CERES a model of forest stand biomass dynamics for predicting trace contaminant, nutrient, and water effects. i. model description

Dixon, K.R.; Luxmoore, R.J.; Begovich, C.L.

CERES a model of forest stand biomass dynamics for predicting trace contaminant, nutrient, and water effects. i. model description

1978

Dixon, K.R. | Luxmoore, R.J. | Begovich, C.L.

CERES is a forest stand growth model which incorporates sugar transport in order to predict both short-term effects and long-term accumulation of trace contaminants and/or nutrients when coupled with the soil chemistry model (SCHEM), and models of solute uptake (DIFMAS and DRYADS) of the Unified Transport Model, UTM. An important feature of CERES is its ability to interface with the soil-plant-atmosphere water model (PROSPER) as a means of both predicting and studying the effects of plant water status on growth and solute transport. CERES considers the biomass dynamics of plants, standing dead and litter with plants divided into leaves, stems, roots, and fruits. The plant parts are divided further into sugar substrate, storage, and in the case of stems and roots, heartwood components. Each ecosystem component is described by a mass balance equation written as a first-order ordinary differential equation.

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