%PDF-1.2 % 10 0 obj << /Length 11 0 R >> stream BT 86.64 711.36 TD 0 0 0 rg /F0 11.04 Tf -0.0373 Tc 0.0882 Tw (7.5 CPTEC GCM and Eta Model verifications against Rond\364nia Reference site in ) Tj 199.44 -12.72 TD -0.0503 Tc 0 Tw (Brazil) Tj 29.76 0 TD /F0 12 Tf 0 Tc 0.024 Tw ( ) Tj -14.88 -11.76 TD /F0 10.08 Tf 0.0778 Tw ( ) Tj -35.76 -11.76 TD /F1 10.08 Tf -0.0535 Tc 0.1312 Tw (Sin Chan Chou) Tj 67.92 5.04 TD /F1 6.48 Tf -0.0029 Tc 0 Tw (1) Tj 3.6 -5.04 TD /F1 10.08 Tf 0 Tc 0.0778 Tw ( ) Tj -152.88 -11.28 TD -0.0321 Tc -0.0101 Tw (Patricia V. Waldheim) Tj 92.88 5.04 TD /F1 6.48 Tf -0.0029 Tc 0 Tw (1) Tj 3.6 -5.04 TD /F1 10.08 Tf -0.0845 Tc 0.0822 Tw ( and ) Tj 25.2 0 TD -0.0584 Tc 0.1362 Tw (Claudine P. Dereczynski) Tj 108.96 5.04 TD /F1 6.48 Tf -0.0029 Tc 0 Tw (2) Tj 3.6 -5.04 TD /F1 10.08 Tf 0 Tc 0.0778 Tw ( ) Tj -117.12 -9.84 TD /F1 7.92 Tf -0.0418 Tw ( ) Tj -135.6 -5.52 TD /F1 6 Tf 0.024 Tc -0.012 Tw (1 ) Tj 5.04 -4.56 TD /F1 9.12 Tf -0.066 Tc 0.1021 Tw (Center for Weather Prediction and Climate Studies ) Tj 204.72 0 TD -0.0307 Tc 0 Tw (\226) Tj 4.8 0 TD -0.0729 Tc 0.1776 Tw ( CPTEC/INPE) Tj 56.64 0 TD 0 Tc 0.1046 Tw ( ) Tj -219.84 -10.32 TD -0.0627 Tc 0.1673 Tw (Cachoeira Paulista, SP, 12630) Tj 122.64 0 TD 0.083 Tc 0 Tw (-) Tj 3.12 0 TD -0.1769 Tc (000,) Tj 17.52 0 TD -0.08 Tc 0.1846 Tw ( Brazil ) Tj 27.6 0 TD 0 Tc 0.1046 Tw ( ) Tj -177.36 -5.76 TD /F1 6 Tf 0.024 Tc -0.012 Tw (2 ) Tj 5.04 -4.56 TD /F1 9.12 Tf -0.0786 Tc 0.1032 Tw (Federal University of Rio de Janeiro ) Tj 145.68 0 TD -0.0307 Tc 0 Tw (\226) Tj 5.04 0 TD -0.1854 Tc 0.29 Tw ( UFRJ) Tj 25.44 0 TD 0 Tc 0.1046 Tw ( ) Tj -90.48 -11.28 TD /F1 10.08 Tf 0.0778 Tw ( ) Tj -216 -527.04 TD /F2 10.08 Tf 0.12 Tw ( ) Tj 79.2 0 TD ( ) Tj ET 84.96 87.12 144 0.48 re f BT 228.96 84.96 TD ( ) Tj -144 -11.52 TD ( ) Tj -28.32 527.28 TD /F0 10.08 Tf -0.1234 Tc 0 Tw (1.) Tj 8.4 0 TD 0 Tc 0.0778 Tw ( ) Tj 9.6 0 TD -0.0397 Tc 0 Tw (Introduction) Tj 58.56 0 TD 0 Tc 0.0778 Tw ( ) Tj -58.56 -15.84 TD /F1 10.08 Tf -0.0348 Tc 0.4425 Tw (Numerical models are often used to study climate ) Tj -18 -11.28 TD -0.0377 Tc 0.0126 Tw (conditions and atmospheric phenomena. To make use ) Tj 0 -11.52 TD -0.0411 Tc 0.9988 Tw (of model outputs it is necessary to identify the model) Tj 0 Tc -0.1622 Tw ( ) Tj T* -0.0369 Tc 1.6147 Tw (deficiencies and errors, which ) Tj 1.44 Tc 0 Tw (c) Tj 145.92 0 TD -0.0302 Tc 1.628 Tw (an lead to numerical) Tj 0 Tc -0.1622 Tw ( ) Tj -145.92 -11.52 TD -0.0375 Tc 5.3953 Tw (improvements and more accurate simulations. A) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0424 Tc 5.6002 Tw (straightforward identification of the errors is the) Tj 0 Tc -0.4022 Tw ( ) Tj T* -0.0269 Tc 0.2646 Tw (comparison of forecasts against surface observations. ) Tj T* -0.0451 Tc 0.8162 Tw (The objective of this