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Modeling and simulation of tree spatial patterns in an oak-hickory forest with a modular, hierarchical spatial point process frameworkAuthor(s): Andrew J. Lister; Laura P. Leites
Source: Ecological Modelling
Publication Series: Scientific Journal (JRNL)
Station: Northern Research Station
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DescriptionModeling and simulating tree spatial distribution in complex forests is important to ecologists and applied scientists who seek to both understand pattern-creating biological processes and create realistic model forests that can be used for hypothesis testing and sampling experiments. Several patterns of tree spatial distribution can co-occur in a forest. Clustering can occur due to localized patterns of growth and mortality of larger trees and corresponding regeneration of smaller trees, while trees of medium size can exhibit more uniform patterns. Inter-tree interaction may be characterized by asymmetry of competitive strength, with larger individuals having a disproportionate influence on smaller individuals.
Many point process modeling approaches exist, but few have incorporated hierarchical principles that describe inter-tree competition. Those that do sometimes assume symmetric interaction among trees, which can be unrealistic. None of the existing models allow for the use of different model types at each level of the hierarchy, something that could provide a more realistic representation of the patterns displayed by trees of different size. In this study, we model and simulate a forest using a novel, modular, hierarchical approach that allows for the use of different model types at each hierarchy level, and incorporates asymmetrical interactions as well as the effects of environmental covariates. The forest is a mid-successional 8-ha stem-mapped oak-hickory watershed in Pennsylvania, USA. Results suggest that asymmetrical interactions based on tree size do exist, and these are mediated by the effects of topography. The hierarchical models reproduce the spatial patterns found in the original data better than non-hierarchical versions of the same models. The flexibility afforded by the modularity of our modeling framework will allow simulation of forests with varying levels of complexity as well as the testing of ecological hypotheses about drivers of spatial pattern creation.
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CitationLister, Andrew J.; Leites, Laura P. 2018. Modeling and simulation of tree spatial patterns in an oak-hickory forest with a modular, hierarchical spatial point process framework. Ecological Modelling. 378: 37-45. https://doi.org/10.1016/j.ecolmodel.2018.03.012.
KeywordsPoint process modelsHierarchical modelsSpatial patternsCompetitionFacilitation
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