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Estimating ecosystem maximum light use efficiency based on the water use efficiency principle

Rong Gan, Lu Zhang, Yuting Yang, Enli Wang, William Woodgate, Yongqiang Zhang, Vanessa Haverd, Dongdong Kong, Tony Fischer, Francis H. S. Chiew, Qiang Yu

2021Environmental Research Letters22 citationsDOIOpen Access PDF

Abstract

Light use efficiency (LUE) defines the vegetation efficiency of converting radiative energy into biochemical energy through photosynthesis. Estimating the maximum LUE ( ε _max ) is critical yet challenging for quantifying gross primary production (GPP) using LUE-based models. This study describes an analytical method for estimating ε _max based on water use efficiency (WUE) as determined by plant water use and carbon gain. Unlike other complex parameterization schemes, this WUE-based method is simple and requires four variables relatively easy to acquire. The WUE-based ε _max estimates compare favorably well with values based on traditional curve fitting method and that reported in the literature, and clearly distinguished ε _max between C _3 (1.48 ± 0.33 ${\text{g C M}}{{\text{J}}^{ - 1}}{\text{ PAR}}$ ) and C _4 (2.63 ± 0.21 ${\text{g C M}}{{\text{J}}^{ - 1}}{\text{ PAR}}$ ) dominated ecosystems. The range in ε _max estimates was narrow across different years and sites within a biome. The WUE-based ε _max estimate is theoretically constrained by vegetation water use and can be directly incorporated into LUE models for GPP estimation across ecosystems.

Topics & Concepts

Water-use efficiencyBiomeEnvironmental scienceEcosystemVegetation (pathology)Efficient energy useRadiative transferRange (aeronautics)Water useAtmospheric sciencesMathematicsStatisticsPhotosynthesisEcologyBotanyPhysicsBiologyComposite materialQuantum mechanicsMedicinePathologyMaterials sciencePlant Water Relations and Carbon DynamicsEcology and Vegetation Dynamics StudiesPlant responses to elevated CO2