Henning Braune scite author profile

We discuss a generalised formulation of the nitrogen-sensitive photosynthesisÀstomatal conductance model LEAFC3-N to be used as a submodel of functional-structural plant models (FSPMs) or traditional crop growth models for C 3 -crops. Based on a parameterisation study for barley, we demonstrate that the large variation of characteristics related to potential leaf photosynthesis and stomatal conductance, along with different factors, can be accounted for by introducing functions that relate parameter values to nitrogen contents. These relationships follow the same pattern for different C 3 crops, and their parameters are in close range. The accuracy of the parameters and the minimum simulation time step required for reliable predictions of the integrated diurnal carbon gain (IDC) is assessed. For IDC predictions with an accuracy of about AE5%, the accuracy of the slope of the relationship between maximum carboxylation rate and leaf nitrogen content should be of similar order. For other key model parameters, an error of AE20% or even greater may be tolerated. A time step of 1-2 h will be sufficient to predict IDC with an accuracy of about AE5%.

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Complete Parameterization of Photosynthesis Models—An Example for Barley

Müller

Braune

Diepenbrock

2009

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Photosynthesis And Carbon Balance

Müller¹,

Wernecke²,

Braune³

et al. 2007

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Henning Braune

Integrating effects of leaf nitrogen, age, rank, and growth temperature into the photosynthesis-stomatal conductance model LEAFC3-N parameterised for barley (Hordeum vulgare L.)

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Photosynthesis - stomatal conductance model LEAFC3-N: specification for barley, generalised nitrogen relations, and aspects of model application

Complete Parameterization of Photosynthesis Models—An Example for Barley

Photosynthesis And Carbon Balance

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