Land Use/Land Cover and Natural Hazards: Interactions, Changes, and Impacts

doi:10.3390/books978-3-0365-6739-6

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Land Use/Land Cover and Natural Hazards: Interactions, Changes, and Impacts

Edited by

February 2023

272 pages

ISBN978-3-0365-6738-9 (Hardback)
ISBN978-3-0365-6739-6 (PDF)

https://doi.org/10.3390/books978-3-0365-6739-6

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This book is a reprint of the Special Issue Land Use/Land Cover and Natural Hazards: Interactions, Changes, and Impacts that was published in

Business & Economics

Environmental & Earth Sciences

Summary

This reprint focuses on land use/land cover (LULC), natural hazards and their interactions, changes, and impacts. Over the past few decades, the risks due to natural hazards have increased significantly, to a large extent due to changes in LULC, which are triggered mainly by anthropic pressure on landscapes, i.e., urbanization, forest management practices, agricultural practices, and the like. As a result, LULC changes contribute significantly to changes in the variability or magnitude of natural hazards, such as floods, landslides, and erosion. Therefore, this reprint provides a collection of studies focused on the interactions between LULC and different types of natural hazards, which were studied in several research areas around the world.

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Hardback

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Keywords

flash floods; intense rainfall; urbanized areas; damage; anthropic impacts; West Mediterranean; Italy; land use change; surface runoff; urban development; green infrastructure; Xiamen; land use/land cover legacy; airborne LiDAR-based HRDTM; generalized additive model; landslide susceptibility modeling; historical landslide inventory bias; biomass extraction; farmers’ perception; NDVI; climate change; remote sensing; GIS; NDBI; flood risk; land use; settlement development; agricultural land use; flood-prone areas; Alpine regions; land use; landslide modelling; shallow landslides; soil cohesion; soil tillage; river meandering; river morphology; centerline migration; remote sensing; satellite images; loess; filled slope; physical model test; interface effect; stability; river morphodynamics; centerline migration; Landsat data; planform changes; remote sensing; forest fire; fire danger rating systems; environmental fire danger; fire indices; drought indices; remote sensing fire indices; fire ignition probability; climate change extremes; land cover; QGIS; MOLUSCE; Great Yellow River Region; mountain hazards; land take; landslide hazard; land cover change