Presence Of Colonies Research Articles

Cultural Heritage Environments: Monitoring Strategy for Preventive Conservation of Cultural Assets and Human Health Protection

Objects of historic artistic value, conserved in indoor deposits or exhibited inside museum halls, are strongly influenced by the environmental parameters, as temperature, relative humidity and light quality. Environmental parameters directly impact the structural integrity of constitutive materials and promote microbial colonization on artwork surfaces, leading to biodeterioration. In cultural heritage dedicated environments (CHE), the microbial load may exist both on art works surface and in the environmental aerosol (bioaerosol), maintaining a unique balance. In this study, through a multi-phasic approach the presence of bacteria and fungal colonies in the aerosol and artifacts surface, of an exposure hall, have been investigated. This study defined specific, non-invasive procedures to sample microbial colonies, spread both on artworks surface and in the aerosol of dedicated indoor environments. Results from morphological analysis (microscopy, in vitro culture) and molecular investigation (microbial genomic DNA), provided useful information on the composition of the microbial consortia, allowing a complete understanding. Microorganisms, in addition to inducing artifacts biodeterioration are able to produce and release, in the aerosol (bioaerosol) of surrounding environment, biological particles and molecules (spores, cellular debris, toxins and allergens), potentially dangerous for the health of operators and visitors. The complete understanding of the consortia is peculiar to counteract the microbial colonization, also performing green strategies.

First Case of Chryseobacterium gleum Post-COVID-19 in a Child with Recurrent Fever

Background and Clinical Significance:Chryseobacterium gleum is a Gram-negative opportunistic and emerging pathogen able to induce systemic manifestations (e.g., peritonitis, pneumonia, urinary tract infections, meningitis) in immunocompromised patients. No data on children have been published. Case Presentation: A 2-year-old child presented in the pediatric ambulatory room with recurrent fever, submandibular lymphadenopathy, and skin rash. Laboratory findings revealed the presence of microcytic anemia with an increase in c-reactive protein. Chest X-ray reported mild accentuation of the bronchial structure, especially on the right side and middle–lower zone. In the peripheral blood smear, anisopoikilocytosis and elliptical red cells were evident. Clinical evaluation revealed the presence of conjunctivitis and polymorphic erythema, hyperemic pharynx and tonsils, SPO2 99%, auscultation of the chest, harsh vesicular murmur all over the area, and some wheezing. Microbiological analysis of sputum and throat swabs revealed the presence of numerous colonies of Chryseobacterium gleum confirmed using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS score > 2.2). Conclusions: This is the first case of Chryseobacterium gleum post-COVID in a child. We suggest that a quick identification and an appropriate treatment represent the critical factors able to prevent the adverse outcomes related to C. gleum infection.

Dancing Towards the End—Ecological Oscillations in Mediterranean Coral Reefs Prior to the Messinian Salinity Crisis (Calcare di Rosignano Formation, Acquabona, Tuscany, Italy)

The lower Messinian Calcare di Rosignano Formation (Tuscany, Italy, 43° N) preserves one of the youngest and northernmost examples of coral reefs in the Mediterranean. The outcropping succession of the Acquabona quarry consists of four main facies, namely, in ascending stratigraphic order: (1) coral boundstone, (2) coralline algal rudstone, (3) serpulid floatstone to packstone, and (4) peloidal packstone to grainstone. The succession displays a trend toward increasingly more shallow conditions and progressively more restricted water circulation. The coral reef displays a limited coral biodiversity and a remarkable abundance of heterotrophs, similar to modern coral reefs developed at the edges of the ecological niche of symbiont-bearing colonial corals. The widespread presence of coral colonies pervasively encrusted by coralline algae and benthic foraminifera suggests that short-term environmental perturbations caused temporary shutdowns of the coral-dominated carbonate factory. Moving upwards, there are fewer corals and more highly adaptable carbonate producers like coralline algae and serpulids. This suggests that the decline of corals had been caused by the conditions in the basin becoming more stressful, up to the collapse of the coral community. The overall succession indicates that coral-dominated ecosystems located at the edges of the coral zone are very sensitive; they can be affected even by minor perturbations and easily collapse if negative conditions persist.

Florence, Byzantium and the Florentine Colony in Constantinople: An Impossible Love?