work is to evaluate the 24) Tj 211.92 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0845 Tc 0.4022 Tw (h and ) Tj -215.28 -11.52 TD 0 Tw (48) Tj 11.04 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.001 Tc 3.4387 Tw (h forecasts from CPTEC GC) Tj 140.4 0 TD -0.029 Tc 3.4668 Tw (M and Eta Model) Tj 0 Tc 0.0778 Tw ( ) Tj -154.8 -11.52 TD -0.0281 Tc 2.0259 Tw (against surface observations collected at the Forest) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0417 Tc 0.2395 Tw (Site of Rondonia, located at about 10\272S, 62\272W, for the ) Tj T* -0.0479 Tc 1.5657 Tw (period between 1 July and 1 September 2001. The) Tj 0 Tc -0.4022 Tw ( ) Tj 0 -11.28 TD -0.0304 Tc 0.1348 Tw (models are used operationally at CPTEC. This work is ) Tj 0 -11.52 TD -0.0534 Tc 0.0832 Tw (part of objectives of the CEOP) Tj 134.64 0 TD -0.0515 Tc 0.0093 Tw ( project. ) Tj 38.4 0 TD 0 Tc 0.0778 Tw ( ) Tj -173.04 -15.6 TD ( ) Tj 0 -11.28 TD /F0 10.08 Tf -0.1234 Tc 0 Tw (2.) Tj 8.4 0 TD 0 Tc 0.0778 Tw ( ) Tj 9.6 0 TD 0.0169 Tc -0.1791 Tw (The Models) Tj 55.2 0 TD 0 Tc 0.0778 Tw ( ) Tj -73.2 -15.36 TD /F3 10.08 Tf -0.0097 Tc -0.1525 Tw (CPTEC GCM) Tj 60.24 0 TD 0 Tc 0.0778 Tw ( ) Tj -60.24 -15.84 TD /F1 10.08 Tf -0.0372 Tc 1.9449 Tw (The CPTEC GCM is a spectral model at T126L28) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0457 Tc 2.9635 Tw (resolution \(Bonatti, 1996\). The model uses sigma) Tj 0 Tc -0.1622 Tw ( ) Tj T* -0.0292 Tc 2.2669 Tw (vertical coordinate. The Kuo scheme modified by) Tj 0 Tc 0.0778 Tw ( ) Tj T* -0.0523 Tc 4.2101 Tw (Anthes and Keyser \(1977\) treats the convective) Tj 0 Tc -0.1622 Tw ( ) Tj T* -0.0211 Tc 1.7788 Tw (precipitation. The land) Tj 102.24 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0246 Tc 1.7824 Tw (surface ) Tj 1.68 Tc 0 Tw (s) Tj 42.24 0 TD -0.0191 Tc 1.7768 Tw (cheme is the SSiB) Tj 0 Tc 0.0778 Tw ( ) Tj -147.84 -11.52 TD -0.0289 Tc 1.3067 Tw (scheme \(Xue et al., 1991\). Short) Tj 154.8 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0388 Tc 1.3165 Tw (wave radiation is) Tj 0 Tc -0.1622 Tw ( ) Tj -158.16 -11.52 TD -0.0444 Tc 0.5489 Tw (solved by Lacis and Hansen \(1974\) scheme and the ) Tj 0 -11.28 TD -0.0228 Tc 0 Tw (long) Tj 18.96 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.0437 Tc 16.4414 Tw (wave radiation was developed by) Tj 0 Tc 0.0778 Tw ( ) Tj -22.32 -11.52 TD -0.0288 Tc 1.6266 Tw (Harshvardham et al. \(1984\). The model verification) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD 0.0592 Tc 0 Tw (grid) Tj 16.8 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.0215 Tc 3.1393 Tw (box has evergreen forest type of vegetation.) Tj 215.04 0 TD 0 Tc 0.0778 Tw ( ) Tj -235.2 -11.52 TD -0.0208 Tc 1.5043 Tw (Monthly climatological soil moisture is taken as the) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0171 