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An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation

BACKGROUND: In the Point-Centred Quarter Method (PCQM), the mean distance of the first nearest plants in each quadrant of a number of random sample points is converted to plant density. It is a quick method for plant density estimation. In recent publications the estimator equations of simple PCQM (...

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Autores principales: Khan, Md Nabiul Islam, Hijbeek, Renske, Berger, Uta, Koedam, Nico, Grueters, Uwe, Islam, S. M. Zahirul, Hasan, Md Asadul, Dahdouh-Guebas, Farid
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4919016/
https://www.ncbi.nlm.nih.gov/pubmed/27336390
http://dx.doi.org/10.1371/journal.pone.0157985
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author Khan, Md Nabiul Islam
Hijbeek, Renske
Berger, Uta
Koedam, Nico
Grueters, Uwe
Islam, S. M. Zahirul
Hasan, Md Asadul
Dahdouh-Guebas, Farid
author_facet Khan, Md Nabiul Islam
Hijbeek, Renske
Berger, Uta
Koedam, Nico
Grueters, Uwe
Islam, S. M. Zahirul
Hasan, Md Asadul
Dahdouh-Guebas, Farid
author_sort Khan, Md Nabiul Islam
collection PubMed
description BACKGROUND: In the Point-Centred Quarter Method (PCQM), the mean distance of the first nearest plants in each quadrant of a number of random sample points is converted to plant density. It is a quick method for plant density estimation. In recent publications the estimator equations of simple PCQM (PCQM1) and higher order ones (PCQM2 and PCQM3, which uses the distance of the second and third nearest plants, respectively) show discrepancy. This study attempts to review PCQM estimators in order to find the most accurate equation form. We tested the accuracy of different PCQM equations using Monte Carlo Simulations in simulated (having ‘random’, ‘aggregated’ and ‘regular’ spatial patterns) plant populations and empirical ones. PRINCIPAL FINDINGS: PCQM requires at least 50 sample points to ensure a desired level of accuracy. PCQM with a corrected estimator is more accurate than with a previously published estimator. The published PCQM versions (PCQM1, PCQM2 and PCQM3) show significant differences in accuracy of density estimation, i.e. the higher order PCQM provides higher accuracy. However, the corrected PCQM versions show no significant differences among them as tested in various spatial patterns except in plant assemblages with a strong repulsion (plant competition). If N is number of sample points and R is distance, the corrected estimator of PCQM1 is 4(4N − 1)/(π ∑ R(2)) but not 12N/(π ∑ R(2)), of PCQM2 is 4(8N − 1)/(π ∑ R(2)) but not 28N/(π ∑ R(2)) and of PCQM3 is 4(12N − 1)/(π ∑ R(2)) but not 44N/(π ∑ R(2)) as published. SIGNIFICANCE: If the spatial pattern of a plant association is random, PCQM1 with a corrected equation estimator and over 50 sample points would be sufficient to provide accurate density estimation. PCQM using just the nearest tree in each quadrant is therefore sufficient, which facilitates sampling of trees, particularly in areas with just a few hundred trees per hectare. PCQM3 provides the best density estimations for all types of plant assemblages including the repulsion process. Since in practice, the spatial pattern of a plant association remains unknown before starting a vegetation survey, for field applications the use of PCQM3 along with the corrected estimator is recommended. However, for sparse plant populations, where the use of PCQM3 may pose practical limitations, the PCQM2 or PCQM1 would be applied. During application of PCQM in the field, care should be taken to summarize the distance data based on ‘the inverse summation of squared distances’ but not ‘the summation of inverse squared distances’ as erroneously published.
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spelling pubmed-49190162016-07-08 An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation Khan, Md Nabiul Islam Hijbeek, Renske Berger, Uta Koedam, Nico Grueters, Uwe Islam, S. M. Zahirul Hasan, Md Asadul Dahdouh-Guebas, Farid PLoS One Research Article BACKGROUND: In the Point-Centred Quarter Method (PCQM), the mean distance of the first nearest plants in each quadrant of a number of random sample points is converted to plant density. It is a quick method for plant density estimation. In recent publications the estimator equations of simple PCQM (PCQM1) and higher order ones (PCQM2 and PCQM3, which uses the distance of the second and third nearest plants, respectively) show discrepancy. This study attempts to review PCQM estimators in order to find the most accurate equation form. We tested the accuracy of different PCQM equations using Monte Carlo Simulations in simulated (having ‘random’, ‘aggregated’ and ‘regular’ spatial patterns) plant populations and empirical ones. PRINCIPAL FINDINGS: PCQM requires at least 50 sample points to ensure a desired level of accuracy. PCQM with a corrected estimator is more accurate than with a previously published estimator. The published PCQM versions (PCQM1, PCQM2 and PCQM3) show significant differences in accuracy of density estimation, i.e. the higher order PCQM provides higher accuracy. However, the corrected PCQM versions show no significant differences among them as tested in various spatial patterns except in plant assemblages with a strong repulsion (plant competition). If N is number of sample points and R is distance, the corrected estimator of PCQM1 is 4(4N − 1)/(π ∑ R(2)) but not 12N/(π ∑ R(2)), of PCQM2 is 4(8N − 1)/(π ∑ R(2)) but not 28N/(π ∑ R(2)) and of PCQM3 is 4(12N − 1)/(π ∑ R(2)) but not 44N/(π ∑ R(2)) as published. SIGNIFICANCE: If the spatial pattern of a plant association is random, PCQM1 with a corrected equation estimator and over 50 sample points would be sufficient to provide accurate density estimation. PCQM using just the nearest tree in each quadrant is therefore sufficient, which facilitates sampling of trees, particularly in areas with just a few hundred trees per hectare. PCQM3 provides the best density estimations for all types of plant assemblages including the repulsion process. Since in practice, the spatial pattern of a plant association remains unknown before starting a vegetation survey, for field applications the use of PCQM3 along with the corrected estimator is recommended. However, for sparse plant populations, where the use of PCQM3 may pose practical limitations, the PCQM2 or PCQM1 would be applied. During application of PCQM in the field, care should be taken to summarize the distance data based on ‘the inverse summation of squared distances’ but not ‘the summation of inverse squared distances’ as erroneously published. Public Library of Science 2016-06-23 /pmc/articles/PMC4919016/ /pubmed/27336390 http://dx.doi.org/10.1371/journal.pone.0157985 Text en © 2016 Khan et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Khan, Md Nabiul Islam
Hijbeek, Renske
Berger, Uta
Koedam, Nico
Grueters, Uwe
Islam, S. M. Zahirul
Hasan, Md Asadul
Dahdouh-Guebas, Farid
An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation
title An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation
title_full An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation
title_fullStr An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation
title_full_unstemmed An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation
title_short An Evaluation of the Plant Density Estimator the Point-Centred Quarter Method (PCQM) Using Monte Carlo Simulation
title_sort evaluation of the plant density estimator the point-centred quarter method (pcqm) using monte carlo simulation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4919016/
https://www.ncbi.nlm.nih.gov/pubmed/27336390
http://dx.doi.org/10.1371/journal.pone.0157985
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