Lei Zhao. F&ES Yale University
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1 Lei Zhao F&ES Yale University
2 Outline Basic Idea Algorithm Results: modeling vs. observation Discussion
3 Basic Idea Surface Energy Balance Equation Diagnostic form: Heat capacity of ground zero ; ground heat flux zero; the terms in SEB are either computed separately or parameterized in terms of Ts, so that the equation is solved iteratively Non-rate equation for Ts
4 Basic Idea Through parameterization, SEB contains Ts as an only unknown variable Known variables: incoming Solar radiation, albedo, incoming longwave radiation, wind speed
5 Algorithm Net radiation defined as: All the terms in the SEB are either specified from the dataset or parameterized in terms of Ts: S d (1 a) L d T 4 s (1 ) L d c p ( T s T a ) / r a ( q * q) /( r s r a )
6 Algorithm Given specified L d, a, S d, the resistance needs to be parameterized in terms of Ts so as to close the whole system Theoretically, one can solve the SEB for surface temperature Ts, since Ts is the only unknown variable in the system Nonlinear system, thus Newton s method applied
7 Algorithm Monin-Obukhov Parameterization The resistance parameterization scheme should involve the surface temperature Ts as the only unknown variable Big-leaf model: Aerodynamic resistance Stoma resistance At this stage, only incorporate the subroutine of aerodynamic resistance by leaving the stoma resistance as a constant
8 Algorithm Monin-Obukhov Parameterization Based on Monin-Obukhov similarity theory, different models proposed According to Liu et al(2006), Choudhury (1986), Thom(1975), Xie Xianqun(1988) model showed better agreement Thom and Xie model applied in this study
9 Algorithm Monin-Obukhov Parameterization Thom model In neutral condition, In unstable condition, In stable condition, where, ) ( ) ln( ) ( ) ln( * L d z z d z L d z z d z U k r h T m z a 0 h m 2 / ) 2arctan( ) 2 1 ln( ) 2 1 2ln( 2 x x x m 5 h m L d z 4 1/ ) 16 (1 x
10 Algorithm Thom model How to evaluate L : L is a funtion of u* and Ts u* can be calculated from C D Therefore, all the quantities are looped tegother:
11 Algorithm Thom model Loop: C D C D, C H u* ψ(ξ) L ξ
12 Algorithm Thom model Convergence problem: A good initial guess is required for convergence How to get a close guess for C D C DN (neutral condition) is introduced to trigger the loop C DN is only dependent on z-d and z 0
13 Algorithm Thom model Convergence problem: still encounter unconvergence Examine the shape of drag coefficient
14 Algorithm Thom model Figure 1 Relation of Drag coefficient C D vs. Stability correction function ψ
15 Algorithm Thom model Therefore, some thresholds for are needed As widely used in the literatures, is cut in the interval between -5 and 1
16 Algorithm Monin-Obukhov Parameterization Xie model r a r aa 1 z ln( d ) r aa is the aerodynamic resistance in neutral condition, h z 0 z d ln( ) z 0 raa 2 k U z ln( z z T d ) In neutral condition, =0 In unstable condition, In stable condition, h h (1 where, n is empirical coefficient, when,n=5.2; when, n= ) 1/ h 1 n
17 Algorithm Model structure Newton s method is the main iteration for solving Ts In each iteration, new computed Ts goes to the resistance loop for resistance calculation The resistance return to the main iteration for calculating a newer Ts
18 Input data Driven by: the measurements of incoming solar radiation, surface albedo, incoming longwave radiation, and wind velocity at a certain height Data used: Old aspen site 2000 Jan.
19 Results Comparison between the modeling results and the observations: Surface Temperature Ts Sensible Heat Flux H Latent Heat Flux λe
20 Results - Surface temperature Thom model
21 Results - Surface temperature Thom model
22 Results - Surface temperature Xie model
23 Results - Surface temperature Xie model
24 Results sensible heat flux Thom model
25 Results sensible heat flux Xie model
26 Results latent heat flux Thom model
27 Results latent heat flux Xie model
28 Discussion Why the heat flux modeling results are bad: r s is set as a constant Soil heat flux G is not taken into account Real temperature vs. Potential temperature Reliability of the turbulent flux measurement Need your ideas
29 Discussion Tuning value of r s by examining the error of Ts
30 Discussion Diagnostic form heat capacity of the canopy is assumed as zero Not take into account the canopy heat flux G
31 Discussion Temperature using real temperature, rather than potential temperature, since only have the pressure measurement at one level
32 Discussion Reliability of the turbulent flux measurement
33 Discussion NARR prediction
34 Discussion NARR prediction
35 Discussion NARR prediction
36 Discussion NARR prediction
37 Discussion NARR prediction
38
39 Lei Zhao F&ES Yale University
40 Results - Surface temperature
41 Results - Surface temperature
42 Results sensible heat flux Thom model
43 Results sensible heat flux Thom model
44 Results latent heat flux Thom model
45 Results latent heat flux Thom model
46 Observation Check with NARR
47 Observation Check with NARR
48 Observation Check with NARR
49 Lei Zhao F&ES Yale University
50 Canopy Resistance
51 Canopy Resistance Canopy resistance shows a strong response to PAR, LAI, saturation deficit, air temperature and soil water content. The paper discussed the diurnal dynamic response to PAR and saturation deficit Also seasonal dynamics of canopy resistance, mainly dependent on forest LAI
52 Canopy Resistance
53 Canopy Resistance Simple method in the subroutine: Parameterize it as a function of PAR and saturation deficit Different PAR corresponds to different g_max Exponentially decay on increasing saturation deficit
54 Canopy Resistance
55 Canopy Resistance
56 Canopy Resistance
57 Canopy Resistance
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