Planform dynamics of the Iquitos anabranching structure in the Peruvian Upper Amazon River

Mendoza, Alberto Bujardón; Abad, J. D.; Frias, C. E.; Ortals, Collin; Paredes, Jorge; Montoro, Hugo; Vizcarra, J.; Simon, Cesar; Soto-Cortés, Gabriel

doi:10.1002/esp.3911

Cited by 26 publications

(24 citation statements)

References 35 publications

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“…The tree can be used to recognize patterns in the planform at different scales. The patterns at different scales can interact among each other [ Gutierrez and Abad , ] and can potentially be matched with local geological confinement [ Frias et al , ; Mendoza et al , ], vegetation, or other factors that influence meander formation.…”

Section: Discussionmentioning

confidence: 99%

Multiscale structure of meanders

Vermeulen

Hoitink

Zolezzi

et al. 2016

Geophysical Research Letters

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River meander planforms can be described based on wavelet analysis, but an objective method to identify the main characteristics of a meander planform over all spatial scales is yet to be found. Here we show how a set of simple metrics representing meander shape can be retrieved from a continuous wavelet transform of a planform geometry. We construct a synoptic multiple looping tree to establish the meander structure, revealing the embedding of dominant meander scales in larger‐scale loops. The method can be applied beyond the case of rivers to unravel the meandering structure of lava flows, turbidity currents, tidal channels, rivulets, supraglacial streams, and extraterrestrial flows.

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Section: Discussionmentioning

confidence: 99%

Multiscale structure of meanders

Vermeulen

Hoitink

Zolezzi

et al. 2016

Geophysical Research Letters

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“…The main equations are reported in appendices material. In the Amazon region, this model was successfully applied to simulate estuarine regions hydrodynamics (Oliveros et al, 2008), the evolution of anabranching structures (Frias et al, 2015;Mendoza et al, 2016). It has also already been applied to model FP (Hostache et al, 2014;Smolders et al, 2015) and other large rivers (Vu et al, 2015).…”

Section: Hydrodynamics Modelmentioning

confidence: 99%

Flooding Dynamics Within an Amazonian Floodplain: Water Circulation Patterns and Inundation Duration

Pinel

Bonnet

Silva

et al. 2020

Water Resources Research

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Flooding dynamics across a medium-size (Janauaca Lake, 786 km 2 ) floodplain system along the Amazon/Solimoes River over a 9-year period (2006-2015) is studied through integration of remote sensing and limited in situ data in hydrologic-hydrodynamic modelling based on Telemac-2D model. Model accuracy varies through the hydrological year. We focus on seasonal and interannual spatial variability of water circulation and inundation duration. We highlight strong heterogeneities in water velocity magnitude between the different morphological domains of the floodplain, the highest velocities being encountered in the river-floodplain channel. In addition to topography, we emphasize the importance of the main channel and the local runoff in controlling the water circulation, at least during part of the hydrological year. From low water to early rising period, local runoff constrains the river incursion across the floodplain, while the rates of main channel rising/receding controls the flood duration. The comparison of several hydrological years highlights the interannual changes of these hydraulic controls and also the influence exerted by prior inundation conditions. While we observed few changes in water velocity distribution among hydrological years, the inundation duration is highly variable. Usually defined by maximum water level, extreme flood events may paradoxically induce positive (up to 40 days) but also negative (up to −20 days) anomalies of inundation duration.

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“…Analysis also shows that repiquetes at Iquitos tend to have greater amplitude at lower rivers stages, as expected since at flood flows a given discharge change typically produces a smaller change in stage. Runoff changes may not be the only factors involved in stage reversals: concomitant changes in anabranching morphology and temporal changes in channel roughness (such as transitions in dune field amplitude) can also trigger stage adjustments in large anabranching sand bed rivers (Frias et al, 2015;Mendoza et al, 2016). However, this study does not focus on the complex hydrology and hydraulics of Amazon repiquetes: here we analyze observed stage reversal in terms of their effects on peasant agriculture along channel bars.…”

Section: Study Areamentioning

confidence: 92%