Tc 4.8262 Tw (initial soil moisture. Albedo is obtained from a) Tj 0 Tc -0.1622 Tw ( ) Tj T* -0.0456 Tc 0.1234 Tw (seasonal climatology.) Tj 95.76 0 TD 0 Tc 0.0778 Tw ( ) Tj -95.76 -15.36 TD /F3 10.08 Tf -0.0422 Tc 0.12 Tw (Eta Model) Tj 45.12 0 TD 0 Tc 0.0778 Tw ( ) Tj -45.12 -15.6 TD /F1 10.08 Tf -0.0171 Tc 4.4148 Tw (The Eta model \(Mesinger et. al, 1988\) domain) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD -0.0435 Tc 0.0412 Tw (covers most of South America. It was configured with ) Tj T* -0.0445 Tc 3.7222 Tw (40 km resolution and 38) Tj 121.44 0 TD -0.0338 Tc 3.6316 Tw ( layers. The convection) Tj 0 Tc -0.1622 Tw ( ) Tj -121.44 -11.52 TD -0.0234 Tc 2.2612 Tw (precipitation is generated by the Betts) Tj 178.8 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD 0.0282 Tc (Miller) Tj 24.24 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.0541 Tc 0.1318 Tw (Janjic ) Tj -209.76 -11.52 TD -0.0251 Tc 1.4229 Tw (scheme. The land) Tj 82.56 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0492 Tc 1.567 Tw (surface processes are solved by) Tj 0 Tc 0.0778 Tw ( ) Tj -85.92 -11.52 TD -0.0409 Tc 4.1644 Tw (OSU \(Chen et al, 1997\) scheme. The radiation) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD -0.04 Tc 5.3977 Tw (package was developed by GFDL. The lateral) Tj 0 Tc 0.0778 Tw ( ) Tj T* -0.0572 Tc 1.0549 Tw (boundaries are updated every 6 hours from) Tj 197.52 0 TD -0.0642 Tc 1.102 Tw ( CPTEC) Tj 0 Tc -0.1622 Tw ( ) Tj -197.52 -11.28 TD -0.0108 Tc 2.1286 Tw (global model forecasts. The Eta Model verification) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD 0.0592 Tc 0 Tw (grid) Tj 16.8 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.0307 Tc 6.7942 Tw (box also has evergreen forest type of) Tj 0 Tc 0.3178 Tw ( ) Tj 243.36 495.36 TD -0.0617 Tc 2.2995 Tw (vegetation, and at 63m. The Eta Model uses the) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0213 Tc 2.7091 Tw (same initial soil moisture and albedo used in the) Tj 0 Tc 0.0778 Tw ( ) Tj T* 0.0203 Tc 0 Tw (GCM.) Tj 26.4 0 TD 0 Tc 0.0778 Tw ( ) Tj -26.4 -15.36 TD ( ) Tj 0 -11.28 TD /F0 10.08 Tf -0.1234 Tc 0 Tw (3.) Tj 8.4 0 TD 0 Tc 0.0778 Tw ( ) Tj 9.6 0 TD -0.0016 Tc 0 Tw (Verifications) Tj 60.24 0 TD 0 Tc 0.0778 Tw ( ) Tj -78.24 -15.84 TD /F1 10.08 Tf 0.0165 Tc 2.2212 Tw (Model grid) Tj 49.2 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0531 Tc 2.2109 Tw (box comparison against ob) Tj 125.76 0 TD -0.024 Tc 2.2617 Tw (served point) Tj 0 Tc 0.0778 Tw ( ) Tj -178.32 -11.52 TD -0.0167 Tc 1.2259 Tw (value may not be completely fair, however, bearing) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD -0.023 Tc 2.1579 Tw (in mind model limitations, the comparison can still) Tj 0 Tc 0.0778 Tw ( ) Tj T* -0.0421 Tc 0.2998 Tw (provide