A comparison of spatial autocorrelation indices and landscape metrics in measuring urban landscape fragmentation
•Local spatial autocorrelation was employed to characterize landscape fragmentation.•The utility of spatial autocorrelation indices is comparable to landscape metrics.•Getis value of zero is a critical point for identifying landscape fragmentation.•Local Moran's I captures spatial pattern of di...
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| Published in | Landscape and urban planning Vol. 121; pp. 117 - 128 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Amsterdam
Elsevier B.V
01.01.2014
Elsevier |
| Subjects | |
| Online Access | Get full text |
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| Abstract | •Local spatial autocorrelation was employed to characterize landscape fragmentation.•The utility of spatial autocorrelation indices is comparable to landscape metrics.•Getis value of zero is a critical point for identifying landscape fragmentation.•Local Moran's I captures spatial pattern of different land use land cover types.•The relationship between the Getis statistic and class metrics is more sensitive to changing spatial extent than changing grain size.
The combined use of remote sensing based land cover classification and landscape metrics has provided a positive step toward gaining a comprehensive understanding of the features of landscape structure. However, numerous limitations of land cover classification indicate that the utilization of classified thematic maps in landscape pattern analysis is questionable and may even lead to large errors in subsequent analyses. Instead of generating and employing detailed land cover classification maps, the utility of local spatial autocorrelation indices derived directly from satellite imagery to measure landscape fragmentation was examined. Since local spatial autocorrelation can capture spatial pattern at a local scale, it can be expected to detail the spatial heterogeneity for various parts of a landscape instead of providing a single value as in the case with the global measures. This study compares the traditional landscape metrics to the use of satellite imagery based local spatial autocorrelation measures in quantifying landscape structure over Phoenix urban area. Two local spatial autocorrelation indices, the Getis statistic and the local Moran's I were employed in evaluating landscape pattern, using normalized indices as the inputs. Results show that there is a clear relationship between local spatial autocorrelation indices and FRAGSTATS metrics. Both the Getis statistic and the local Moran's I can serve as useful indicators of landscape heterogeneity, for the entire landscape, and for different land use and land cover types. The paper provides a feasible methodology for urban planners and resource managers for effectively characterizing landscape fragmentation using continuous dataset. |
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| AbstractList | The combined use of remote sensing based land cover classification and landscape metrics has provided a positive step toward gaining a comprehensive understanding of the features of landscape structure. However, numerous limitations of land cover classification indicate that the utilization of classified thematic maps in landscape pattern analysis is questionable and may even lead to large errors in subsequent analyses. Instead of generating and employing detailed land cover classification maps, the utility of local spatial autocorrelation indices derived directly from satellite imagery to measure landscape fragmentation was examined. Since local spatial autocorrelation can capture spatial pattern at a local scale, it can be expected to detail the spatial heterogeneity for various parts of a landscape instead of providing a single value as in the case with the global measures. This study compares the traditional landscape metrics to the use of satellite imagery based local spatial autocorrelation measures in quantifying landscape structure over Phoenix urban area. Two local spatial autocorrelation indices, the Getis statistic and the local Moran's I were employed in evaluating landscape pattern, using normalized indices as the inputs. Results show that there is a clear relationship between local spatial autocorrelation indices and FRAGSTATS metrics. Both the Getis statistic and the local Moran's I can serve as useful indicators of landscape heterogeneity, for the entire landscape, and for different land use and land cover types. The paper provides a feasible methodology for urban planners and resource managers for effectively characterizing landscape fragmentation using continuous dataset. •Local spatial autocorrelation was employed to characterize landscape fragmentation.•The utility of spatial autocorrelation indices is comparable to landscape metrics.•Getis value of zero is a critical point for identifying landscape fragmentation.•Local Moran's I captures spatial pattern of different land use land cover types.•The relationship between the Getis statistic and class metrics is more sensitive to changing spatial extent than changing grain size. The combined use of remote sensing based land cover classification and landscape metrics has provided a positive step toward gaining a comprehensive understanding of the features of landscape structure. However, numerous limitations of land cover classification indicate that the utilization of classified thematic maps in landscape pattern analysis is questionable and may even lead to large errors in subsequent analyses. Instead of generating and employing detailed land cover classification maps, the utility of local spatial autocorrelation indices derived directly from satellite imagery to measure landscape fragmentation was examined. Since local spatial autocorrelation can capture spatial pattern at a local scale, it can be expected to detail the spatial heterogeneity for various parts of a landscape instead of providing a single value as in the case with the global measures. This study compares the traditional landscape metrics to the use of satellite imagery based local spatial autocorrelation measures in quantifying landscape structure over Phoenix urban area. Two local spatial autocorrelation indices, the Getis statistic and the local Moran's I were employed in evaluating landscape pattern, using normalized indices as the inputs. Results show that there is a clear relationship between local spatial autocorrelation indices and FRAGSTATS metrics. Both the Getis statistic and the local Moran's I can serve as useful indicators of landscape heterogeneity, for the entire landscape, and for different land use and land cover types. The paper provides a feasible methodology for urban planners and resource managers for effectively characterizing landscape fragmentation using continuous dataset. |
| Author | Fan, Chao Myint, Soe |
| Author_xml | – sequence: 1 givenname: Chao surname: Fan fullname: Fan, Chao email: cfan13@asu.edu – sequence: 2 givenname: Soe surname: Myint fullname: Myint, Soe email: Soe.Myint@asu.edu |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=28015068$$DView record in Pascal Francis |
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| Snippet | •Local spatial autocorrelation was employed to characterize landscape fragmentation.•The utility of spatial autocorrelation indices is comparable to landscape... The combined use of remote sensing based land cover classification and landscape metrics has provided a positive step toward gaining a comprehensive... |
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| SubjectTerms | Applied sciences autocorrelation Buildings. Public works data collection Exact sciences and technology land cover land use Landscape fragmentation Landscape metrics landscapes Local spatial autocorrelation managers Measurements. Technique of testing Remote sensing spatial variation thematic maps urban areas Urban development vegetation types |
| Title | A comparison of spatial autocorrelation indices and landscape metrics in measuring urban landscape fragmentation |
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