ABSTRACT This study examines the diplomatic and political efforts made by Florence to establish a significant institutional presence in Constantinople. It explores Florence's diplomatic relations with the Byzantine Empire, which are analysed in three distinct phases: the first, from the aftermath of the Fourth Crusade in 1204; the second, from 1421 to 1434, following the arrival of the Medici; and the third, from 1434, including the Ecumenical Council, to the fall of Constantinople in 1453. The research aims to provide an historical narrative and a comprehensive study of the origins and development of political contacts between Florence and the Byzantine Empire, an enquiry into the Florentine privileges granted in 1439, and a critical discussion of the genuine presence of a Florentine colony in the Byzantine capital.

ESSAI DE TRAITEMENT BIOLOGIQUE DES HUILES LUBRIFIANTES USAGÉES RÉCUPÉRÉES DANS DES GARAGES DE KINSHASA À L’AIDE DES URINES HUMAINES ET KAOLIN EN RÉPUBLIQUE DÉMOCRATIQUE DU CONGO

In the various car garages of Kinshasa (in the Democratic Republic of Congo), the lack of consideration of environmental standards is the basis of the voluntary and/or accidental discharges of used oils directly into the environment without any prior treatment. These used hydrocarbons are pollutants that can cause major environmental problems due to their toxicity. The aim of this study is to treat used lubricating oils from car garages biologically in order to reduce their toxic potential. To this end, an aerobic biological treatment system was set up by mixing 4L of used oils with IL of urine, 2Kg of active Kaolin and 20L of water. The reduction in the toxicity of hydrocarbons was assessed through acute toxicity tests on the species Gambusia Affinis and microbiological analyses before and after biological treatment of these oils. The results obtained on the toxicity before treatment of these oils revealed that the LC50 was around ±3 ml/g of used oils to say that the pollutant is very toxic. After biological treatment, the LC50 rise to around ±66.7 ml/g for the treated oils, which represents a significant reduction in toxicity and ranks these treated oils in the order of less toxic effluents. The microbiological analyses of the used oils before their treatment did not show any bacteria; on the other hand, the analyses after treatment made it possible to highlight the presence of bacterial colonies whose identification revealed the following bacteria: Citrobacter, Enterobacter, Klebsiella and Pseudomonas, which are mostly lipolytic. This study thus allowed to treat used oils thanks to microorganisms and the intrinsic properties of urine and Kaolin.

Microbial degradation of the waste jute fiber and sawdust fiber-based epoxy composites in drainage system

The non-biodegradable nature of polymers presents a considerable environmental hazard, mainly when they accumulate in drainage systems and pollute the water. The application of natural fiber composites has the potential to offer a feasible resolution to address this problem, as natural fibers possess inherent biodegradability. This study examined the degradation ability of epoxy composites made with 5 wt% waste jute fiber and 5 wt% waste sawdust fiber when subjected to drainage water for one year. The composites comprising jute fiber and sawdust demonstrated a reduction in tensile strength by 57 % and 40 %, respectively, because of biodegradation caused by microorganisms. The microorganism consumed the fiber for energy, resulting in significant weight and flexural strength loss. The weathered waste jute and sawdust fiber composite samples displayed an additional peak at a wavenumber of 1700 cm−1 for FTIR analysis, indicating the presence of the C=O group and reflecting CO2 production. The SEM image reveals the presence of clusters, biofilms, and colonies of microorganisms on the surface of the composites, indicating that the microbes were utilizing the fibers and matrix as a substrate for growth and multiplication. This research contributes to the understanding of the degradation mechanisms of sustainable composites and provides insight into the advancement of eco-friendly materials to reduce water pollution.

Elevated Salt or Angiotensin II Levels Induce CD38+ Innate Immune Cells in the Presence of Granulocyte-Macrophage Colony Stimulating Factor.