some indication on the model processes that ) Tj T* -0.0599 Tc 0.1377 Tw (generate the errors.) Tj 87.84 0 TD 0 Tc 0.0778 Tw ( ) Tj -87.84 -15.12 TD /F3 10.08 Tf -0.0385 Tc 0 Tw (Precipitation) Tj 54.96 0 TD 0 Tc 0.0778 Tw ( ) Tj -54.96 -15.84 TD /F1 10.08 Tf -0.0376 Tc 0.1154 Tw (Precipitation was observed in Rond\364nia site between ) Tj 0 -11.52 TD 0.0778 Tc 0 Tw (t) Tj 2.88 0 TD -0.0249 Tc 1.5427 Tw (he 24 and 27 July 2001 \(Fig.1\). The global model) Tj 0 Tc 0.0778 Tw ( ) Tj -2.88 -11.28 TD -0.0249 Tc 3.7026 Tw (clearly overestimated the precipitation events, as) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0199 Tc 0.8177 Tw (forecasts occurred in half of the studied period. The) Tj 0 Tc -0.1622 Tw ( ) Tj T* -0.0393 Tc 1.605 Tw (Eta also produced some precipitation overestimate,) Tj 0 Tc 0.0778 Tw ( ) Tj T* -0.0271 Tc 0.7982 Tw (but not so largely as the global model and indicate) Tj 229.68 0 TD -0.0845 Tc -0.0778 Tw (d ) Tj -229.68 -11.52 TD -0.0389 Tc 0.09 Tw (the occurrence of the event. In both models, the 48) Tj 226.32 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0845 Tc -0.0778 Tw (h ) Tj -229.68 -11.52 TD -0.0201 Tc 0.715 Tw (precipitation forecast overestimate is larger than the ) Tj 0 -11.52 TD -0.0845 Tc 0 Tw (24) Tj 11.04 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.0189 Tc 2.0167 Tw (h forecasts. As the GCM grid) Tj 138.72 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0422 Tc 2.16 Tw (box represents a) Tj 0 Tc 0.0778 Tw ( ) Tj -156.48 -11.52 TD -0.0251 Tc 5.04 Tw (larger area, it may include the precipitation of) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0491 Tc 0.1269 Tw (neighboring sites.) Tj 78.48 0 TD 0 Tc 0.0778 Tw ( ) Tj -78.48 -15.12 TD /F3 10.08 Tf -0.0309 Tc -0.0113 Tw (Latent Heat Flux) Tj 73.44 0 TD 0 Tc 0.0778 Tw ( ) Tj -73.44 -15.84 TD /F1 10.08 Tf -0.0113 Tc 3.449 Tw (The global) Tj 0 Tc 0.0778 Tw ( ) Tj 56.4 0 TD -0.0249 Tc 3.4627 Tw (model underestimates the latent heat) Tj 0 Tc 0.0778 Tw ( ) Tj -56.4 -11.52 TD -0.0238 Tc 1.2482 Tw (flux. The diurnal cycle of the latent heat flux shows) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0372 Tc 1.5069 Tw (that at 18Z, the observed ) Tj 1.5955 Tc 0 Tw (6) Tj 126.96 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.0266 Tc 1.4244 Tw (h mean value of about) Tj 0 Tc 0.0778 Tw ( ) Tj -130.32 -11.52 TD -0.0946 Tc 0 Tw (240W/m) Tj 37.44 5.04 TD /F1 6.48 Tf -0.0029 Tc (2) Tj 3.6 -5.04 TD /F1 10.08 Tf -0.021 Tc 1.4987 Tw ( was underestimated by the global model.) Tj 0 Tc 0.0778 Tw ( ) Tj -41.04 -11.52 TD -0.0323 Tc 4.1901 Tw (The error increased at 48) Tj 129.12 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD 0.0024 Tc 4.1554 Tw (h forecasts. The Eta) Tj 0 Tc 0.0778 Tw ( ) Tj -132.48 -11.52 TD -0.0577 Tc 8.2954 Tw (model, on