Fractal analysis for studying the evolution of forests

Ion C. Andronache; Helmut Ahammer; Herbert F. Jelinek; Daniel Peptenatu; Ana M. Ciobotaru; Cristian C. Draghici; Radu D. Pintilii; Adrian G. Simion; Camelia Teodorescu

doi:10.1016/j.chaos.2016.06.013

Fractal analysis for studying the evolution of forests

Ion C. Andronache
, Helmut Ahammer
, Herbert F. Jelinek
, Daniel Peptenatu
, Ana M. Ciobotaru
, Cristian C. Draghici
, Radu D. Pintilii
, Adrian G. Simion
, Camelia Teodorescu

Biomedical Engineering & Biotechnology

Research output: Contribution to journal › Article › peer-review

50 Scopus citations

Abstract

Deforestation is an important phenomenon that may create major imbalances in ecosystems. In this study we propose a new mathematical analysis of the forest area dynamic, enabling qualitative as well as quantitative statements and results. Fractal dimensions of the area and the perimeter of a forest were determined using digital images. The difference between fractal dimensions of the area and the perimeter images turned out to be a crucial quantitative parameter. Accordingly, we propose a new fractal fragmentation index, FFI, which is based on this difference and which highlights the degree of compaction or non-compaction of the forest area in order to interpret geographic features. Particularly, this method was applied to forests, where large areas have been legally or illegally deforested. However, these methods can easily be used for other ecological or geographical investigations based on digital images, including deforestation of rainforests.

Original language	British English
Pages (from-to)	310-318
Number of pages	9
Journal	Chaos, Solitons and Fractals
Volume	91
DOIs	https://doi.org/10.1016/j.chaos.2016.06.013
State	Published - 1 Oct 2016

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 12 Responsible Consumption and Production
SDG 15 Life on Land

Keywords

Deforestation
Forest ecology
Forest management
Fractal dimension
Fractal fragmentation index
Global warming

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10.1016/j.chaos.2016.06.013

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title = "Fractal analysis for studying the evolution of forests",

abstract = "Deforestation is an important phenomenon that may create major imbalances in ecosystems. In this study we propose a new mathematical analysis of the forest area dynamic, enabling qualitative as well as quantitative statements and results. Fractal dimensions of the area and the perimeter of a forest were determined using digital images. The difference between fractal dimensions of the area and the perimeter images turned out to be a crucial quantitative parameter. Accordingly, we propose a new fractal fragmentation index, FFI, which is based on this difference and which highlights the degree of compaction or non-compaction of the forest area in order to interpret geographic features. Particularly, this method was applied to forests, where large areas have been legally or illegally deforested. However, these methods can easily be used for other ecological or geographical investigations based on digital images, including deforestation of rainforests.",

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note = "Funding Information: The research activities were financed by the projects “Spatial projection of the human pressure on forest ecosystems in Romania”, University of Bucharest , ( UB/1365 ) and “Development of the theory of the dynamic context by analyzing the role of the aridization in generating and amplifying the regressive phenomena from the territorial systems”, Executive Agency for Higher Education, Research, Development and Innovation Funding , Romanian Ministry of Education Research Youth and Sport (UEFISCDI) ( TE-2014-4-0835 ). Publisher Copyright: {\textcopyright} 2016 Elsevier Ltd",

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AU - Andronache, Ion C.

AU - Ahammer, Helmut

AU - Jelinek, Herbert F.

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AU - Draghici, Cristian C.

AU - Pintilii, Radu D.

AU - Simion, Adrian G.

AU - Teodorescu, Camelia

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PY - 2016/10/1

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N2 - Deforestation is an important phenomenon that may create major imbalances in ecosystems. In this study we propose a new mathematical analysis of the forest area dynamic, enabling qualitative as well as quantitative statements and results. Fractal dimensions of the area and the perimeter of a forest were determined using digital images. The difference between fractal dimensions of the area and the perimeter images turned out to be a crucial quantitative parameter. Accordingly, we propose a new fractal fragmentation index, FFI, which is based on this difference and which highlights the degree of compaction or non-compaction of the forest area in order to interpret geographic features. Particularly, this method was applied to forests, where large areas have been legally or illegally deforested. However, these methods can easily be used for other ecological or geographical investigations based on digital images, including deforestation of rainforests.

AB - Deforestation is an important phenomenon that may create major imbalances in ecosystems. In this study we propose a new mathematical analysis of the forest area dynamic, enabling qualitative as well as quantitative statements and results. Fractal dimensions of the area and the perimeter of a forest were determined using digital images. The difference between fractal dimensions of the area and the perimeter images turned out to be a crucial quantitative parameter. Accordingly, we propose a new fractal fragmentation index, FFI, which is based on this difference and which highlights the degree of compaction or non-compaction of the forest area in order to interpret geographic features. Particularly, this method was applied to forests, where large areas have been legally or illegally deforested. However, these methods can easily be used for other ecological or geographical investigations based on digital images, including deforestation of rainforests.

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KW - Forest management

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KW - Fractal fragmentation index

KW - Global warming

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JF - Chaos, Solitons and Fractals

ER -

Fractal analysis for studying the evolution of forests

Abstract

UN SDGs

Keywords

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