Fluvial incision and tectonic uplift across the Himalayas of central Nepal

Lavé, Jérôme; Avouac, Jean-Philippe

doi:10.1029/2001jb000359

Cited by 700 publications

(754 citation statements)

References 76 publications

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“…Slingerland et al [1998] compared slope-area relationships predicted by the stream power and tools algorithms, under equilibrium conditions, with data from Taiwan and concluded that these data do not permit discrimination between the different models because sediment flux appeared to scale roughly as a power of drainage area. By comparing stream profiles in the frontal Himalayas to incision rates measured from abandoned fluvial terraces, Lavé and Avouac [2001] showed that the rate of incision in these rivers is better described by an excess stream power model than by a simple stream power law. Finally, DeYoung [2000] compared predictions from a linear stream power model and a linear undercapacity model to observed incision of streams on western Kauai (Hawaii) and concluded that the undercapacity model predicted the evolution of these profiles, in particular the sections downstream of major knickpoints, better than the linear stream power model.…”

Section: Fluvial Incision Modelsmentioning

confidence: 99%

“…However, it is well known that incipient motion of bed load, which will do most abrasive work on the streambed, occurs only when a threshold shear stress is exceeded. Several fluvial incision algorithms [e.g., Densmore et al, 1998;Lavé and Avouac, 2001;Sklar and Dietrich, 1998;Tucker and Slingerland, 1997] therefore include such a threshold…”

Section: Fluvial Incision Modelsmentioning

confidence: 99%

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Cenozoic river profile development in the Upper Lachlan catchment (SE Australia) as a test of quantitative fluvial incision models

2003

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[1] We have used early Miocene valley-filling basalts to reconstruct fluvial long profiles in the Upper Lachlan catchment, SE Australia, in order to use these as well-constrained initial conditions in a forward model of fluvial incision. Many different fluvial incision algorithms have been proposed, and it is not clear at present which one of these best captures the behavior of bedrock rivers. We test five different formulations; the ability of these models to reproduce the observed present-day stream profiles and amounts of incision is assessed using a weighted-mean misfit criterion as well as the structure of the misfit function. The results show that for all models, parameter combinations can be found that reproduce the amounts of incision reasonably well. However, for some models, these best fit parameter combinations do not seem to have a physical significance, whereas for some others, best fit parameter combinations are such that the models tend to mimic the behavior of other models. Overall, best fit model predictions are obtained for a detachment-limited stream power model or an ''undercapacity'' model that includes a river width term that varies as a function of drainage area. The uncertainty in initial conditions does not have a strong impact on model outcomes. The model results suggest, however, that lithological variation may be responsible for variations in parameter values of a factor of 3-5.INDEX TERMS: 1824 Hydrology: Geomorphology (1625); 1815 Hydrology: Erosion and sedimentation; 3210 Mathematical Geophysics: Modeling; 9330 Information Related to Geographic Region: Australia; KEYWORDS: landscape evolution, bedrock rivers, fluvial incision models, river long-profile development, SE Australia Citation: van der Beek, P., and P. Bishop, Cenozoic river profile development in the Upper Lachlan catchment (SE Australia) as a test of quantitative fluvial incision models,

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Section: Fluvial Incision Modelsmentioning

confidence: 99%

Section: Fluvial Incision Modelsmentioning

confidence: 99%

Cenozoic river profile development in the Upper Lachlan catchment (SE Australia) as a test of quantitative fluvial incision models

2003

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“…Pazzaglia et al, 1998;Berryman et al, 2000;Avouac, 2000, 2001;Pazzaglia and Brandon, 2001;Brocard et al, 2003;Tomkin et al, 2003;Brocard and van der Beek, 2006). For example, Lavé and Avouac (2001) and Tomkin et al (2003) tested stream erosion models using data on spatial variations in channel incision rate in the central Nepal Himalayas, and the Olympic Mountains, northwestern USA, respectively. Similarly, Kirby and Whipple (2001) used known spatial variations in rock uplift and erosion rates in the Siwalik Hills to test the unit stream-power and linear shear-stress incision models.…”

Section: Natural Experiments In Landscape Evolution 1455mentioning

confidence: 99%

Natural experiments in landscape evolution

Tucker

2009

Earth Surf Processes Landf

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A natural experiment in landscape evolution is a case study of landform development in which only one element varies significantly, and for which the driving forces, initial conditions, and/or boundary conditions are well constrained. Natural experiments provide a means of testing landscape evolution theory on the large space and time scales to which that theory applies. Natural experiments can involve either steady or transient conditions. Cases with steady conditions allow one to test predictions about the relationships among topography, erosion rates, and various attributes related to climate and material properties. Transient cases are valuable for distinguishing between models whose predictions might be similar, and therefore indistinguishable, under steady conditions. Essential ingredients of a natural experiment include minimal variation in all but one factor, good constraints on timing and/or rates, well-characterized processes, and high quality topographic data. Other useful ingredients include information about intermediate topographic states (such as a former valley profile revealed by strath terraces), and knowledge of the time history of erosion rates. In order to deepen our understanding of the physics and chemistry of longterm landscape evolution, there is a pressing need to identify natural experiments and develop the necessary databases to take advantage of them.

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“…The Yarlung Tsangpo has four major knickpoints separating lower gradient reaches (Figure 7a). Notable bulging through its upper and central lengths has been attributed to repeated blockage by glaciation (Korup and Montgomery 2010), localized aridity (Sobel et al 2003) or local fault offset (Lavé and Avouac 2001). Potential erosion fluctuates along the longitudinal profile, varying in relation to slope.…”

Section: Resultsmentioning

confidence: 99%

Analysis of longitudinal profiles along the eastern margin of the Qinghai-Tibetan Plateau

Aiken

Brierley

2013

J. Mt. Sci.

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Abstract:Resulting from the collision of the Eurasian and Indian plates, the Qinghai-Tibetan Plateau is commonly known as the 'roof of the world'. Collectively the Yarlung Tsangpo, Nu, Lancang, Yangtze, Yalong, and Yellow River basins drain the eastern margin of the plateau. In this paper, we utilize Shuttle Radar Topography Mission elevation data to examine morphometric and relief attributes of these basins to reveal insights into tectonic activity and rates of incision. A robust technique using Matlab is proposed to alleviate errors associated with SRTM data in the derivation of river longitudinal profiles. Convex longitudinal profiles are interpreted to be a product of uplift rates that exceed rates of channel incision along the entire margin of the QinghaiTibetan Plateau. Highest relief towards the south reflects extensive fluvial incision. High relief is also prominent along major active faults. Erosion patterns are related to distance from knickpoints. Highest rates of erosion and incision are evident towards the south, with decreasing values towards the north, suggesting a link between tectonic activity and erosion.

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Fluvial incision and tectonic uplift across the Himalayas of central Nepal

Cited by 700 publications

References 76 publications

Cenozoic river profile development in the Upper Lachlan catchment (SE Australia) as a test of quantitative fluvial incision models

Cenozoic river profile development in the Upper Lachlan catchment (SE Australia) as a test of quantitative fluvial incision models

Natural experiments in landscape evolution

Analysis of longitudinal profiles along the eastern margin of the Qinghai-Tibetan Plateau

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