Abstract
Terraces are typical artificial landforms on the Loess Plateau, with ecological functions in water and soil conservation, agricultural production, and biodiversity. Recording the spatial distribution of terraces is the basis of monitoring their extent and understanding their ecological effects. The current terrace extraction method mainly relies on high-resolution imagery, but its accuracy is limited due to vegetation coverage distorting the features of terraces in imagery. High-resolution topographic data reflecting the morphology of true terrace surfaces are needed. Terraces extraction on the Loess Plateau is challenging because of the complex terrain and diverse vegetation after the implementation of “vegetation recovery”. This study presents an automatic method of extracting terraces based on 1 m resolution digital elevation models (DEMs) and 0.3 m resolution Worldview-3 imagery as auxiliary information used for object-based image analysis (OBIA). A multi-resolution segmentation method was used where slope, positive and negative terrain index (PN), accumulative curvature slope (AC), and slope of slope (SOS) were determined as input layers for image segmentation by correlation analysis and Sheffield entropy method. The main classification features based on DEMs were chosen from the terrain features derived from terrain factors and texture features by gray-level co-occurrence matrix (GLCM) analysis; subsequently, these features were determined by the importance analysis on classification and regression tree (CART) analysis. Extraction rules based on DEMs were generated from the classification features with a total classification accuracy of 89.96%. The red band and near-infrared band of images were used to exclude construction land, which is easily confused with small-size terraces. As a result, the total classification accuracy was increased to 94%. The proposed method ensures comprehensive consideration of terrain, texture, shape, and spectrum characteristics, demonstrating huge potential in hilly-gully loess region with similarly complex terrain and diverse vegetation covers.
Highlights
The Loess Plateau is one of the areas in the world that experience severe soil erosion due to its structured terrain and loose loess substrate, and it is a major agricultural production region inChina [1]
This study focused on the extraction of terraces with very complex terrain in the Loess Plateau
The vegetation cover of terraces decreases the accuracy of image-based feature extraction, especially in the Loess Plateau where a vegetation restoration policy has been implemented
Summary
The Loess Plateau is one of the areas in the world that experience severe soil erosion due to its structured terrain and loose loess substrate, and it is a major agricultural production region inChina [1]. A series of studies reported on the effects of terraces on soil and water processes, which is an important research field regarding terraces [5,6,7,8]; many of these studies were carried out on the Loess Plateau [9,10,11,12] These studies mainly focused on individual slopes or small watersheds [6,11], having finite applicability and providing limited guidance for large-scaled regions. The effects of terracing are complex problems influenced by topography, soil, precipitation, vegetation cover, and land use They are associated with difficulties in obtaining the precise spatial distribution of terraces at a large scale. Obtaining the accurate areas and boundaries of terraces are essential tasks for understanding the large-scale regional ecological effects and land use management of terraces
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