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大别山北麓丘陵岗地小流域沟道提取及多尺度形态分异

Channel extraction and multi-scale morphological differentiation of small watersheds in northern foothills of Dabie Mountains

  • 摘要:
    目的 沟道是水土流失发生发展的关键区域,但其在不同尺度下的形态分异特征尚不清晰。本研究旨在探究小流域与微流域双尺度下沟道形态参数的特征及其空间分异规律。
    方法 以大别山北麓丘陵岗地区小流域为研究对象,基于5 m DEM、2 m高分影像、野外调查等多源数据,综合运用GIS水文分析、ROC曲线–约登指数、空间统计等方法,探究小流域与微流域双尺度下的沟道形态参数特征及其空间分异规律。
    结果 1)研究区最佳沟道提取汇流量阈值1.26 hm2,共提取沟道227条,整体精度87.22%,沟道起点RMSE = 24.69 m,余弦相似度0.9995,沟道套合差1.83%,提取效果较好;2)小流域尺度上,沟道数量随着沟道等级升高锐减,以一级沟道为主(占80.62%),平均高差6.89 m,沟道等级与沟长呈显著正相关(r = 0.683,P < 0.01),与比降(r = −0.358)、高差(r = −0.384,P < 0.01)呈显著负相关;3)微流域尺度上,沟道密度1.71 ~ 27.02 km/km2,沟道最大等级与比降呈显著负相关(r = −0.567,P < 0.01),与沟道密度呈显著正相关(r = 0.340,P < 0.01),而沟道最大等级、平均比降与平均高差均存在显著空间正自相关(Moran’s I ≥ 0.135,P < 0.01),沟道密度则呈随机分布。
    结论 大别山北麓丘陵岗地小流域的沟道形态参数与地形因子的耦合关系具有尺度依赖性。研究结果可为该区域沟道精准识别与水土流失防控提供数据支撑。

     

    Abstract:
    Objective Channels are key areas where soil erosion occurs and develops. However, their morphological differentiation characteristics across different scales remain unclear. This study aims to investigate the characteristics and spatial differentiation patterns of channel morphological parameters at both small-watershed and micro-watershed scales.
    Methods This study was conducted in a small watershed in the northern foothills of the Dabie Mountains, based on multi-source data including 5 m DEM, 2 m high-resolution imagery, and field surveys. Through integrated application of GIS-based hydrological analysis, ROC curve–Youden’s index method, and spatial statistics, the characteristics of channel morphological parameters and their spatial differentiation patterns at both small-watershed and micro-watershed scales were investigated.
    Results 1) The optimal flow accumulation threshold for channel extraction in the study area was 1.26 hm2. A total of 227 channels were extracted, with an overall accuracy of 87.22%. The RMSE of channel heads was 24.69 m, the cosine similarity was 0.999 5, and the channel overlap deviation was 1.83%, indicating good extraction performance. 2) At the small-watershed scale, the number of channels decreased sharply with increasing channel level, dominated by first-level channels (80.62%), with a mean elevation difference of 6.89 m. Channel level showed a significant positive correlation with channel length (r = 0.683, P < 0.01) and significant negative correlations with gradient (r = −0.358, P < 0.01) and relief (r = −0.384, P < 0.01). 3) Channel densities ranged from 1.71 to 27.02 km/km2 at the micro-watershed scale. The maximum channel level showed a significant negative correlation with gradient (r = −0.567, P < 0.01) and a significant positive correlation with channel density (r = 0.340, P < 0.01). Spatially, the maximum channel level, mean gradient, and mean relief exhibited significant positive spatial autocorrelation (Moran’s I ≥ 0.135, P < 0.01), while channel density showed a random spatial distribution.
    Conclusions The coupling relationships between channel morphological parameters and topographic factors in the small watershed of the hilly region of the northern Dabie Mountains are scale-dependent. The findings of this study can provide supporting data for accurate channel identification and soil erosion prevention and control in this region.

     

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