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• W3136756890 abstract "In land surface models, vegetation is often described using plant functional types (PFTs), a classification that aggregates plant species into a few groups based on similar characteristics. Within-PFT variability of these characteristics can introduce considerable uncertainty in the simulation of water fluxes in forests. Our objectives were to (i) compare the variability of the annual maximum leaf area index (LAI max ) within and between PFTs and (ii) assess whether this variability leads to significant differences in simulated water fluxes at a regional scale. We classified our study region in southwestern Quebec (Canada) into three PFTs (evergreen needleleaf, deciduous broadleaf, and mixed forests) and characterized LAI max using remotely sensed MODIS-LAI data. We simulated water fluxes with the Canadian Land Surface Scheme (CLASS) and performed a sensitivity analysis. We found that within-PFT variability of LAI max was 1.7 times more important than variability between PFTs, with similar mean values for the two dominant PFTs, deciduous broadleaf forests (6.6 m 2 ·m −2 ) and mixed forests (6.3 m 2 ·m −2 ). In CLASS, varying LAI max within the observed range of values (4.0–7.5 m 2 ·m −2 ) led to changes of less than 2% in mean evapotranspiration. Overall, LAI max is likely not an important driver of the spatial variability of water fluxes at the regional level." @default.
• W3136756890 created "2021-03-29" @default.
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• W3136756890 date "2021-04-01" @default.
• W3136756890 modified "2023-10-13" @default.
• W3136756890 title "Is the annual maximum leaf area index an important driver of water fluxes simulated by a land surface model in temperate forests?" @default.
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• W3136756890 doi "https://doi.org/10.1139/cjfr-2020-0126" @default.
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