Animal Parasites Research Articles

High-Throughput Screening of More Than 30,000 Compounds for Anthelmintics against Gastrointestinal Nematode Parasites.

Gastrointestinal nematodes (GINs) are among the most common parasites of humans, livestock, and companion animals. GIN parasites infect 1-2 billion people worldwide, significantly impacting hundreds of millions of children, pregnant women, and adult workers, thereby perpetuating poverty. Two benzimidazoles with suboptimal efficacy are currently used to treat GINs in humans as part of mass drug administrations, with many instances of lower-than-expected or poor efficacy and possible resistance. Thus, new anthelmintics are urgently needed. However, screening methods for new anthelmintics using human GINs typically have low throughput. Here, using our novel screening pipeline that starts with human hookworms, we screened 30,238 unique small molecules from a wide range of compound libraries, including ones with generic diversity, repurposed drugs, natural derivatives, known mechanisms of action, as well as multiple target-focused libraries (e.g., targeting kinases, GPCRs, and neuronal proteins). We identified 55 compounds with broad-spectrum activity against adult stages of two evolutionary divergent GINs, hookworms (Ancylostoma ceylanicum) and whipworms (Trichuris muris). Based on known databases, the targets of these 55 compounds were predicted in nematode parasites. One novel scaffold from the diversity set library, F0317-0202, showed good activity (high motility inhibition) against both GINs. To better understand this novel scaffold's structure-activity relationships (SAR), we screened 28 analogs and created SAR models highlighting chemical and functional groups required for broad-spectrum activity. These studies validate our new and efficient screening pipeline at the level of tens of thousands of compounds and provide an important set of new GIN-active compounds for developing novel and broadly active anthelmintics.

Influence of terrestrial and marine air mass on the constituents and intermixing of bioaerosols over a coastal atmosphere

Abstract. Coastal environments provide an ideal setting for investigating the intermixing processes between terrestrial and marine aerosols. In this study, fine particulate matter (PM2.5) samples categorized into terrestrial, marine, and mixed air masses were collected from a coastal location in northern China. The chemical and biological constituents, including water-soluble ions (WSIs), metallic elements, and bacterial and fungal aerosols, were investigated from January to March 2018, encompassing both the winter heating and spring dust seasons. Terrestrial air masses constituted 59.94 % of the total air masses throughout the sampling period, with a significant increase during severe haze pollution (up to 90 %). These air masses exhibited a higher concentration of PM2.5 (240 µg m−3) and carried more water-soluble ions and metal elements. The terrestrial air mass also contained a larger number of animal parasites or symbionts, as well as human pathogens from anthropogenic emissions, such as Staphylococcus, Deinococcus, Sphingomonas, Lactobacillus, Cladosporium, and Malassezia. Conversely, a significant quantity of saprophytic bacteria such as hydrocarbon-degrading and gut bacteria from the genera Comamonas, Streptococcus, Novosphingobium, and Aerococcus and the saprophytic fungus Aspergillus were the most abundant species in the marine air mass samples. The mixed air mass elucidates the intermixing process of terrestrial and marine sources, a result of microorganisms originating from both anthropogenic and terrestrial emissions, which includes pathogenic microorganisms from hospitals and sewage treatment plants, and a multitude of soil bacteria. A stronger correlation was noted between microorganisms and continental elements in both terrestrial and mixed air mass samples, specifically K+, Mg2+, and Ca2+ derived from soil dust. Marine air masses exhibited a significant correlation with sea salt ions, specifically Na+. In the mixed air mass sample, a fusion of marine and terrestrial microorganisms is characterized by alterations in the ratio of pathogenic to saprophytic microorganisms when compared to samples derived from either terrestrial or marine sources. This study on the constituents and amalgamation of bioaerosols over the coastal atmosphere encompassing distinct air masses is crucial to understand the transport, intermixing processes, and health implications of terrestrial and marine air masses.

