期刊
SCIENCE OF THE TOTAL ENVIRONMENT
卷 660, 期 -, 页码 899-912出版社
ELSEVIER
DOI: 10.1016/j.scitotenv.2018.12.479
关键词
Sediment connectivity; Index of Sediment Connectivity; Land use and topographic changes; Mountain catchments; Afforestation; Terracing
资金
- Spanish Ministry of Economy and Competitiveness
- European FEDER funds [CGL2012-36394, CGL2016-78874-R]
- Ministry of Education, Culture and Sports, Spain [FPU016/01687]
- EU Cost Action Connecteur [ES1306]
- CERCA Program of the Generalitat de Catalunya
Understanding the evolution of sediment connectivity associated with different land use and topographic changes is a prerequisite for a better understanding of sediment budgets and sediment transport processes. We used the Index of Sediment Connectivity (IC) developed by Cavalli et al. (2013) based on the original approach by Borselli et al. (2008) to study the effects of decadal-scale land use and topographic changes on sediment connectivity in mountain catchments. The input variables of the IC (i.e. land cover and topography) were derived from historical aerial photos using Structure from Motion-Multi View Stereo algorithms (SfM-MVS). The method was applied in different sub-catchments of the Upper River Cinca Catchment (Central Pyrenees), representative of three scenarios: (a) Land cover changes; (b) Topographic changes in agricultural fields (terracing); and (c) Topographic changes associated with infrastructure (road construction). In terms of land cover changes, results show that although connectivity is increased in some areas due to the establishment of new field crops, for most of the study area connectivity decreased due to afforestation caused by rural abandonment. Topographic changes due to the establishment of agricultural terraces affected connectivity to a larger degree than land cover changes. Terracing generally reduced connectivity due to the formation of flat areas in step-slopes, but in certain points, an increase in connectivity caused by the topographic convergence produced by terraces was observed. Finally, topographic changes associated with road construction greatly modified surface flow directions and the drainage network, resulting in changes in connectivity that may affect erosional processes nearby. The methodology used in this paper allows to study the effects of real decadal-scale land use and topographic changes on sediment connectivity and also evaluating and disentangling those changes. Furthermore, this approach can be a useful tool to identify potential risks associated with morphological and land use changes, involving road infrastructures. (c) 2019 Elsevier B.V. All rights reserved.
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