, with a mean imbalance in the order of 20%. The imbalance was prevalent in all measured vegetation types and in climates ranging from Mediterranean to temperate and arctic. There were no clear differences between sites using open and closed path infrared gas analyzers. At a majority of sites closure improved with turbulent intensity (friction velocity), but lack of total closure was still prevalent under most conditions. The imbalance was greatest during nocturnal periods. The results suggest that estimates of the scalar turbulent fluxes of sensible and LE are underestimated and/or that available energy is overestimated. The implications on interpreting long-term CO2 fluxes at FLUXNET sites depends on whether the imbalance results primarily from general errors associated with the eddy covariance technique or from errors in calculating the available energy terms. Although it was not entirely possible to critically evaluate all the possible sources of the imbalance, circumstantial evidence suggested a link between the imbalance and CO2 fluxes. For a given value of photosynthetically active radiation, the magnitude of CO2 uptake was less when the energy imbalance was greater. Similarly, respiration (estimated by nocturnal CO2 release to the atmosphere) was significantly less when the energy imbalance was greater.
format Article in Journal/Newspaper
author Valentini Riccardo
Wilson Kell
Goldstein Allen
Falge Eva
Aubinet Marc
Baldocchi Dennis
Berbigier Paul
Bernhofer Christian
Ceulemans Reinhart
Dolman Han
Field Chris
Grelle Achim
Ibrom Andreas
Law B.E
Kowalski Andy
Meyers Tilden
Moncrieff John
Monson Russ
Oechel Walter
Tenhunen John
Verma Shashi
author_facet Valentini Riccardo
Wilson Kell
Goldstein Allen
Falge Eva
Aubinet Marc
Baldocchi Dennis
Berbigier Paul
Bernhofer Christian
Ceulemans Reinhart
Dolman Han
Field Chris
Grelle Achim
Ibrom Andreas
Law B.E
Kowalski Andy
Meyers Tilden
Moncrieff John
Monson Russ
Oechel Walter
Tenhunen John
Verma Shashi
author_sort Valentini Riccardo
title Energy balance closure at FLUXNET sites
title_short Energy balance closure at FLUXNET sites
title_full Energy balance closure at FLUXNET sites
title_fullStr Energy balance closure at FLUXNET sites
title_full_unstemmed Energy balance closure at FLUXNET sites
title_sort energy balance closure at fluxnet sites
publisher Elsevier Science Publishing Company, Inc.
url https://repository.rudn.ru/records/article/record/74832/
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source Agricultural and Forest Meteorology
op_relation https://doi.org/10.1016/S0168-1923(02)00109-0
https://repository.rudn.ru/records/article/record/74832/
op_doi https://doi.org/10.1016/S0168-1923(02)00109-0
container_title Agricultural and Forest Meteorology
container_volume 113
container_issue 1-4
container_start_page 223
op_container_end_page 243
_version_ 1766344380999794688

Similar Items