High-throughput screening of more than 30,000 compounds for anthelmintics against gastrointestinal nematode parasites.

Gastrointestinal nematodes (GINs) are amongst the most common parasites of humans, livestock, and companion animals. GIN parasites infect 1-2 billion people worldwide, significantly impacting hundreds of millions of children, pregnant women, and adult workers, thereby perpetuating poverty. Two benzimidazoles with suboptimal efficacy are currently used to treat GINs in humans as part of mass drug administrations, with many instances of lower-than-expected or poor efficacy and possible resistance. Thus, new anthelmintics are urgently needed. However, screening methods for new anthelmintics using human GINs typically have low throughput. Here, using our novel screening pipeline that starts with human hookworms, we screened 30,238 unique small molecules from a wide range of compound libraries, including ones with generic diversity, repurposed drugs, natural derivatives, known mechanisms of action, as well as multiple target-focused libraries (e.g., targeting kinases, GPCRs, and neuronal proteins). We identified 55 compounds with broad-spectrum activity against adult stages of two evolutionary divergent GINs, hookworms ( Ancylostoma ceylanicum ) and whipworms ( Trichuris muris ). Based on known databases, the targets of these 55 compounds were predicted in nematode parasites. One novel scaffold from the diversity set library, F0317-0202, showed good activity (high motility inhibition) against both GINs. To better understand this novel scaffold's structure-activity relationships (SAR), we screened 28 analogs and created SAR models highlighting chemical and functional groups required for broad-spectrum activity. These studies validate our new and efficient screening pipeline at the level of tens of thousands of compounds and provide an important set of new GIN-active compounds for developing novel and broadly-active anthelmintics.

Natural Self-Purification of Creek Ecosystems: The Role of Foam Formation in Pollutant Absorption and Microbial Decomposition

<p style="text-align:justify;text-indent:36.0pt;"><span style="font-family:"Times New Roman","serif";font-size:12.0pt;line-height:115%;" lang="EN">This study investigates the natural self-purification ability of a creek through the process of froth formation. The research focuses on the creek's capacity to clean itself by capturing and removing pollutants naturally. The problem addressed is the accumulation of organic and inorganic contaminants in the water, which poses a threat to the aquatic ecosystem. The proposed solution explores how naturally formed froth can act as an effective mechanism for trapping and eliminating a wide range of pollutants. The froth formation is driven by biological processes, including the decomposition of organic matter by fungi, bacteria, Archaea, Algae, Virsus, Protozoa and animal parasites. These processes release biological surfactants and biogas microbubbles, which, combined with dissolved air and pollutants, lead to the creation of froth enriched with contaminants. The findings confirm that the creek has a natural ability to purify itself, as the froth effectively absorbs and collects dissolved pollutants. This process reduces the organic load in the water, thereby improving water quality. The study demonstrates that froth formation is a vital subprocess in the self-purification of river ecosystems, particularly through microbial decomposition of organic material. This natural mechanism supports water treatment by enhancing the removal of contaminants. The research validates the hypothesis that the creek's froth formation plays a significant role in its self-cleaning process, offering insights into the potential for natural water purification methods.</span></p>

Exploring animal enclosures and parasite interactions in Germany

In order to gain an initial impression of the current parasite situation in wildlife enclosures across Germany, 17 enclosures of six animal species were examined for parasites in soil and fecal samples in seven facilities. Of particular interest in this context are helminths and protists. Despite the potential risks, however, there are only a few studies on parasites in animal enclosures due to the taboo subject. The study examined 661 fecal samples from fallow deer (Dama dama, N = 247), wild boar (Sus scrofa, N = 207), red deer (Cervus elaphus, N = 111), mouflon (Ovis orientalis musimon N = 76), roe deer (Capreolus capreolus, N = 12) and bison (Bison bonasus, N = 8) as well as 136 soil samples from 12 single-species enclosures and 5 mixed-species enclosures. Three hundred and sixty fecal samples (54.46 %) tested positive for parasites using flotation and sedimentation methods. In addition, parasites were detected in 62.5 % (N = 85) of the soil samples. Examination of the faecal samples revealed that the most common parasite species were Strongyloides sp., Trichostrongylus sp. and Trichuris sp. With the help of a Geographic Information System (GIS), the findings could be displayed on an enclosure map and initial hypotheses on environmental relationships could be made. Particularly high parasite samples were mostly located near feeding and resting areas. The results underline the need for more regular monitoring and targeted parasite management to protect the health of the animals. GIS can be used as an additional tool to help identify hotspots and to specifically incorporate the environment into management in order to take animal-friendly measures. This will play a greater role in the future in the context of anthelmintic resistance.