Hypertension (HTN) impacts almost half of adults, predisposing them to cardiovascular disease and renal damage. Salt-sensitive HTN (SSHTN) and angiotensin II (A2)-induced HTN (A2HTN) both involve immune system activation and renal innate immune cell infiltration. Subpopulations of activated [Cluster of differentiation 38 (CD38)] innate immune cells, such as macrophages and dendritic cells (DCs), play distinct roles in modulating renal function and blood pressure. It is unknown how these cells become CD38+ or which subtypes are pro-hypertensive. When bone marrow-derived monocytes (BMDMs) were grown in granulocyte-macrophage colony stimulating factor (GM-CSF) and treated with salt or A2, CD38+ macrophages and CD38+ DCs increased. The adoptive transfer of GM-CSF-primed BMDMs into mice with either SSHTN or A2HTN increased renal CD38+ macrophages and CD38+ DCs. Flow cytometry revealed increased renal M1 macrophages and type-2 conventional DCs (cDC2s), along with their CD38+ counterparts, in mice with either SSHTN or A2HTN. These results were replicable in vitro. Either salt or A2 treatment of GM-CSF-primed BMDMs significantly increased bone marrow-derived (BMD)-M1 macrophages, CD38+ BMD-M1 macrophages, BMD-cDC2s, and CD38+ BMD-cDC2s. Overall, these data suggest that GM-CSF is necessary for the salt or A2 induction of CD38+ innate immune cells, and that CD38 distinguishes pro-hypertensive immune cells. Further investigation of CD38+ M1 macrophages and CD38+ cDC2s could provide new therapeutic targets for both SSHTN and A2HTN.

Phosphate Influx and Dust Deposition Create Zonal and Meridional Biogeochemical Gradients in Trichodesmium Abundance

AbstractTrichodesmium plays a key role in the biogeochemical cycling of carbon, nitrogen and phosphorus in the Tropical Atlantic Ocean. A complex interplay of physicochemical factors control the growth of Trichodesmium. However, owing to the large spatial and temporal variability, the relative influence of these factors in controlling Trichodesmium distribution and abundance remains unclear. In this study, we examined the basin‐scale distribution pattern of Trichodesmium in the upper 200 m water column of the Atlantic Ocean (25°N–30°S and 70°W–20°E) using a large data set (n = 33,235) and tried to constrain the distribution based on various physicochemical parameters. We suggest that the combined effect of warm temperatures and phosphate (PO43−) availability determines the zonal spatial extent and the abundance of Trichodesmium in the Tropical North Atlantic Ocean. However, the availability of dissolved iron, along with high sea surface temperatures and meteorological parameters such as the wind direction and precipitation, likely govern the meridional distribution of Trichodesmium across the Atlantic Ocean. Excess PO43− at the surface rules out the possibility of PO43− limitation in regulating the meridional distribution of the Trichodesmium. Depth‐integrated nitrogen fixation rates, based on a multiple linear regression, vary from 0.07 to 306 μmol N m−2 d−1. The presence of Trichodesmium colonies down to a depth of 200 m and the depth‐integrated nitrogen fixation rates reflect the pivotal role of Trichodesmium in the nitrogen budget of this region.

Assessing microbiological and heavy metal pollution in surface waters associated with potential human health risk assessment at fish ingestion exposure

Fish represent a significant source of nutrients but also cause negative health effects due to their bioaccumulation capacity for pollutants. The aim of this study was to examine the transfer of metals from the water of several rivers (Somes, Tisa, Sasar, Lapus, Lăpusel) to fish (Caras sp) tissue (subcutaneous fat, muscles, liver, intestines, kidneys, gills, brain, and eyes) and to identify and assess the carcinogenic and non-carcinogenic health risks of Arsenic (As), Cadmium (Cd), Nickel (Ni), Manganese (Mn), Cooper (Cu), Lead (Pb), Chromium (Cr) and Zinc (Zn) through the ingestion of fish (muscles and subcutaneous fat tissues). The obtained results indicated that a diet consisting of fish is particularly vulnerable, particularly in children compared to adults. The risk assessment results were below the threshold limit, although the fish samples contained heavy metals, with values exceeding the permitted limits of Fe (4.41–1604 mg/kg), Cr (727–4155 µg/kg), Zn (4.72–147 mg/kg), and Ni (333–2194 µg/kg). The studied surface waters are characterized by low and high degrees of pollution with heavy metals, as indicated by the heavy metal pollution index scores (HPI: 12.4–86.4) and the heavy metal evaluation index scores (HEI: 1.06–17.6). The considerable pollution levels are attributed to the high Mn content (0.61–49.7 µg/kg), which exceeded the limit up to fifty times. A consistent set of physico-chemical analysis (pH, electrical conductivity, total hardness, turbidity, chloride, sulphate, nitrate, nitrite, ammonium, Ca, Mg, Na, K) was analysed in water samples as well. Considering the water quality index scores (WQI: 16.0–25.2), the surface waters exhibited good quality. Microbiological results indicated the presence of Listeria monocytogenes and atypical colonies of coagulase-positive staphylococcus in fish. In contrast, the surface waters from which fish samples were collected were positive for Escherichia coli, and coliform bacteria intestinal Enterococci. Based on the study’s results, it is recommended to exercise caution in the case of children related to the consumption of fish and using the waters for drinking purposes. This study provides important data of considerable novelty to the riparian population, researchers, and even policy makers on the quality status and potential levels of contamination of river waters, fish and the bioaccumulation of heavy metals in fish that may cause adverse effects on human health if consumed, and similarly the heavy metal pollution degree of waters and the non-carcinogenic risk of heavy metals through ingestion and skin absorption of water in children and adults (the study area is a significant source of fisheries).

