A land-use systems approach to represent land-use dynamics at continental and global scales

Most of the current global land cover datasets and global scale land-use models use a classification of land cover based on the dominant land cover type within a distinct region or pixel. Such a classification disregards the diversity and intensity of human influence on land systems. In this paper we propose a novel way of classification and modeling land-use using a classification based on land-use systems (LUSs) that represent specific combinations of human-environment interactions. A cluster analysis was used to identify and map these LUSs. The analysis accounted for population density, accessibility to market places, land-use/cover types and livestock densities. A conceptual framework was developed to model dynamics in LUSs accounting for both land cover and land management changes. LUSs changes were simulated based on changes in both local socio-economic and biophysical conditions and regional-scale changes in demand for agricultural products. The new land-use systems change model was used in the context of the integrated assessment model IMAGE.

► Novel framework of land-use systems allows simulating various LUCC processes. ► Apart from changes in land cover, land-use intensification can be simulated. ► Land-use systems allow crop-livestock integration during LUCC simulation. ► Land-use change drivers are reshaped based on local human-environment combinations. ► Past land-use change trends reported in literature are simulated appropriately.