Smart Water Management in Agriculture: a Proposal for an Optimal Scheduling Formulation of a Gravity Water Distribution System

Agriculture represents one of the most water demanding sectors and its role is central on defining water saving policies. In this work, we propose an improved approach to the irrigation scheduling problem, reducing water wastage while satisfying farmers\u2019 demands and crops\u2019 water needs.For water distribution system managed with on-demand distribution approach, the efficiency of irrigation relies on the ability of the network manager (i.e., gatekeeper) to guarantee a proper service, consisting in: the irrigation scheduling, the definition of the volume of water passing through the channels at a given time, and the operations on gates and sluices to make the water reach the farms. Consequently, the irrigation scheduling inefficiencies might be limited by: i) reducing the water wastage, ii) minimizing the gatekeeper work and iii) maximizing the satisfaction of the farmers\u2019 requirements.We propose an improved mixed-integer linear optimization formulation that adds the possibility to store water in the channels and takes seepage into account. This new formulation is able to better represent the physical behavior of the water flow in the channels network, also avoiding the presence of flooding. The proposed optimization solution is embedded within a wider monitoring framework with the intent to fully exploit the availability of a complex network of models, repositories and sensors installed in the field.The resulting problem is solved by one of the most used optimization solvers (IBM ILOG Cplex) and tested on a synthetic benchmark. Furthermore, we validate the results on a digital copy of the network that performs a hydraulic simulation of the irrigation system. The scheduling is accepted if the water introduced in the system can satisfy farmers\u2019 requests with the considered timing and does not produce flooding

Genomic Characterisation of a Multiple Drug Resistant IncHI2 ST4 Plasmid in Escherichia coli ST744 in Australia.

Antibiotic resistance genes (ARGs) including those from the blaCTX-M family and mcr-1 that encode resistance to extended spectrum β-lactams and colistin, respectively, have been linked with IncHI2 plasmids isolated from swine production facilities globally but not in IncHI2 plasmids from Australia. Here we describe the first complete sequence of a multiple drug resistance Australian IncHI2-ST4 plasmid, pTZ41_1P, from a commensal E. coli from a healthy piglet. pTZ41_1P carries genes conferring resistance to heavy-metals (copper, silver, tellurium and arsenic), β-lactams, aminoglycosides and sulphonamides. The ARGs reside within a complex resistance locus (CRL) that shows considerable sequence identity to a CRL in pSDE_SvHI2, an IncHI2:ST3 plasmid from an enterotoxigenic E. coli with serotype O157:H19 of porcine origin that caused substantial losses to swine production operations in Australia in 2007. pTZ41_1P is closely related to IncHI2 plasmids found in E. coli and Salmonella enterica from porcine, avian and human sources in Europe and China but it does not carry genes encoding resistance to clinically-important antibiotics. We identified regions of IncHI2 plasmids that contribute to the genetic plasticity of this group of plasmids and highlight how they may readily acquire new resistance gene cargo. Genomic surveillance should be improved to monitor IncHI2 plasmids

Whole Genome Sequencing Analysis of Porcine Faecal Commensal Escherichia coli Carrying Class 1 Integrons from Sows and Their Offspring.

Intensive pig production systems often rely on the use of antimicrobials and heavy metal feed additives to maintain animal health and welfare. To gain insight into the carriage of antimicrobial resistance genes (ARGs) in the faecal flora of commercially reared healthy swine, we characterised the genome sequences of 117 porcine commensal E. coli that carried the class 1 integrase gene (intI1+). Isolates were sourced from 42 healthy sows and 126 of their offspring from a commercial breeding operation in Australia in 2017. intI1+ E. coli was detected in 28/42 (67%) sows and 90/126 (71%) piglets. Phylogroup A, particularly clonal complex 10, and phylogroup B1 featured prominently in the study collection. ST10, ST20, ST48 and ST361 were the dominant sequence types. Notably, 113/117 isolates (96%) carried three or more ARGs. Genes encoding resistance to -lactams, aminoglycosides, trimethoprim, sulphonamides, tetracyclines and heavy metals were dominant. ARGs encoding resistance to last-line agents, such as carbapenems and third generation cephalosporins, were not detected. IS26, an insertion sequence noted for its ability to capture and mobilise ARGs, was present in 108/117 (92%) intI1+ isolates, and it played a role in determining class 1 integron structure. Our data shows that healthy Australian pig faeces are an important reservoir of multidrug resistant E. coli that carry genes encoding resistance to multiple first-generation antibiotics and virulence-associated genes