Microstructural analysis of titanium alloys based on high-temperature phase reconstruction

The microstructural evolution of titanium alloys under high-temperature conditions plays a key role in determining their mechanical properties and hot working behavior. This research presents an advanced method for calibrating β phase reconstruction software using in situ testing on Grade 2 titanium, which achieves accurate reconstruction of the parent β phase microstructure. In addition, unique microstructural observations in the forging of Ti-6246 titanium alloy are highlighted, demonstrating the influence of deformation parameters on the resulting β phase grain structures. Using advanced techniques such as electron backscatter diffraction and Burgers orientation relationship-based software, the research elucidates the behavior of these phases under varying thermal and deformation conditions. In Grade 2 titanium, significant grain growth and phase transformation dynamics were observed upon heating beyond the β-transus temperature during in situ calibration of β phase reconstruction software. The analysis demonstrates the effectiveness of the software in precise reconstructing the parent β phase microstructure based on the orientation of the inherited αs phase. Furthermore, the evaluation of hot forming parameters in Ti-6246 alloy shows the influence of deformation temperature and strain rate on the resulting microstructure. Finite element method analysis coupled with dynamic material modeling elucidates the distribution of temperature, strain rate, and effective strain during forging, which aids in the qualitative assessment of hot workability. Microstructural observations in Ti-6246 alloy forging highlight the presence of elongated colonies of αs phase precipitates, indicative of localized strain intensities and deformation temperatures. In addition, EBSD analysis coupled with β phase reconstruction reveals distinct microstructural features in different regions of the forging. In particular, regions subjected to higher strain rates exhibit elongated β phase grains with pronounced disorientation gradients, suggesting intense deformation. Conversely, optimal forging conditions lead to the appearance of unreinforced axisymmetric β phase grains, indicating dynamic recovery processes. Pole figure analysis further emphasizes the Burgers crystallographic relationship between the αs and β phases, confirming that deformation during forging occurs exclusively within the β phase. These results provide valuable insights into the microstructural evolution in titanium alloys under high-temperature conditions, which are essential for optimizing hot working processes and improving mechanical properties.Graphical abstract

Anatolian genetic ancestry in North Lebanese populations

Lebanon’s rich history as a cultural crossroad spanning millennia has significantly impacted the genetic composition of its population through successive waves of migration and conquests from surrounding regions. Within modern-day Lebanon, the Koura district stands out with its unique cultural foundations, primarily characterized by a notably high concentration of Greek Orthodox Christians compared to the rest of the country. This study investigates whether the prevalence of Greek Orthodoxy in Koura can be attributed to modern Greek heritage or continuous blending resulting from the ongoing influx of refugees and trade interactions with Greece and Anatolia. We analyzed both ancient and modern DNA data from various populations in the region which could have played a role in shaping the current population of Koura using our own and published data. Our findings indicate that the genetic influence stemming directly from modern Greek immigration into the area appears to be limited. While the historical presence of Greek colonies has left its mark on the region’s past, the distinctive character of Koura seems to have been primarily shaped by cultural and political factors, displaying a stronger genetic connection mostly with Anatolia, with affinity to ancient but not modern Greeks.

