Your search keyword '"Gregory H. Sambrook Smith"' showing total 45 results

1. The morphology of fluvial‐tidal dunes: Lower Columbia River, Oregon/Washington, USA

Author

Eric W. Prokocki, James L. Best, Maurico M. Perillo, Philip J. Ashworth, Daniel R. Parsons, Gregory H. Sambrook Smith, Andrew P. Nicholas, and Christopher J. Simpson

Subjects

Geography, Planning and Development, Earth and Planetary Sciences (miscellaneous), Earth-Surface Processes

Published

2022

2. Prevailing impacts of river management on microplastic transport in contrasting US streams: Rethinking global microplastic flux estimations

Author

Anna Kukkola, Robert L. Runkel, Uwe Schneidewind, Sheila F. Murphy, Liam Kelleher, Gregory H. Sambrook Smith, Holly Astrid Nel, Iseult Lynch, and Stefan Krause

Subjects

Environmental Engineering, Ecological Modeling, Pollution, Waste Management and Disposal, Water Science and Technology, Civil and Structural Engineering

Published

2023

3. Development of a semi-Lagrangian advection scheme for the NEMO ocean model (3.1)

Author

Christopher Subich, Gregory H. Sambrook Smith, Frédéric Dupont, and Pierre Pellerin

Subjects

Shore, geography, geography.geographical_feature_category, Atmospheric models, Advection, Courant–Friedrichs–Lewy condition, lcsh:QE1-996.5, Ocean current, Boundary (topology), Mechanics, Grid, lcsh:Geology, Trajectory (fluid mechanics), Physics::Atmospheric and Oceanic Physics, Geology

Abstract

As resolutions of ocean circulation models increase, the advective Courant number – the ratio between the distance travelled by a fluid parcel in one time step and the grid size – becomes the most stringent factor limiting model time steps. Some atmospheric models have escaped this limit by using an implicit or semi-implicit semi-Lagrangian formulation of advection, which calculates materially conserved fluid properties along trajectories which follow the fluid motion and end at prescribed grid points. Unfortunately, this formulation is not straightforward in ocean contexts, where the irregular, interior boundaries imposed by the shore and bottom orography are incompatible with traditional trajectory calculations. This work describes the adaptation of the semi-Lagrangian method as an advection module for an operational ocean model. We solve the difficulties of the ocean's internal boundaries by calculating parcel trajectories using a time-exponential formulation, which ensures that all parcel trajectories remain inside the ocean domain despite strong accelerations near the boundary. Additionally, we derive this method in a way that is compatible with the leapfrog time-stepping scheme used in the NEMO-OPA (Nucleus for European Modelling of the Ocean, Océan Parallélisé) ocean model, and we present simulation results for a simplified test case of flow past a model island and for 10-year free runs of the global ocean on the quarter-degree ORCA025 grid.

Published

2020

4. Alluvial architecture of mid‐channel fluvial–tidal barforms: The mesotidal Lower Columbia River, Oregon/Washington, USA

Author

Andrew Nicholas, C. Simpson, E. Prokocki, Gregory H. Sambrook Smith, Philip Ashworth, Daniel R. Parsons, and James L. Best

Subjects

geography, geography.geographical_feature_category, Stratigraphy, Fluvial, Geology, Alluvium, Architecture, Geomorphology, Channel (geography)

Published

2020

5. Easy and accessible way to calibrate a fluorescence microscope and to create a microplastic identification key

Author

Anna Kukkola, Stefan Krause, Yasmin Yonan, Liam Kelleher, Uwe Schneidewind, Gregory H. Sambrook Smith, Holly Nel, and Iseult Lynch

Subjects

Medical Laboratory Technology, Clinical Biochemistry

Published

2023

6. The Effect of Biofilms on Turbulent Flow Over Permeable Beds

Author

Kenneth T. Christensen, Gregory H. Sambrook Smith, Robert Nerenberg, Gianluca Blois, Richard J. Hardy, Farzan Kazemifar, M. Aybar, Sumit Sinha, Patricia Perez Calleja, and James L. Best

Subjects

Materials science, Flow velocity, Particle image velocimetry, Turbulence, Flow (psychology), Shear stress, Reynolds stress, Shear velocity, Mechanics, Water Science and Technology, Dimensionless quantity

Abstract

Despite an increasingly large body of work advancing our understanding of flow interactions occurring at the interface of a turbulent flow overlying a permeable bed, little is known concerning how such flow may be affected by the presence of biofilms, which exist in nearly all aquatic environments. This paper quantifies the effects on flow exerted by biofilms grown over experimental laboratory permeable beds until biofilm detachment, and then compares this to the residual effects after its detachment. The investigation is conducted in a flow channel by immersing two‐dimensional permeable beds with idealized geometry and different porosities in order to explore different bed permeabilities. Sequences of increasingly higher flow velocity conditions followed by lower flow, were considered to explore the effect of detachment. Measurements were performed using particle image velocimetry. The total wall shear stress and friction velocity were found to increase in the presence of pre‐grown biofilm, and decrease after biofilm detachment, when compared at the same pump frequency. The dimensionless Reynolds stresses, at constant pump frequency, collapsed for different bed configurations in the outer layer, while for the inner layer, the presence of biofilm led to a decrease in dimensionless Reynolds stress. Quadrant analysis shows that this decrease was primarily due to a reduction in strong Q2 contributions. These results suggest that models for flow and transport over permeable media in aquatic environments cannot neglect the role of biofilms in modifying turbulence.

Published

2021

7. Nano and microplastic interactions with freshwater biota - Current knowledge, challenges and future solutions

Author

Anna Kukkola, Holly A. Nel, Iseult Lynch, Stefan Krause, and Gregory H. Sambrook Smith

Subjects

Microplastics, Future studies, 010504 meteorology & atmospheric sciences, Primary producers, Biota, Fresh Water, 010501 environmental sciences, 01 natural sciences, Environmental sciences, Environmental science, GE1-350, Biochemical engineering, Plastics, Water Pollutants, Chemical, 0105 earth and related environmental sciences, General Environmental Science, Environmental Monitoring

Abstract

Current understanding of nano- and microplastic movement, propagation and potential effects on biota in freshwater environments is developing rapidly. Still, there are significant disconnects in the integration of knowledge derived from laboratory and field studies. This review synthesises the current understanding of nano- and microplastic impacts on freshwater biota from field studies and combines it with the more mechanistic insights derived from laboratory studies. Several discrepancies between the field and laboratory studies, impacting progress in process understanding, were identified including that the most prevalent plastic morphologies found in the field (fibres) are not those used in most of the laboratory studies (particles). Solutions to overcome these disparities are proposed to aid comparability of future studies. For example, environmental sampling and separation of biota into its constituents is encouraged when conducting field studies to map microplastic uptake preferences. In laboratory studies, recommendations include performing toxicity studies to systematically test possible factors affecting toxicity of nano- and microplastics, including morphology, chemical makeup (e.g., additives) and effects of plastic size. Consideration should be given to environmentally relevant exposure factors in laboratory studies, such as realistic exposure medium and effects of plastic ageing. Furthermore, based on this comprehensive review recommendations of principal toxicity endpoints for each of the main trophic levels (microbes, primary producers, primary consumers and secondary consumers) that should be reported to make toxicity studies more comparable in the future are given.

Published

2020

8. Quantification of bedform dynamics and bedload sediment flux in sandy braided rivers from airborne and satellite imagery

Author

James L. Best, Jonathan Dale, Gregory H. Sambrook Smith, Andrew Nicholas, Christopher Unsworth, Christopher J. Simpson, Philip Ashworth, Daniel R. Parsons, Robert J. P. Strick, and Stuart N. Lane

Subjects

Hydrology, Bedform, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, Flux, Sediment, 010502 geochemistry & geophysics, 01 natural sciences, Earth and Planetary Sciences (miscellaneous), Satellite, Satellite imagery, Digital elevation model, Sediment transport, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, Bed load

Abstract

Images from specially‐commissioned aeroplane sorties (manned aerial vehicle, MAV), repeat unmanned aerial vehicle (UAV) surveys, and Planet CubeSat satellites are used to quantify dune and bar dynamics in the sandy braided South Saskatchewan River, Canada. Structure‐from‐Motion (SfM) techniques and application of a depth‐brightness model are used to produce a series of Digital Surface Models (DSMs) at low and near‐bankfull flows. A number of technical and image processing challenges are described that arise from the application of SfM in dry and submerged environments. A model for best practice is presented and analysis suggests a depth‐brightness model approach can represent the different scales of bedforms present in sandy braided rivers with low‐turbidity and shallow (< 2 m deep) water. The aerial imagery is used to quantify the spatial distribution of unit bar and dune migration rate in an 18 km reach and three ~1 km long reaches respectively. Dune and unit bar migration rates are highly variable in response to local variations in planform morphology. Sediment transport rates for dunes and unit bars, obtained by integrating migration rates (from UAV) with the volume of sediment moved (from DSMs using MAV imagery) show near‐equivalence in sediment flux. Hence, reach‐based sediment transport rate estimates can be derived from unit bar data alone. Moreover, it is shown that reasonable estimates of sediment transport rate can be made using just unit bar migration rates as measured from 2D imagery, including from satellite images, so long as informed assumptions are made regarding average bar shape and height. With recent availability of frequent, repeat satellite imagery, and the ease of undertaking repeat MAV and UAV surveys, for the first time, it may be possible to provide global estimates of bedload sediment flux for large or inaccessible low‐turbidity rivers that currently have sparse information on bedload sediment transport rates.

