A novel approach to simulate growth of multi-stem willow in bioenergy production systems with a simple process-based model (3PG)

Amichev, Beyhan Y.; Hangs, R.D.; Rees, K. C. J. Van

doi:10.1016/j.biombioe.2010.09.007

Cited by 37 publications

(39 citation statements)

References 29 publications

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“…Only four studies could be found that applied 3-PG to deciduous species. Three of these, which modelled Populus hybrids and Salix dasyclados, modelled these species as if they were evergreen (Amichev et al, 2010(Amichev et al, , 2011Headlee et al, 2013). In the fourth study the dormant period of Betula platyphylla was modelled using the 3-PG temperature modifier such that there was zero GPP during winter months with temperatures lower than a defined minimum (Potithep and Yasuoka, 2011).…”

Section: Deciduous Speciesmentioning

confidence: 99%

Analysing the spatial and temporal dynamics of species interactions in mixed-species forests and the effects of stand density using the 3-PG model

Forrester

Tang

2016

Ecological Modelling

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Section: Deciduous Speciesmentioning

confidence: 99%

Analysing the spatial and temporal dynamics of species interactions in mixed-species forests and the effects of stand density using the 3-PG model

Forrester

Tang

2016

Ecological Modelling

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“…A stratified sampling was carried out on the basis of species and the degree of decline across the whole area Using 3PG model to assess growth decline processes minimum and maximum temperatures (Thornton & Running, 1999;Amichev et al, 2011). Although the 3-PG model can be run using long-term monthly averages, we used current monthly weather data to account for drought events, in particular, during periods of relatively high mean temperature and high solar radiation that occurred during 1983, 1990-1995, 1999, 2001 and 2005.…”

Section: Field Data Collectionmentioning

confidence: 99%

Growth decline assessment in Pinus sylvestris L. and Pinus nigra Arnold. forest by using 3-PG model.

Navarro-Cerrillo¹,

Beira²,

Suárez

et al. 2016

For. syst.

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Aim of the study : We assessed the ability of the 3-PG process-based model to accurately predict growth of Pinus sylvestris and P. nigra plantations across a range of sites, showing declining growth trends, in southern Spain.Area of study: The study area is located in "Sierra de Los Filabres" (Almería). Material and methods:The model was modified in fifteen parameters to predict diameter (DBH, cm), basal area increment (BAI, cm 2 yr -1 ) and leaf area index (LAI, m 2 m -2 ) in healthy trees and trees showing declining growth. We assumed that a set of specific physiological parameters (stem partitioning ratio-pFS 20 , maximum litterfall rate-γ Fx , maximum canopy conductance-g Cx , specific leaf area for mature aged stands-σ 1 , age at which specific leaf area = ½ (σ 0 + σ 1 ), age at full canopy cover-t c , and canopy boundary layer conductance-g B ) included in 3-PG would be suitable for predicting growth decline related to climate conditions. The calibrated model was evaluated using dendrochronological and LAI data obtained from plots.Main results: Observed and simulated DBH showed a high correlation (R 2 > 0.99) between modelled and measured values for both species. In contrast, modelled and observed BAI showed lower correlation (R 2 < 0.68). Sensitivity analysis on 3-PG outputs showed that the foliage parameters -maximum litterfall rate, maximum canopy conductance, specific leaf area for mature aged stands, age at which specific leaf area, and age at full canopy cover -were important for DBH and BAI predictions under drought stress.Research highlights: Our overall results indicated that the 3-PG model could predict growth response of pine plantations to climatic stress with desirable accuracy in southern Spain by using readily available soil and climatic data with physiological parameters derived from experiments.

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“…Los modelos basados en procesos han sido desarrollados alrededor del mundo, y uno de los más extensamente usados es 3PG (Principios Fisiológicos en la Predicción de Crecimiento por sus siglas en inglés Physiological Principles in Predicting Growth) (Rodriguez-Suarez, Soto, Iglesias, & Diaz-Fierros, 2010), modelo eco-fisiológico desarrollado por Landsberg y Warring (1997), requiere pocos parámetros para predecir el crecimiento de las plantaciones forestales (Amichev, Johnston, & Van Rees, 2010), por lo que representa una opción interesante para predecir efectos y rendimientos, así como aportar información que permita la toma de decisión y análisis financiero por parte de agencias gubernamentales y empresas privadas (Amichev, Hangs, & Van Rees, 2011). El modelo 3PG ha sido utilizado para modelar la producción forestal, fijación de carbono, el uso del agua, entre otros, pudiendo también aplicarse a la modelación del diámetro y la altura de árboles.…”

Section: Introductionunclassified

“…When parameterization using values from literature and project parameters, an adequate estimation was evident where allometry allows an adequate adjustment of the model when stocking is considered, thus stocking density is highlighted as one of the most important parameters to be set in the establishment of high stocking forest plantations. ISSN: 2215-2504 | DOI: 10.18845/rfmk.v14i35.3151 | revistas.tec.ac.cr/kuru modelo para plantaciones forestales de alta densidad con fines energéticos y la aplicación del modelo en esta modalidad solo se ha reportado por Amichev et al (2011). El modelo ha sido utilizado para la predicción de la productividad de Salix sp y Populus sp en plantaciones dendroenergéticas siendo una fuente de información para silvicultores e industriales en Canadá (Amichev, et al, 2011;Amichev, et al, 2010).…”

Section: Introductionunclassified

“…ISSN: 2215-2504 | DOI: 10.18845/rfmk.v14i35.3151 | revistas.tec.ac.cr/kuru modelo para plantaciones forestales de alta densidad con fines energéticos y la aplicación del modelo en esta modalidad solo se ha reportado por Amichev et al (2011). El modelo ha sido utilizado para la predicción de la productividad de Salix sp y Populus sp en plantaciones dendroenergéticas siendo una fuente de información para silvicultores e industriales en Canadá (Amichev, et al, 2011;Amichev, et al, 2010).…”

Section: Introductionunclassified

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Uso de 3PG como herramienta para modelar plantaciones dendroenergéticas de Eucalyptus camaldulensis en la región de Biobío, Chile

Esquivel-Segura

Rubilar-Pons

Sandoval³

et al. 2017

RFMK

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Uso de 3PG como herramienta para modelar plantaciones dendroenergéticas de Eucalyptus camaldulensis en la región de Biobío, Chile AbstractUse of 3PG as a tool for modelling forest plantation of Eucalyptus camaldulensis in the region of Bío-Bío, ChileWood energy plantations have shown yields that are been site-specific. In some countries large-scale production is being initiated without knowing the productivity levels they will have in relation to the availability of site resources. Ecophysiological models allow the prediction of productivity of forest plantations using environmental

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A novel approach to simulate growth of multi-stem willow in bioenergy production systems with a simple process-based model (3PG)

Cited by 37 publications

References 29 publications

Analysing the spatial and temporal dynamics of species interactions in mixed-species forests and the effects of stand density using the 3-PG model

Analysing the spatial and temporal dynamics of species interactions in mixed-species forests and the effects of stand density using the 3-PG model

Growth decline assessment in Pinus sylvestris L. and Pinus nigra Arnold. forest by using 3-PG model.

Uso de 3PG como herramienta para modelar plantaciones dendroenergéticas de Eucalyptus camaldulensis en la región de Biobío, Chile

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