Productive Characteristics, Nesting Substrates, and Colonies of the Escamolera Ant (Liometopum apiculatum M.) in Zacatecas, Mexico

Objective: The objective of this study was to connect measurements, weights, and production of escamoles with nesting substrates, foraging paths, nest types, and colony sizes of the escamolera ant. Design/Methodology/Approach: The data about nests, colonies, and larvae were gathered during morning and evening field walks, with the support of escamoles harvesters. The basic statistics of the data were estimated (N = 59 nests/colonies) and analyzed with the Kruskal-Wallis H test. In addition, the Mann-Whitney U test was used to determine the differences per nest type. Results: The highest production of escamoles was recorded in the Prosopis laevigata substrate (x=551.08 g/N=1), while the lowest production was recorded in the Echinocereus stramineus substrate (x=228.31 g/N=4). The length and width of the larvae (N=1,100 larvae) were similar in all the substrates. The weight of the larvae varied from 0.09 g, in the Prosopis levigata substrate, to 0.16 g, in the dry palm (Yucca spp.) substrate; therefore, 11,111 and 6,250 larvae are required, respectively, to obtain 1 kg of escamoles. Study Limitations/Implications: The information of this study is limited to a single harvesting region. Findings/Conclusions: The low escamoles production indicates that its harvesting must comply with a regulatory framework and a better organization, in order to guarantee the continuous presence of Liometopum apiculatum colonies.

Oral Commensals in Healthy Individuals: A Clinicocytological Study.

Background Each human being has a specific group of microorganisms that are necessary for both sustaining health and causing illness. Normally, these microorganisms maintain bio-communalism, do not harm the host, and lead to a state known as symbiosis or eubiosis. The commensal nature of these bacteria is always maintained in symbiosis and attains pathogenic potential when there is an imbalance between host immunity and microorganisms. Our study focuses on the identification and differentiation of the various commensals present in the oral cavity of healthy individuals over a given period of time. Aims and objectives This study aims to: (i) identify various commensal bacterial species present in the oral cavity; (ii) differentiate each commensal bacterial species present in the oral cavity of healthy individuals using cytological and culturing methods; (iii) identify the presence of different types of commensal bacterial species in the same individuals with the specific time intervals; (iv) compare and correlate the presence or absence of bacterial species present as a commensal in both male and female; (v) identify and characterize the commensal bacterial species present in the oral cavity of healthy individuals; (vi) investigate the consistency of commensal bacterial species presence over time and between genders. Methodology We included sixty healthy individuals between the ages of 20 and 24 from both genders, took buccal smears once every two days for ten days, stained them with Gram stain, and grew them in blood agar and Mac Conkey agar. Results The most common commensals include Gram-positive cocci, and among them, Coagulase-negative staphylococcus species (85%) are predominant, followed by Staphylococcus aureus (13.33%), and Streptococcus species (1.67%). The presence of colonies remains the same in all three samples obtained from the same healthy individuals. Conclusion Loss of balance between commensals and pathogens can lead to dysbiosis, which results in disease.

A ANALISA BAKTERI Escherichia coli DENGAN METODE MOST PROBABLE NUMBER (MPN) PADA CINCAU HITAM YANG BEREDAR DI PASARAN

Black grass jelly is a popular food, used as an ingredient to mix food and drinks. Black grass jelly can also be used in medicine such as lowering internal heat, mouth ulcers, fever, stomach pain, and preventing indigestion to be useful in lowering blood pressure. Black grass jelly is sold in traditional markets, but the presentation and processing of black grass jelly often lacks hygiene or hygiene. Unhygienic storage places such as being placed in open containers result in easy exposure to dust and are easily infested with flies. Disease-causing microbes attach to unclean body skin, which then allows them to attach to food which is a way of mechanical transmission. The bacteria that often contaminate food are Escherichia coli bacteria. Some of the health problems caused by Escherichia coli bacteria include meningitis, urinary tract infections, diarrhea and sepsis. This study aims to determine the presence of Escherichia coli bacterial contamination in black grass jelly circulating in the Lubuk Pakam market, and then count the number of colonies that grow on EMBA media. The method used in this research is descriptive with the MPN test.The results of the research on black grass jelly showed the presence of Escherichia coli bacteria. It was concluded that a positive result was obtained on EMBA media contaminated with Escherichia coli bacteria characterised by the presence of metallic green colonies.

Upscaling Biogas Production using Fruit Waste (Pawpaw, Watermelon and Banana) Co Digested with Cow Dung, and Gutter’s Sludge