Published

2019

9. Simple yet effective modifications to the operation of the Sediment Isolation Microplastic unit to avoid polyvinyl chloride (PVC) contamination

Author

Stefan Krause, Holly A. Nel, Gregory H. Sambrook Smith, and Iseult Lynch

Subjects

Article(s) from the Special Issue on Microplastics analysis, Percent recovery, Soil test, Density separation, Clinical Biochemistry, Extraction, Sediment Microplastic Isolation unit, 010501 environmental sciences, 01 natural sciences, law.invention, 03 medical and health sciences, chemistry.chemical_compound, law, lcsh:Science, Filtration, ComputingMethodologies_COMPUTERGRAPHICS, 030304 developmental biology, 0105 earth and related environmental sciences, Positive blank, 0303 health sciences, Extraction (chemistry), Sediment, Contamination, Pulp and paper industry, Negative blank, Medical Laboratory Technology, Polyvinyl chloride, chemistry, Ball valve, Environmental science, lcsh:Q

Abstract

Graphical abstract, Effective microplastic extraction from sediment and soil samples requires a density separation step, with the ability to remove >80 % of plastic particles without introducing substantial contamination. Additional benefits such as affordability and simplicity allow microplastic campaigns on limited budgets the ability to achieve high extraction efficacies. Coppock et al. (2017) designed the Sediment Microplastic Isolation (SMI) unit with these criteria in mind, warning that long-term use may lead to polyvinyl chloride (PVC) contamination. As part of the method validation work for a large-scale international project, collecting samples from more than 100 rivers globally, a pilot study of extraction efficiency and contamination potential of an SMI unit was performed. PVC contamination occurred during the extraction of 20 samples, with indicative grey shavings found in both negative controls and field samples. The original protocol was modified and artificially spiked sediments (positive blanks) were run to test extraction efficacy. The modification, requiring the PVC ball valve to remain open throughout the extraction. This modification eliminated contamination caused by wear and tear of the ball valve, while still maintaining recovery rates >80 %. Three points describing the change not the original: • The PVC ball valve is open while sample is agitated with a magnetic stirrer. • The PVC ball valve remains open while the solution is decanted. • The upper chamber is unscrewed and rinsed; recovering particles attached to the inner walls that would be lost using other filtration approaches.

Published

2019

10. Semi-Lagrangian advection in the NEMO ocean model

Author

Frédéric Dupont, Christopher Subich, Pierre Pellerin, and Gregory H. Sambrook Smith

Subjects

010504 meteorology & atmospheric sciences, Atmospheric models, Advection, 0208 environmental biotechnology, Extrapolation, Context (language use), 02 engineering and technology, Grid, 01 natural sciences, Domain (mathematical analysis), 020801 environmental engineering, Circulation (fluid dynamics), Flow (mathematics), Applied mathematics, Geology, 0105 earth and related environmental sciences

Abstract

As model resolutions increase, the Courant-Frederichs-Lewy (CFL) number based on advective motion becomes the limiting factor in setting the timestep of time-explicit circulation models. Some atmospheric models escape this limit by using an implicit or semi-implicit semi-Lagrangian formulation of advection. This formulation calculates fluid properties along parcel trajectories which follow the fluid motion and end, for each timestep, at prescribed grid-points. This work is the first application of the semi-Lagrangian method to an operational ocean model. In this context, we solve the difficulty posed by the ocean's irregular, interior boundaries by calculating parcel trajectories using a time-exponential formulation. This formulation ensures that all trajectories that are solutions to a fixed-point iteration have an origin point in the valid domain, and it does not require any prescribed extrapolation of the fluid velocities into the invalid (land) portion of the domain. We derive this method in a way that is compatible with the leapfrog timestepping scheme used in the NEMO-OPA (Nucleus for European Modelling of the Ocean, Océan Parallélisé) ocean model, and we present simulation results for a simplified test-case of flow past a model island and for 10-year free runs of the global ocean on the quarter-degree ORCA025 grid.

Published

2020

11. Detection limits are central to improve reporting standards when using Nile red for microplastic quantification

Author

Gregory H. Sambrook Smith, Pola Goldberg Oppenheimer, Simeon Onoja, Stefan Krause, Imogen Mansfield, Holly A. Nel, Andrew J. Chetwynd, Henar Margenat, Iseult Lynch, and Liam Kelleher

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Microplastics, 0208 environmental biotechnology, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Matrix (chemical analysis), chemistry.chemical_compound, Limit of Detection, Oxazines, Environmental Chemistry, 0105 earth and related environmental sciences, Detection limit, Reproducibility, Chemistry, Public Health, Environmental and Occupational Health, Nile red, Reproducibility of Results, General Medicine, General Chemistry, Reference Standards, Pollution, Fluorescence, 020801 environmental engineering, Staining, Pixel brightness, Particle, Biological system, Plastics

Abstract

Beyond simple identification of either the presence or absence of microplastic particles in the environment, quantitative accuracy has been criticised as being neither comparable nor reproducible. This is, in part, due to difficulties in the identification of synthetic particles amidst naturally occurring organic and inorganic components. The fluorescent stain Nile red has been proposed as a tool to overcome this issue, but to date, has been used without consideration of polymer specific fluorescent variability. The aim of this study was to evaluate the efficacy of Nile red for microplastic detection by systematically investigating what drives variations in particle pixel brightness (PPB). The results showed that PPB varied between polymer type, shape, size, colour and by staining procedure. Sand, an inorganic component of the sample matrix does not fluoresce when stained with Nile red. In contrast the organic components, wood and chitin, fluoresce between 1.40 and 12 arbitrary units (a.u.) and 32 and 74 a.u. after Nile red staining, respectively. These data informed the use of a PPB threshold limit of 100 a.u., which improved the detection of EPS, HDPE, PP and PA-6 from the 6 polymers tested and reduced analysis time by 30-58% compared to unstained samples. Conversely, as with traditional illumination, PET and PVC were not accurately estimated using this approach. This study shows that picking a threshold limit is not arbitrary but rather must be informed by polymer specific fluorescent variability and matrix considerations. This is an essential step needed to facilitate comparability and reproducibility between individual studies.

Published

2020

12. A numerical investigation into the importance of bed permeability on determining flow structures over river dunes

Author

Richard J. Hardy, Sumit Sinha, Gianluca Blois, Gregory H. Sambrook Smith, and James L. Best

Subjects

Coalescence (physics), Bedform, 010504 meteorology & atmospheric sciences, business.industry, 0208 environmental biotechnology, 02 engineering and technology, Computational fluid dynamics, 01 natural sciences, 020801 environmental engineering, Vortex, Boundary layer, Permeability (earth sciences), Flow separation, Hyporheic zone, Geotechnical engineering, business, Geology, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Although permeable sediments dominate the majority of natural environments past work concerning bedform dynamics has considered the bed to be impermeable, and has generally neglected flow between the hyporheic zone and boundary layer. Herein, we present results detailing numerically modelled flow which allow the effects of bed permeability on bedform dynamics to be assessed. Simulation of an isolated impermeable bedform over a permeable bed shows that flow is forced into the bed upstream of the dune and returns to the boundary layer at the leeside, in the form of returning jets that generate horseshoe-shaped vortices. The returning flow significantly influences the leeside flow, modifying the separation zone, lifting the shear layer adjoining the separation zone away from the bed. Simulation of a permeable dune on a permeable bed reveals even greater modifications as the flow through the dune negates the formation of any flow separation in the leeside. With two dunes placed in series the flow over the downstream dune is influenced by the developing boundary layer on the leeside of the upstream dune. For the permeable bed case the upwelling flow lifts the separated flow from the bed, modifies the shear layer through the coalescence with vortices generated, and causes the shear layer to undulate rather than be parallel to the bed. These results demonstrate the significant effect that bed permeability has on the flow over bedforms that may be critical in affecting the flux of water and nutrients.

Published

2017

13. Late-Holocene wind-field evolution at the southern Baltic coast as revealed by GPR data from the Mrzeżyno dunefield, NW Poland

Author

Tomasz Żuk, Gregory H. Sambrook Smith, and Paweł Sydor

Subjects

Archeology, 010504 meteorology & atmospheric sciences, Atmospheric circulation, Wind field, Sediment, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Deposition (geology), Ground-penetrating radar, Facies, Little ice age, Geomorphology, Ecology, Evolution, Behavior and Systematics, Holocene, 0105 earth and related environmental sciences

Abstract

All dunes within a dunefield usually show a similar response to the wind regime. However, in the late-Holocene coastal dunefield in NW Poland the surface topography suggests that slipface orientation may vary significantly with distance from the coast, which is rarely reported in the literature. The dunefield was stabilized with forest in the mid-19th century, preserving a unique record of atmospheric circulation in the South Baltic region at the end of the Little Ice Age. To elucidate the Holocene processes occurring along the study site a pseudo-3D GPR data set was collected. Six grids of parallel GPR lines combined with 400 m of GPR profiles (2D) were collected across the dunefield and displayed using GOCAD for interpretation and geostatistical analysis. The geophysical data revealed that the larger dunes almost entirely consist of steeply laminated facies. Most importantly the pseudo-3D data, supported by geostatistical estimates of strata dip directions, revealed the existence of three zones parallel to the coastline with the mean dip direction almost perpendicular to the coast in the northern coastal strip and almost parallel to it in the southern part. Spreads of the dip directions in pseudo-3D GPR data sets recorded on the stoss slopes of dunes and crests suggested initial deposition on transverse dunes, which later were transformed into barchanoid dunes. This can probably be linked to changes in the wind regime, i.e. reduction in velocity of the northern and northwestern winds leading to reduced sediment supply from the coast. While the data provide a new interpretation of Holocene dunefield dynamics at this site, they also suggest that the minimum number of pseudo-3D GPR grids required to establish general trends using geostatistical analysis should be at least 10, with even more data needed at larger, or more complex dunefields.

