Energy partitioning between latent and sensible heat flux during the warm season at FLUXNET sites

Wilson, K.; Baldocchi, Dennis; Aubinet, Marc; Berbigier, Paul; Bernhofer, Christian; Dolman, A. J.; Falge, Eva; Field, C. B.; Goldstein, Allen H.; Granier, André; Grelle, Achim; Thorgeirsson, Halldór; Hollinger, D. Y.; Katul, Gabriel G.; Law, B. E.; Lindroth, Anders; Meyers, Tilden P.; Moncrieff, John; Monson, R. K.; Oechel, W. C.; Tenhunen, John; Valentini, Riccardo; Verma, Shashi B.; Vesala, Timo; Wofsy, S. C.

doi:10.1029/2001wr000989

Cited by 191 publications

(210 citation statements)

References 61 publications

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“…This was similar to a broadleaved temperate deciduous forest in North America, where a study showed thatř anged from 0Ð68 to 0Ð78 over three observation years (Wilson and Baldocchi, 2000). However, theˇvalue at the mixed broadleaved-pine forest was generally high compared with those in other temperate deciduous forests, and even higher than most temperate coniferous forests, which typically had a highˇvalue (Wilson et al, 2002b). For example, the mean annualˇfor a temperate deciduous forest in south-central Indiana, USA, was 0Ð59 (Oliphant et al, 2004).…”

Section: Bowen Ratiosupporting

confidence: 63%

Energy budget above a temperate mixed forest in northeastern China

Guan

Han

et al. 2006

Hydrological Processes

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Abstract:Components of the energy budget were measured continuously above a 300-year-old temperate mixed forest at the Changbaishan site, northeastern China, from 1 January to 31 December 2003, as a part of the ChinaFlux programme. The albedo values above the canopy were lower than most temperate forests, and the values for snow-covered canopy were over 50% higher than for the snow-free canopy. In winter, net radiation R n was generally less than 5% of the summer value due to high albedo and low incoming solar radiation. The annual mean latent heat LE was 37Ð5 W m 2 , accounting for 52% of R n . The maximum daily evaporation was about 4Ð6 mm day 1 in summer. Over the year, the accumulated precipitation was 578 mm; this compares with 493 mm of evapotranspiration, which shows that more than 85% of water was returned to the atmosphere through evapotranspiration. The LE was strongly affected by the transpiration activity and increased quickly as the broadleaved trees began to foliate. The sensible heat H dropped at that time, although R n increased. Consequently, the seasonal variation in the Bowen ratioˇwas clearly U-shaped, and the minimum value (0Ð1) occurred on a sunny day just after rain, when most of the available energy was used for evapotranspiration. Negativeˇvalues occurred occasionally in the non-growing season as a result of intensive radiative cooling and the presence of water on the surface. Theˇwas very high (up to 13Ð0) in snow-covered winter, when evapotranspiration was small due to low surface temperature and available soil water. Vegetation phenology and soil moisture were the key variables controlling the available energy partitioning between H and LE. Energy budget closure averaged better than 86% on a half-hourly basis, with slightly greater closure on a daily basis. The degree of closure showed a dependence on friction velocity u Ł .

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Section: Bowen Ratiosupporting

confidence: 63%

Energy budget above a temperate mixed forest in northeastern China

Guan

Han

et al. 2006

Hydrological Processes

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“…Law et al, 2002;Hibbard et al, 2005;Reichstein et al, 2007b;Yuan et al, 2007) and ecosystem responses to climate anomalies and interannual variability (e.g. Wilson et al, 2002;Ciais et al, 2005;Reichstein et al, 2007a), or conducting inverse modeling studies to constrain carbon fluxes (e.g. Gerbig et al, 2003;Wang et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

Quality control of CarboEurope flux data – Part 1: Coupling footprint analyses with flux data quality assessment to evaluate sites in forest ecosystems

et al. 2008

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Abstract. We applied a site evaluation approach combining Lagrangian Stochastic footprint modeling with a quality assessment approach for eddy-covariance data to 25 forested sites of the CarboEurope-IP network. The analysis addresses the spatial representativeness of the flux measurements, instrumental effects on data quality, spatial patterns in the data quality, and the performance of the coordinate rotation method. Our findings demonstrate that application of a footprint filter could strengthen the CarboEurope-IP flux database, since only one third of the sites is situated in truly homogeneous terrain. Almost half of the sites experience a significant reduction in eddy-covariance data quality under certain conditions, though these effects are mostly constricted to a small portion of the dataset. Reductions in data quality of the sensible heat flux are mostly induced by characteristics of the surrounding terrain, while the latent heat flux is subject to instrumentation-related problems. The Planar-Fit coordinate rotation proved to be a reliable tool for the majority of the sites using only a single set of rotation angles. Overall, we found a high average data quality for the CarboEurope-IP network, with good representativeness of the measurement data for the specified target land cover types.

