Author/Authors
gülçin, derya aydın adnan menderes university - faculty of agriculture - department of landscape architecture, Aydın, TURKEY , gülçin, derya the university of british columbia - department of forest resources management, Vancouver, Canada , yilmaz, k. tuluhan cukurova university - faculty of architecture - department of landscape architecture, Adana, TURKEY
Title Of Article
QUANTIFICATION OF THE CHANGE IN ECOLOGICAL CONNECTIVITY USING A GIS-BASED MODEL AND CURRENT COMPLEXITY METRICS
شماره ركورد
43895
Abstract
Landscape patterns have been undergoing various changes on account of environmental and human factors. These changes affect ecological connectivity of landscapes; therefore existing connections are necessary to maintain sustainable habitats. Connectivity is associated with the diversity and composition of landscape structure. For this reason, when studying ecological connectivity, it is relevant to analyze the changes in diversity, composition, and fragmentation of landscape patterns. This study was conducted in Manisa, Turkey, where the impact of industrialization and urbanization on landscape is very significant. The aim of this study is to assess the changes in ecological connectivity based on an ecological connectivity model and landscape metrics that characterize landscape heterogeneity between 2000 and 2018. Largest Patch Index (LPI), Marginal Entropy (ENT), and Relative Mutual Information (RELMUTINF) were utilized to evaluate the fragmentation, diversity, and composition of the landscape, respectively. As a result of this study, forest loss was found to be 12,970 ha based on 18 years of land change. This has an adverse impact on the ecological connectivity, resulting in a decrease in the high and very high connectivity areas from 71.5% to 53.5%. At the landscape level, the decrease in the LPI from 3.55 to 2.30 shows that fragmentation has increased in Manisa. Since larger patches have higher species diversity in general, a drop in the LPI value indicates that species diversity has decreased over time. The most substantial observed changes include the homogenization of agricultural land and the fragmentation of forests. The results demonstrate that a combination of ecological connectivity and landscape metrics would be highly effective for extensive planning and interpretation.
From Page
689
NaturalLanguageKeyword
Landscape Connectivity , Landscape Pattern , Landscape Composition , Fragmentation , Landscape Mosaic
JournalTitle
International Journal of Geography and Geography Education
To Page
701
JournalTitle
International Journal of Geography and Geography Education
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