Published

2017

14. Weakly coupled atmosphere–ocean data assimilation in the Canadian global prediction system (v1)

Author

Gregory H. Sambrook Smith, Dorina Surcel-Colan, Ervig Lapalme, Sergey Skachko, Jean-Marc Bélanger, François Roy, Louis Garand, Mark Buehner, and Stéphane Laroche

Subjects

geography, geography.geographical_feature_category, lcsh:QE1-996.5, Climate change, Atmospheric temperature, Physics::Geophysics, lcsh:Geology, Atmosphere, Sea surface temperature, Data assimilation, Climatology, Sea ice, Radiance, Environmental science, Satellite, Astrophysics::Earth and Planetary Astrophysics, Physics::Atmospheric and Oceanic Physics

Abstract

A fully coupled atmosphere–ocean–ice model has been used to produce global weather forecasts at Environment and Climate Change Canada (ECCC) since November 2017. Currently, the system relies on four uncoupled data assimilation (DA) components for initializing the fully coupled global atmosphere–ocean–ice forecast model: atmosphere, ocean, sea ice and sea surface temperature (SST). The goal of the present study is to implement a weakly coupled data assimilation (WCDA) between the atmosphere and ocean components and evaluate its performance against uncoupled DA. The WCDA system uses coupled atmosphere–ocean–ice short-term forecasts as background states for the atmospheric and the ocean DA components that independently compute atmospheric and ocean analyses. This system leads to better agreement between the coupled atmosphere–ocean analyses and the coupled atmosphere–ocean–ice forecasts than between the uncoupled analyses and the coupled forecasts. The use of WCDA improves the atmospheric forecast score near the surface, but a slight increase in the atmospheric temperature bias is observed. A small positive impact from using the short-term SST forecast on the satellite radiance observation-minus-forecast statistics is noted. Ocean temperature and salinity forecasts are also improved near the surface. The next steps toward stronger DA coupling are highlighted.

Published

2019

15. Low flow and heatwaves alter ecosystem functioning in a stream mesocosm experiment

Author

Raquel Arias Font, Mark E. Ledger, Alexander M. Milner, Gregory H. Sambrook Smith, and Kieran Khamis

Subjects

Environmental Engineering, River ecosystem, 010504 meteorology & atmospheric sciences, Primary producers, Ecology, Primary production, 010501 environmental sciences, 01 natural sciences, Pollution, Decomposer, Mesocosm, Environmental Chemistry, Environmental science, Ecosystem, Ecosystem respiration, Waste Management and Disposal, 0105 earth and related environmental sciences, Trophic level

Abstract

Climate change is expected to intensify the effect of environmental stressors on riverine ecosystems. Extreme events, such as low flow and heatwaves, could have profound consequences for stream ecosystem functioning, but research on the impact of these stressors and their interaction across multiple processes, remains scarce. Here, we report the results of a two-month stream mesocosm experiment testing the effect of low flow (66% water level reduction, without gravel exposure) and heatwaves (three 8-d episodes of +5 °C above ambient with 10–15 days recovery between each episode) on a suite of ecosystem processes (i.e. detrital decomposition, biofilm accrual, ecosystem metabolism and DOC quantity and quality). Low flow reduced whole system metabolism, suppressing the rates of gross primary production (GPP) and ecosystem respiration (ER), but elevated DOC concentration. Overall, habitat contraction was the main driver of reduced ecosystem functioning in the low flow treatment. By contrast, heatwaves increased decomposition, algal accrual, and humic-like DOC, but reduced leaf decomposition efficiency. Net ecosystem production (NEP) generally decreased across the experiment but was most pronounced for low flow and heatwaves when occurring independently. Assessment of NEP responses to the three successive heatwave events revealed that responses later in the sequence were more reduced (i.e. more similar to controls), suggesting biofilm communities may acclimate to autumn heatwaves. However, when heatwaves co-occurred with low flow, a strong reduction in both ER and GPP was observed, suggesting increased microbial mortality and reduced acclimation. Our study reveals autumn heatwaves potentially elongate the growth season for primary producers and stimulate decomposers. With climate change, river ecosystems may become more heterotrophic, with faster processing of recalcitrant carbon. Further research is required to identify the impacts on higher trophic levels, meta-community dynamics and the potential for legacy effects generated by successive low flows and heatwaves.

Published

2021

16. Gathering at the top? Environmental controls of microplastic uptake and biomagnification in freshwater food webs

Author

Timothy J. Hoellein, Jennifer D. Drummond, Joerg Lewandowski, Gregory H. Sambrook Smith, Laurent Simon, Jon P. Sadler, Valentyna Inshyna, Berta Bonet, Viktor Baranov, Iseult Lynch, Stefan Krause, Anna Kukkola, Deonie Allen, Aaron I. Packman, Florian Mermillod-Blondin, Holly A. Nel, Steve Allen, School of Geography, Earth and Environmental Sciences [Birmingham], University of Birmingham [Birmingham], Équipe 3 - Écologie, Évolution, Écosystemes Souterrains (E3S), Institut Universitaire de France (IUF), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-Laboratoire d'Ecologie des Hydrosystèmes Naturels et Anthropisés (LEHNA), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-École Nationale des Travaux Publics de l'État (ENTPE)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-École Nationale des Travaux Publics de l'État (ENTPE)-Centre National de la Recherche Scientifique (CNRS), Department of Biology II, Ludwig Maximilians University, Munich, Department of Biology II, Loyola University Chicago, Department of Biology, Department of Ecohydrology, Leibniz-Institute of Freshwater Ecology and Inland Fisheries (IGB), DEPARTMENT OF GEOGRAPHY HUMBOLDT UNIVERSITAT ZU BERLIN DEU, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), DEPARTMENT OF CIVIL AND ENVIRONMENTAL ENGINEERING NORTHWESTERN UNIVERSITY EVANSTON USA, and University of Strathclyde [Glasgow]

Subjects

Microplastics, Food Chain, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, Biomagnification, Fresh Water, 010501 environmental sciences, Toxicology, 01 natural sciences, Freshwater ecosystem, Exposure, Food chain, Freshwater, Environmental monitoring, Humans, Ecosystem, 14. Life underwater, 0105 earth and related environmental sciences, Ecology, Aquatic ecosystem, Fate, Microplastic, Food web, General Medicine, Bioaccumulation, Pollution, 6. Clean water, TA, 13. Climate action, Environmental science, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Plastics, Water Pollutants, Chemical, Environmental Monitoring

Abstract

International audience; Microplastics are ubiquitous in the environment, with high concentrations being detected now also in river corridors and sediments globally. Whilst there has been increasing field evidence of microplastics accumulation in the guts and tissues of freshwater and marine aquatic species, the uptake mechanisms of microplastics into freshwater food webs, and the physical and geological controls on pathway-specific exposures to microplastics, are not well understood. This knowledge gap is hampering the assessment of exposure risks, and potential ecotoxicological and public health impacts from microplastics.This review provides a comprehensive synthesis of key research challenges in analysing the envi- ronmental fate and transport of microplastics in freshwater ecosystems, including the identification of hydrological, sedimentological and particle property controls on microplastic accumulation in aquatic ecosystems. This mechanistic analysis outlines the dominant pathways for exposure to microplastics in freshwater ecosystems and identifies potentially critical uptake mechanisms and entry pathways for microplastics and associated contaminants into aquatic food webs as well as their risk to accumulate and biomagnify.We identify seven key research challenges that, if overcome, will permit the advancement beyond current conceptual limitations and provide the mechanistic process understanding required to assess microplastic exposure, uptake, hazard, and overall risk to aquatic systems and humans, and provide key insights into the priority impact pathways in freshwater ecosystems to support environmental man- agement decision making.

Published

2021

17. Citizen science reveals microplastic hotspots within tidal estuaries and the remote Scilly Islands, United Kingdom

Author

Iseult Lynch, Stefan Krause, Rebecca Sykes, Uwe Schneidewind, Gregory H. Sambrook Smith, Rogan Harmer, and Holly A. Nel

Subjects

0106 biological sciences, Geologic Sediments, Microplastics, Intertidal zone, 010501 environmental sciences, Aquatic Science, Oceanography, 01 natural sciences, Population density, Citizen science, 0105 earth and related environmental sciences, Islands, geography.geographical_feature_category, Citizen Science, 010604 marine biology & hydrobiology, Sediment, Estuary, Pollution, Metropolitan area, United Kingdom, Geography, England, Mainland, Estuaries, Plastics, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The identification of microplastic hotspots is vital to our long-term understanding of their environmental fate and distribution. Although case studies have increased globally, sampling campaigns are often restricted geographically, with poor spatial resolution. Here, we use citizen science to increase our geographical reach, which improved our understanding of microplastic distribution in estuarine and beach sediment along the south-west coast of England. Hotspots (>700 particles per kg dry sediment) were identified on the Scilly Islands and in close proximity to major metropolitan hubs (i.e. Falmouth and Plymouth). Particles extracted from the Scilly Island sites were composed of polyethylene and polypropylene. With low population density on the Isle of Scilly, hotspots may suggest that microplastics originate from distant sources, while Falmouth and Plymouth, on mainland UK, are locally supplied. This information supports the design of future campaigns and targeted mitigation strategies in areas of highest concentrations.