The GPI sidechain of Toxoplasma gondii inhibits parasite pathogenesis.

Glycosylphosphatidylinositols (GPIs) are highly conserved anchors for eukaryotic cell surface proteins. The apicomplexan parasite, Toxoplasma gondii, is a widespread intracellular parasite of warm-blooded animals whose plasma membrane is covered with GPI-anchored proteins, and free GPIs called GIPLs. While the glycan portion is conserved, species differ in sidechains added to the triple mannose core. The functional significance of the Glcα1,4GalNAcβ1- sidechain reported in Toxoplasma gondii has remained largely unknown without understanding its biosynthesis. Here we identify and disrupt two glycosyltransferase genes and confirm their respective roles by serology and mass spectrometry. Parasites lacking the sidechain on account of deletion of the first glycosyltransferase, PIGJ, exhibit increased virulence during primary and secondary infections, suggesting it is an important pathogenesis factor. Cytokine responses, antibody recognition of GPI-anchored SAGs, and complement binding to PIGJ mutants are intact. By contrast, the scavenger receptor CD36 shows enhanced binding to PIGJ mutants, potentially explaining a subtle tropism for macrophages detected early in infection. Galectin-3, which binds GIPLs, exhibits an enhancement of binding to PIGJ mutants, and the protection of galectin-3 knockout mice from lethality suggests that Δpigj parasite virulence in this context is sidechain dependent. Parasite numbers are not affected by Δpigj early in the infection in wild-type mice, suggesting a breakdown of tolerance. However, increased tissue cysts in the brains of mice infected with Δpigj parasites indicate an advantage over wild-type strains. Thus, the GPI sidechain of T. gondii plays a crucial and diverse role in regulating disease outcomes in the infected host.IMPORTANCEThe functional significance of sidechain modifications to the glycosylphosphatidylinositol (GPI) anchor in parasites has yet to be determined because the glycosyltransferases responsible for these modifications have not been identified. Here we present identification and characterization of both Toxoplasmsa gondii GPI sidechain-modifying glycosyltransferases. Removal of the glycosyltransferase that adds the first GalNAc to the sidechain results in parasites without a sidechain on the GPI, and increased host susceptibility to infection. Loss of the second glycosyltransferase results in a sidechain with GalNAc alone, and no glucose added, and has negligible effect on disease outcomes. This indicates GPI sidechains are fundamental to host-parasite interactions.

Animal health as a function of farmer personality and attitude: using the HEXACO model of personality structure to predict farm-level seropositivity for Fasciola hepatica and Ostertagia ostertagi in dairy cows.

