Imaging Oxygen Distribution in Marine Sediments. The Importance of Bioturbation and Sediment Heterogeneity

Pischedda, Laura; Poggiale, Jean-Christophe; Cuny, Philippe; Gilbert, Franck

doi:10.1007/s10441-008-9033-1

Cited by 80 publications

(53 citation statements)

References 39 publications

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“…This is clearly shown by studies with amphipods (Corophium volutator), polychaete worms (Lumbriculus variegatus, Arenicola marina, Nereis diversicolor, Nereis virens, Heteromastus filiformis and Tubifex tubifex), bivalves (Tellina texana, Macoma balthica and Cyclope neritea), and sea cucumbers (Holothuria whitmaei) (Aller and Yingst, 1985;De Backer et al, 2011;Lagauzère et al, 2009;Peterson et al, 1996;Pischedda et al, 2008;Shiell and Knott, 2010;Volkenborn et al, 2010). Community structure and population density are further factors which influence the extent of sediment disturbance by organisms (Forbes, 1994;Thrush et al, 2006;Wethey et al, 2001).…”

Section: Introductionmentioning

confidence: 88%

“…Metal fluxes are exacerbated by sediment-organism interactions, particularly the degree/intensity of bioturbation which is dependent on organism type, population density and sediment composition (particle size, partitioning, AVS and TOC content) and the properties, concentration and form of the metal (Peterson et al, 1996;Pischedda et al, 2008;Volkenborn et al, 2010).…”

Section: Implication For Sediment Quality Assessmentmentioning

confidence: 99%

“…The bioturbation of sediments by large benthic invertebrates alters sediment redox chemistry by mixing pre-stratified zones in the sediment, and increasing the penetration of electron acceptors such as dissolved O 2 , NO 3 -and SO 4 2-into anoxic sediments (Aller et al, 2001;Granéli, 1979;Matisoff et al, 1985;Pischedda et al, 2008; Volkenborn et al, 2010). Redox changes can alter metal binding affinities between the solid and dissolved phases, significantly modifying the speciation and bioavailability of most metals in sediments (De Jonge et al, 2012;Doyle and Otte, 1997;Granberg et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The impact of sediment bioturbation by secondary organisms on metal bioavailability, bioaccumulation and toxicity to target organisms in benthic bioassays: Implications for sediment quality assessment

Remaili

Simpson

Amato

et al. 2016

Environmental Pollution

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. (2015). The impact of sediment bioturbation by secondary organisms on metal bioavailability, bioaccumulation and toxicity to target organisms in benthic bioassays: implications for sediment quality assessment. Environmental Pollution, 208 (Part B), 590-599. See next page for additional authorsThe impact of sediment bioturbation by secondary organisms on metal bioavailability, bioaccumulation and toxicity to target organisms in benthic bioassays: implications for sediment quality assessment AbstractBioturbation alters the properties of sediments and modifies contaminant bioavailability to benthic organisms. These naturally occurring disturbances are seldom considered during the assessment of sediment quality. We investigated how the presence (High bioturbation) and absence (Low bioturbation) of a strongly bioturbating amphipod within three different sediments influenced metal bioavailability, survival and bioaccumulation of metals to the bivalve Tellina deltoidalis. The concentrations of dissolved copper decreased and manganese increased with increased bioturbation. For copper a strong correlation was observed between increased bivalve survival (53-100%) and dissolved concentrations in the overlying water. Increased bioturbation intensity resulted in greater tissue concentrations for chromium and zinc in some test sediments. Overall, the results highlight the strong influence that the natural bioturbation activities from one organism may have on the risk contaminants pose to other organisms within the local environment. The characterisation of field-based exposure conditions concerning the biotic or abiotic resuspension of sediments and the rate of attenuation of released contaminants through dilution or readsorption may enable laboratorybased bioassay designs to be adapted to better match those of the assessed environment.  Strong correlations between bioaccumulated and dissolved Cd, Cr, Pb, Zn, Cu and Ni. Weak correlations between bioaccumulated and particulate metals. 2 Capsule AbstractThis study investigated the impact of sediment bioturbation intensity on metal bioavailability and toxicity to aquatic organisms, and the implications of this to toxicity test design. Abstract:Bioturbation alters the properties of sediments and modifies contaminant bioavailability to benthic organisms. These naturally occurring disturbances are seldom considered during the assessment of sediment quality. We investigated how the presence (High bioturbation) and absence (Low bioturbation) of a strongly bioturbating amphipod within three different sediments influenced metal bioavailability, survival and bioaccumulation of metals to the bivalve Tellina deltoidalis. The concentrations of dissolved copper decreased and manganese increased with increased bioturbation. For copper a strong correlation was observed between increased bivalve survival (53 to 100%) and dissolved concentrations in the overlying water. Increased bioturbation intensity resulted in greater tissue concentrations for chromium and zinc in some test sediments. O...

