Size, shape and orientation matter: fast and semi-automatic measurement of grain geometries from 3D point clouds Earth Surface Dynamics DOI 10.5194/esurf-10-1211-2022 3 February 2023 The morphology and size of sediments influence erosion efficiency, sediment transport and the quality of aquatic ecosystem. In turn, the spatial evolution of sediment size provides information on the past dynamics of erosion and sediment transport. We have developed a new software which semi-automatically identifies and measures sediments based on 3D point clouds. This software is fast and efficient, offering a new avenue to measure the geometrical properties of large numbers of sediment grains. Read more
Comparing the transport-limited and ξ–q models for sediment transport Earth Surface Dynamics DOI 10.5194/esurf-10-301-2022 27 June 2022 By comparing two models for the transport of sediment, we find that they share a similar steady-state solution that adequately predicts the shape of most depositional systems made of a fan and an alluvial plain. The length of the fan is controlled by the size of the mountain drainage area feeding the sedimentary system and its slope by the incoming sedimentary flux. We show that the models differ in their transient behaviour to external forcing and are characterized by different response times. Read more
Extreme metrics from large ensembles: investigating the effects of ensemble size on their estimates Earth Surface Dynamics DOI 10.5194/esd-12-1427-2021 21 February 2022 We address the question of how large an initial condition ensemble of climate model simulations should be if we are concerned with accurately projecting future changes in temperature and precipitation extremes. We find that for most cases (and both models considered), an ensemble of 20-25 members is sufficient for many extreme metrics, spatial scales and time horizons. This may leave computational resources to tackle other uncertainties in climate model simulations with our ensembles. Read more
Sand mining far outpaces natural supply in a large alluvial river Earth Surface Dynamics DOI 10.5194/esurf-9-1323-2021 1 December 2021 Unsustainable sand mining poses a threat to the stability of river channels. We use satellite imagery to estimate volumes of material removed from the Mekong River, Cambodia, over the period 2016–2020. We demonstrate that current rates of extraction now exceed previous estimates for the entire Mekong Basin and significantly exceed the volume of sand naturally transported by the river. Our work highlights the importance of satellite imagery in monitoring sand mining activity over large areas. Read more
Escarpment retreat rates derived from detrital cosmogenic nuclide concentrations Earth Surface Dynamics DOI 10.5194/esurf-9-1301-2021 26 November 2021 Although great escarpment mountain ranges are characterized by high relief, modern erosion rates suggest slow rates of landscape change. We question this interpretation by presenting a new method for interpreting concentrations of cosmogenic isotopes. Our analysis shows that erosion has localized onto an escarpment face, driving retreat of the escarpment at high rates. Our quantification of this retreat rate rationalizes the high-relief, dramatic landscape with the rates of geomorphic change. Read more
Landslide-lake outburst floods accelerate downstream hillslope slippage Earth Surface Dynamics DOI 10.5194/esurf-9-1251-2021 8 November 2021 The eastern Tibetan Plateau is an ideal place to study interactions among different geomorphic drivers. We report the impacts of two 2018 landslide-lake outburst floods up to 100 km distance downstream of the Jinsha River. By using remote sensing images, we found that the 2018 floods caused many hillslopes to slump during the prolonged period afterwards. The finding could help us to obtain a holistic picture of LLF impacts and improve geomorphic models of landscape evolution. Read more
Dynamics of salt intrusion in the Mekong Delta: results of field observations and integrated coastal–inland modelling Earth Surface Dynamics DOI 10.5194/esurf-9-953-2021 24 September 2021 Increased salt intrusion jeopardizes freshwater supply to the Mekong Delta, and the current trends are often inaccurately associated with sea level rise. Using observations and models, we show that salinity is highly sensitive to ocean surge, tides, water demand, and upstream discharge. We show that anthropogenic riverbed incision has significantly amplified salt intrusion, exemplifying the importance of preserving sediment budget and riverbed levels to protect deltas against salt intrusion. Read more
Controls on the rates and products of particle attrition by bed-load collisions Earth Surface Dynamics DOI 10.5194/esurf-9-755-2021 27 August 2021 The authors of this paper conducted experiments to investigate the mechanics of sediment attrition due to collisions with the channel bed during downstream transport. During this process, the grains become rounder and smaller, changing the overall distribution of sediment in the river. In this work the authors examine how material properties play a role in the breakdown of sediment due to energetic collisions and the fine particles that are produced when chipped off of larger grains. Read more
Rarefied particle motions on hillslopes – Part 1: Theory Earth Surface Dynamics DOI 10.5194/esurf-9-539-2021 30 July 2021 Sediment particles skitter down steep hillslopes on Earth and Mars. Particles gain speed in going downhill but are slowed down and sometimes stop due to collisions with the rough surface. The likelihood of stopping depends on the energetics of speeding up (heating) versus slowing down (cooling). Statistical physics predicts that particle travel distances are described by a generalized Pareto distribution whose form varies with the Kirkby number – the ratio of heating to cooling. Read more
Interactions between deforestation, landscape rejuvenation, and shallow landslides in the North Tanganyika–Kivu rift region, Africa Earth Surface Dynamics DOI 10.5194/esurf-9-445-2021 12 July 2021 We investigated how shallow landslide occurrence is impacted by deforestation and rifting in the North Tanganyika–Kivu rift region (Africa). We developed a new approach to calculate landslide erosion rates based on an inventory compiled in biased © Google Earth imagery. We find that deforestation increases landslide erosion by a factor of 2–8 and for a period of roughly 15 years. However, the exact impact of deforestation depends on the geomorphic context of the landscape (rejuvenated/relict). Read more