Published

2020

18. Abundance, Distribution, and Drivers of Microplastic Contamination in Urban River Environments

Author

Gregory H. Sambrook Smith, Iseult Lynch, Joseph Tibbetts, and Stefan Krause

Subjects

Microplastics, microplastics, lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, Floodplain, Geography, Planning and Development, Drainage basin, 010501 environmental sciences, Aquatic Science, 01 natural sciences, Biochemistry, complex mixtures, deposition, Deposition (geology), lcsh:Water supply for domestic and industrial purposes, Abundance (ecology), lcsh:TC1-978, Tributary, Ecosystem, freshwater, 0105 earth and related environmental sciences, Water Science and Technology, geography, lcsh:TD201-500, geography.geographical_feature_category, technology, industry, and agriculture, Sediment, equipment and supplies, Fishery, transport, Environmental science, bacteria

Abstract

Given the persistence of microplastics in the environment and their potential toxicity to ecosystems, understanding of likely microplastic accumulation &lsquo, hotspots&rsquo, in rivers is urgently needed. To contribute to this challenge, this paper reports results of a microplastic survey from a heavily urbanised catchment, the River Tame and four of its tributaries, which flows through the city of Birmingham, UK. All sediment sampled was found to contain microplastics with an average abundance of 165 particles kg&minus, 1. While urban areas generally have a greater abundance of microplastics as compared with rural, there is no simple relationship between microplastic numbers and population density or proximity to wastewater treatment sites. The greatest change in microplastic abundance was due to the presence of a lake along the course of the River Tame&mdash, i.e., flow velocities are reduced on entering the lake, which promotes the deposition of fine sediment and potentially microplastics. This suggests that the greatest concentrations of microplastics will not be found in-channel but rather on the floodplain and other low velocity environments such as meander cutoffs. We also identified a new mechanism of microplastic fixation in freshwater environments through ecological engineers, specifically caddisflies, that incorporated microplastics into their casing. These results highlight the need to explore further hydrodynamic and ecological impacts on microplastics fate and transport in rivers.

Published

2018

19. Abundance, Distribution and Drivers of Microplastic Contaminant in Urban River Environments

Author

Iseult Lynch, Joe Tibbetts, Gregory H. Sambrook Smith, and Stefan Krause

Subjects

environmental_sciences, Microplastics, Oceanography, Abundance (ecology), business.industry, Environmental science, Distribution (economics), business

Abstract

Given the persistence of microplastics in the environment and their potential toxicity to ecosystems, understanding of likely microplastic accumulation ‘hotspots’ in rivers is urgently needed. To contribute to this challenge, this paper reports results of a microplastic survey from a heavily urbanised catchment, the River Tame, which flows through the city of Birmingham, UK. All sediment sampled was found to contain microplastics with an average abundance of 165 particles kg-1. While urban areas generally have a greater abundance of microplastics as compared with rural, there is no simple relationship between microplastic numbers and population density or proximity to wastewater treatment sites. The greatest change in microplastic abundance was due to the presence of a lake along the course of the River Tame i.e. on entering the lake flow velocities are reduced which promotes the deposition of fine sediment and potentially microplastics. This suggests that the greatest concentrations of microplastics will not be found in-channel but rather on the floodplain and other low velocity environments such as meander cutoffs. We also identified a new mechanism of microplastic fixation in freshwater environments through ecological engineers, specifically caddisfly that incorporated microplastics into their casing. These results highlight the need to explore further hydrodynamic and ecological impacts on microplastics fate and transport in rivers.

Published

2018

20. Scales and causes of heterogeneity in bars in a large multi-channel river: Río Paraná, Argentina

Author

Ricardo Nicolas Szupiany, Mario L. Amsler, Daniel R. Parsons, Gregory H. Sambrook Smith, S. D. Sandbach, Stuart N. Lane, C. Simpson, Arnold Jan H. Reesink, Oscar Orfeo, Richard J. Hardy, Andrew Nicholas, Philip Ashworth, and James L. Best

Subjects

Hydrology, Dunes, geography, geography.geographical_feature_category, GPR, Stratigraphy, Geology, Channel deposits, Large rivers, Sedimentary structures, Sedimentary depositional environment, Río Paraná, Confluence, Tributary, Bars, Alluvium, Sedimentary rock, Geomorphology, Facies models, Multi channel

Abstract

To date, published studies of alluvial bar architecture in large rivers have been restricted mostly to case studies of individual bars and single locations. Relatively little is known about how the depositional processes and sedimentary architecture of kilometre-scale bars vary within a multi-kilometre reach or over several hundreds of kilometres downstream. This study presents Ground Penetrating Radar and core data from 11, kilometre-scale bars from the Río Paraná, Argentina. The investigated bars are located between 30 km upstream and 540 km downstream of the Río Paraná – Río Paraguay confluence, where a significant volume of fine-grained suspended sediment is introduced into the network. Bar-scale cross-stratified sets, with lengths and widths up to 600 m and thicknesses up to 12 m, enable the distinction of large river deposits from stacked deposits of smaller rivers, but are only present in half the surface area of the bars. Up to 90% of bar-scale sets are found on top of finer-grained ripple-laminated bar-trough deposits. Bar-scale sets make up as much as 58% of the volume of the deposits in small, incipient mid-channel bars, but this proportion decreases significantly with increasing age and size of the bars. Contrary to what might be expected, a significant proportion of the sedimentary structures found in the Río Paraná is similar in scale to those found in much smaller rivers. In other words, large river deposits are not always characterized by big structures that allow a simple interpretation of river scale. However, the large scale of the depositional units in big rivers causes small-scale structures, such as ripple sets, to be grouped into thicker cosets, which indicate river scale even when no obvious large-scale sets are present. The results also show that the composition of bars differs between the studied reaches upstream and downstream of the confluence with the Río Paraguay. Relative to other controls on downstream fining, the tributary input of fine-grained suspended material from the Río Paraguay causes a marked change in the composition of the bar deposits. Compared to the upstream reaches, the sedimentary architecture of the downstream reaches in the top ca 5 m of mid-channel bars shows: (i) an increase in the abundance and thickness (up to metre-scale) of laterally extensive (hundreds of metres) fine-grained layers; (ii) an increase in the percentage of deposits comprised of ripple sets (to >40% in the upper bar deposits); and (iii) an increase in bar-trough deposits and a corresponding decrease in bar-scale cross-strata (

Published

2014

21. Decimeter-scale in situ mapping of modern cross-bedded dune deposits using parametric echo sounding: A new method for linking river processes and their deposits

Author

Oscar Orfeo, Gregory H. Sambrook Smith, James L. Best, J. A. Zinger, and Mark E. Vardy

Subjects

Geophysics, Echo sounding, General Earth and Planetary Sciences, Fluvial, Alluvium, Sedimentary rock, Sedimentology, Scale (map), Geomorphology, Geology, Parametric statistics, Sand dune stabilization

Abstract

[1] Collecting high-resolution data to quantify the sedimentary architecture within contemporary alluvial channels remains one of the outstanding challenges in fluvial sedimentology. Here, we present data collected using a new geophysical method, the parametric echo sounder (PES), which can meet this challenge. From surveys over a field of sand dunes in the Rio Parana, Argentina, we demonstrate the unique ability of PES to image the subsurface structure within active channels at a decimetric resolution. These data reveal the bounding surfaces between bars and dunes, as well as the foresets and reactivation surfaces within them. This provides quantitative in situ data for recent work that suggests cross-strata preserved by dunes may be more related to flow depths less than the commonly assumed bankfull level. These surveys demonstrate that PES can provide hitherto unobtainable data from alluvial channels and presents significant opportunities for more detailed coupled studies of fluvial processes and their deposits.

Published

2013

22. Deposits of the sandy braided South Saskatchewan River: Implications for the use of modern analogs in reconstructing channel dimensions in reservoir characterization

Author

Philip Ashworth, C. Simpson, James L. Best, Ian A. Lunt, Gregory H. Sambrook Smith, and Stuart N. Lane

Subjects

Outcrop, Energy Engineering and Power Technology, Fluvial, Geology, Fuel Technology, Geochemistry and Petrology, Aggradation, Earth and Planetary Sciences (miscellaneous), Erosion, Reservoir modeling, Alluvium, Scale (map), Geomorphology, Communication channel

Abstract

Estimation of the dimensions of fluvial geobodies from core data is a notoriously difficult problem in reservoir modeling. To try and improve such estimates and, hence, reduce uncertainty in geomodels, data on dunes, unit bars, cross-bar channels, and compound bars and their associated deposits are presented herein from the sand-bed braided South Saskatchewan River, Canada. These data are used to test models that relate the scale of the formative bed forms to the dimensions of the preserved deposits and, therefore, provide an insight as to how such deposits may be preserved over geologic time. The preservation of bed-form geometry is quantified by comparing the alluvial architecture above and below the maximum erosion depth of the modern channel deposits. This comparison shows that there is no significant difference in the mean set thickness of dune cross-strata above and below the basal erosion surface of the contemporary channel, thus suggesting that dimensional relationships between dune deposits and the formative bed-form dimensions are likely to be valid from both recent and older deposits. The data show that estimates of mean bankfull flow depth derived from dune, unit bar, and cross-bar channel deposits are all very similar. Thus, the use of all these metrics together can provide a useful check that all components and scales of the alluvial architecture have been identified correctly when building reservoir models. The data also highlight several practical issues with identifying and applying data relating to cross-strata. For example, the deposits of unit bars were found to be severely truncated in length and width, with only approximately 10% of the mean bar-form length remaining, and thus making identification in section difficult. For similar reasons, the deposits of compound bars were found to be especially difficult to recognize, and hence, estimates of channel depth based on this method may be problematic. Where only core data are available (i.e., no outcrop data exist), formative flow depths are suggested to be best reconstructed using cross-strata formed by dunes. However, theoretical relationships between the distribution of set thicknesses and formative dune height are found to result in slight overestimates of the latter and, hence, mean bankfull flow depths derived from these measurements. This article illustrates that the preservation of fluvial cross-strata and, thus, the paleohydraulic inferences that can be drawn from them, are a function of the ratio of the size and migration rate of bed forms and the time scale of aggradation and channel migration. These factors must thus be considered when deciding on appropriate length:thickness ratios for the purposes of object-based modeling in reservoir characterization.

