An environmental assessment of land cover and land use change in Central Siberia using Quantified Conceptual Overlaps to reconcile inconsistent data sets.
posted on 2009-12-03, 16:54authored byRichard A. Wadsworth, Heiko Balzter, France F. Gerard, Charles T. George, Alexis J. Comber, Peter F. Fisher
Environmental monitoring and assessment frequently require remote sensing techniques to be deployed. The production of higher level spatial datasets from remote sensing has often been driven by short-term funding constraints and specific information requirements by the funding agencies. As a result, a wide variety of historic datasets exists that were generated using different atmospheric correction methods, classification algorithms, class labelling systems, training sites, map projections, input data and spatial resolutions. Because technology, science and policy objectives are continuously changing, repeated natural resource inventories rarely employ the same methods as in previous surveys and often use class definitions that are inconsistent with earlier datasets (Comber et al. 2003). Since it is generally not economically feasible to recreate these historic land cover / land use datasets, often inconsistent datasets have to be compared. An environmental assessment of land cover and land use change in Central Siberia is presented. It utilises several different digital land cover maps generated from satellite data acquired in different years. The specific characteristics of different land cover maps create difficulties in interpreting change maps as either land cover / land use change or a pure data inconsistency. Many studies do not explicitly deal with these inconsistencies. It is argued that a rigorous treatment of multitemporal datasets must include an explicit map of consistency between the multi-temporal land cover maps. A method utilising aspects of quantified conceptual overlaps (Ahlqvist 2004) and semantic-statistical approaches (Comber et al. 2004a; Comber et al. 2004b) is presented. The method is applied to reconcile three independent land cover maps of Siberia, which differ in the number and types of classes, spatial resolution, acquisition date, sensor used and purpose. A map of inconsistency scores is presented that identifies areas of most likely land cover change based on the maximum inconsistency between the maps. The method of Quantified Conceptual Overlaps was used to identify regions where further investigations on the causes of the observed inconsistencies seem warranted. The method highlights the value of assessing change between inconsistent spatial datasets, provided that the inconsistency is adequately considered.
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Citation
Journal of Land Use Science, 2008, 3 (4), pp. 251-264