the other) Tj 0 Tc -0.1622 Tw ( ) Tj 121.68 0 TD -0.0552 Tc 8.293 Tw (hand, showed smaller) Tj 0 Tc 0.0778 Tw ( ) Tj -121.68 -11.28 TD -0.0435 Tc 0.2413 Tw (overestimate. The observed peak value of about 310 ) Tj 0 -11.52 TD -0.0248 Tc 0 Tw (W/m) Tj 20.88 5.04 TD /F1 6.48 Tf -0.0029 Tc (2) Tj 3.36 -5.04 TD /F1 10.08 Tf -0.0731 Tc 3.7029 Tw ( was forecast as 330 W/m) Tj 133.2 5.04 TD /F1 6.48 Tf -0.0029 Tc 0 Tw (2) Tj 3.6 -5.04 TD /F1 10.08 Tf -0.0698 Tc 3.7476 Tw (. The 48) Tj 43.92 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0836 Tc 3.7614 Tw (h Eta) Tj 0 Tc -0.1622 Tw ( ) Tj -208.32 -11.52 TD -0.0327 Tc 0.4705 Tw (forecasts showed a small reduction of errors relative ) Tj 0 -11.52 TD -0.0381 Tc 1.3159 Tw (to the 24) Tj 41.52 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.022 Tc 1.3397 Tw (h forecasts, in an opposite error behavior) Tj 0 Tc 0.0778 Tw ( ) Tj -44.88 -11.52 TD -0.0536 Tc 0.0713 Tw (with respect to the GCM.) Tj 110.16 0 TD 0 Tc 0.0778 Tw ( ) Tj -110.16 -15.36 TD /F3 10.08 Tf -0.0621 Tc 0 Tw (Sensible) Tj 38.16 0 TD -0.0317 Tc 0.1094 Tw ( Heat flux) Tj 42.48 0 TD 0 Tc 0.0778 Tw ( ) Tj -80.64 -15.6 TD /F1 10.08 Tf -0.0409 Tc 0.6673 Tw (The global model largely overestimated the sensible ) Tj 0 -11.52 TD 0 Tc 0.7175 Tw (heat flux. At 18Z, the observed 6) Tj 149.04 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0268 Tc 0.5245 Tw (h mean value was ) Tj -152.4 -11.52 TD -0.0316 Tc 2.1494 Tw (about 100 W/m) Tj 72.48 5.04 TD /F1 6.48 Tf -0.0029 Tc 0 Tw (2) Tj 3.6 -5.04 TD /F1 10.08 Tf -0.0428 Tc 2.2805 Tw ( whereas the observed peaked at) Tj 0 Tc 0.0778 Tw ( ) Tj -76.08 -11.52 TD -0.0535 Tc 0.3712 Tw (about 300 W/m) Tj 68.88 5.04 TD /F1 6.48 Tf -0.0029 Tc 0 Tw (2) Tj 3.6 -5.04 TD /F1 10.08 Tf -0.0439 Tc 0.3617 Tw ( at 24) Tj 25.68 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0845 Tc 0.4022 Tw (h and 48) Tj 39.36 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0117 Tc 0.2695 Tw (h forecasts. The Eta ) Tj -144.24 -11.52 TD -0.0389 Tc 0.7967 Tw (model also overestimated the sensible heat fl) Tj 204.72 0 TD -0.0963 Tc 0.5341 Tw (ux, but ) Tj -204.72 -11.52 TD -0.0282 Tc 0.5326 Tw (the errors were much smaller than the Global model ) Tj ET endstream endobj 11 0 obj 13651 endobj 4 0 obj << /Type /Page /Parent 5 0 R /Resources << /Font << /F0 6 0 R /F1 8 0 R /F2 12 0 R /F3 14 0 R >> /ProcSet 2 0 R >> /Contents 10 0 R >> endobj 17 0 obj << /Length 18 0 R >> stream BT 56.64 726.24 TD 0 0 0 rg /F1 10.08 Tf -0.0362 Tc 1.6911 Tw (errors. Again, the Eta forecast errors reduced from) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0845 Tc 0 Tw (24) Tj 11.04 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.0439 Tc 0.1217 Tw (h to the 48) Tj 47.52 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0501 Tc 0.0079 Tw (h