中国西藏东南部横断山脉大陆尺度景观瞬变的地貌指标

IF 2.8 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL Earth Surface Dynamics Pub Date : 2024-05-22 DOI:10.5194/esurf-12-783-2024
Katrina Gelwick, Sean D. Willett, Rong Yang
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引用次数: 0

摘要

摘要。地表过程对气候和构造等外部作用力的复杂反应塑造了地貌。横断山脉的几条主要河流被记录在案,这导致了一种假设,即横断山脉地区在水平缩短和隆升传播的驱动下经历了极高的排水重组率。在此,我们确定了横断山脉正在进行的排水重组的普遍性、强度和空间模式,并通过比较在不同时空尺度上运行的四种地貌指标的排水分异不对称性,评估了这种瞬变的相对时间尺度。具体而言,我们利用流域限制地形起伏(CRR)、山坡坡度(HSG)、归一化河道陡度(ksn)和归一化河道距离(χ)计算了排水分界线的迁移方向和分界线不对称指数(DAI)。这些地貌指标的不同空间尺度使我们能够确定在横断山脉观测到的地貌瞬变的相对时间尺度,其中局部尺度指标测量短期变化,整体量测量长期失衡。我们发现,横断山脉地区的所有指标都存在强烈的不对称分异。虽然不同指标之间的不对称程度差异很大,这可能是由于特定指标的阈值以及与侵蚀率之间不同的替代关系共同造成的,但大多数分界线在分界线迁移方向上是一致的。当不对称程度较高时,鸿沟迁移方向的一致表明地貌正在积极做出反应;当不对称程度较低时,地貌处于准平衡状态。积分量 χ 与其他地貌指标之间的分歧可以用基本地貌过程的不同时间尺度来解释,χ 反映的是长期响应,而 CRR、HSG 和 ksn 反映的是对流域结构的短期扰动。这些扰动包括各种瞬时机制,如不同的构造隆起或侵蚀、冰川变化和河流俘获。我们的工作证实了横断山脉排水系统重组的高发生率,并以高分辨率突出显示了地貌中的瞬变区域和稳定区域。我们还为地貌指标的应用提供了宝贵的见解,这些见解可以推广应用于其他环境下的地貌瞬变和排水分异不对称研究。
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Geomorphic indicators of continental-scale landscape transience in the Hengduan Mountains, SE Tibet, China
Abstract. Landscapes are sculpted by a complex response of surface processes to external forcings, such as climate and tectonics. Several major river captures have been documented in the Hengduan Mountains, leading to the hypothesis that the region experiences exceptionally high rates of drainage reorganization driven by horizontal shortening and propagating uplift. Here we determine the prevalence, intensity, and spatial patterns of ongoing drainage reorganization in the Hengduan Mountains and evaluate the relative timescales of this transience by comparing drainage divide asymmetry for four geomorphic metrics that operate at different spatial and temporal scales. Specifically, we calculate the migration direction and the divide asymmetry index (DAI) for drainage divides using catchment-restricted topographic relief (CRR), hillslope gradient (HSG), normalized channel steepness (ksn), and normalized channel distance (χ). ksn and χ are both precipitation-corrected to account for the strong precipitation gradient across the region. The different spatial scales of these geomorphic metrics allow us to establish the relative timescales of observed landscape transience in the Hengduan Mountains, where local-scale metrics measure short-term change and integral quantities measure long-term disequilibrium. We find a high incidence of strongly asymmetric divides in all metrics across the Hengduan Mountain region. Although the magnitude of asymmetry varies significantly between metrics, possibly due to a combination of metric-specific thresholds and varying proxy relationships with erosion rate, a majority of divides agree on divide migration direction. Agreement in divide migration direction indicates an actively responding landscape when asymmetry is high and a state of quasi-equilibrium when asymmetry is low. Disagreements between the integral quantity, χ, and the other geomorphic metrics can be explained by different timescales of the underlying geomorphic processes, with χ reflecting a long-term response and CRR, HSG, and ksn capturing short-term perturbations to catchment structure. These perturbations include various transient mechanisms, such as differential tectonic uplift or erodibility, glacial alteration, and river captures. Our work confirms the high incidence of drainage reorganization across the Hengduan Mountains and highlights both transient and stable areas in the landscape with high resolution. We also offer valuable insights into the application of geomorphic metrics that can be generalized and applied to the study of landscape transience and drainage divide asymmetry in other settings.
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来源期刊
Earth Surface Dynamics
Earth Surface Dynamics GEOGRAPHY, PHYSICALGEOSCIENCES, MULTIDISCI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
5.40
自引率
5.90%
发文量
56
审稿时长
20 weeks
期刊介绍: Earth Surface Dynamics (ESurf) is an international scientific journal dedicated to the publication and discussion of high-quality research on the physical, chemical, and biological processes shaping Earth''s surface and their interactions on all scales.
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