PEACH: a simulation model of reproductive and vegetative growth in peach trees

The hypothesis that carbohydrate partitioning is driven by competition among individual plant organs, based on each organ's growth potential, was used to develop a simulation model of the carbon supply and demand for reproductive and vegetative growth in peach trees. In the model, photosyntheti...

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Veröffentlicht in:	Tree physiology 1994-04, Vol.14 (4), p.329-345
Hauptverfasser:	Grossman, Y.L, DeJong, T.M
Format:	Artikel
Sprache:	eng
Schlagworte:	Agronomy. Soil science and plant productions Biological and medical sciences Biometrics, statistics, experimental designs, modeling, agricultural computer applications CRECIMIENTO CROISSANCE FOTOSINTESIS Fundamental and applied biological sciences. Psychology Generalities. Biometrics, experimentation. Remote sensing MATEMATICAS MATHEMATIQUE MODELE MODELE DE SIMULATION MODELOS MODELOS DE SIMULACION PHOTOSYNTHESE PRUNUS PERSICA RELACIONES FUENTE SUMIDERO RELATION SOURCE PUITS RESPIRACION RESPIRATION TRANSPORT DES SUBSTANCES NUTRITIVES TRANSPORTE DE NUTRIENTES VARIACION ESTACIONAL VARIATION SAISONNIERE
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container_title	Tree physiology
container_volume	14
creator	Grossman, Y.L DeJong, T.M
description	The hypothesis that carbohydrate partitioning is driven by competition among individual plant organs, based on each organ's growth potential, was used to develop a simulation model of the carbon supply and demand for reproductive and vegetative growth in peach trees. In the model, photosynthetic carbon assimilation is simulated using daily minimum and maximum temperature and solar radiation as inputs. Carbohydrate is first partitioned to maintenance respiration, then to leaves, fruits, stems and branches, then to the trunk. Root activity is supported by residual carbohydrate after aboveground growth. Verification of the model was carried out with field data from trees that were thinned at different times. In general, the model predictions corresponded to field data for fruit and vegetative growth. The model predicted that resource availability limited fruit and stem growth during two periods of fruit growth, periods that had been identified in earlier experimental studies as resource-limited growth periods. The model also predicted that there were two periods of high carbohydrate availability for root activity. The fit between model predictions and field data supports the initial hypothesis that plants function as collections of semiautonomous, interacting organs that compete for resources based on their growth potentials
doi_str_mv	10.1093/treephys/14.4.329
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Soil science and plant productions</topic><topic>Biological and medical sciences</topic><topic>Biometrics, statistics, experimental designs, modeling, agricultural computer applications</topic><topic>CRECIMIENTO</topic><topic>CROISSANCE</topic><topic>FOTOSINTESIS</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Generalities. Biometrics, experimentation. 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In the model, photosynthetic carbon assimilation is simulated using daily minimum and maximum temperature and solar radiation as inputs. Carbohydrate is first partitioned to maintenance respiration, then to leaves, fruits, stems and branches, then to the trunk. Root activity is supported by residual carbohydrate after aboveground growth. Verification of the model was carried out with field data from trees that were thinned at different times. In general, the model predictions corresponded to field data for fruit and vegetative growth. The model predicted that resource availability limited fruit and stem growth during two periods of fruit growth, periods that had been identified in earlier experimental studies as resource-limited growth periods. The model also predicted that there were two periods of high carbohydrate availability for root activity. The fit between model predictions and field data supports the initial hypothesis that plants function as collections of semiautonomous, interacting organs that compete for resources based on their growth potentials</abstract><cop>Victoria, BC</cop><pub>Heron</pub><pmid>14967690</pmid><doi>10.1093/treephys/14.4.329</doi><tpages>17</tpages></addata></record>
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source	Oxford University Press Journals Digital Archive Legacy
subjects	Agronomy. Soil science and plant productions Biological and medical sciences Biometrics, statistics, experimental designs, modeling, agricultural computer applications CRECIMIENTO CROISSANCE FOTOSINTESIS Fundamental and applied biological sciences. Psychology Generalities. Biometrics, experimentation. Remote sensing MATEMATICAS MATHEMATIQUE MODELE MODELE DE SIMULATION MODELOS MODELOS DE SIMULACION PHOTOSYNTHESE PRUNUS PERSICA RELACIONES FUENTE SUMIDERO RELATION SOURCE PUITS RESPIRACION RESPIRATION TRANSPORT DES SUBSTANCES NUTRITIVES TRANSPORTE DE NUTRIENTES VARIACION ESTACIONAL VARIATION SAISONNIERE
title	PEACH: a simulation model of reproductive and vegetative growth in peach trees
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