Enhancing hydrologic LiDAR digital elevation models: Bridging hydrographic gaps at fine scales

IF 2.6 4区环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL Journal of The American Water Resources Association Pub Date : 2024-10-31 DOI:10.1111/1752-1688.13239

Di Wu, Ruopu Li, Michael Edidem, Guangxing Wang

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Abstract

High-resolution digital elevation models (HRDEMs), derived from LiDAR, are widely used for mapping hydrographic details in flat terrains. However, artificial flow barriers, particularly from roads, elevate terrain and prematurely end flowlines. Drainage barrier processing (DBP), such as HRDEM excavation, is employed to address this issue. However, there is a gap in quantitatively assessing the impact of DBP on HRDEM-derived flowlines, especially at finer scales. This study fills that gap by quantitatively assessing how DBP improves flowline quality at finer scales. We evaluated HRDEM-derived flowlines that were generated using different flow direction algorithms, developing a framework to measure the effects of flow barrier removal. The results show that the primary factor influencing flowline quality is the presence of flow accumulation artifacts. Quality issues also stem from differences between natural and artificial flow paths, unrealistic flowlines in flat areas, complex canal networks, and ephemeral drainage ways. Notably, the improvement achieved by DBP is demonstrated to be more than 6%, showcasing its efficacy in reducing the impact of flow barriers on hydrologic connectivity.

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加强水文激光雷达数字高程模型：弥合细尺度的水文差距

由激光雷达衍生而来的高分辨率数字高程模型（hrdem）被广泛用于平坦地形的水文细节测绘。然而，人工流动障碍，特别是道路上的流动障碍，会抬高地形，并过早地终止管道。排水屏障处理（DBP），如HRDEM开挖，被用来解决这个问题。然而，在定量评估DBP对hrdem衍生的流线的影响方面存在差距，特别是在更细的尺度上。本研究通过定量评估DBP如何在更精细的尺度上改善管线质量来填补这一空白。我们评估了使用不同流向算法生成的hrdem衍生流线，并开发了一个框架来衡量流动障碍去除的效果。结果表明，影响流线质量的主要因素是流动累积伪影的存在。质量问题还源于自然和人工流道的差异、平坦地区不现实的流线、复杂的运河网络和短暂的排水方式。值得注意的是，DBP的改善效果超过6%，表明其在减少流动障碍对水文连通性的影响方面的有效性。

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来源期刊

Journal of The American Water Resources Association 环境科学-地球科学综合

CiteScore

4.10

自引率

12.50%

发文量

100

审稿时长

3 months

期刊介绍： JAWRA seeks to be the preeminent scholarly publication on multidisciplinary water resources issues. JAWRA papers present ideas derived from multiple disciplines woven together to give insight into a critical water issue, or are based primarily upon a single discipline with important applications to other disciplines. Papers often cover the topics of recent AWRA conferences such as riparian ecology, geographic information systems, adaptive management, and water policy. JAWRA authors present work within their disciplinary fields to a broader audience. Our Associate Editors and reviewers reflect this diversity to ensure a knowledgeable and fair review of a broad range of topics. We particularly encourage submissions of papers which impart a ''take home message'' our readers can use.