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Section: Introductionmentioning

confidence: 88%

Section: Implication For Sediment Quality Assessmentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

The impact of sediment bioturbation by secondary organisms on metal bioavailability, bioaccumulation and toxicity to target organisms in benthic bioassays: Implications for sediment quality assessment

Remaili

Simpson

Amato

et al. 2016

Environmental Pollution

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“…The smooth decrease in DO concentration in sediment pore water in the type I profile likely resulted from the homogenous sediment and thus the uniformly distributed DO reaction rate. This is because both sediment heterogeneity (Pischedda et al 2008) and DO reaction rate (Cai and Sayles 1996) are key factors influencing the distribution of DO in sediment. The DO fluctuation in the type II profile may be caused by the bioturbation of fauna existing in the sediment.…”

Section: Discussionmentioning

confidence: 99%

Oxygen microprofile in the prepared sediments and its implication for the sediment oxygen consuming process in a heavily polluted river of China

Wang

Zhai²,

Shan

2016

Environ Sci Pollut Res

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Dissolved oxygen (DO) microprofiles of prepared sediments from 24 sampling sites in the Fuyang River were measured using a gold amalgam microelectrode in this study. The measured microprofiles can be divided into four types. In type I profiles, DO kept constant in the overlying water and decreased smoothly in the pore water; in type II profile, DO showed fluctuation in the pore water; in type III profiles, DO showed peak in the SWI; in type IV profiles, DO decreased obviously in the overlying water. Type I profiles indicated the absence of benthic organisms and thus the degradation of the sediment habitat. Type II and III profiles indicated the activity of benthic animal and epipelic algae, which is common in the healthy aquatic sediment. Type IV profiles indicated that the excessive accumulation of pollutants in the sediment and thus the serious sediment pollution. There are nine sites showing type I profile, three sites showing type II profile, nine sites showing type III profile, and three sites showing type IV profile in the Fuyang River. The dominance of type I and appearance of type IV indicated that sediment oxygen consumption processes in the Fuyang River were strongly influenced by the sediment pollutants release and the vanish of benthic organisms. The pharmacy, metallurgy, and curriery industries may contribute to the sediment deterioration and thus to the occurrence of type I and type IV oxygen profiles in the Fuyang River.

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“…Planar optode measurements offer a unique opportunity to resolve both spatial and temporal variations on a submillimeter scale for a range of analytes. So far, the majority of planar optode studies have been focused on O 2 dynamics in marine sediments including the investigation of microbial mats and biofilms (Glud et al 1998(Glud et al , 1999Fenchel and Glud 2000); effects of bioturbating/irrigating fauna (Behrens et al 2007;Volkenborn et al 2010;Pischedda et al 2008); O 2 dynamics in rhizospheres (Jensen et al 2005;Frederiksen and Glud 2006); and studies of O 2 distribution in permeable sediments (Precht et al 2004;Polerecky et al 2005;Franke et al 2006;Cook et al 2007). Recently, measurements in sea-ice have also provided promising results for resolving physical and biologically induced O 2 dynamics (Rysgaard et al 2008).…”

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confidence: 99%

Untitled

2011

Limnology & Ocean Methods

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A simple, high resolution colormetric planar optode imaging approach is presented. The approach is simple and inexpensive yet versatile, and can be used to study the two-dimensional distribution and dynamics of a range of analytes. The imaging approach utilizes the inbuilt color filter of standard commercial digital single lens reflex cameras to simultaneously record different colors (red, green, and blue) of luminophore emission light using only one excitation light source. Using the ratio between the intensity of the different colors recorded in a single image analyte concentrations can be calculated. The robustness of the approach is documented by obtaining high resolution data of O 2 and pH distributions in marine sediments using easy synthesizable sensors. The sensors rely on the platinum(II)octaethylporphyrin (PtOEP) and lipophilic 8-Hydroxy-1,3,6-pyrenetrisulfonic acid trisodium (HPTS) salt derivate for O 2 and pH measurements, respectively. The brightness of both indicators is dramatically enhanced by making use of energy transfer from a donor molecule (Macrolex yellow coumarin). Furthermore, the emission from the donor serves as an internal reference for the O 2 sensor. The approach relies on semitransparent sensors, facilitating visual inspection of the sediment behind the sensors during measurements. Software for data acquisition and calibration will be available from the authors, whereas all hardware is available from a range of commercial sources. The total cost of the complete measuring system is approximately $3000 US.

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Imaging Oxygen Distribution in Marine Sediments. The Importance of Bioturbation and Sediment Heterogeneity

Cited by 80 publications

References 39 publications

The impact of sediment bioturbation by secondary organisms on metal bioavailability, bioaccumulation and toxicity to target organisms in benthic bioassays: Implications for sediment quality assessment

The impact of sediment bioturbation by secondary organisms on metal bioavailability, bioaccumulation and toxicity to target organisms in benthic bioassays: Implications for sediment quality assessment

Oxygen microprofile in the prepared sediments and its implication for the sediment oxygen consuming process in a heavily polluted river of China

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