Hamish E. Brown scite author profile

Leaf internal, or mesophyll, conductance to CO2 (g m) is a significant and variable limitation of photosynthesis that also affects leaf transpiration efficiency (TE). Genotypic variation in gm and the effect of gm on TE were assessed in six barley genotypes (four Hordeum vulgare and two H. bulbosum). Significant variation in gm was found between genotypes, and was correlated with photosynthetic rate. The genotype with the highest gm also had the highest TE and the lowest carbon isotope discrimination as recorded in leaf tissue (Dp). These results suggest gm has unexplored potential to provide TE improvement within crop breeding programmes.

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APSIM Next Generation: Overcoming challenges in modernising a farming systems model

Holzworth

Huth

Fainges

et al. 2018

Environmental Modelling & Software

224

100

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Plant Modelling Framework: Software for building and running crop models on the APSIM platform

Brown

Huth

Holzworth

et al. 2014

Environmental Modelling & Software

126

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Biomass and nitrogen partitioning Integrated design environment Phenological and morphological development Reusable organ and function classes a b s t r a c tThe Plant Modelling Framework (PMF) is a software framework for creating models that represent the plant components of farm system models in the agricultural production system simulator (APSIM). It is the next step in the evolution of generic crop templates for APSIM, building on software and science lessons from past versions and capitalising on new software approaches. The PMF contains a top-level Plant class that provides an interface with the APSIM model environment and controls the other classes in the plant model. Other classes include mid-level Organ, Phenology, Structure and Arbitrator classes that represent specific elements or processes of the crop and sub-classes that the mid-level classes use to represent repeated data structures. It also contains low-level Function classes which represent generic mathematical, logical, procedural or reference code and provide values to the processes carried out by mid-level classes. A plant configuration file specifies which mid-level and Function classes are to be included and how they are to be arranged and parameterised to represent a particular crop model. The PMF has an integrated design environment to allow plant models to be created visually. The aims of the PMF are to maximise code reuse and allow flexibility in the structure of models. Four examples are included to demonstrate the flexibility of application of the PMF; 1. Slurp, a simple model of the water use of a static crop, 2. Oat, an annual grain crop model with detailed growth, development and resource use processes, 3. Lucerne, perennial forage model with detailed growth, development and resource use processes, 4. Wheat, another detailed annual crop model constructed using an alternative set of organ and process classes. These examples show the PMF can be used to develop models of different complexities and allows flexibility in the approach for implementing crop physiology concepts into model set up.

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The impact of water and nitrogen limitation on maize biomass and resource-use efficiencies for radiation, water and nitrogen

Teixeira

George

Herreman

et al. 2014

Field Crops Research

123

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Hamish E. Brown

APSIM – Evolution towards a new generation of agricultural systems simulation

Variability in mesophyll conductance between barley genotypes, and effects on transpiration efficiency and carbon isotope discrimination

APSIM Next Generation: Overcoming challenges in modernising a farming systems model

Plant Modelling Framework: Software for building and running crop models on the APSIM platform

The impact of water and nitrogen limitation on maize biomass and resource-use efficiencies for radiation, water and nitrogen

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