Infections with Fasciola hepatica and Ostertagia ostertagi impinge upon dairy cow health and welfare and represent a major economic factor in livestock industry. Control measures largely rely on the use of anthelminthic drugs. However, reports of anthelmintic resistance necessitate sustainable approaches. Farmer characteristics such as attitude and personality are crucial for the implementation of control strategies and on-farm practices. In the present study, the HEXACO (Honesty-Humility, Emotionality, eXtraversion, Agreeableness, Conscientiousness, Openness to experience) model of personality structure, which conceptualizes human personality, was used to evaluate the relationship of farmer aspects with on-farm bulk tank milk seropositivity for F. hepatica and O. ostertagi. Moreover, information on farm structure, housing, management, and farmers' attitude was collected in a face-to-face interview. Farm-level seropositivity for F. hepatica and O. ostertagi was predicted via elastic net regression. Out of 193 farms housing 8,774 cows in the German Federal State of Bavaria, 47 farms (24.4%) were seropositive for F. hepatica, 77 farms (39.9%) for O. ostertagi, and 42 farms (21.8%) for both endoparasites. The model for F. hepatica seropositivity selected the covariates pasture access, O. ostertagi seropositivity, higher farmer conscientiousness, and organic farming as relevant predictors. Seropositivity for O. ostertagi was predicted by F. hepatica seropositivity, pasture access, organic farming, and farmers being neutral regarding their satisfaction with animal health on their farm. Higher values for the HEXACO factors extraversion and emotionality were inversely associated with O. ostertagi seropositivity. The present work emphasizes the importance of farmer traits in regard to animal health and parasite occurrence. For the effective acceptance and implementation of sustainable control strategies for livestock helminth infections, it is crucial to consider these aspects to holistically address the challenges of managing parasitic diseases. Moreover, tailored communication strategies can be developed incorporating the understanding of individual stockman characteristics and subsequently ensuring encouragement of stakeholders.

Characterization and phylogenetic analysis of the mitochondrial genome of Cylicostephanus longibursatus.

Cylicostephanus longibursatus is a common parasite in equine animals. Hosts infected by these nematodes might face disease or death. This study utilized next-generation sequencing technology to sequence the complete mitochondrial genome (mt genome) of C. longibursatus. Through bioinformatics techniques, the genomic base composition, codon usage, tRNA secondary structures, evolutionary relationships, and taxonomic status were analyzed. The results revealed that the mitochondrial genome of C. longibursatus is a double-stranded, 13,807-bp closed circular molecule with an AT content of 76.0%, indicating a clear preference for AT bases. The mitochondrial genome consisted of a total of 12 protein-coding genes, 22 tRNA genes, 2 rRNA genes, and 2 non-coding regions. Among the 12 protein-coding genes, TTG and ATT were the common start codons. TAA was the predominant termination codon, except for the ND3 and ND6 coding genes, and the COШ genes used TAG and "T" as termination codons, respectively. All tRNAs exhibited atypical clover-leaf secondary structures, except for tRNALys and tRNALeu2, where two tRNASer genes lacked DHU arms and DHU loops, tRNAmet lacked the TΨC-arm, tRNAIle lacked the TΨC-loop, and the remaining 16 tRNAs lacked the TΨC-arm and TΨC loop, which were substituted by the "TV-replacement loop". Phylogenetic analyses, based on the 12 protein-coding genes and utilizing maximum likelihood (ML) and Bayesian inference (BI) analyses, indicated that C. longibursatus did not form a monophyletic group with other Cylicostephanus but was instead more closely related to Cyathostomum. These research findings provide fundamental data for exploring the population classification and phylogeny of strongylid nematodes.

Estimation of antiparasitic activity of fungal extracts towards Leishmania donovani in murine model

Background. Fungi produce many compounds have pharmaceutical usage. The current study was aimed to extract therapeutic compounds from fungi that grow in critical conditions and fungi that can be produced commercially which may have potential therapeutic activities against Leishmania donovani. The current study was aimed to extract therapeutic compounds from fungi that grow in critical conditions and fungi that can be produced commercially which may have potential therapeutic activities against Leishmania donovani. Methods. Two fungal isolates were used to evaluate antileishmanial activities of their extracts, the first due to Aspergillus terreus was isolated from salty sediments, while another represented local edible mushroom of Agaricus bisporus. The experiment was conducted in vivo after four weeks infection of Leishmania donovani. Infected mice were treated intraperitonially with 2 and 4 mg/kg daily for 10 days. Result. All compound has a significant effect on the viability and decrease the number of parasites in animal in comparison with pentostam, as well as, the M19 was appeared with highest effect in both concentrations. The method of examining infected tissues had a role in determining the number of parasites without affecting the percentage of presence in different treatments, as the numbers of parasites calculated in the tissue sections are more realistic than the number of parasites calculated in the printing method, as counting the parasite with tissue sections gives an impression of the spatial distribution of the parasite, whether within tissues or body fluids, unlike the printing method, which shows the presence of the parasite in body fluids and immune cells thus be suitable for the diagnosis of parasite amastigote in vivo. Conclusion. The compound extracted during study and diagnoses by GC-Mass technique are promising applicants for research on new drugs with anti-Leishmania activity derived from natural products.