Nigeria faces a significant challenge of fruit waste due to improper handling and transportation practices, leading to damage and microbial contamination, resulting in environmental pollution. These wastes can be utilized to produce biogas which is environmentally safer and cleaner. This study explores the potential of using fruit waste (Pawpaw, Watermelon, and Banana) as substrates co-digested with cow dung and gutter sludge to upscale biogas production. Physicochemical analyses of the substrates and inoculums was conducted, followed by construction of pilot biogas digesters, and then isolation of methanogenic bacteria. A combination of single and mixed fruit ratio were added into the digesters with the cow dung and gutter sludge as co-digesters. For the up scaling, a 25L digester was constructed and the best mix ratio from the pilot digesters were fed into the digesters. Isolation of methanogens was carried out to access which substrate or inoculum had greater potential in the production of biogas individually or when co-digested by the presence of methanogenic colonies after incubation. The results revealed similar physicochemical parameters among the fruit waste substrates, while cow dung and gutter sludge showed variations, particularly in carbon-nitrogen ratios. The pilot study demonstrated that the mix ratio containing all three fruits, co-digested with cow dung and gutter sludge, produced the highest methane yield (11.2%). In upscaling, a 25L digester produced gas efficiently, albeit with some depletion over time, possibly due to methanotroph activity or exposure to sunlight. Methanogenic colonies were successfully isolated from lower dilutions of gutter sludge. This study highlights the potential of fruit waste as a valuable substrate, particularly when co-digested with cow dung and gutter sludge, which can serve as an effective inoculum due to the presence of methanogens.

Fermented Polyherbal Formulation Ameliorates the Severity of Acute Multiple Antibiotics-Resistant Pseudomonas aeruginosa-Infected Burn Wound in a Rat Burn Model.

Pseudomonas aeruginosa, a Gram-negative opportunistic bacterium, has emerged as a cause of life-threatening infections in burn wounds. Current therapeutic approaches through wound dressings and systemic medicines are far from satisfactory; resistance to more than two antibiotics shown by pathogens contributes to failures of therapy causing mortality. This animal study was conducted to check the efficacy of one Ayurveda-based fermented polyherbal preparation (AP 01) against multiple antibiotics-resistant (MAR) P. aeruginosa HW01-infected rat burn wounds. AP-01 was applied on artificially infected burn wound on a rat model infected with MAR P. aeruginosa to register the healing effects in terms of reduction in residual wound area percentage, the presence of C-reactive protein in blood, and the presence of viable bacteria colony. Topical application with conventional antibiotics served as a positive control. The polyherbal preparation had reduced the infected residual burn wound area at 40.63% ± 0.69 from the initial burn wound area within two weeks after a single intervention, whereas residual burn wound area remained much higher in the case of animals left untreated and in the case of the animals treated with control drug. Restoration to the normalcy of serum C-reactive protein level was also achieved earlier in the case of polyherbal AP-01-treated groups than in other groups. Fermented formulations using components of AP-01 singly or in different combinations had never been tested earlier for topical application in infected burn wound. The formulation of AP-01 was found superior in terms of the rate of healing and control of infection by MAR P. aeruginosa strains in burn wounds in rat models.

Arthrocladiella mougeotii Causing Powdery Mildew on Goji Berry Plants (Lycium barbarum and L. chinense) and Mixed Infections with Phyllactinia chubutiana in California.

Goji berries (Lycium barbarum and L. chinense) have a rich historical significance in traditional Chinese medicine and have gained popularity as a superfood in Western cultures. From 2021 to 2023, powdery mildew was observed on goji plants of both species in community and residential gardens in Yolo County, California (U.S.A.). Disease severity varied from 20 to 100% of infected leaves per plant. Powdery mildew was characterized by the presence of white fungal colonies on both sides of leaves and fruit sepals. Additionally, a brownish discoloration was observed in infected mature leaves, resulting in further defoliation. Morphologically, the fungus matched the description of Arthrocladiella mougeotii. The pathogen identity was confirmed by phylogenetic analyses of the rDNA internal transcribed spacer and the 28S rDNA gene sequences. Pathogenicity was confirmed by inoculating healthy L. barbarum plants using infected leaves and successfully reproducing powdery mildew symptoms after 28 days (22°C, 60% RH), with A. mougeotii colonies confirmed by morphology. Control leaves remained symptomless. Coinfection with Phyllactinia chubutiana was detected on plants from two separate gardens, with A. mougeotii observed first in late spring (May to June) and P. chubutiana later in the summer (July to August). These results revealed that both A. mougeotii and P. chubutiana constitute causal agents of powdery mildew on goji berry plants, often infecting the same plant tissues simultaneously. To our knowledge, this is the first report of A. mougeotii causing powdery mildew on L. barbarum and L. chinense in California, which provides a better understanding of the etiology of powdery mildew of goji plants.

Transmission of viable Haemophilus ducreyi by Musca domestica.

