Full Citation
Title: Projecting future land use/land cover by integrating drivers and plan prescriptions: the case for watershed applications
Citation Type: Journal Article
Publication Year: 2019
ISBN:
ISSN: 1548-1603
DOI: 10.1080/15481603.2018.1533158
NSFID:
PMCID:
PMID:
Abstract: Watershed planning is a pivotal exercise for all jurisdictions irrespective of size, landscape complexity, or other nuances. As a result of the intricate relationship between land use/land cover (LULC) and water resources, it becomes prudent to not only develop historical and contemporary LULC data for watershed planning purposes, but more importantly, the production of future LULC datasets has the potential to better inform watershed planners. This study explored an optimal workflow that can be adopted for the production of baseline LULC input images from a moderate spatial resolution sensor such as Landsat, and the identification, translation, and configuration of land change drivers and regional comprehensive plan prescriptions in the creation of future LULC data for a regional watershed. The study conducted in the Lower Chippewa River Watershed, Wisconsin, USA demonstrated that an object-based hybrid classification approach resulted in the generation of improved projected images with a 15% increase in area under the curve (AUC) value compared to a pixel-based hybrid classification method even though both methods displayed comparable overall image classification accuracies (≤ 1.8%). Results further displayed that configuring anthropogenic drivers in a trend format rather than individual year values can result in a more efficient training of a multi-layer perceptron neural network – Markov Chain model. The calibrated and validated model demonstrated that on average, residential, commercial, institutional, green vegetation/shrub, and industrial LULC are expected to grow through 2050, though at a slower rate (12%) compared to contemporary period (39%), while forest and agricultural lands are slated to decline (−2%).
Url: https://www.tandfonline.com/doi/full/10.1080/15481603.2018.1533158
User Submitted?: No
Authors: Wilson, Cyril O.; Liang, Bingqing; Rose, Shannon J.
Periodical (Full): GIScience & Remote Sensing
Issue: 4
Volume: 56
Pages: 511-535
Data Collections: IPUMS NHGIS
Topics: Land Use/Urban Organization, Natural Resource Management
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