Diversity of P1 phage-like elements in multidrug resistant Escherichia coli

© 2019, The Author(s). The spread of multidrug resistance via mobile genetic elements is a major clinical and veterinary concern. Pathogenic Escherichia coli harbour antibiotic resistance and virulence genes mainly on plasmids, but also bacteriophages and hybrid phage-like plasmids. In this study, the genomes of three E. coli phage-like plasmids, pJIE250-3 from a human E. coli clinical isolate, pSvP1 from a porcine ETEC O157 isolate, and pTZ20_1P from a porcine commensal E. coli, were sequenced (PacBio RSII), annotated and compared. All three elements are coliphage P1 variants, each with unique adaptations. pJIE250-3 is a P1-derivative that has lost lytic functions and contains no accessory genes. In pTZ20_1P and pSvP1, a core P1-like genome is associated with insertion sequence-mediated acquisition of plasmid modules encoding multidrug resistance and virulence, respectively. The transfer ability of pTZ20_1P, carrying antibiotic resistance markers, was also tested and, although this element was not able to transfer by conjugation, it was able to lysogenize a commensal E. coli strain with consequent transfer of resistance. The incidence of P1-like plasmids (~7%) in our E. coli collections correlated well with that in public databases. This study highlights the need to investigate the contribution of phage-like plasmids to the successful spread of antibiotic resistant pathotypes

Porcine commensal escherichia coli: A reservoir for class 1 integrons associated with IS26

© 2017 The Authors. Porcine faecal waste is a serious environmental pollutant. Carriage of antimicrobial-resistance genes (ARGs) and virulenceassociated genes (VAGs), and the zoonotic potential of commensal Escherichia coli from swine are largely unknown. Furthermore, little is known about the role of commensal E. coli as contributors to the mobilization of ARGs between food animals and the environment. Here, we report whole-genome sequence analysis of 103 class 1 integron-positive E. coli from the faeces of healthy pigs from two commercial production facilities in New South Wales, Australia. Most strains belonged to phylogroups A and B1, and carried VAGs linked with extraintestinal infection in humans. The 103 strains belonged to 37 multilocus sequence types and clonal complex 10 featured prominently. Seventeen ARGs were detected and 97% (100/103) of strains carried three or more ARGs. Heavy-metal-resistance genes merA, cusA and terA were also common. IS26 was observed in 98% (101/103) of strains and was often physically associated with structurally diverse class 1 integrons that carried unique genetic features, which may be tracked. This study provides, to our knowledge, the first detailed genomic analysis and point of reference for commensal E. coli of porcine origin in Australia, facilitating tracking of specific lineages and the mobile resistance genes they carry

A large-scale metagenomic survey dataset of the post-weaning piglet gut lumen

BackgroundEarly weaning and intensive farming practices predispose piglets to the development of infectious and often lethal diseases, against which antibiotics are used. Besides contributing to the build-up of antimicrobial resistance, antibiotics are known to modulate the gut microbial composition. As an alternative to antibiotic treatment, studies have previously investigated the potential of probiotics for the prevention of postweaning diarrhea. In order to describe the post-weaning gut microbiota, and to study the effects of two probiotics formulations and of intramuscular antibiotic treatment on the gut microbiota, we sampled and processed over 800 faecal time-series samples from 126 piglets and 42 sows.ResultsHere we report on the largest shotgun metagenomic dataset of the pig gut lumen microbiome to date, consisting of >8 Tbp of shotgun metagenomic sequencing data. The animal trial, the workflow from sample collection to sample processing, and the preparation of libraries for sequencing, are described in detail. We provide a preliminary analysis of the dataset, centered on a taxonomic profiling of the samples, and a 16S-based beta diversity analysis of the mothers and the piglets in the first 5 weeks after weaning.ConclusionsThis study was conducted to generate a publicly available databank of the faecal metagenome of weaner piglets aged between 3 and 9 weeks old, treated with different probiotic formulations and intramuscular antibiotic treatment. Besides investigating the effects of the probiotic and intramuscular antibiotic treatment, the dataset can be explored to assess a wide range of ecological questions with regards to antimicrobial resistance, host-associated microbial and phage communities, and their dynamics during the aging of the host

Proteomic analysis of the ventral disc of Giardia lamblia

<p>Abstract</p> <p>Background</p> <p><it>Giardia lamblia </it>is a multiflagellated protozoan that inhabits the small intestine of vertebrates, causing giardiasis. To colonize the small intestine, the trophozoites form of the parasite remains attached to intestinal epithelial cells by means of cytoskeletal elements that form a structure known as the ventral disc. Previous studies have shown that the ventral disc is made of tubulin and giardins.</p> <p>Results</p> <p>To obtain further information on the composition of the ventral disc, we developed a new protocol and evaluated the purity of the isolation by transmission electron microscopy. Using 1D- and 2D-PAGE and mass spectrometry, we identified proteins with functions associated with the disc. In addition to finding tubulin and giardin, proteins known to be associated with the ventral disc, we also identified proteins annotated in the <it>Giardia </it>genome, but whose function was previously unknown.</p> <p>Conclusions</p> <p>The isolation of the ventral disc shown in this work, compared to previously published protocols, proved to be more efficient. Proteomic analysis showed the presence of several proteins whose further characterization may help in the elucidation of the mechanisms involved in the attachment of the protozoan to epithelial cells.</p

Territorial Milieu as Driver for Sustainability through Urban Regeneration Initiatives: The Case of San Diego, CA

