Academic literature on the topic 'Microbial mobilisation'
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Journal articles on the topic "Microbial mobilisation"
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García-Aljaro, Cristina, Julia Martín-Díaz, Enric Viñas-Balada, William Calero-Cáceres, Francisco Lucena, and Anicet R. Blanch. "Mobilisation of microbial indicators, microbial source tracking markers and pathogens after rainfall events." Water Research 112 (April 2017): 248–53. http://dx.doi.org/10.1016/j.watres.2017.02.003.
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Rizoulis, Athanasios, Wafa M. Al Lawati, Richard D. Pancost, David A. Polya, Bart E. van Dongen, and Jonathan R. Lloyd. "Microbially mediated reduction of FeIII and AsV in Cambodian sediments amended with 13C-labelled hexadecane and kerogen." Environmental Chemistry 11, no. 5 (2014): 538. http://dx.doi.org/10.1071/en13238.
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Environmental context The use of groundwater with elevated concentrations of arsenic for drinking, cooking or irrigation has resulted in the worst mass poisoning in human history. This study shows that organic compounds that can be found in arsenic rich subsurface sediments may be used by indigenous microorganisms, contributing to the release of arsenic from the sediments into the groundwater. This study increases our understanding of the range of organic substrates (and their sources) that can potentially stimulate arsenic mobilisation into groundwaters. Abstract Microbial activity is generally accepted to play a critical role, with the aid of suitable organic carbon substrates, in the mobilisation of arsenic from sediments into shallow reducing groundwaters. The nature of the organic matter in natural aquifers driving the reduction of AsV to AsIII is of particular importance but is poorly understood. In this study, sediments from an arsenic rich aquifer in Cambodia were amended with two 13C-labelled organic substrates. 13C-hexadecane was used as a model for potentially bioavailable long chain n-alkanes and a 13C-kerogen analogue as a proxy for non-extractable organic matter. During anaerobic incubation for 8 weeks, significant FeIII reduction and AsIII mobilisation were observed in the biotic microcosms only, suggesting that these processes were microbially driven. Microcosms amended with 13C-hexadecane exhibited a similar extent of FeIII reduction to the non-amended microcosms, but marginally higher AsIII release. Moreover, gas chromatography–mass spectrometry analysis showed that 65% of the added 13C-hexadecane was degraded during the 8-week incubation. The degradation of 13C-hexadecane was microbially driven, as confirmed by DNA stable isotope probing (DNA-SIP). Amendment with 13C-kerogen did not enhance FeIII reduction or AsIII mobilisation, and microbial degradation of kerogen could not be confirmed conclusively by DNA-SIP fractionation or 13C incorporation in the phospholipid fatty acids. These data are, therefore, consistent with the utilisation of long chain n-alkanes (but not kerogen) as electron donors for anaerobic processes, potentially including FeIII and AsV reduction in the subsurface.
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Afolabi, Emmanuel O., Richard S. Quilliam, and David M. Oliver. "Time since faecal deposition influences mobilisation of culturable E. coli and intestinal enterococci from deer, goose and dairy cow faeces." PLOS ONE 17, no. 9 (September 2, 2022): e0274138. http://dx.doi.org/10.1371/journal.pone.0274138.
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Mobilisation is a term used to describe the supply of a pollutant from its environmental source, e.g., soil or faeces, into a hydrological transfer pathway. The overarching aim of this study was to determine, using a laboratory-based approach, whether faecal indicator bacteria (FIB) are hydrologically mobilised in different quantities from a typical agricultural, wildlife and wildfowl source, namely dairy cattle, red deer and greylag goose faeces. The mobilisation of FIB from fresh and ageing faeces under two contrasting temperatures was determined, with significant differences in the concentrations of both E. coli and intestinal enterococci lost from all faecal sources. FIB mobilisation from these faecal matrices followed the order of dairy cow > goose > deer (greatest to least, expressed as a proportion of the total FIB present). Significant changes in mobilisation rates from faecal sources over time were also recorded and this was influenced by the temperature at which the faecal material had aged over the course of the 12-day study. Characterising how indicators of waterborne pathogens are mobilised in the environment is of fundamental importance to inform models and risk assessments and develop effective strategies for reducing microbial pollution in catchment drainage waters and associated downstream impacts. Our findings add quantitative evidence to support the understanding of FIB mobilisation potential from three important faecal sources in the environment.
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Héry, Marina, Corinne Casiot, Eléonore Resongles, Zoe Gallice, Odile Bruneel, Angélique Desoeuvre, and Sophie Delpoux. "Release of arsenite, arsenate and methyl-arsenic species from streambed sediment affected by acid mine drainage: a microcosm study." Environmental Chemistry 11, no. 5 (2014): 514. http://dx.doi.org/10.1071/en13225.