Published

2013

23. Quantification of the relation between surface morphodynamics and subsurface sedimentological product in sandy braided rivers

Author

James L. Best, Stuart N. Lane, Gregory H. Sambrook Smith, Philip Ashworth, Ian A. Lunt, Natalie O. Parker, Robert E. Thomas, and C. Simpson

Subjects

Sedimentary depositional environment, Flood myth, Stratigraphy, Ground-penetrating radar, Facies, Erosion, Geology, Geologic record, Digital elevation model, Geomorphology, Beach morphodynamics

Abstract

This paper presents an integrated dataset of digital elevation models (DEMs) and ground penetrating radar (GPR) surveys from the sandy braided South Saskatchewan River, Canada. Data were collected from the same sites in 2004, 2005, 2006 and 2007, allowing the evolution of the surface morphology to be tied explicitly to its associated depositional record. The occurrence of a large flood in 2005 also allowed the influence of discharge to be assessed with respect to the process-product relationship. The data demonstrated that the morphology of the study reach evolved even with modest discharges and could become organized into planforms that were either more compound bar-dominated or unit bar-dominated. The large flood was a trigger for switching between states and caused more erosion than is normally the case. The GPR surveys quantified the extent to which the subsurface deposits (the ‘product’) were modified by the surface morphodynamics (the ‘process). They revealed that during the large flood there was an increase in the proportion of facies associated with bar margin accretion and larger dune sets. Conversely, in subsequent years these facies became truncated and replaced with facies associated with smaller dune sets. In particular, this analysis showed that unit bars generally become truncated vertically but especially laterally. Thus, they lose the high-angle bar margin deposits and the smaller-scale deposits found on their surfaces. As a result, commonly the only fragments that remain are dune sets, thus making identification of the original unit barform problematic. This unique datasets raises implications for what may ultimately become preserved in the rock record.

Published

2012

24. Tributary, distributary and other fluvial patterns: What really represents the norm in the continental rock record?

Author

E. Prokocki, James L. Best, Christopher R. Fielding, Gregory H. Sambrook Smith, and Philip Ashworth

Subjects

geography, geography.geographical_feature_category, Floodplain, Stratigraphy, Alluvial fan, Fluvial, Geology, Sedimentary basin, Geologic record, Paleontology, Tributary, Alluvium, Sedimentary rock

Abstract

This paper evaluates the recent claim made by Weissmann et al. (2010) that deposits of “Distributive Fluvial Systems” (DFS) may form the bulk of the continental fluvial record. Weissmann et al. (2010) define DFS as “a pattern of channel and floodplain deposits that radiate outward from an apex that is located where the river enters the sedimentary basin”. As such, DFS are fan-like systems on which multiple channels coexist and distribute water and sediment across the fan. Published criteria for the recognition of DFS (Weissmann et al., 2010) are 1) a radial pattern of channels from the DFS apex; 2) downslope decreases in channel size; 3) down-DFS grain-size decreases; and 4) a lack of lateral channel confinement. However, in Weissmann et al. (2010) and subsequent papers, only the first of these criteria is applied rigorously, thus allowing a variety of types of fluvial system (including avulsive, incised, anabranching, and coastal plain distributary systems) to potentially be classified uncritically as DFS. An ancient succession formed by DFS should preserve mostly small channel bodies, with a limited range of dimensions and no outsized channel bodies. Channel bodies in DFS-dominated successions should also decrease in size in a down-palaeoslope direction and show palaeocurrent relationships indicative of radial dispersal. In order for the term DFS to be applied, these characteristics should also be established within stratigraphic bodies that formed coevally. However, very few examples have yet been published that satisfy these criteria. If the claim that DFS dominate the alluvial stratigraphic record is valid, then few, if any, sedimentary bodies formed by large channels should be preserved. A review of published research demonstrates, however, that the alluvial stratigraphic record contains a broad diversity of fluvial network styles, including abundant representatives of tributary, avulsive, anabranching, and incised, in addition to distributary types. It is also clear that the deposits of large, main stem rivers that are comparable to the big rivers of the modern world are abundantly preserved in the stratigraphic record. An analysis of the planimetric area of modern tributary and distributary fluvial systems is presented, demonstrating that tributary systems are also likely to represent a far larger proportion of the ancient sedimentary record than DFS. The body of evidence presented herein from modern and ancient alluvial systems thus suggests that the hypothesis of Weissmann et al. (2010) should be wholly rejected. DFS do not dominate the continental stratigraphic record.

Published

2012

25. Evolution and sedimentology of a channel fill in the sandy braided South Saskatchewan River and its comparison to the deposits of an adjacent compound bar

Author

C. Simpson, Ian A. Lunt, Robert E. Thomas, Arnold Jan H. Reesink, Gregory H. Sambrook Smith, James L. Best, Philip Ashworth, Stuart N. Lane, and John S. Bridge

Subjects

Sedimentary depositional environment, Paleontology, Stratigraphy, Facies, Sediment, Geology, Alluvium, Sedimentology, Geomorphology, Deposition (geology), Communication channel

Abstract

The depositional stratigraphy of within-channel deposits in sandy braided rivers is dominated by a variety of barforms (both singular ‘unit’ bars and complex ‘compound’ bars), as well as the infill of individual channels (herein termed ‘channel fills’). The deposits of bars and channel fills define the key components of facies models for braided rivers and their within-channel heterogeneity, knowledge of which is important for reservoir characterization. However, few studies have sought to address the question of whether the deposits of bars and channel fills can be readily differentiated from each other. This paper presents the first quantitative study to achieve this aim, using aerial images of an evolving modern sandy braided river and geophysical imaging of its subsurface deposits. Aerial photographs taken between 2000 and 2004 document the abandonment and fill of a 1AE3 km long, 80 m wide anabranch channel in the sandy braided South Saskatchewan River, Canada. Upstream river regulation traps the majority of very fine sediment and there is little clay (

Published

2011

26. Can we distinguish flood frequency and magnitude in the sedimentological record of rivers?

Author

Stuart N. Lane, Ian A. Lunt, Robert E. Thomas, James L. Best, Gregory H. Sambrook Smith, Natalie O. Parker, C. Simpson, and Philip Ashworth

Subjects

geography, geography.geographical_feature_category, Flood myth, Discharge, Geology, Geologic record, Paleontology, Catastrophism, Overbank, Alluvium, Sedimentary rock, Geomorphology, Channel (geography)

Abstract

Consideration of the origin of alluvial deposits and their paleoenvironmental interpretation has traditionally involved two schools of thought: that they are either the result of processes that, on average, have acted uniformly through time, or that they are related to exceptional events that occur infrequently. Despite the long-running debate of gradualism versus catastrophism within the Earth Sciences, there are surprisingly few quantitative data to assess the magnitude of events that produce alluvial sedimentary successions. This paper reports on a unique ‘natural experiment’ where surface (digital elevation model, DEM) and subsurface (ground penetrating radar, GPR) data were taken immediately prior to, and after, a large (1-in-40 yr) flood event on the sandy, braided, South Saskatchewan River, Canada. Results show that although this high-magnitude flood reworked the entire braidplain, the scale of scour and style of deposition was similar to that associated with lower-magnitude, annual, floods. The absence of a distinct imprint of this large flood within the deposits is related to the fact that as river discharge rises, and begins to flow overbank, channel width increases at a much faster rate than flow depth, and thus the rate of increase in channel bed shear stress declines. Hence, rather than being a product of either frequent or rare events, alluvial deposits will likely be created by a range of different magnitude floods, but discriminating between these different scale events in the rock record may be extremely difficult.

Published

2010

27. The Sedimentology and Alluvial Architecture of a Large Braid Bar, Rio Parana, Argentina

Author

Philip Ashworth, Gregory H. Sambrook Smith, Daniel R. Parsons, Oscar Orfeo, James L. Best, and Ian A. Lunt

Subjects

Trough (geology), Geology, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Braid bar, Facies, Ground-penetrating radar, ALLUVIAL ARCHITECTURE, RÍO PARANÁ, Dominance (ecology), Sedimentary rock, Alluvium, Sedimentology, Meteorología y Ciencias Atmosféricas, LARGE BRAID BAR, Geomorphology, CIENCIAS NATURALES Y EXACTAS

Abstract

This paper presents ∼ 30 km of ground penetrating radar (GPR) data from a mid-channel bar in the sixth largest river in the world, the Rio Paraná, Argentina. GPR profiles, with depth of penetration up to 12 m below the bar surface, were collected from a sandy braid bar ∼ 3 km long by ∼ 1 km wide on a grid with a 200 to 400 m spacing. Two facies were found to dominate the sedimentary architecture. The principal facies (∼ 83% of total facies) comprises trough and planar cross-strata related to the migration of dunes, with the thickness of the cross-strata decreasing towards the bar surface. The second significant facies (∼ 15%) is high-angle (generally 10-20°) strata that typically form by accretion at the bar margins or bartail. Clay drapes (< 2%) and cross-bar channels (< 1%) are shown to constitute only a minor part of the deposits. The Río Paraná GPR surveys are compared with other GPR studies of sandy braid bars of different sizes from the South Saskatchewan, Wisconsin, and Jamuna rivers. The dominance of dune deposits is ubiquitous to all rivers, with each also possessing a significant proportion of large-scale high-angle strata. However, two differences were found to exist between the deposits of these rivers: (1) the compound-bar deposits of smaller rivers contained greater proportions of the fills of cross-bar channels, which suggests a potential role for discharge as a factor in shaping the alluvial architecture through its impact on the frequency of sediment rew orking over the bar tops, and, (2) the thickness of large-scale, high-angle sets decreases with the age of the bar, which suggests that the deposits of older bars may provide more useful geometrical analogues for interpreting ancient successions, than smaller transient, or recent, bar forms that have undergone only limited modification. Fil: Sambrook Smith, Gregory H.. University Of Birmingham; Reino Unido Fil: Ashworth, Philip J.. University Of Brighton; Reino Unido Fil: Best, James L.. University of Illinois. Urbana - Champaign; Estados Unidos Fil: Lunt, Ian A.. University Of Leeds; Reino Unido Fil: Orfeo, Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste. Centro de Ecología Aplicada del Litoral. Universidad Nacional del Nordeste. Centro de Ecología Aplicada del Litoral; Argentina Fil: Parsons, Daniel R.. University Of Hull; Reino Unido

