TY  - JOUR
AU  - Hendricks-Franssen, H.-J.
AU  - Stöckli, R.
AU  - Lehner, I.
AU  - Rotenberg, E.
AU  - Seneviratne, S.I.
TI  - Energy balance closure of eddy covariance data: a multi-site analysis for European FLUXNET stations
JO  - Agricultural and forest meteorology
VL  - 150
SN  - 0168-1923
CY  - Amsterdam [u.a.]
PB  - Elsevier
M1  - PreJuSER-11758
SP  - 1553 - 1567
PY  - 2010
N1  - We would like to acknowledge the coordinating efforts by the CarboEurope IP and thank especially the Pis and their collaborators from the 26 FLUXNET sites considered in this study for access to the analyzed data. Without their continued efforts this study would not have been possible. We are also thankful to the reviewers and editor (Timothy Griffis), who helped to improve this manuscript considerably. In addition, we thank especially Alexander Graf, and also Dennis Baldocchi, Thomas Foken, Markus Reichstein, Anders Lindroth and Dario Papale for useful comments. Partial financial support was received from the EU 7th Framework Programme GENESIS Project No. 226536 and the CCES project MAIOLICA.
AB  - This paper presents a multi-site (>20) analysis of the relative and absolute energy balance (EB) closure at European FLUXNET sites, as a function of the stability parameter xi, the friction velocity u., thermally-induced turbulence, and the time of the day. A focus of the analysis is the magnitude of EB deficits for very unstable conditions. A univariate analysis of the relative EB deficit as function of xi alone (both for individual sites and a synthesis for all sites), reveals that the relative EB deficit is larger for very unstable conditions (xi < -1.0) than for less unstable conditions (-0.02 > xi >= -1.0). A bivariate analysis of the relative EB deficit as function of both xi and u., however, indicates that for situations with comparable u. the closure is better for very unstable conditions than for less unstable conditions. Our results suggest that the poorer closure for very unstable conditions identified from the univariate analysis is due to reduced u. under these conditions. In addition, we identify that the conditions characterized by smallest relative EB deficits (elevated overall turbulence, mostly during day time) correspond to cases with the largest absolute EB deficits. Thus, the total EB deficit at the sites is induced mostly under these conditions, which is particularly relevant for evapotranspiration estimates. Further, situations with the largest relative EB deficits are generally characterized by small absolute EB deficits. We also find that the relative EB deficit does generally not correspond to the regression line of absolute EB deficit with the net radiation because there is a (positive or negative) offset. This can be understood from theoretical considerations. Finally, we find that storage effects explain a considerable fraction of the large relative (but small absolute) nocturnal EB deficits, and only a limited fraction of the overall relative and absolute EB deficits. (C) 2010 Elsevier B.V. All rights reserved.
KW  - J (WoSType)
LB  - PUB:(DE-HGF)16
UR  - <Go to ISI:>//WOS:000284784800006
DO  - DOI:10.1016/j.agrformet.2010.08.005
UR  - https://juser.fz-juelich.de/record/11758
ER  -