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Environmental context Arsenic-rich waters generated from the oxidation of mining wastes are responsible for the severe contamination of river waters and sediments located downstream from mining sites. Under certain environmental conditions, the affected riverbed sediments may represent a reservoir for arsenic from which this toxic element may be released into water, mainly as a consequence of microbial activity. Abstract The (bio-)geochemical processes driving As mobilisation from streambed sediments affected by acid mine drainage (AMD) were investigated, and the structure of the bacterial community associated with the sediments was characterised. Microcosm experiments were set up to determine the effect of oxygen, temperature (4 and 20°C) and microbial activity on As mobilisation from contrasting sediments collected during high- (November 2011) and low- (March 2012) flow conditions in the Amous River, that received AMD. Distinct bacterial communities thrived in the two sediments, dominated by Rhodobacter spp., Polaromonas spp. and Sphingomonads. These communities included only few bacteria known for their capacity to interact directly with As, whereas biogeochemical processes appeared to control As cycling. Major As mobilisation occurred in the AsIII form at 20°C in anoxic conditions, from both November and March sediments, as the result of successive biotic reductive dissolution of Mn- and Fe-oxyhydroxides. The later process may be driven by Mn- and Fe-reducing bacteria such as Geobacter spp. and possibly occurred in combination with microbially mediated AsV reduction. The involvement of other bacteria in these redox processes is not excluded. Biomethylation occurred only with the sediments collected at low-flow during oxic and anoxic conditions, although no bacteria characterised so far for its ability to methylate As was identified. Finally, sorption equilibrium of AsV onto the sediment appeared to be the main process controlling AsV concentration in oxic conditions. Comparison with field data shows that the later process, besides biomethylation, may be of relevance to the As fate in AMD-affected streams.
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Rouwane, Asmaa, Marion Rabiet, Isabelle Bourven, Malgorzata Grybos, Lucie Mallet, and Gilles Guibaud. "Role of microbial reducing activity in antimony and arsenic release from an unpolluted wetland soil: a lab scale study using sodium azide as a microbial inhibiting agent." Environmental Chemistry 13, no. 6 (2016): 945. http://dx.doi.org/10.1071/en16029.
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Environmental contextAntimony and arsenic are toxic elements occurring naturally in the environment. We found that arsenic release to water from an unpolluted wetland soil is related to microbial reducing activity only, whereas antimony can still be released when this activity is inhibited, suggesting the involvement of additional processes. The findings show that microbial/non-microbial mechanisms control arsenic and antimony release and can thereby impact water quality at wetland outlets. AbstractIn wetland soils, the mobility of geogenic metal(loid)s is usually associated with direct or indirect microbial-induced processes (solubilisation of mineral and organic components, pH induced desorption, competition effects, dissimilatory reduction). To identify the role of microbial reducing activity in As and Sb release, we conducted two series of soil incubations (sodium azide-treated (NaN3-T) and non-treated (NT)) in closed batches for 36 days. During the incubation period, we monitored the evolution of dissolved As, Sb, Mn, FeII, organic carbon (DOC), humic substances (HS) and proteins (PN) with their apparent molecular weight distribution (aMW) as well as pH, reduction potential (Eh) and alkalinity. Results showed that the release of As and Sb occurred when microbially reducing conditions prevailed (NT soil Eh ~0mV and FeII>40mg L–1) and was inhibited for As in the absence of microbial reducing activity (NaN3-T soil; Eh>250mV and Fe<1mg L–1). In contrast, Sb behaved differently since its release was only slowed down when microbially reducing conditions were inhibited. We concluded that soil microbial reducing activity fully controls the release of As and to a lesser extent that of Sb when NaN3 is used as a microbial inhibiting agent. Since Sb release and dissolved organic matter (DOM) solubilisation (NaN3-induced artefact) occurred simultaneously in the absence of microbially reducing conditions, we concluded that organic matter could be one key factor controlling Sb mobilisation in the given conditions, which is not the case for As.
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Skoglund, Caroline, Christian Helldahl, Maria Lerm, Magnus Grenegård, Torbjörn Bengtsson, and Hanna Kälvegren. "Toll-like receptor 2 stimulation of platelets is mediated by purinergic P2X1-dependent Ca2+ mobilisation, cyclooxygenase and purinergic P2Y1 and P2Y12 receptor activation." Thrombosis and Haemostasis 103, no. 02 (2010): 398–407. http://dx.doi.org/10.1160/th09-07-0442.
