Abstract
Land cover change analysis was performed for three catchments in the rural Eastern Cape, South Africa, for two time steps (2000 and 2014), to characterize landscape conversion trajectories for sustained landscape health. Land cover maps were derived: (1) from existing data (2000); and (2) through object-based image analysis (2014) of Landsat 8 imagery. Land cover change analysis was facilitated using land cover labels developed to identify landscape change trajectories. Land cover labels assigned to each intersection of the land cover maps at the two time steps provide a thematic representation of the spatial distribution of change. While land use patterns are characterized by high persistence (77%), the expansion of urban areas and agriculture has occurred predominantly at the expense of grassland. The persistence and intensification of natural or invaded wooded areas were identified as a degradation gradient within the landscape, which amounted to almost 10% of the study area. The challenge remains to determine significant signals in the landscape that are not artefacts of error in the underlying input data or scale of analysis. Systematic change analysis and accurate uncertainty reporting can potentially address these issues to produce authentic output for further modelling.
Highlights
Landscape units or land cover (LC) types encountered in the mesic regions of South Africa are diverse, comprising inter alia irrigation agriculture, dryland cultivation, extensive rangeland and forests, as well as low-density urban areas
Land use patterns in all three catchments are characterized by persistence
This paper describes the challenges encountered while performing change analysis to determine landscape conversion dynamics between two time steps represented by two datasets derived using different methods
Summary
Landscape units or land cover (LC) types encountered in the mesic regions of South Africa are diverse, comprising inter alia irrigation agriculture, dryland cultivation, extensive rangeland and forests, as well as low-density urban areas. Driven by critical water security issues in the country, noteworthy progress has been made towards establishing links between catchment health and especially the effects of invasive alien plants (IAPs) and the provision of hydrological services [1,2]. The reduction in biodiversity heightens ecosystem susceptibility to biological invasions that, in turn, erode ecosystem services [5]. By IAPs and other land use approaches, may contribute to land degradation and the reduction of water and other available resources to native species and rural inhabitants [1,2,3]. One of the fundamental requirements necessary for evaluating the merit
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