Urban regeneration acquired a powerful role in the shaping of the future role of the cities in the Globalization era. It could be considered a public action in a market governed by different powers introducing a more strategic approach in the contemporary urban planning theory and practice. The main features of urban regeneration regard: area-based approach, strong awareness of what are local needs/urban problems, strategic approach and effects/impacts of initiatives. Since integration can be considered one of the main objective to get through urban regeneration, and the complexity as well as the peculiarity of urban dynamics are very much related to the context they belong to, we might see the community involvement as crucial toward sustainable urban regeneration initiatives. The shift of urban regeneration processes toward an increase of the community importance generates different urban management tools based on the typology of partnership set up. The intent of generating wider effects in terms of economic development at macro-level (regional thereby) trough urban regeneration initiatives has been eluded by the strong local interests even if not homogenous among each others. In order to reach a feasible consensus among all actors involved, the common objective became the job creation to which converge all different urban problems and solutions. Consequently, the sustainability of urban regeneration initiatives is still at the centre of politicians and academic debate. Economic sustainability, environmental sustainability and social sustainability provide criteria for such indicators to measure the urban regeneration performance. The paper reports some interesting findings of the second year of the CLUDs research project, funded by IRSES Marie Curie Actions, illustrating how territorial milieu can reinforce local urban regeneration initiatives by combining the latest urban rural link research with the detailed analysis of 9 urban areas located in San Diego, CA (USA), in which urban regeneration initiatives have been implemented. The CLUDs project has introduced the concept of milieu to offer a different source of sustainability within urban regeneration initiatives that is the connections with the surrounding rural areas to reinforce local economy

Fast analysis of low molecular mass compounds present in snake venom: identification of ten new pyroglutamate-containing peptides.

Made available in DSpace on 2018-06-09T01:20:56Z (GMT). No. of bitstreams: 1 ID25295.pdf: 254192 bytes, checksum: 13faf75f59f61e212f0e82fe521da5d8 (MD5) Previous issue date: 2005-07-21bitstream/item/178385/1/ID-25295.pd

Molecular identification and activity upon chromogenic substrates of a venombin A from Bothrops atrox Peruvian snake venom

En el presente trabajo se ha realizado la identificación molecular de la enzima similar a trombina (EST) del veneno de Bothrops atrox y se ha evaluado su actividad enzimática sobre diversos sustratos sintéticos. La enzima fue purificada utilizando tres pasos cromatrográficos, sobre Sephadex G-75, CM-Sephadex C-50 y Agarosa-PAB, determinándose su peso molecular por PAGE-SDS. La identificación molecular de la enzima aislada se realizó por la técnica de peptide mass fingerprinting basada en espectrometría de masas MALDI-TOF y posterior análisis in silico. Las actividades fibrinocoagulante y amidolítica fueron ensayadas sobre fibrinó- geno bovino y BApNA, respectivamente, así como la hidrólisis sobre los sustratos cromogénicos específicos S-2238, S-2251 y S-2266. Como resultado de los ensayos bioquímicos y estructurales, la EST del veneno de B. atrox, presentó un peso molecular de 29,6 kDa. El análisis mediante espectrometría de masas de los péptidos obtenidos, permitió identificar a esta enzima como una venombina A, presentando una identidad del 75%. Del análisis de actividad enzimática, se obtuvo que la EST de B. atrox produjo coagulación del fibrinógeno bovino y presentó actividad sobre BApNA, S-2238 y S-2266, siendo incapaz de hidrolizar el sustrato S-2251. El empleo de estas aproximaciones estructurales y funcionales ha permitido lograr la identificación molecular del principal componente del veneno de B. atrox relacionado con su acción coagulante, así como evaluar en detalle la naturaleza de su actividad enzimática sobre diversos sustratos.n this work, the thrombin-like enzyme (TLE) from Bothrops atrox has been identified by mass spectrometry and its enzymatic activity evaluated upon several synthetic substrates. The enzyme was purified to homogeneity using three chromatography steps on Sephadex G-75, CM-Sephadex C-50 and Agarose-PAB. Also, molecular weight by PAGE-SDS was determined. For molecular identification of this enzyme, mass spectrometry-based peptide mass fingerprinting was used and later in silico analysis. Enzymatic activities were determined using bovine fibrinogen, BApNA and also upon specific chromogenic substrates such as S-2238, S-2251 y S-2266. As a result of these biochemical and structural procedures, we obtained a TLE from B. atrox venom with a molecular weight of 29,6 kDa. Mass spectrometry analysis of obtained peptides, allow us to identify this enzyme as a venombin A, showing a 75% sequence homology. After recording enzymatic activity, this TLE showed coagulant activity on bovine fibrinogen and upon BApNA, S-2238 y S-2266, being unable to hydrolyze S-2251 substrate. Using this combination of structural and functional approaches, we have identified the main component of B. atrox venom related to its coagulant activity, as well as a detailed evaluation of its enzymatic activity upon several substrate