The Legal Protection of Animal Parasites in International Biodiversity Law

Abstract Approximately half of all animal species on the planet are parasites. Many of these species play important roles in ecological communities, including maintaining the balance within ecosystems by regulating host populations. Though parasite species are often neglected by ecologists and derided generally, many are threatened with extinction. Against this backdrop, this article examines the extent to which current international biodiversity law offers protection to animal parasites, and whether the protection aligns with scientific findings. Taking a diagnostic approach, this study shows that parasites are overlooked in international biodiversity law, and as such, it reports a major blind spot in conservation measures. Following from this, lines of further enquiry into parasites and (international) biodiversity law are suggested, including examining the interaction between law and (ecological) parasitology, and species bias in international biodiversity law. In addition, theoretical questions that arise when considering the legal protection of parasites in biodiversity law are also considered.

Environmental Archaeology of an Urban Defensive Area at the Time of the Roman Conquest: New Insights from a Hilltop Pond in Lugdunum (Lyon, France)

ABSTRACT This study shows how fine and organic sediments in urban contexts can document landscape changes, anthropogenic activities and depositional processes. We focus on the transition between the late Iron Age and the Roman period in the city of Lyon (France), where an archaeological excavation conducted on Fourvière Hill aimed at understanding the evolution of a defensive site located south-west of the former Roman city. The discovery of a Gallic wall made of earth, wood and stone (murus gallicus) probably indicates the oppidum status of Lyon before the Roman colonisation. Fine-textured, organic and hydromorphic sediments containing a variety of artefacts (fine wares and amphora fragments) and abundant palaeoecological indicators (seeds, fruits, wood and charcoal fragments, pollen, shells, and parasites), were preserved at the foot of the rampart. A multidisciplinary study of these remains reveals the presence of a former hilltop pond surrounded by riparian woodlands with multi-proxy evidence of arable land or gardens, discharge from human settlements (consumption wastes, human parasites), and grazed areas (faecal inputs, animal parasites and plants tolerant to trampling). After several episodes of sediment inputs and backfill, the palaeoenvironmental record ended at the beginning of the Roman Empire, when a defensive wall was built over the site.

Extreme trophic tales: deciphering bacterial diversity and potential functions in oligotrophic and hypereutrophic lakes

