Journal ArticleDOI
(Dis)Connectivity in catchment sediment cascades: a fresh look at the sediment delivery problem
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In this paper, a conceptual framework for analysis of catchment (dis)connectivity that incorporates both spatial and temporal variability in the operation of the sediment cascade is presented, where blockages occur to disrupt these longitudinal, lateral and vertical linkages in catchments.Abstract:
The concept of the sediment delivery problem was introduced into the literature in 1983 by Des Walling. This concept describes how only a fraction of sediment eroded within a catchment will reach the basin outlet and be represented as sediment yield, and that sediment storage mechanisms operating within a catchment explain this discrepancy. Since this paper was published, geomorphologists have been examining in great detail the fate of sediment eroded from the landsurface, and the pathways and timeframes of sediment transport and storage in catchments. However, to fully understand the internal dynamics of sediment flux requires a ‘fresh look at the sediment delivery problem’. A framework is required that can incorporate the various processes involved in sediment movement from source areas through a basin to its outlet, and can take account of the spatial distribution of, and timeframes over which, these processes operate.
This paper presents a conceptual framework for analysis of catchment (dis)connectivity that incorporates both spatial and temporal variability in the operation of the sediment cascade. This approach examines where blockages occur to disrupt these longitudinal, lateral and vertical linkages in catchments. Depending on the position of blockages (termed buffers, barriers and blankets), and their sediment residence time, various parts of a catchment may be actively contributing sediment to the sediment cascade and be switched on, or inactive and switched off. This paper discusses how such a framework can be used to model response times to disturbance and explain the manifestation of geomorphic change in catchments. The paper then highlights challenges geomorphologists face in applying such a framework to understand the internal dynamics of the catchment sediment cascades, and forecast how environmental change might affect the operation of sediment fluxes into the future. Copyright © 2012 John Wiley & Sons, Ltd.read more
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State of science: mental workload in ergonomics
TL;DR: This work provides a general overview of the current state of affairs regarding the understanding, measurement and application of MWL in the design of complex systems over the last three decades, and discusses contemporary challenges for applied research.
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Geomorphometric assessment of spatial sediment connectivity in small Alpine catchments
TL;DR: In this paper, a geomorphometric index based on the approach by Borselli et al. was developed and applied to assess spatial sediment connectivity in two small catchments of the Italian Alps featuring contrasting morphological characteristics.
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Sediment connectivity: a framework for understanding sediment transfer at multiple scales
TL;DR: In this paper, the concept of sediment connectivity is used to explain the connected transfer of sediment from a source to a sink in a catchment, and movement of sediment between different zones within the catchment: over hillslopes, between hilllopes and channels, and within channels.
Journal ArticleDOI
A meta-analysis of soil erosion rates across the world
José María García-Ruiz,Santiago Beguería,Estela Nadal-Romero,José Carlos González-Hidalgo,Noemí Lana-Renault,Yasmina Sanjuán +5 more
TL;DR: In this article, a meta-analysis of published data from more than 4000 sites worldwide was carried out, revealing a negative relationship between erosion rate and the size of the study area involved; significant differences associated with differing measurement methods, with direct sediment measurement yielding the lowest erosion rates, and bathymetric, radioisotope and modeling methods yielding the highest rates; and a very important effect of the duration of the experiment.
Journal ArticleDOI
The behavioural characteristics of sediment properties and their implications for sediment fingerprinting as an approach for identifying sediment sources in river basins
TL;DR: Sediment fingerprinting is a technique that is increasingly being used to improve the understanding of sediment dynamics within river basins as mentioned in this paper, however, one of the main limitations of the technique is the ability to link sediment back to their sources due to the non-conservative nature of many of the sediment properties.
References
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Journal ArticleDOI
Geomorphic/Tectonic Control of Sediment Discharge to the Ocean: The Importance of Small Mountainous Rivers
TL;DR: In this paper, data from 280 rivers discharging to the ocean indicates that sediment loads/yields are a log-linear function of basin area and maximum elevation of the river basin.
Impact of Humans on the Flux of Terrestrial Sediment to the Global Coastal Ocean
TL;DR: Global estimates of the seasonal flux of sediment, on a river-by-river basis, under modern and prehuman conditions are provided, showing African and Asian rivers carry a greatly reduced sediment load; Indonesian rivers deliver much more sediment to coastal areas.
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Impact of Humans on the Flux of Terrestrial Sediment to the Global Coastal Ocean
James P. M. Syvitski,James P. M. Syvitski,James P. M. Syvitski,Charles J. Vörösmarty,Charles J. Vörösmarty,Charles J. Vörösmarty,Albert J. Kettner,Albert J. Kettner,Albert J. Kettner,P. A. Green,P. A. Green,P. A. Green +11 more
TL;DR: In this article, the seasonal flux of sediment, on a river-by-river basis, under modern and prehuman conditions, is provided, and the authors show that humans have simultaneously increased the sediment transport by global rivers through soil erosion (by 2.3 ± 0.6 billion metric tons per year), yet reduced the flux reaching the world's coasts (by 1.4 ± 0 3 billion metric ton per year) because of retention within reservoirs.
Journal ArticleDOI
Increasing risk of great floods in a changing climate
TL;DR: The recent emergence of a statistically significant positive trend in risk of great floods is consistent with results from the climate model, and the model suggests that the trend will continue.