Multifractal Spatial Patterns and Diversity in an Ecological Succession

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2012 Apr 4

PMID 22470522

Citations 2

Authors

Leonardo Ariel Saravia

Adonis Giorgi

Fernando Momo

Affiliations

Soon will be listed here.

Abstract

We analyzed the relationship between biodiversity and spatial biomass heterogeneity along an ecological succession developed in the laboratory. Periphyton (attached microalgae) biomass spatial patterns at several successional stages were obtained using digital image analysis and at the same time we estimated the species composition and abundance. We show that the spatial pattern was self-similar and as the community developed in an homogeneous environment the pattern is self-organized. To characterize it we estimated the multifractal spectrum of generalized dimensions D(q). Using D(q) we analyze the existence of cycles of heterogeneity during succession and the use of the information dimension D(1) as an index of successional stage. We did not find cycles but the values of D(1) showed an increasing trend as the succession developed and the biomass was higher. D(1) was also negatively correlated with Shannon's diversity. Several studies have found this relationship in different ecosystems but here we prove that the community self-organizes and generates its own spatial heterogeneity influencing diversity. If this is confirmed with more experimental and theoretical evidence D(1) could be used as an index, easily calculated from remote sensing data, to detect high or low diversity areas.

Citing Articles

Generalized Structure Functions and Multifractal Detrended Fluctuation Analysis Applied to Vegetation Index Time Series: An Arid Rangeland Study.

Sanz E, Saa-Requejo A, Diaz-Ambrona C, Ruiz-Ramos M, Rodriguez A, Iglesias E Entropy (Basel). 2021; 23(5).

PMID: 34067228 PMC: 8151831. DOI: 10.3390/e23050576.

mfSBA: Multifractal analysis of spatial patterns in ecological communities.

Saravia L F1000Res. 2014; 3:14.

PMID: 25324962 PMC: 4197745. DOI: 10.12688/f1000research.3-14.v2.

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