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SummaryToll-like receptor 2 (TLR2), which recognise and respond to conserved microbial pathogen-associated molecular patterns, is expressed on the platelet surface. Furthermore, it has recently been shown that the TLR2/1 agonist Pam3CSK4 stimulates platelet activation. The aim of the present study was to clarify important signalling events in Pam3CSK4-induced platelet aggregation and secretion. Platelet interaction with Pam3CSK4 and the TLR2/6 agonist MALP-2 was studied by analysing aggregation, ATP-secretion, [Ca2+]i mobilisation and thromboxane B2 (TxB2) production. The results show that Pam3CSK4 but not MALP-2 induces [Ca2+]i increase, TxB2 production, dense granule secretion and platelet aggregation. Preincubation of platelets with MALP-2 inhibited the Pam3CSK4-induced responses. The ATP-secretion and aggregation in Pam3CSK4-stimulated platelets was impeded by the purinergic P2X1 inhibitor MRS 2159, the purinergic P2Y1 and P2Y12 antagonists MRS 2179 and cangrelor, the phospholipase C inhibitor U73122, the calcium chelator BAPT-AM and aspirin. The calcium mobilisation was lowered by MRS 2159, aspirin and U73122 whereas the TxB2 production was antagonised by MRS 2159, aspirin and BAPT-AM. When investigating the involvement of the myeloid differentiation factor-88 (MyD88) -dependent pathway, we found that platelets express MyD88 and interleukin 1 receptor-associated kinase (IRAK-1), which are proteins important in TLR signalling. However, Pam3CSK4 did not stimulate a rapid (within 10 minutes) phosphorylation of IRAK-1 in platelets. In conclusion, the results show that Pam3CSK4-induced platelet aggregation and secretion depends on a P2X1-mediated Ca2+ mobilisation, production of TxA2 and ADP receptor activation. The findings in this study further support a role for platelets in sensing bacterial components.
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Davies-Colley, Rob, Amanda Valois, and Juliet Milne. "Faecal contamination and visual clarity in New Zealand rivers: correlation of key variables affecting swimming suitability." Journal of Water and Health 16, no. 3 (April 11, 2018): 329–39. http://dx.doi.org/10.2166/wh.2018.214.
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Abstract Swimming is a popular activity in Aotearoa-New Zealand (NZ). Two variables that strongly influence swimming suitability of waters are faecal contamination, as indicated by the bacterium Escherichia coli, and visual clarity as it affects aesthetics and safety with respect to submerged hazards. We show that E. coli and visual clarity are inversely related overall in NZ rivers (R = −0.54), and more strongly related in many individual rivers, while similar (but positive) correlations apply also to turbidity. This finding, apparently reflecting co-mobilisation of faecal contamination and fine sediment, suggests that visual clarity, measured or estimated from appearance of submerged features, should be a valuable indicator of faecal contamination status and (more generally) swimming suitability. If swimmers were to avoid river waters <1.6 m black disc visibility (a long-established NZ guideline for swimming) they would also avoid microbial hazards (E. coli <550 cfu/100 mL about 99% of the time in NZ rivers). However, urban-affected rivers might sometimes be microbially contaminated when still clear. Water management agencies should measure visual clarity together with E. coli in river surveillance. Real-time information on swimming suitability could then be based on continuous monitoring of turbidity locally calibrated to both visual clarity and E. coli.
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Perotti, Cesare, Claudia Del Fante, Gianluca Viarengo, Marcello Maestri, and Laura Salvaneschi. "Prominin-1 Mobilisation, Collection and Immunoselection in Cancer Patients for Liver Regeneration." Blood 114, no. 22 (November 20, 2009): 2141. http://dx.doi.org/10.1182/blood.v114.22.2141.2141.
