Response of sediment biofilm to increased dissolved organic carbon supply in groundwater artificially recharged with stormwater

Foulquier, Arnaud; Mermillod‐Blondin, Florian; Malard, Florian; Gibert, Janine

doi:10.1007/s11368-010-0323-2

Cited by 34 publications

(19 citation statements)

References 42 publications

(53 reference statements)

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“…The more oligotrophic vadose zone, which can range from a few meters to several hundreds of meters, represents a different regime where recalcitrant organic compounds become more prominent (27,49). Parallels can be drawn to analogous studies that characterize microbial abundance, community structure, metabolic status, and functional microbial groups and their response to toxic chemicals in the shallow infiltration zone of sediments (1,9,20,26,58). However, prior to the current study, little was known regarding seasonal or spatial variations in microbial community structure or physiochemical parameters shaping the microbial community specifically in MAR systems.…”

Section: Discussionmentioning

confidence: 99%

Dissolved Organic Carbon Influences Microbial Community Composition and Diversity in Managed Aquifer Recharge Systems

Liu

Sharp

Saikaly

et al. 2012

Appl Environ Microbiol

120

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ABSTRACTThis study explores microbial community structure in managed aquifer recharge (MAR) systems across both laboratory and field scales. Two field sites, the Taif River (Taif, Saudi Arabia) and South Platte River (Colorado), were selected as geographically distinct MAR systems. Samples derived from unsaturated riverbed, saturated-shallow-infiltration (depth, 1 to 2 cm), and intermediate-infiltration (depth, 10 to 50 cm) zones were collected. Complementary laboratory-scale sediment columns representing low (0.6 mg/liter) and moderate (5 mg/liter) dissolved organic carbon (DOC) concentrations were used to further query the influence of DOC and depth on microbial assemblages. Microbial density was positively correlated with the DOC concentration, while diversity was negatively correlated at both the laboratory and field scales. Microbial communities derived from analogous sampling zones in each river were not phylogenetically significantly different on phylum, class, genus, and species levels, as determined by 16S rRNA gene pyrosequencing, suggesting that geography and season exerted less sway than aqueous geochemical properties. When field-scale communities derived from the Taif and South Platte River sediments were grouped together, principal coordinate analysis revealed distinct clusters with regard to the three sample zones (unsaturated, shallow, and intermediate saturated) and, further, with respect to DOC concentration. An analogous trend as a function of depth and corresponding DOC loss was observed in column studies. Canonical correspondence analysis suggests that microbial classesBetaproteobacteriaandGammaproteobacteriaare positively correlated with DOC concentration. Our combined analyses at both the laboratory and field scales suggest that DOC may exert a strong influence on microbial community composition and diversity in MAR saturated zones.

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Section: Discussionmentioning

confidence: 99%

Dissolved Organic Carbon Influences Microbial Community Composition and Diversity in Managed Aquifer Recharge Systems

Liu

Sharp

Saikaly

et al. 2012

Appl Environ Microbiol

120

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“…The selected value (3 r 10 x5 h x1 , Table 2) was in accordance with previous works (Van Cappellen and Wang, 2006;Wijsman et al, 2002;Canavan et al, 2006;Delmotte, 2007), supporting the validity of our parameterization. For the degradation of DOC, we used a k DOC of 3 h x1 which was higher than data commonly encountered in natural systems (Peyrard et al, 2011), because the source of DOC used in our system (acetate) was very easily consumed and metabolized by microorganisms in comparison with natural and more refractory DOC (Servais et al, 1989;Foulquier et al, 2011).…”

Section: Calibration and Validation On Experimental Datamentioning

confidence: 99%

A modelling approach to quantify the influence of fine sediment deposition on biogeochemical processes occurring in the hyporheic zone

Navel

Sauvage

Delmotte³

et al. 2012

Ann. Limnol. - Int. J. Lim.

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“…Heterotrophic bacteria are not indicators of pathogenic conditions, but can cause infections in skin, lung and gastroenteritis (Bartram et al, 2003;Chopra & Houston, 1999, Helmer et al, 1997. Heterotrophic bacteria are present in all water types (Foulquier et al, 2011;Griebler & Lueders, 2009) and drinking water treatment does not remove or inactivate all heterotrophic organisms. Some are resistant because they may be in a spore or vegetative form with an impervious membrane, or may be protected from treatment as part of an aggregate (Geldreich, 1996).…”

Section: Introductionmentioning

confidence: 99%

Microbial Purification in Well-Water Using UV-Vis LEDs and Monitoring Using Laser-Induced Fluorescence

Sackey¹,

Sefa-Ntiri²,

Mensah-Amoah³

et al. 2017

APR

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Well-water contaminated by microbial bacteria has been purified using LEDs radiating in the ultra-violet and visible spectral regions. The contaminated water sample was exposed to the LEDs in specially constructed chambers and the purification process carried on for 3 days. The efficiency of the process was determined using a 445 nm diode laser to induce fluorescence (LIF) and the monitoring of coliform bacteria count (Total coliform, Fecal coliform and Escherichia coli) as well as Total Heterotrophic Bacteria (THB). The LIF peak fluorescence intensities at 526 nm (Raman water peak) and dissolved organic matter fluorescence intensity at 550 nm were determined. Using the fluorescence intensity of purified drinking water as reference, a fluorescence intensity ratio was calculated. A decrease in this ratio with time, at the two wavelengths indicated a proof of purification. Using the values of the slopes, the red and green LEDs proved most efficient while the UV was the least. From the counts of coliform bacteria and THB, the light sources registered zero after the first day of purification, but counts were recorded thereafter for some of the bacterial for some light sources. This may be attributable to bio-films formation on internal surfaces of the purification chamber due to excessive temperatures. A reduction in fluorescence intensity observed in the sample stored in dark environment could be attributed to the stationary and logarithmicdecline phases of the growth curve of bacterial population. This purification technique is inexpensive and can easily be adapted for domestic water purification for reducing waterborne bacteria.

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Response of sediment biofilm to increased dissolved organic carbon supply in groundwater artificially recharged with stormwater

Cited by 34 publications

References 42 publications

Dissolved Organic Carbon Influences Microbial Community Composition and Diversity in Managed Aquifer Recharge Systems

Dissolved Organic Carbon Influences Microbial Community Composition and Diversity in Managed Aquifer Recharge Systems

A modelling approach to quantify the influence of fine sediment deposition on biogeochemical processes occurring in the hyporheic zone

Microbial Purification in Well-Water Using UV-Vis LEDs and Monitoring Using Laser-Induced Fluorescence

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