forecasts \(Fig. 2\) .) Tj 88.8 0 TD 0 Tc 0.0778 Tw ( ) Tj -154.08 -15.36 TD /F3 10.08 Tf -0.0356 Tc -0.0067 Tw (Temperature and winds) Tj 105.12 0 TD 0 Tc 0.0778 Tw ( ) Tj -105.12 -15.6 TD /F1 10.08 Tf -0.0286 Tc 7.5121 Tw (It was noticed that both models tended to) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0367 Tc 2.0345 Tw (overestimate near) Tj 82.08 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0366 Tc 2.0343 Tw (surface temperatures part) Tj 118.56 0 TD -0.0199 Tc 0.0976 Tw (icularly ) Tj -204 -11.52 TD -0.0283 Tc 0.3727 Tw (on those days when no precipitation was forecast by ) Tj 0 -11.52 TD -0.0271 Tc 1.7849 Tw (the models. Although the Eta Model overestimated) Tj 0 Tc -0.1622 Tw ( ) Tj T* -0.0246 Tc 2.0224 Tw (less rain events, the Eta near) Tj 139.92 0 TD 0.0034 Tc 0 Tw (-) Tj 3.6 0 TD -0.0285 Tc 2.0263 Tw (surface temperature) Tj 0 Tc -0.1622 Tw ( ) Tj -143.52 -11.52 TD -0.0481 Tc 0.0959 Tw (errors were larger than the Global model errors. ) Tj 214.08 0 TD 0 Tc 0.0778 Tw ( ) Tj -214.08 -15.36 TD -0.0483 Tc 3.006 Tw (The near) Tj 42.96 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0337 Tc 2.9914 Tw (surface zonal and meridional winds ) Tj 3.0355 Tc 0 Tw (a) Tj 179.52 0 TD 0.1994 Tc -0.1217 Tw (re ) Tj -225.84 -11.52 TD -0.0216 Tc 1.9851 Tw (relatively well forecast by both models. The global) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0277 Tc 0.2769 Tw (model forecast better the zonal component, whereas ) Tj T* -0.0321 Tc 2.6698 Tw (the Eta forecast better the meridional component.) Tj 0 Tc 0.0778 Tw ( ) Tj T* -0.0496 Tc 0.0673 Tw (The errors were of the order of 1 m/s.) Tj 165.84 0 TD 0 Tc 0.0778 Tw ( ) Tj -165.84 -15.6 TD ( ) Tj 0 -11.28 TD /F0 10.08 Tf -0.0206 Tc 0 Tw (Conclusions:) Tj 63.6 0 TD 0 Tc 0.0778 Tw ( ) Tj -63.6 -15.6 TD /F1 10.08 Tf -0.0109 Tc 3.4144 Tw (The evaluation of CPTEC global model and Eta) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD -0.0406 Tc 0 Tw (Mo) Tj 13.92 0 TD -0.0252 Tc 2.063 Tw (del was carried against surface observations at) Tj 0 Tc 0.3178 Tw ( ) Tj -13.92 -11.52 TD -0.0099 Tc 3.4134 Tw (the Rond\364nia Forest Site in Brazil. Both models) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD -0.0425 Tc 3.9603 Tw (showed same error signs for precipitation, near) Tj 231.84 0 TD 0.0034 Tc 0 Tw (-) Tj -231.84 -11.52 TD -0.0289 Tc 3.3866 Tw (surface temperature, and sensible heat flux. The) Tj 0 Tc -0.1622 Tw ( ) Tj 263.52 250.08 TD -0.0328 Tc 4.6019 Tw (global model tended to increase the error with) Tj 0 Tc -0.1622 Tw ( ) Tj 0 -11.52 TD 0.0389 Tc 0.5189 Tw (forecast time, w) Tj 71.28 0 TD -0.0087 Tc 0.4979 Tw (hereas the Eta tended to reduce the ) Tj -71.28 -11.52 TD -0.0802 Tc 0 Tw (errors.) Tj 28.8 0 TD 0 Tc 0.0778 Tw ( ) Tj -28.8 -15.6 TD ( ) Tj 0 -11.28 TD /F0 10.08 