Abstract
Monitoring ephemeral gullies facilitates water planning and soil conservation. Artificial interpretation based on high spatial resolution images is the main method for monitoring ephemeral gullies in large areas; however, this method is time consuming. In this study, a semiautomatic method for extracting ephemeral gullies in loess hilly areas based on directional edge detection is proposed. First, the area where ephemeral gullies developed was extracted because the weak trace of ephemeral gullies in images can hardly be detected by most image detectors, which avoided the noise from other large gullies. Second, a Canny edge detector was employed to extract all edges in the image. Then, those edges along the direction where ephemeral gullies developed were searched and coded as candidate ephemeral gullies. Finally, the ephemeral gullies were identified through filtering of pseudo-gullies by setting the appropriate length threshold. Experiments in three loess hilly areas showed that accuracy ranged from 38.18% to 85.05%, completeness ranged from 82.35% to 92.86%, and quality ranged from 35.29% to 79.82%. The quality of the remote sensing images highly affected the results. The accuracy was significantly improved when the image was used with less grass and shrubs. The length threshold in directional searching also affected the accuracy. A small threshold resulted in additional noise and disconnected gullies, whereas a large threshold disregarded the short gullies. A reasonable threshold can be obtained through the index of quality. The threshold also exhibits a strong relationship with the average length of ephemeral gullies, and this relationship can help obtain the optimum threshold in the hilly area of the Northern Loess Plateau of China.
Highlights
Ephemeral gullies are small channels eroded by concentrated flow, often erased by cultivation, but recurring in the same place during subsequent runoff events [1,2]
Ephemeral gullies are widely distributed in the hillslope of the Chinese Loess Plateau [3,4]
The edge image after Canny edge detection is a matrix with 0s and 1s, where one is regarded as edges, including ephemeral gullies, and a considerable amount of noise
Summary
Ephemeral gullies are small channels eroded by concentrated flow, often erased by cultivation, but recurring in the same place during subsequent runoff events [1,2]. IRstoica.dReoxtardacetixotnramcteiothnodmsectahnondost bceandniroetctblye adpiprelicetdly applied in ephemeral gully extraction, but provide valuable techniques for gully extraction Among those methods, established edge detection methods, such as Roberts, Log, and Canny, contribute to ISPRS Int. J. Geo-Inf. 2017, 6, 371 in ephemeral gully extraction, but provide valuable techniques for gully extraction Among those methods, established edge detection methods, such as Roberts, Log, and Canny, contribute to the extraction of potential linear features from images [54–57]. The objectives of this study are as follows: (1) examine the potential of directional edge detection in mapping ephemeral gully erosion features from VHR images; (2) establish relative parameters in loess hilly areas; and (3) assess the accuracy of the results by comparing them with a manually-digitized gully
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