Mean State

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Period Mean (original grids) [1]
Model Period Mean (intersection) [1]
Model Period Mean (complement) [1]
Benchmark Period Mean (intersection) [1]
Benchmark Period Mean (complement) [1]
Bias [1]
Phase Shift [months]
Bias Score [1]
Seasonal Cycle Score [1]
Spatial Distribution Score [1]
Overall Score [1]
Benchmark [-] 0.496
CESM2_1_001 [-] 0.481 0.521 0.336 0.495 0.600 0.0253 1.73 0.452 0.742 0.979 0.724
CESM2_1_002 [-] 0.484 0.523 0.338 0.495 0.598 0.0276 1.74 0.453 0.737 0.979 0.723
CESM2_1_003 [-] 0.481 0.520 0.334 0.495 0.598 0.0250 1.72 0.451 0.743 0.980 0.725
LENS1 [-] 0.529 0.567 0.379 0.495 0.561 0.0723 1.73 0.428 0.745 0.973 0.716
LENS10 [-] 0.526 0.566 0.373 0.495 0.562 0.0705 1.69 0.427 0.751 0.972 0.717
LENS5 [-] 0.529 0.568 0.376 0.495 0.563 0.0728 1.70 0.426 0.750 0.971 0.716

Temporally integrated period mean

BENCHMARK MEAN
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MODEL MEAN
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BIAS
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BIAS SCORE
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BENCHMARK MAX MONTH
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MODEL MAX MONTH
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DIFFERENCE IN MAX MONTH
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SEASONAL CYCLE SCORE
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SPATIAL TAYLOR DIAGRAM
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MODEL COLORS
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Spatially integrated regional mean

MODEL COLORS
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REGIONAL MEAN
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ANNUAL CYCLE
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MONTHLY ANOMALY
Data not available
ANNUAL CYCLE
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All Models

Benchmark
Data not available
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CESM2_1_001
Data not available
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CESM2_1_002
Data not available
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CESM2_1_003
Data not available
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LENS1
Data not available
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LENS10
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LENS5
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Data Information

  Approach: I read variables latent heat (le) and sensible heat (sh) from monthly original data files from 1982 until 2008, then I calculated annual mean for both variables, and I further calculated evaporative fraction (le/(le+sh)) using annual mean for both le and sh I saved the data in NetCDF format.

  Temporal resolution: climatology

  General information: This product was derived originally from Monthly estimates of global biosphere-atmosphere fluxes from Biogeochemistry group at Max Planck Institute in Jena, Germany.

  Spatial resolution: 0.5x0.5 degree

  Derived data code: http://redwood.ess.uci.edu/mingquan/www/ILAMB/Download/CODES/CODES/subroutines/convert/convert-EvapFrac-GBAF.ncl