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- Title
Comparing two approaches for parsimonious vegetation modelling in semiarid regions using satellite data.
- Authors
Pasquato, Marta; Medici, Chiara; Friend, Andrew D.; Francés, Félix
- Abstract
Large portions of Earth's terrestrial surface are arid or semiarid. As in these regions, the hydrological cycle and the vegetation dynamics are tightly interconnected, a coupled modelling of these two systems is needed to fully reproduce the ecosystem behaviour. In this paper, the performance of two parsimonious dynamic vegetation models, suitable for the inclusion in operational ecohydrological models and based on well-established but different approaches, is compared in a semiarid Aleppo Pine region. The first model [water use efficiency (WUE) model] links growth to transpiration through WUE; the second model [light use efficiency (LUE) model] simulates biomass increase in relation to absorbed photosynthetically active radiation and LUE. Furthermore, an analysis of the information contained in MODIS products is presented to indicate the best vegetation indices to be used as observational verification for the models. Enhanced Vegetation Index is reported in literature to be highly correlated with leaf area index, so it is compared with modelled LAImod ( rWUE model = 0.45; rLUE model = 0.57). In contrast, Normalized Difference Vegetation Index appears highly linked to soil moisture, through the control exerted by this variable on chlorophyll production, and is therefore used to analyze LAI*mod, models' output corrected by plant water stress ( rWUE model = 0.62; rLUE model = 0.59). Moderate-resolution imaging spectroradiometer Leaf Area Index and evapotranspiration are found to be unrealistic in the studied area. The performance of both models in this semiarid region is found to be reasonable. However, the LUE model presents the advantages of a better performance, the possibility to be used in a wider range of climates and to have been extensively tested in literature. Copyright © 2014 John Wiley & Sons, Ltd.
- Subjects
ARID regions; EARTH (Planet); HYDROLOGIC cycle; VEGETATION dynamics; PARSIMONIOUS models
- Publication
Ecohydrology, 2015, Vol 8, Issue 6, p1024
- ISSN
1936-0584
- Publication type
Article
- DOI
10.1002/eco.1559