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Abstract Abstract 2141 Poster Board II-118 Background: CD133+ (Prominin-1 positive) is a 5-transmembrane glycoprotein that identifies immature progenitor stem cells. Immature hematopoietic stem cells retain the possibility to give origin to tissues different from hematopoietic cell lines (transdifferentiation). Material and methods: In this preliminary study we investigated the possibility to mobilize, collect, immunoselect and reinfuse autologous CD133+ immature stem cells in liver cancer patients. This approach was adopted to obtain, in a short time, an adequate volume increase of the disease free liver thus extending the resectability criteria of the liver, with the final goal to prolong survival. We enrolled 4 patients with a large liver cancer and no chance of resection. The mobilization protocol consisted in: G-CSF administration (10 μg/kg/day ) for 3-5 days, peripheral blood stem cell (PBSC) monitoring starting from the 3rd day, leukapheresis (LKF) collection processing 3 blood volumes when CD133+ cells>15 μL. Patients were monitored during mobilization, collection and post collection phase for clinical status, blood pressure and bleeding. Positive CD133+ immunoselection (Miltenyi Clinimacs) was performed on LKF product after overnight storage. Quality controls on positive fraction consisted in viability and purity of CD133+ cells by cytofluorimetric analysis and clonogenic assays. Microbial tests were performed on the negative fraction. After LKF, patients underwent right portal embolization and infusion of CD133+ cells into the opposite portal vein by a percutaneous access. Evaluation of liver regeneration was performed 30 days after stem cell infusion by spiral CT and galactose clearance. Liver resection was carried out if liver regeneration reached 30-40%. Results: Stem cell mobilization, LKF content and immunoselected cells are detailed in tab 1. No relevant side effects were observed. We obtained an efficient stem cell mobilization in all patients enrolled. No bacterial or fungal contamination was observed in cells infused. Results about liver regeneration and patients' follow up are detailed in table 2. Conclusions: Our approach to liver regeneration was feasible and safe with no relevant side effects. We observed an efficient stem cell mobilization comparable to healthy donors also in liver cancer patients. The infusion of CD133+ cells allowed a significant hepatic tissue regeneration in all patients. Controlled clinical trials are needed to confirm our preliminary results. Disclosures: No relevant conflicts of interest to declare.
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Opara, Chiamaka Belsonia, Nor Kamariah, Jeroen Spooren, Katrin Pollmann, and Sabine Kutschke. "Interesting Halophilic Sulphur-Oxidising Bacteria with Bioleaching Potential: Implications for Pollutant Mobilisation from Mine Waste." Microorganisms 11, no. 1 (January 15, 2023): 222. http://dx.doi.org/10.3390/microorganisms11010222.
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For many years, research on the microbial-dissolution of metals from ores or waste materials mainly focussed on the study of acidophilic organisms. However, most acidophilic bioleaching microorganisms have limited tolerance to high chloride concentrations, thereby requiring fresh water for bioleaching operations. There is a growing interest in the use of seawater for leaching purposes, especially in regions with less access to fresh water. Consequently, there is a need to find halophilic organisms with bioleaching potentials. This study investigated the bioleaching potentials of four moderately halophilic sulphur-oxidising bacteria: Thiomicrospira cyclica, Thiohalobacter thiocyanaticus, Thioclava electrotropha and Thioclava pacifica. Results revealed T. electrotropha and T. pacifica as the most promising for bioleaching. Pure cultures of the two Thioclava strains liberated about 30% Co, and between 8–17% Cu, Pb, Zn, K, Cd, and Mn from a mine waste rock sample from the Neves Corvo mine, Portugal. Microwave roasting of the waste rock at 400 and 500 °C improved the bioleaching efficiency of T. electrotropha for Pb (13.7 to 45.7%), Ag (5.3 to 36%) and In (0 to 27.4%). Mineralogical analysis of the bioleached residues using SEM/MLA-GXMAP showed no major difference in the mineral compositions before or after bioleaching by the Thioclava spp. Generally, the bioleaching rates of the Thioclava spp. are quite low compared to that of the conventional acidophilic bioleaching bacteria. Nevertheless, their ability to liberate potential pollutants (metal(loid)s) into solution from mine waste raises environmental concerns. This is due to their relevance in the biogeochemistry of mine waste dumps, as similar neutrophile halophilic sulphur-oxidising organisms (e.g., Halothiobacillus spp.) have been isolated from mine wastes. On the other hand, the use of competent halophilic microorganisms could be the future of bioleaching due to their high tolerance to Cl- ions and their potential to catalyse mineral dissolution in seawater media, instead of fresh water.
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Dyjach, Dagmara, Petr Walczysko, Nikki Horn, Mark Williams, and Anastasia Sobolewski. "Tu1849 Juxtapositioning of Neutrophils and Macrophages With Colonic Stem Cells, and Mobilisation of Neutrophils to the Surface Epithelium, Following Luminal Microbial Input." Gastroenterology 142, no. 5 (May 2012): S—860. http://dx.doi.org/10.1016/s0016-5085(12)63336-8.
Full textBook chapters on the topic "Microbial mobilisation"
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Ackers, Louise, Gavin Ackers-Johnson, Joanne Welsh, Daniel Kibombo, and Samuel Opio. "The Knowledge Creation and Transfer Mechanism." In Anti-Microbial Resistance in Global Perspective, 145–60. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-62662-4_8.
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AbstractThis chapter reflects on the relationship between the knowledge mobilisation processes that have contributed to behaviour change at an individual and organisational level. It critiques the traditional emphasis in international development on one-off, formal, foreign-led ‘training’ episodes and contrasts these with the more fluid, bilateral, approach to learning through co-working and mentoring.