A species-specific individual-based simulation model of mixed mangrove forest stands

A species-specific individual-based simulation model of mixed mangrove forest stands

A species-specific spatially explicit individual-based model has been developed to simulate the development of mixed mangrove forest stands featuring eight species. The model is a forest stand model that forecasts mangrove forest development in a 50 m x 50 m plot by simulating the recruitment, growt...

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Main Authors: Estacio, Ian, Quinton, Khristoffer Ryan, Macatulad, Edgardo, Salmo, Severino G, III
Format: text
Published: Archīum Ateneo 2019
Subjects:
Mangroves
Simulation
Individual-based
Environmental Modelling
Forest Stand
Salinity
Shading
FON
Environmental Sciences
Online Access:https://archium.ateneo.edu/es-faculty-pubs/27
https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1026&context=es-faculty-pubs
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Institution: Ateneo De Manila University
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spelling ph-ateneo-arc.es-faculty-pubs-10262020-04-27T07:10:26Z A species-specific individual-based simulation model of mixed mangrove forest stands Estacio, Ian Quinton, Khristoffer Ryan Macatulad, Edgardo Salmo, Severino G, III A species-specific spatially explicit individual-based model has been developed to simulate the development of mixed mangrove forest stands featuring eight species. The model is a forest stand model that forecasts mangrove forest development in a 50 m x 50 m plot by simulating the recruitment, growth, and mortality of individual mangrove trees. Species-specific growth rates, shade responses, and salinity responses of each species were incorporated to observe differences in forest structure given different salinity conditions. The model used a modified Field of Neighborhood (FON) approach that considers species-specific responses to shading and a salinity response function that considers the species-specific salinity upper boundary value of optimum growth and maximum porewater salinity of a mangrove. Simulation results of 300 years given salinity conditions in a specific site in Katunggan It Ibajay (KII) showed matching dominant species in the site. Simulation results of 500 years given extreme low and high salinity values showed consistent forest dynamics where above-ground biomass and tree count approach certain limit values as the forest stand matures. Simulation results also of 300 years given salinity values ranging from 1 – 37 ppt showed the different dominant species for different salinity conditions. 2019-01-01T08:00:00Z text application/pdf https://archium.ateneo.edu/es-faculty-pubs/27 https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1026&context=es-faculty-pubs Environmental Science Faculty Publications Archīum Ateneo Mangroves Simulation Individual-based Environmental Modelling Forest Stand Salinity Shading FON Environmental Sciences
institution Ateneo De Manila University
building Ateneo De Manila University Library
country Philippines
collection archium.Ateneo Institutional Repository
topic Mangroves
Simulation
Individual-based
Environmental Modelling
Forest Stand
Salinity
Shading
FON
Environmental Sciences
spellingShingle Mangroves
Simulation
Individual-based
Environmental Modelling
Forest Stand
Salinity
Shading
FON
Environmental Sciences
Estacio, Ian
Quinton, Khristoffer Ryan
Macatulad, Edgardo
Salmo, Severino G, III
A species-specific individual-based simulation model of mixed mangrove forest stands
description A species-specific spatially explicit individual-based model has been developed to simulate the development of mixed mangrove forest stands featuring eight species. The model is a forest stand model that forecasts mangrove forest development in a 50 m x 50 m plot by simulating the recruitment, growth, and mortality of individual mangrove trees. Species-specific growth rates, shade responses, and salinity responses of each species were incorporated to observe differences in forest structure given different salinity conditions. The model used a modified Field of Neighborhood (FON) approach that considers species-specific responses to shading and a salinity response function that considers the species-specific salinity upper boundary value of optimum growth and maximum porewater salinity of a mangrove. Simulation results of 300 years given salinity conditions in a specific site in Katunggan It Ibajay (KII) showed matching dominant species in the site. Simulation results of 500 years given extreme low and high salinity values showed consistent forest dynamics where above-ground biomass and tree count approach certain limit values as the forest stand matures. Simulation results also of 300 years given salinity values ranging from 1 – 37 ppt showed the different dominant species for different salinity conditions.
format text
author Estacio, Ian
Quinton, Khristoffer Ryan
Macatulad, Edgardo
Salmo, Severino G, III
author_facet Estacio, Ian
Quinton, Khristoffer Ryan
Macatulad, Edgardo
Salmo, Severino G, III
author_sort Estacio, Ian
title A species-specific individual-based simulation model of mixed mangrove forest stands
title_short A species-specific individual-based simulation model of mixed mangrove forest stands
title_full A species-specific individual-based simulation model of mixed mangrove forest stands
title_fullStr A species-specific individual-based simulation model of mixed mangrove forest stands
title_full_unstemmed A species-specific individual-based simulation model of mixed mangrove forest stands
title_sort species-specific individual-based simulation model of mixed mangrove forest stands
publisher Archīum Ateneo
publishDate 2019
url https://archium.ateneo.edu/es-faculty-pubs/27
https://archium.ateneo.edu/cgi/viewcontent.cgi?article=1026&context=es-faculty-pubs
_version_ 1681506582577283072

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