Published

2009

28. The role of discharge variability in determining alluvial stratigraphy

Author

Stuart N. Lane, Oscar Orfeo, Daniel R. Parsons, James L. Best, Gregory H. Sambrook Smith, Mario L. Amsler, Arnold Jan H. Reesink, S. D. Sandbach, Richard J. Hardy, Philip Ashworth, Christopher J. Simpson, Andrew Nicholas, and Ricardo Nicolas Szupiany

Subjects

010504 meteorology & atmospheric sciences, GPR, 010502 geochemistry & geophysics, 01 natural sciences, Ciencias de la Tierra y relacionadas con el Medio Ambiente, DISCHARGE VARIABILITY, purl.org/becyt/ford/1 [https], purl.org/becyt/ford/1.5 [https], ALLUVIAL STRATIGRAPHY, Geomorphology, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Flood myth, Oceanografía, Hidrología, Recursos Hídricos, Geology, Stratigraphy, Ground-penetrating radar, River morphology, PARANA RIVER, Alluvium, Paleocurrent, CIENCIAS NATURALES Y EXACTAS, Beach morphodynamics, Channel (geography)

Abstract

We illustrate the potential for using physics-based modeling to link alluvial stratigraphy to large river morphology and dynamics. Model simulations, validated using Ground Penetrating Radar data from the Río Paraná, Argentina, demonstrate a strong 30 relationship between bar-scale set thickness and channel depth, which applies across a wide range of river patterns and bar types. We show that hydrologic regime, indexed by discharge variability and flood duration, exerts a first-order influence on morphodynamics and hence bar set thickness, and that planform morphology alone may be a misleading variable for interpreting deposits. Indeed, our results illustrate that rivers evolving under contrasting hydrologic regimes may have very similar morphology, yet be characterized by marked differences in stratigraphy. This realization represents an important limitation on the application of established theory that links river topography to alluvial deposits, and highlights the need to obtain field evidence of discharge variability when developing paleoenvironmental reconstructions. Model simulations demonstrate the potential for deriving such evidence using metrics of paleocurrent variance. Fil: Nicholas, Andrew P.. University Of Exeter; Reino Unido Fil: Sambrook Smith, Gregory H.. University of Birmingham; Reino Unido Fil: Amsler, Mario Luis. Universidad Nacional del Litoral. Facultad de Ingeniería y Ciencias Hídricas; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Ashworth, Philip J.. University Of Brighton; Reino Unido Fil: Best, James L.. University of Illinois. Urbana - Champaign; Estados Unidos Fil: Hardy, Richard J.. University Of Durham; Reino Unido Fil: Lane, Stuart N.. Universite de Lausanne; Suiza Fil: Orfeo, Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste. Centro de Ecología Aplicada del Litoral. Universidad Nacional del Nordeste. Centro de Ecología Aplicada del Litoral; Argentina Fil: Parsons, Daniel R.. University Of Hull; Reino Unido Fil: Reesink, Arnold J.. University Of Brighton; Reino Unido Fil: Sandbach, Stevend D.. University Of Exeter; Reino Unido Fil: Simpson, Christopher J.. University Of Brighton; Reino Unido Fil: Szupiany, Ricardo Nicolas. Universidad Nacional del Litoral. Facultad de Ingeniería y Ciencias Hídricas; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina

Published

2015

29. Signatures of Quaternary fluvial response, Upper River Trent, Staffordshire, UK: A synthesis of outcrop, documentary, and GPR data

Author

Neil S. Davies and Gregory H. Sambrook Smith

Subjects

Paleontology, Outcrop, Geography, Planning and Development, Ground-penetrating radar, Earth and Planetary Sciences (miscellaneous), Fluvial, Quaternary, Geology

Published

2006

30. The use and application of GPR in sandy fluvial environments: methodological considerations

Author

John Woodward, C. Simpson, Gregory H. Sambrook Smith, Philip Ashworth, and James L. Best

Subjects

Hydrology, Data collection, business.industry, Fluvial, Information quality, Geology, Ocean Engineering, Software, Ground-penetrating radar, Stage (hydrology), business, Water Science and Technology, Remote sensing

Abstract

Ground penetrating radar (GPR) is a popular technique for imaging and interpreting sedimentary architecture. However, current literature shows a wide range in the quality of information provided on the GPR methodology and processing technique. It is therefore difficult to judge the validity of the GPR interpretations and this produces inherent difficulties for comparison between surveys. This paper describes the key steps required to collect, process and interpret GPR surveys in sandy fluvial sediments. GPR data from the South Saskatchewan River, Canada, are used to illustrate each stage of data collection and processing. Particular attention is given to the appropriate set-up conditions for the GPR software and hardware, the selection of data-processing techniques and velocity analysis. Methods for the interpretation of GPR reflectors are also investigated using ground-truth control provided by a cut-face exposure. This paper presents recommendations for a systematic and rigorous methodology for the collection, processing and interpretation of GPR data in sandy fluvial environments. The paper suggests that all data-collection parameters and processing steps should be recorded or tabulated in any GPR publication to facilitate comparisons between surveys.

Published

2003

31. Glacial meltwater erosion of the Mid-Cheshire Ridge: implications for ice dynamics during the Late Devensian glaciation of northwest England

Author

Gregory H. Sambrook Smith and Neil F. Glasser

Subjects

geography, geography.geographical_feature_category, Bedrock, Ice stream, Paleontology, Pressure ridge, Arts and Humanities (miscellaneous), Earth and Planetary Sciences (miscellaneous), Deglaciation, Glacial period, Ice sheet, Meltwater, Seabed gouging by ice, Geomorphology, Geology

Abstract

Mapping of glacial meltwater channels along the length of the 25-km Mid-Cheshire Ridge reveals evidence for four distinctive channel morphologies, which are used to establish the pattern of meltwater flow during the Late Devensian glaciation. A key characteristic of all channels is an abrupt change in morphology between inception on the Mid-Cheshire Ridge and the downstream continuation on the surrounding Cheshire Plain, with large reductions in channel cross-sectional area at this point. The interpretation of this evidence is that meltwater flowing off the bedrock ridge was absorbed into a layer of permeable sediment beneath the Late Devensian ice sheet. This permeable sediment is significant because it would have acted as a deforming layer beneath the former ice sheet in this area. Reconstruction of the Late Devensian ice sheet based on information from the meltwater channels and using values of shear stresses typical of ice sheets resting on deformable beds (ca. 20 kPa) suggests an ice surface elevation over the Irish Sea of ca. 700 m. This value is considerably less than previous estimates of the vertical extent of the ice sheet of ca. 1000-1200 m and has important implications for the rapidity and mode of deglaciation during the Late Devensian. Copyright © 1999 John Wiley & Sons, Ltd.

Published

1999

32. Late Devensian ice sheet characteristics: a palaeohydraulic approach

Author

Gregory H. Sambrook Smith and Neil F. Glasser

Subjects

Ice-sheet model, geography, geography.geographical_feature_category, Ice stream, Hydrostatic pressure, Deglaciation, Geology, Glacial period, Ice sheet, Meltwater, Geomorphology, Diamicton

Abstract

Glacial meltwater channels are incised into bedrock and diamicton along much of the length of the Mid-Cheshire Ridge. Detailed mapping of one such system near the town of Helsby reveals a dendritic channel network developed in the opposite direction to the regional ice flow during the last (Late Devensian) glaciation. The channels formed subglacially, under atmospheric and not hydrostatic pressure, presumably as the ice sheet downwasted during deglaciation. Morphological and palaeohydraulic evidence suggests that not all of the network was necessarily active contemporaneously. Former water levels in the channels can be estimated due to the presence of bar surfaces, giving a calculated palaeodischarge of at least 111 m3 s−1. The ablation rates required to account for this large discharge are an order of magnitude greater than those obtained from theoretical calculations and those observed in modern glacial environments. This implies that some form of high-magnitude discharge, such as a seasonal flood event, must have taken place in this area during deglaciation. This picture of the Late Devensian ice sheet suggests that during recession the ice sheet was static, crevassed and relatively thin (

Published

1998

33. Coherent Flow Structures in the Pore Spaces of Permeable Beds Underlying a Unidirectional Turbulent Boundary Layer: A Review and Some New Experimental Results

Author

Kenneth T. Christensen, James L. Best, Richard J. Hardy, Gregory H. Sambrook Smith, and G. Blois

Subjects

Permeability (earth sciences), Boundary layer, Materials science, Transition layer, Geotechnical engineering, Mechanics, Refractive index matching

Published

2013

34. Bimodal fluvial bed sediments: origin, spatial extent and processes

Author

Gregory H. Sambrook Smith

Subjects

010506 paleontology, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, Sorting (sediment), Geochemistry, Fluvial, 01 natural sciences, Grain size, Alluvion, Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences, Alluvium, Spatial extent, Sediment transport, Geomorphology, Geology, 0105 earth and related environmental sciences, Bed load

Abstract

Historically fluvial channels have been broadly classified as either gravel or sand bed ded. However, a third type, bimodal, also exists. In this case significant quantities of both gravel and sand are present. Studies into bimodal sediments have concentrated on their origin, spatial extent and, more recently, the processes occurring within them. Given the advances in our knowledge of these complex processes it is appropriate to review the developments of research into bimodal sediments. Based on a synthesis of this research it is shown that bimodality may occur readily and be spatially widespread. The effects of the surface sorting prevalent within bimodal sediments on entrainment and transport processes are also explored. From this it is concluded that bimodal beds may represent a distinct threshold between gravel- and sand-bed states. This manifests itself as an abrupt downstream change from a gravel bed to a sand bed.

