Understanding the association of Escherichia coli with diverse macroalgae in the lagoon of Venice

Quero, Grazia Marina; Fasolato, Luca; Vignaroli, Carla; Luna, Gian Marco

doi:10.1038/srep10969

Cited by 27 publications

(20 citation statements)

References 66 publications

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“…This hypothesis suggests that different grass species morphology and zones in the VFS influenced successful sustainable survival and multiplication of E. coli population. This hypothesis supports some of the most important processes, which have been reported to have a significant influence on the successful survival and multiplication of E. coli not only in vegetation litters micro-biome, but also in other ecosystems, which include: (1) E. coli strains establishing encoding regulation mechanisms, such as the attaching and effacing regulators in pathogenic and commensals E. coli strains and E. coli’s quorum-sensing mechanism, which transforms it to initiate intercellular communication, and which allows the unicellular organism to behave like multicellular organisms (Kaper et al 2004); (2) E. coli’s multistep scheme nature of pathogenesis in occupying the new niche using adhesion and colonization morphological structures such as fimbriae (pili) and/or flagellin to attach to mucosal site; evade host defenses, multiply and damage the host cells (Kaper et al 2004); (3) E. coli’s ability to establish high metabolic niche and to utilize available dissolved organic carbon and other nutrients more efficiently than other existing resident microbial species that enables it to compete better than other resident microbes (Sweeney et al 1996) in the root system and to establish itself in the new environment and (4) finally, enhanced biofilm formation in the lentic water film in the plants litters (Quero et al 2015). …”

Section: Discussionmentioning

confidence: 99%

Effect of vegetated filter strips on transport and deposition rates of Escherichia coli in overland flow in the eastern escarpments of the Mau Forest, Njoro River Watershed, Kenya

Olilo

Onyando

Moturi

et al. 2016

Energ. Ecol. Environ.

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The fate and transport of Escherichia coli (E. coli) in lotic waters through vegetated filter strips (VFSs) was evaluated in a field model pasture, utilizing VFSMOD Windows along with direct pathogen testing. This study assessed effects of VFS on transport and deposition rates of E. coli in lotic overland flow waters. The VFS measured 44 m long by 40 m wide, covering an area of 1584 m2 and land slope of 15 %. Cowpat was applied onto the model pasture and washed by overland flow into the VFS. The 4-methylumbelliferyl β-D-glucuronide substrate confirmed the identity of E. coli prior to cowpat application and after isolating them from soil using centrifugation and membrane filtration techniques. Napier grass root system recorded the highest recovery rates of E. coli at 99.9 % along the length of VFS III. This efficiency reduced significantly (p < 0.05; df = 29) to 95 % in Kikuyu grass and 75 % in Couch grass–Buffer grass. The data demonstrated similarity in transport of manure-borne E. coli and organic carbon (OC) through all the simulated VFS. These results indicated that OC could be used as a true natural tracer of manure-borne E. coli, a pollution indicator organism of lentic and lotic surface waters provided the OC release kinetics from cowpat were similar to that of E. coli kinetics. Thus, efficient filtering to reduce E. coli concentrations and load in overland flows requires managing combined grass species, agro-pastoral systems models and dispersed or preferential flows to enhance surface water quality standards.

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Section: Discussionmentioning

confidence: 99%

Effect of vegetated filter strips on transport and deposition rates of Escherichia coli in overland flow in the eastern escarpments of the Mau Forest, Njoro River Watershed, Kenya

Olilo

Onyando

Moturi

et al. 2016

Energ. Ecol. Environ.

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“…Interaction of VFS, infiltration into soil matrix, partitioning, biofilm formation, adsorption/detachment, straining and biological die-off/regrowth have to be combined to design and assess manure management strategies in association with projected overland flow regimes and pathogen loads (Blount 2015; Gallagher et al 2013; Pachepsky et al 2006; Quero et al 2015). While initial studies of manure-borne fecal microorganisms pathogens such as E. coil , developed in the 1980s, were typically concerned with pedon and hill slope scales, in recent years, hill slope and watershed scales have led insight into the effects of soil, vegetation, management, and weather on the fate and transport of fecal pathogens (Overcash et al 1981; Moore et al 1982, 1983, 1988; Guber et al 2005a, b, 2006, 2007; Pachepsky et al 2006; Moreira et al 2006; Allaire et al 2015; Rippy 2015).…”

Section: Pathogen Movement In Overland Flowmentioning

confidence: 99%

“…The biofilm formation by E. coil strains in environmental studies have indicated adaptation to secondary habitats outside their primary hosts including vegetation such as macroalgae and vegetative filter strips (Byappanahalli et al 2003; Moreira et al 2006; Quero et al 2015). Since pathogenic strains of E. coil utilize attaching and effacing histopathology induced through selective expression of virulence genes for Enteropathogenic E. coil (EPEC) and Enterohaemorrhagic E. coil (EHEC) that are expressed during biofilm formation (Kaper 2005; Kaper et al 2004) and could play a role in biofilm development in removal from overland flow (Kaper et al 2004; Moreira et al 2006).…”

Section: Improving Modeling Of Fate and Transport Of Fecal Organismmentioning

confidence: 99%

The current state of knowledge on the interaction of Escherichia coli within vegetative filter strips as a sustainable best management practice to reduce fecal pathogen loading into surface waters

Olilo

Muia

Moturi

et al. 2016

Energ. Ecol. Environ.