Haemophilus ducreyi was historically known as the causative agent of chancroid, a sexually-transmitted disease causing painful genital ulcers endemic in many low/middle-income nations. In recent years the species has been implicated as the causative agent of nongenital cutaneous ulcers affecting children of the South Pacific Islands and West African countries. Much is still unknown about the mechanism of H. ducreyi transmission in these areas, and recent studies have identified local insect species, namely flies, as potential transmission vectors. H. ducreyi DNA has been detected on the surface and in homogenates of fly species sampled from Lihir Island, Papua New Guinea. The current study develops a model system using Musca domestica, the common house fly, as a model organism to demonstrate proof of concept that flies are a potential vector for the transmission of viable H. ducreyi. Utilizing a green fluorescent protein (GFP)-tagged strain of H. ducreyi and three separate exposure methods, we detected the transmission of viable H. ducreyi by 86.11% ± 22.53% of flies sampled. Additionally, the duration of H. ducreyi viability was found to be directly related to the bacterial concentration, and transmission of H. ducreyi was largely undetectable within one hour of initial exposure. Push testing, Gram staining, and PCR were used to confirm the identity and presence of GFP colonies as H. ducreyi. This study confirms that flies are capable of mechanically transmitting viable H. ducreyi, illuminating the importance of investigating insects as vectors of cutaneous ulcerative diseases.

Emerging Issues on Antibiotic-Resistant Bacteria Colonizing Plastic Waste in Aquatic Ecosystems.

Antibiotic-resistant bacteria (ARB) adhesion onto plastic substrates is a potential threat to environmental and human health. This current research investigates the prevalence of two relevant human pathogens, Staphylococcus spp. and Klebsiella spp., and their sophisticated equipment of antibiotic-resistant genes (ARGs), retrieved from plastic substrates submerged into an inland water body. The results of microbiological analysis on selective and chromogenic media revealed the presence of colonies with distinctive phenotypes, which were identified using biochemical and molecular methods. 16S rDNA sequencing and BLAST analysis confirmed the presence of Klebsiella spp., while in the case of Staphylococcus spp., 63.6% of strains were found to be members of Lysinibacillus spp., and the remaining 36.3% were identified as Exiguobacterium acetylicum. The Kirby-Bauer disc diffusion assay was performed to test the susceptibility of the isolates to nine commercially available antibiotics, while the genotypic resistant profile was determined for two genes of class 1 integrons and eighteen ARGs belonging to different classes of antibiotics. All isolated bacteria displayed a high prevalence of resistance against all tested antibiotics. These findings provide insights into the emerging risks linked to colonization by potential human opportunistic pathogens on plastic waste commonly found in aquatic ecosystems.

On Microflora of Entomoparasitic Nematodes from Long-Tailed Souslik Fleas in Tuva Mountain Natural Plague Focus

Entomoparasitic nematodes have a specific role to play in the persistence of Yersinia pestis in natural foci, however their natural microbial environment has not been studied.The aim of the study was to search for bacteria associated with nematodes parasitizing fleas-vectors of plague in the Tuva natural focus.Materials and methods. Fleas were collected during the planned epizootiological surveillance in May, 2017 and 2018. During the taxonomic identification of insects, the presence of parasitic nematodes was recorded. In 2017, bacteriological examination of fleas affected by nematodes and those free from them was carried out separately without dissection. The presence and number of bacteria colonies on the agar plates were taken into account. The results were evaluated by conventional methods using the Excel program. The t-criterion, one-factor analysis of variance were employed. In 2018, 84 invaded fleas were dissected. Extracted nematodes were suspended in Hottinger’s broth, followed by cultivation of grown bacteria on Hottinger’s agar. Systematic position of isolated cultures was determined through mass spectrometric analysis (MALDI-TOF) and partial sequencing of 16S rRNA.Results and discussion. In 2017, 30 samples of fleas with helminthes and 276 without helminthes were bacteriologically examined, including 23 samples infested and 145 non-infested specimens of the main vector, Citellophilus tesquorum. Statistical differences in the proportion of samples contaminated by unpretentious bacteria and effect of flea abundance in the sample on the number of colonies grown have not been revealed. In 2018, 26 cultures of bacteria of the genera Serratia, Staphylococcus, Pseudomonas, Acinetobacter, Macrococcus, and Bacillus were isolated from 23 samples of entomoparasitic nematodes. Possible ways of their penetration into flea imagoes are discussed.