Tf -0.0525 Tc 0 Tw (References:) Tj 57.12 0 TD 0 Tc 0.0778 Tw ( ) Tj -57.12 -15.6 TD /F1 10.08 Tf -0.0294 Tc 3.9472 Tw (Bonatti, J.P., 1996: Modelo de Circula\347\343o Geral) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.52 TD -0.0465 Tc 0.1243 Tw (Atmosf\351rico do CPTEC. Climan\341lise. Special Edition. ) Tj T* -0.075 Tc 0.1527 Tw (INPE. S\343o Jos\351 dos Campos.) Tj 132.24 0 TD 0 Tc 0.0778 Tw ( ) Tj -132.24 -14.4 TD -0.0778 Tc 0 Tw (C) Tj 7.2 0 TD -0.0185 Tc 2.0162 Tw (hen, F.; Janjic, Z.I.; Mitchell,) Tj 0 Tc 0.0778 Tw ( ) Tj 137.76 0 TD -0.0435 Tc 2.0413 Tw (K., 1997:) Tj 42.24 0 TD -0.0321 Tc 2.0299 Tw ( Impact of) Tj 0 Tc 0.3178 Tw ( ) Tj -187.2 -11.52 TD -0.0296 Tc 3.9474 Tw (atmospheric surfac) Tj 88.56 0 TD -0.0845 Tc 0 Tw (e) Tj 5.52 0 TD 0.0034 Tc (-) Tj 3.12 0 TD -0.0263 Tc 3.864 Tw (layer parameterization in the) Tj 0 Tc -0.1622 Tw ( ) Tj -97.2 -11.52 TD -0.0826 Tc 2.0803 Tw (new land) Tj 41.76 0 TD 0.0034 Tc 0 Tw (-) Tj 3.6 0 TD -0.0276 Tc 1.9773 Tw (surface scheme of the NCEP mesoscale) Tj 0 Tc 0.0778 Tw ( ) Tj -45.36 -11.28 TD -0.0022 Tc -0.04 Tw (Eta model. ) Tj 50.88 0 TD /F0 10.08 Tf -0.0541 Tc 0.0118 Tw (Bound. Layer Meteor.) Tj 102 0 TD /F1 10.08 Tf -0.0724 Tc 0.1502 Tw (, 85, 391) Tj 38.88 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.1039 Tc (421.) Tj 19.44 0 TD 0 Tc 0.0778 Tw ( ) Tj -214.56 -14.88 TD -0.0426 Tc 1.5261 Tw (Mesinger, F.; Janjic, Z.I.; Nickovic, S.; Gavrilov, D.;) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.28 TD -0.0276 Tc 0.5053 Tw (Deaven, D.G.: The step) Tj 106.8 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.0189 Tc 0.4166 Tw (mountain coordinate: Model ) Tj -110.16 -11.52 TD -0.0284 Tc 0.3462 Tw (description description an) Tj 114.24 0 TD -0.0092 Tc 0.327 Tw (d performance for cases of ) Tj -114.24 -11.52 TD -0.0516 Tc 7.8093 Tw (Alpine lee cyclogenesis and for a case of) Tj 0 Tc 0.3178 Tw ( ) Tj 0 -11.28 TD -0.0345 Tc 1.5522 Tw (Appalachian redevelopment.) Tj 0 Tc 0.0778 Tw ( ) Tj 132.48 0 TD /F0 10.08 Tf -0.0442 Tc 1.562 Tw (Mon. Wea. Rev.,) Tj 78.96 0 TD /F1 10.08 Tf -0.0439 Tc 1.5617 Tw ( 116,) Tj 0 Tc 0.0778 Tw ( ) Tj -211.44 -11.76 TD -0.0845 Tc 0 Tw (1493) Tj 22.08 0 TD 0.0034 Tc (-) Tj 3.36 0 TD -0.052 Tc 0.1298 Tw (1518, 1988. ) Tj 55.68 0 TD 0 Tc 0.0778 Tw ( ) Tj -81.12 -14.64 TD -0.0226 Tc 1.0603 Tw (Xue, Y., Sellers, J.P., Kinter III, J.L., and Shukla, J.) Tj 0 Tc 0.0778 Tw ( ) Tj 0 -11.28 TD -0.0208 Tc 0.0385 Tw (1991: A simplified biosphere model for global climate ) Tj T* -0.052 Tc 0.1297 Tw (studies, ) Tj 37.2 0 TD /F0 10.08 Tf -0.0845 Tc 0 Tw (J) Tj 5.52 0 TD -0.0114 Tc 0.0892 Tw (. Climate) Tj 42 0 TD /F1 10.08 Tf -0.1104 Tc 0.1882 Tw (, 4, 345) Tj 33.12 0 TD 0.0034 Tc 0 Tw (-) Tj 3.36 0 TD -0.1039 Tc (364.) 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