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Biblioteca Analyses of Land Cover Change Trajectories Leading to Tropical Forest Loss: Illustrated for the West Kutai and Mahakam Ulu Districts, East Kalimantan, Indonesia

Analyses of Land Cover Change Trajectories Leading to Tropical Forest Loss: Illustrated for the West Kutai and Mahakam Ulu Districts, East Kalimantan, Indonesia

Analyses of Land Cover Change Trajectories Leading to Tropical Forest Loss: Illustrated for the West Kutai and Mahakam Ulu Districts, East Kalimantan, Indonesia

Resource information

Date of publication
Setembro 2018
Resource Language
ISBN / Resource ID
NARCIS:rug:oai:pure.rug.nl:publications/f1d457e0-9c6c-4259-a639-1ebf1894ed2a

In Indonesia, land cover change for agriculture and mining is threatening tropical forests, biodiversity and ecosystem services. However, land cover change is highly dynamic and complex and varies over time and space. In this study, we combined Landsat-based land cover (change) mapping, pixel-to-pixel cross tabulations and expert knowledge to analyze land cover change and forest loss in the West Kutai and Mahakam Ulu districts in East Kalimantan from 1990-2009. We found that about one-third of the study area changed in 1990-2009 and that the different types of land cover changes in the study area increased and involved more diverse and characteristic trajectories in 2000-2009, compared to 1990-2000. Degradation to more open forest types was dominant, and forest was mostly lost due to trajectories that involved deforestation to grasslands and shrubs (similar to 17%), and to a lesser extent due to trajectories from forest to mining and agriculture (11%). Trajectories from forest to small-scale mixed cropland and smallholder rubber occurred more frequently than trajectories to large-scale oil palm or pulpwood plantations; however, the latter increased over time. About 11% of total land cover change involved multiple-step trajectories and thus intermediate land cover types. The combined trajectory analysis in this paper thus contributes to a more comprehensive analysis of land cover change and the drivers of forest loss, which is essential to improve future land cover projections and to support spatial planning.

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Authors and Publishers

Author(s), editor(s), contributor(s)

van der Laan, Carina
Budiman, Arif
Verstegen, Judith A.
Dekker, Stefan C.
Effendy, Wiwin
Faaij, Andre P. C.
Kusuma, Arif Data
Verweij, Pita A.
Integrated Research on Energy, Environment and Soc

Geographical focus