Published

1996

35. The gravel-sand transition: flume study of channel response to reduced slope

Author

Gregory H. Sambrook Smith and Robert I. Ferguson

Subjects

Flume, geography, geography.geographical_feature_category, Aggradation, Flow (psychology), Shear stress, Sediment, Geotechnical engineering, Surface finish, Geology, Channel (geography), Deposition (geology), Earth-Surface Processes

Abstract

This paper reports flume experiments with a bimodal gravel/sand bed and sediment feed, designed to investigate river channel response to declining slope. In successive runs an initial near-equilibrium channel was subjected to progressively bigger reductions in flume slope. This simulated a series of sites along a concave profile approaching a local base level and undergoing a transition from gravel to sand bed; it also models the effects of a rise in base level on a fixed site. Slope reduction led to immediate increase in depth and reduction in velocity and shear stress, hence progressive aggradation. Deposition was size-selective and led to the following sequence of bed texture change with increasing severity of slope reduction: (1) sand in lee of gravel clusters, (2) elongated sandy patches and thin streaks, (3) wider sand ribbons covering gravel completely and developing ripples. There was feedback from the gradual bed surface changes to hydraulic conditions: near-bed velocity increased, while depth, shear stress, and roughness height decreased. These feedbacks were more pronounced with a bigger reduction in slope. These results support the view that the gravel-sand transition along river channels with a local base level control is assisted by positive feedback between changes in bed surface texture and near-bed flow.

Published

1996

36. The effect of environmentally relevant conditions on PVP stabilised gold nanoparticles

Author

Mark Sterling, Gregory H. Sambrook Smith, Jamie R. Lead, Yon Ju-Nam, and Adam Hitchman

Subjects

Steric effects, Environmental Engineering, Chemistry, Health, Toxicology and Mutagenesis, Osmolar Concentration, Inorganic chemistry, technology, industry, and agriculture, Public Health, Environmental and Occupational Health, Metal Nanoparticles, Povidone, Nanoparticle, General Medicine, General Chemistry, Environmental exposure, Hydrogen-Ion Concentration, Surface Plasmon Resonance, Inorganic ions, Pollution, Colloidal gold, Ionic strength, Environmental Chemistry, Benzopyrans, Gold, Surface charge, Surface plasmon resonance

Abstract

Nanoparticles are a major product from the nanotechnology industry and have been shown to have a potentially large environmental exposure and hazard. In this study, sterically stabilised polyvinyl pyrrolidone (PVP) 7 nm gold nanoparticles (NPs) were produced and characterised as prepared by surface plasmon resonance (SPR), size and aggregation, morphology and surface charge. Changes in these properties with changes in environmentally relevant conditions (pH, ionic strength, Ca concentration and fulvic acid presence) were quantified. These sterically stabilised NPs showed no aggregation with changes in pH or inorganic ions, even under high (0.1 M) Ca concentrations. In addition, the presence of fulvic acid resulted in no observable changes in SPR, size, aggregation or surface chemistry, suggesting limited interaction between the PVP stabilised nanoparticles and fulvic acid. Due to the lack of aggregation and interaction, these NPs are expected to be highly mobile and potentially bioavailable in the environment.

Published

2013

37. Modelling hydrodynamics in the Rio Paraná, Argentina: An evaluation and inter-comparison of reduced-complexity and physics based models applied to a large sand-bed river

Author

Gregory H. Sambrook Smith, Andrew Nicholas, Richard J. Hardy, Arnold Jan H. Reesink, Oscar Orfeo, Daniel R. Parsons, James L. Best, Philip Ashworth, Ricardo Nicolas Szupiany, Mario L. Amsler, Stuart N. Lane, and S. D. Sandbach

Subjects

Flow (psychology), Geometry, REDUCED COMPLEXITY, SAND-BED RIVER, Geociencias multidisciplinaria, Ciencias de la Tierra y relacionadas con el Medio Ambiente, HYDRODYNAMICS, Acoustic Doppler current profiler, Fluid dynamics, Mean flow, Reduction (mathematics), Geomorphology, Shallow water equations, Beach morphodynamics, Geology, CIENCIAS NATURALES Y EXACTAS, Earth-Surface Processes, Communication channel

Abstract

Depth-averaged velocities and unit discharges within a 30. km reach of one of the world's largest rivers, the Rio Paraná, Argentina, were simulated using three hydrodynamic models with different process representations: a reduced complexity (RC) model that neglects most of the physics governing fluid flow, a two-dimensional model based on the shallow water equations, and a three-dimensional model based on the Reynolds-averaged Navier-Stokes equations. Flow characteristics simulated using all three models were compared with data obtained by acoustic Doppler current profiler surveys at four cross sections within the study reach. This analysis demonstrates that, surprisingly, the performance of the RC model is generally equal to, and in some instances better than, that of the physics based models in terms of the statistical agreement between simulated and measured flow properties. In addition, in contrast to previous applications of RC models, the present study demonstrates that the RC model can successfully predict measured flow velocities. The strong performance of the RC model reflects, in part, the simplicity of the depth-averaged mean flow patterns within the study reach and the dominant role of channel-scale topographic features in controlling the flow dynamics. Moreover, the very low water surface slopes that typify large sand-bed rivers enable flow depths to be estimated reliably in the RC model using a simple fixed-lid planar water surface approximation. This approach overcomes a major problem encountered in the application of RC models in environments characterised by shallow flows and steep bed gradients. The RC model is four orders of magnitude faster than the physics based models when performing steady-state hydrodynamic calculations. However, the iterative nature of the RC model calculations implies a reduction in computational efficiency relative to some other RC models. A further implication of this is that, if used to simulate channel morphodynamics, the present RC model may offer only a marginal advantage in terms of computational efficiency over approaches based on the shallow water equations. These observations illustrate the trade off between model realism and efficiency that is a key consideration in RC modelling. Moreover, this outcome highlights a need to rethink the use of RC morphodynamic models in fluvial geomorphology and to move away from existing grid-based approaches, such as the popular cellular automata (CA) models, that remain essentially reductionist in nature. In the case of the world's largest sand-bed rivers, this might be achieved by implementing the RC model outlined here as one element within a hierarchical modelling framework that would enable computationally efficient simulation of the morphodynamics of large rivers over millennial time scales. © 2012 Elsevier B.V. Fil: Nicholas, Andrew P.. University of Exeter; Reino Unido Fil: Sandbach, Steven D.. University of Exeter; Reino Unido. University Of Durham; Reino Unido Fil: Ashworth, Philip J.. University of Brighton; Reino Unido Fil: Amsler, Mario Luis. Universidad Nacional del Litoral. Facultad de Ingeniería y Ciencias Hídricas. Departamento de Hidráulica; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Instituto Nacional de Limnología. Universidad Nacional del Litoral. Instituto Nacional de Limnología; Argentina Fil: Best, James L.. University of Illinois at Urbana; Estados Unidos Fil: Hardy, Richard J.. University Of Durham; Reino Unido Fil: Lane, Stuart N.. Universite de Lausanne; Suiza Fil: Orfeo, Oscar. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Nordeste. Centro de Ecología Aplicada del Litoral. Universidad Nacional del Nordeste. Centro de Ecología Aplicada del Litoral; Argentina Fil: Parsons, Daniel R.. University of Hull; Reino Unido Fil: Reesink, Arnold J.. University of Brighton; Reino Unido Fil: Sambrook Smith, Gregory H.. University of Birmingham; Reino Unido Fil: Szupiany, Ricardo Nicolas. Universidad Nacional del Litoral. Facultad de Ingeniería y Ciencias Hídricas. Departamento de Hidráulica; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina

Published

2012

38. The Morphology and Facies of Sandy Braided Rivers: Some Considerations of Scale Invariance

Author

C. Simpson, Gregory H. Sambrook Smith, Philip Ashworth, James L. Best, and John Woodward

Subjects

Geography, Channel types, Outcrop, Facies, Spatial ecology, Fluvial, Alluvium, Sedimentology, Geomorphology, Braid bar

Abstract

A fundamental and unresolved question in fluvial sedimentology concerns the nature of scale invariance and whether it is appropriate to apply data from a single river or outcrop of alluvial sediments to others of a different size. This issue is addressed herein by i) examining the similarity in aspects of the morphology of modern bars in braided rivers and ii) comparing the subsurface facies of three sandy braided rivers of differing scale (30-2000m channel width), as revealed by ground penetrating radar (GPR). Measurement of braid bar shape in 15 rivers, covering four orders of magnitude in spatial scale, demonstrates that a simple index of bar planform shape, the width:length ratio, is scale invariant. Additionally, scour depths at channel confluences are similar in their relative scale across channels of greatly differing size. Comparison of the subsurface sedimentary facies of three sandy braided rivers using GPR demonstrates that sandy braided rivers exhibit a degree of scale invariance with the ubiquitous occurrence of trough cross-stratification associated with migrating dunes. However, significant differences exist in the occurrence of other facies both between rivers and between bars within the same river, most notably in the predominance of either high-angle planar cross-stratification or low-angle stratification. These differences are controlled by a wide range of factors that may include the discharge regime, local bar and channel topography, anabranch width:depth ratio and the abundance of vegetation. Hence although rivers and individual bars within the same river may have similar surface planform shapes, their subsurface facies may be very different. A single, universal facies model for sandy braided rivers is thus probably inappropriate and will remain elusive.