BackgroundOligotrophy and hypereutrophy represent the two extremes of lake trophic states, and understanding the distribution of bacterial communities across these contrasting conditions is crucial for advancing aquatic microbial research. Despite the significance of these extreme trophic states, bacterial community characteristics and co-occurrence patterns in such environments have been scarcely interpreted. To bridge this knowledge gap, we collected 60 water samples from Lake Fuxian (oligotrophic) and Lake Xingyun (hypereutrophic) during different hydrological periods.ResultsEmploying 16S rRNA gene sequencing, our findings revealed distinct community structures and metabolic potentials in bacterial communities of hypereutrophic and oligotrophic lake ecosystems. The hypereutrophic ecosystem exhibited higher bacterial α- and β-diversity compared to the oligotrophic ecosystem. Actinobacteria dominated the oligotrophic Lake Fuxian, while Cyanobacteria, Proteobacteria, and Bacteroidetes were more prevalent in the hypereutrophic Lake Xingyun. Functions associated with methanol oxidation, methylotrophy, fermentation, aromatic compound degradation, nitrogen/nitrate respiration, and nitrogen/nitrate denitrification were enriched in the oligotrophic lake, underscoring the vital role of bacteria in carbon and nitrogen cycling. In contrast, functions related to ureolysis, human pathogens, animal parasites or symbionts, and phototrophy were enriched in the hypereutrophic lake, highlighting human activity-related disturbances and potential pathogenic risks. Co-occurrence network analysis unveiled a more complex and stable bacterial network in the hypereutrophic lake compared to the oligotrophic lake.ConclusionOur study provides insights into the intricate relationships between trophic states and bacterial community structure, emphasizing significant differences in diversity, community composition, and network characteristics between extreme states of oligotrophy and hypereutrophy. Additionally, it explores the nuanced responses of bacterial communities to environmental conditions in these two contrasting trophic states.

Archaeoparasitology and pathoecology of Buchta Nakhodka, a medieval settlement in the far north of Western Siberia, dating from the 13th century

Buchta Nakhodka, which was inhabited by the Northern Samoyeds, is one of the few sites in the far north of Western Siberia that has been explored archaeologically and archaeoparasitologically. Many factors complicate research work in this region; therefore, any additional study of known sites can provide valuable data. Here, we report the results of soil samples from the cultural layer taken during the excavation of structures of the medieval settlement of Buchta Nakhodka. Six types of human and animal parasite eggs were found in the studied samples. The extent of contamination and number of parasite species varied, depending on the sampling location. The analysis of research results in the historical and archaeological context enabled the reconstruction of certain nutritional habits of the population of Buchta Nakhodka in the 13th century and such activities as hunting, fishing, and dog breeding, as well as an evaluation of the level of hygiene and possible population movements and trade links with neighbouring settlements.

Balantidium Coli Colitis Revealing a Common Variable Immunodeficiency: A Case Report

Balantidium Coli is a large protozoan parasite, measuring up to 150 micrometers, initially identified in 1857 and later renamed in 1861-1862. It is an animal parasite, with its primary reservoir being pigs (domestic pigs/wild boars), but it can also be found in other animal species such as dogs, cats, hyenas, buffaloes, camels, monkeys, and others. Humans are an accidental host, as they represent a dead-end in the parasitic life cycle. Infection by this parasite is typically asymptomatic or presents with mild symptoms. It becomes pathogenic only in cases of primary or secondary immunodeficiency, where it typically manifests as colitis; however, urinary tract involvement is also possible. In our case, Balantidium Coli infection presented multiple challenges. It is not a well-known parasite in our region, particularly since pig farming is not practiced in Morocco. The parasite was found in both the urine and stool of the patient, who exhibited clear signs of infection which is not usual with this parasite. This led to the "late" discovery of Common Variable Immunodeficiency (CVID) in the patient, a primary immunodeficiency typically diagnosed before the age of 4 and characterized by a deficiency in immunoglobulin production, particularly affecting the IgA and IgG fractions.

Mite composition in nests of the Japanese wood mouse, Apodemus speciosus (Rodentia: Muridae).

Acari is a diverse group of arthropods that include well-known parasites of animals. Rodents, particularly, serve as common hosts of mites and ticks, transmitting pathogens to domestic animals and humans. Understanding the ecological dynamics between parasites and rodent hosts is crucial for ecosystem management. Due to limited knowledge about the life history of ectoparasites in wild mouse nests, we collected four nests of Apodemus speciosus, the most common rodent species in the wild areas of Japan, along with soil samples near the nests to study arthropod communities. Mites overwhelmingly populated the mouse nests, comprising approximately 90% of all arthropods, while both mites and collembolans were prevalent in soil. Various species identified in our study, such as those from the families Laelapidae, Pygmephoridae, Cheyletidae, Trombiculidae, Glycyphagidae, and Thyrisomidae align with known ectoparasites or species found in the nests of other rodent species, but most parasitic species were never collected in the surrounding soil except for trombiculids. The dominance of mites in mouse nests suggests selective preference for inhabiting these host environments, although the exact reasons driving this dominance remain unclear. Further investigations into the food web within mouse nests will aid in characterising faunal composition and understanding the ecological interaction among rodents, mites, and other nest symbionts.