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Agro-pastoral operations have the potential to threaten public health with loading of diverse pathogens into surface waters through overland flow; increasing awareness of the limitations of fecal indicators has led to development of a number of advancements in detection, source tracking and predictive modeling of public health risk. These tools and techniques are beginning to be integrated into management strategies. The objective of this review was to determine the status of current knowledge and challenges of the fate and transport of Escherichia coli in overland flow and their interaction within vegetative filter strip (VFS) as one of these implemented best management practices and to critically evaluate its use in that setting as an indicator organism. With few studies directly focusing on VFS removal of E. coli from overland flow, we critically evaluated the available data on movement of E. coil from fecal source loading to retention and decay or re-release for potential contamination of water ways and pointed out potential limitations in both pathogen-specific removal and its use as an indicator organisms within overland flow and VFS. Critical areas of focus for future studies to reduce gaps in knowledge were identified, and the integration of newer approaches in source tracking, alternative indicators and the use of non-pathogenic surrogates for field testing of existing VFS models was encouraged. With VFS as a growing field of interest as an economical conservation practice and as an avenue for conservation of resources for small-scale agro-pastoral operations, management strategies to reduce initial fecal load from either applied manure constituents or shedding from free-range animals will continue to test the limits in the applications of models to overland flow and VFS management strategies. Further studies at the microscale in understanding discrepancies between low and high pathogenicity strains of E. coil and between E. coil and other fecal pathogens in the context of VFS will be critical. However, nuanced studies are needed to understand either biological or environmental differences in the fate and transport of the diverse types of fecal pathogens within these settings

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“…The main aim of the experiment was to test whether communities that were stressed by a few days of exposure to tetracycline in low and intermediate doses were less resilient after the pulse disturbance of the community by the addition of three allochthonous bacterial strains, as previously suggested (Corno et al, ). E. coli was not able to permanently establish in either control or antibiotic‐disturbed communities, despite the three invading strains had been isolated from aquatic environments and were able to grow in lake water medium (Quero et al, ). After a slight increment for the first 24 hr after their addition, E. coli abundance declined in all the vessels to reach numbers below 2% at day 27.…”

Section: Discussionmentioning

confidence: 99%

“…In order to increment the survival chances of the inoculated allochthonous E. coli within the indigenous microbial communities already established in the chemostat vessels, three strains were selected to compose the inoculum. The E. coli strains that were previously isolated from water and floating macrophytes in the Venetian Lagoon (Perini, Quero, García, & Luna, ; Quero et al, ) were thus selected based on their ability to grow in freshwater medium (either the autoclaved lake water used in the experiment or the enriched artificial medium used for the preculturing) and their sensitivity to TET (Supporting Information Data ). From twelve tested strains, we selected three strains m‐FC‐5, m‐FC‐25 and m‐FC‐19 belonged to three phylogroups (A, B1 and B2, respectively) which grew well in the low carbon medium (Supporting Information Figure ).…”

Section: Methodsmentioning

confidence: 99%

Antibiotic disturbance affects aquatic microbial community composition and food web interactions but not community resilience

et al. 2019

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Notwithstanding the fundamental role that environmental microbes play for ecosystem functioning, data on how microbes react to disturbances are still scarce, and most factors that confer stability to microbial communities are unknown. In this context, antibiotic discharge into the environment is considered a worldwide threat for ecosystems with potential risks to human health. We therefore tested resilience of microbial communities challenged by the presence of an antibiotic. In a continuous culture experiment, we compared the abundance, composition and diversity of microbial communities undisturbed or disturbed by the constant addiction of tetracycline in low (10 µg/L) or intermediate (100 µg/L) concentration (press disturbance). Further, the bacterial communities in the three treatments had to face the sudden pulse disturbance of adding an allochthonous bacterium (Escherichia coli). Tetracycline, even at low concentrations, affected microbial communities by changing their phylogenetic composition and causing cell aggregation. This, however, did not coincide with a reduced microbial diversity, but was mainly caused by a shift in dominance of specific bacterial families. Moreover, the less disturbed community (10 µg/L tetracycline) was sometimes more similar to the control and sometimes more similar to heavily disturbed community (100 µg/L tetracycline). All in all, we could not see a pattern where the communities disturbed with antibiotics were less resilient to a second disturbance introducing E. coli, but they seemed to be able to buffer the input of the allochthonous strain in a similar manner as the control.

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Understanding the association of Escherichia coli with diverse macroalgae in the lagoon of Venice

Cited by 27 publications

References 66 publications

Effect of vegetated filter strips on transport and deposition rates of Escherichia coli in overland flow in the eastern escarpments of the Mau Forest, Njoro River Watershed, Kenya

Effect of vegetated filter strips on transport and deposition rates of Escherichia coli in overland flow in the eastern escarpments of the Mau Forest, Njoro River Watershed, Kenya

The current state of knowledge on the interaction of Escherichia coli within vegetative filter strips as a sustainable best management practice to reduce fecal pathogen loading into surface waters

Antibiotic disturbance affects aquatic microbial community composition and food web interactions but not community resilience

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