Published

2009

39. Effect on flow structure of sand deposition on a gravel bed: Results from a two-dimensional flume experiment

Author

Gregory H. Sambrook Smith and Andrew Nicholas

Subjects

Flume, Deposition (aerosol physics), Turbulence, Turbulence kinetic energy, Flow (psychology), Shear stress, Geotechnical engineering, Sedimentation, Geology, Grain size, Water Science and Technology

Abstract

[1] Particle imaging velocimetry (PIV) was used to quantify the entire two-dimensional flow field over a series of fixed test beds in a laboratory flume. The test beds used in the experiments provide a two-dimensional representation of gravel beds with contrasting roughness. The two-dimensional form of the beds, combined with the nonintrusive nature of PIV, allowed the velocity field to be quantified right down to the bed surface. The three beds used were designed to simulate the progressive effect of sand deposition on a gravel bed with median grain size (D50) of 25 mm. Such a situation is common in bimodal beds, but, as compared with gravel and sand cases, little work has been done to investigate the interaction between the variable roughness of a bimodal bed and the flow structure above it. The results demonstrate that as the effective roughness decreases the reverse flow often found in the lee of gravel particles is eliminated. Furthermore, near-bed velocities increase, while shear stress and turbulent kinetic energy decrease. Turbulent properties are also diminished higher up in the profile, although this is not the case for the mean downstream velocity, which remains unaffected except at the bed. Quadrant analysis reveals that Q2 and Q4 events become less frequent around high points as effective roughness decreases. All these responses to the changing bed conditions are most pronounced in areas where the effective roughness height (h) approaches 10 mm or less (h/D50 = 0.4). Such a situation is often found immediately upstream of gravel-sand transitions in natural rivers. It is hypothesized that the hydraulic response outlined here provides a detailed physically based explanation for the gravel-sand transition; the combination of reduced bed shear stress and Q2/Q4 events around gravel particles will result in greater mobility of the sand fraction relative to gravel. These experiments thus appear to demonstrate that there is a fundamental threshold between gravel bed and sand bed states that has not previously been quantified.

Published

2005

40. Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation

Author

James F. Bell, E. C. Hagerott, Jeffrey R. Johnson, Miles J. Johnson, S. T. Elliot, M. Wadsworth, Jascha Sohl-Dickstein, Steven W. Squyres, Mark T. Lemmon, J. Joseph, Kjartan M. Kinch, Michael K. Shepard, Gregory H. Sambrook Smith, David Brown, M. Schwochert, Richard V. Morris, L. Scherr, H. M. Arneson, Alexander G. Hayes, W. T. Sullivan, A. Dingizian, Kenneth E. Herkenhoff, R. J. Sullivan, Justin N. Maki, and S. A. Collins

Subjects

Atmospheric Science, Multispectral image, Soil Science, Field of view, Stereoscopy, Aquatic Science, Oceanography, Space exploration, law.invention, Optics, Geochemistry and Petrology, law, Martian surface, Earth and Planetary Sciences (miscellaneous), Focal length, Earth-Surface Processes, Water Science and Technology, Remote sensing, Ecology, Pixel, business.industry, Paleontology, Forestry, Mars Exploration Program, Geophysics, Space and Planetary Science, business, Geology

Abstract

[1] The Panoramic Camera (Pancam) investigation is part of the Athena science payload launched to Mars in 2003 on NASA's twin Mars Exploration Rover (MER) missions. The scientific goals of the Pancam investigation are to assess the high-resolution morphology, topography, and geologic context of each MER landing site, to obtain color images to constrain the mineralogic, photometric, and physical properties of surface materials, and to determine dust and aerosol opacity and physical properties from direct imaging of the Sun and sky. Pancam also provides mission support measurements for the rovers, including Sun-finding for rover navigation, hazard identification and digital terrain modeling to help guide long-term rover traverse decisions, high-resolution imaging to help guide the selection of in situ sampling targets, and acquisition of education and public outreach products. The Pancam optical, mechanical, and electronics design were optimized to achieve these science and mission support goals. Pancam is a multispectral, stereoscopic, panoramic imaging system consisting of two digital cameras mounted on a mast 1.5 m above the Martian surface. The mast allows Pancam to image the full 360° in azimuth and ±90° in elevation. Each Pancam camera utilizes a 1024 × 1024 active imaging area frame transfer CCD detector array. The Pancam optics have an effective focal length of 43 mm and a focal ratio of f/20, yielding an instantaneous field of view of 0.27 mrad/pixel and a field of view of 16° × 16°. Each rover's two Pancam “eyes” are separated by 30 cm and have a 1° toe-in to provide adequate stereo parallax. Each eye also includes a small eight position filter wheel to allow surface mineralogic studies, multispectral sky imaging, and direct Sun imaging in the 400–1100 nm wavelength region. Pancam was designed and calibrated to operate within specifications on Mars at temperatures from −55° to +5°C. An onboard calibration target and fiducial marks provide the capability to validate the radiometric and geometric calibration on Mars.

Published

2003

41. Athena Microscopic Imager investigation

Author

James F. Bell, E. C. Hagerott, Scott M. McLennan, Justin N. Maki, S. T. Elliott, H. M. Arneson, Kenneth E. Herkenhoff, Lori Shiraishi, Steven W. Squyres, Randolph L. Kirk, S. A. Collins, Richard V. Morris, L. Scherr, Jascha Sohl-Dickstein, M. Wadsworth, Alexander G. Hayes, Gregory H. Sambrook Smith, Miles J. Johnson, Laurence A. Soderblom, Walter Goetz, M. Schwochert, P. Bertelsen, David Brown, and A. Dingizian

Subjects

Atmospheric Science, Soil Science, Field of view, Aquatic Science, Oceanography, Exploration of Mars, Optics, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Image resolution, Earth-Surface Processes, Water Science and Technology, Remote sensing, Martian, Ecology, Pixel, Instrument Data, business.industry, Paleontology, Forestry, Mars Exploration Program, Skylight, Geophysics, Space and Planetary Science, business, Geology

Abstract

[1] The Athena science payload on the Mars Exploration Rovers (MER) includes the Microscopic Imager (MI). The MI is a fixed-focus camera mounted on the end of an extendable instrument arm, the Instrument Deployment Device (IDD). The MI was designed to acquire images at a spatial resolution of 30 microns/pixel over a broad spectral range (400–700 nm). The MI uses the same electronics design as the other MER cameras but has optics that yield a field of view of 31 × 31 mm across a 1024 × 1024 pixel CCD image. The MI acquires images using only solar or skylight illumination of the target surface. A contact sensor is used to place the MI slightly closer to the target surface than its best focus distance (about 66 mm), allowing concave surfaces to be imaged in good focus. Coarse focusing (∼2 mm precision) is achieved by moving the IDD away from a rock target after the contact sensor has been activated. The MI optics are protected from the Martian environment by a retractable dust cover. The dust cover includes a Kapton window that is tinted orange to restrict the spectral bandpass to 500–700 nm, allowing color information to be obtained by taking images with the dust cover open and closed. MI data will be used to place other MER instrument data in context and to aid in petrologic and geologic interpretations of rocks and soils on Mars.

Published

2003

42. Pliocene femur of Theropithecus from the Luangwa Valley, Zambia

Author

Lawrence Barham, Sarah Elton, Peter Andrews, and Gregory H. Sambrook Smith

Subjects

River valley, Femur, Pleistocene, biology, Cercopithecoid, Fauna, Zambia, Plio-Pleistocene, Hominin, biology.organism_classification, Theropithecus, Paleontology, Geography, Anthropology, Biological dispersal, Luangwa, Ecology, Evolution, Behavior and Systematics

Abstract

The Luangwa Valley in eastern Zambia has the potential to be an important source of PlioPleistocene fauna and archaeology, and may represent a dispersal corridor for fauna, including hominins, between eastern and southern Africa. This is highlighted by the recent discovery of a mineralised and nearly complete primate right femur, described in this article and attributed to Theropithecus cf. darti, that was found with stone flakes in the middle reaches of the Luangwa River Valley.

Published

2003

43. Optical designs for the Mars '03 rover cameras

Author

Gregory H. Sambrook Smith, Kenneth E. Herkenhoff, James F. Bell, Edward C. Hagerott, and Lawrence M. Scherr

Subjects

Engineering, Design analysis, Spacecraft, Stereo cameras, business.industry, Optical engineering, Robotics, Mars Exploration Program, Mars surface, Artificial intelligence, Aerospace engineering, business, Stereo camera, Remote sensing

Abstract

In 2003, NASA is planning to send two robotic rover vehicles to explore the surface of mars. The spacecraft will land on airbags in different, carefully chosen locations.

Published

2001

44. The Gravel-Sand Transition Along River Channels

Author

Gregory H. Sambrook Smith and Robert I. Ferguson

Subjects

Geochemistry, Sediment, Fluvial, Geology, Geomorphology, Grain size, Bimodality

Abstract

This paper discusses a hitherto neglected aspect of fluvial downstream fining: the transition from a gravel bed to a sand bed. From the few known examples and by additional study of new sites, some general features of such transitions are given. These transitions are generally rapid and involve a change in bed texture from unimodal gravels through bimodal sediments to exclusively sand material and are often associated with a break in slope. We propose three possible causes: local base level control an excess of sand supply, and abrasion/breakdown of fine gravel. We further argue that such transitions occur in a variety of fluvial environments and are geographically more widespread than previously supposed, and on this basis we suggest they may also aid in interpreting ancient sediment showing bimodality and rapid proximal-to-distal changes in grain size.

Published

1995

45. Fluvial form in modern continental sedimentary basins: Distributive fluvial systems: COMMENT

Author

James L. Best, Christopher R. Fielding, Gregory H. Sambrook Smith, E. Prokocki, Philip Ashworth, and Steven L. Goodbred

Subjects

Sedimentary depositional environment, geography, geography.geographical_feature_category, Distributive property, Earth science, Fluvial system, Fluvial, Geology, Sedimentary rock, Sedimentary basin, Geologic record, Geomorphology

Abstract

[Weissmann et al. (2010)][1] discuss what they term “distributary fluvial systems” (DFS) to address a key question in the earth sciences: what modern systems are appropriate analogues to the rock record? They conclude “Since DFSs dominate depositional patterns in all continental sedimentary

Published

2010