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“…In general, during the daylight hours, aerodynamic and canopy resistances are much lower than those during the nights (Blondin 1991;Tsai et al 2007). Typical values of daytime aerodynamic and canopy resistances observed in various land covers in the summer can be found in Wilson et al (2002). Therefore, from the Fig.…”

Section: Optimal Effective Thicknessmentioning

confidence: 95%

“…In addition, qG 0 * /qT 0 * of the diurnal frequency component is also shown in the figure. At the site, the daytime aerodynamic and canopy resistances in the summer are about 37 and 60 s m -1 , respectively (Wilson et al 2002). Following the method of Wilson et al (2002), r a is derived from the sum of the resistance to momentum transport and an excess resistance for scalar fluxes (Verma et al 1986) and r c is determined according to the PenmanMonteith approximation to the big leaf equations (Jarvis and McNaughton 1986;Shuttleworth et al 1984).…”

Section: Case Study-a Cropland Sitementioning

confidence: 99%

“…At the site, the daytime aerodynamic and canopy resistances in the summer are about 37 and 60 s m -1 , respectively (Wilson et al 2002). Following the method of Wilson et al (2002), r a is derived from the sum of the resistance to momentum transport and an excess resistance for scalar fluxes (Verma et al 1986) and r c is determined according to the PenmanMonteith approximation to the big leaf equations (Jarvis and McNaughton 1986;Shuttleworth et al 1984). It can be seen that at this site, typical value for winter nighttime qG 0 * /qT 0 * (qG 0 /qT 0 ) was about 1.8 (29.04 W m -2 K -1 ), and that of summer day was about 4.4 (70.93 W m -2 K -1 ), of which the annual mean was 2.86 (46 W m -2 K -1 ) with the median value at 2.64 (42 W m -2 K -1 ), when T 0 during wintertime (November-January) was usually \273 K. Table 6 shows the bias, RMSE and normalized RMSE of skin temperature, and the bias, RMSE and normalized RMSE for surface ground heat of Case 7 simulated by ''A74'', ''D78'', ''op(0,0,0)'', ''op(1,0,0)'', ''op(1,1,0)'', ''op(2,1,0)'', ''echam'', ''ecmwf'', ''ecmwf ?…”

Section: Case Study-a Cropland Sitementioning

confidence: 99%

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A more accurate scheme for calculating Earth’s skin temperature

Tsuang

Tu²,

Tsai

et al. 2008

Clim Dyn

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The theoretical framework of the vertical discretization of a ground column for calculating Earth's skin temperature is presented. The suggested discretization is derived from the evenly heat-content discretization with the optimal effective thickness for layer-temperature simulation. For the same level number, the suggested discretization is more accurate in skin temperature as well as surface ground heat flux simulations than those used in some state-of-the-art models. A proposed scheme (''op(3,2,0)'') can reduce the normalized root-mean-square error (or RMSE/STD ratio) of the calculated surface ground heat flux of a cropland site significantly to 2% (or 0.9 W m -2 ), from 11% (or 5 W m -2 ) by a 5-layer scheme used in ECMWF, from 19% (or 8 W m -2 ) by a 5-layer scheme used in ECHAM, and from 74% (or 32 W m -2 ) by a single-layer scheme used in the UCLA GCM. Better accuracy can be achieved by including more layers to the vertical discretization. Similar improvements are expected for other locations with different land types since the numerical error is inherited into the models for all the land types. The proposed scheme can be easily implemented into state-of-the-art climate models for the temperature simulation of snow, ice and soil.

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Energy partitioning between latent and sensible heat flux during the warm season at FLUXNET sites

Cited by 191 publications

References 61 publications

Energy budget above a temperate mixed forest in northeastern China

Energy budget above a temperate mixed forest in northeastern China

Quality control of CarboEurope flux data – Part 1: Coupling footprint analyses with flux data quality assessment to evaluate sites in forest ecosystems

A more accurate scheme for calculating Earth’s skin temperature

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