Molecular Detection and Characterization of Cryptosporidium spp. and Giardia duodenalis in Dairy Calves from Ningxia, China.

Cryptosporidium spp. and Giardia duodenalis are two important foodborne human and animal parasites that can be disseminated through both food and water, leading to diarrheal disease. Nevertheless, available information on the circumstances of Cryptosporidium and Giardia duodenalis from Ningxia is limited. A total of 208 stool samples of dairy calves derived from large-scale farms (> 1000 heads) of five cities randomly in Ningxia were gathered randomly, were amplified and analyzed by nested PCR based on the three target genes (18S rRNA, gp60 and tpi)and phylogenetic systematics. The prevalence of cryptosporidiosis and giardiasis in dairy calves in Ningxia were 13.0% (27/208 samples, 95% CI 9.1-18.2%) and 1.9% (4/208, 95% CI 0.8-4.9%) respectively. Three Cryptosporidium species appeared in this study which are Cryptosporidium parvum (C. parvum), Cryptosporidium andersoni (C. andersoni) and Cryptosporidium ryanae (C. ryanae) based on the 18S rRNA gene sequence. IIdA15G1 and IIdA13G1 belonging to the subtypes of Cryptosporidium were detected by the gp60 PCR. The genotypes of Giardia duodenalis were only assemblage E through the amplification of the triosephosphate-isomerase gene (tpi gene). There is a risk of transmission to humans in Ningxia because of zoonotic genotypes (C. parvum, C. andersoni, assemblage E) and subtypes (IId) of Cryptosporidium spp. and G. duodenalis in dairy calves, and it is necessary to pay attention to the disease to prevent a widespread epidemic of the disease with the purpose to protect human and livestock health.

Analysis of growth inhibition of continuously planted Casuarina equisetifolia in relation to characteristic soil microbial functions and nutrient cycling

The effects of continuous planting on the growth of Casuarina equisetifolia (C. equisetifolia) have severely restricted the sustainable development of the industry. In this study, we investigated the diversity and functional changes of bacteria and fungi in the rhizosphere soil of continuously planted C. equisetifolia and their effects on soil nutrient transformation and C. equisetifolia growth. The results showed that after continuous planting, C. equisetifolia growth was significantly inhibited, the activities of nutrient transformation-related enzymes in rhizosphere soil were reduced, available nutrient content of the soil decreased, and soil bacterial diversity decreased, while fungi diversity increased. After continuous planting, 9 genera of significantly altered characteristic bacteria in the rhizosphere soil of C. equisetifolia were functionally enriched in animal parasites or symbionts, aromatic compound degradation, and nitrate reduction, with contributions mainly from the 3 characterisic bacteria such as Planctopirus, Bacillus, and Acinetobacter. After continuous planting, 7 genera of significantly altered characteristic fungi in the rhizosphere soil of C. equisetifolia were functionally enriched in soil saprotroph, lichen parasite, undefined saprotroph, endophyte, animal pathogen, wood saprotroph, litter saprotroph and plant pathogen, with contributions mainly from the 6 characteristic fungi such as Aspergillu, Fusarium, Saitozyma, Tolypocladium, Mortierella, and Funneliformis. Functional analysis and PLS-SEM equation analysis showed that the growth inhibition of C. equisetifolia due to continuous planting was the result of the joint action of the characteristic bacteria and fungi, but there was a difference between the functions of the two. The function of characteristic bacteria was mainly to provide conditions for the propagation of pathogenic organisms, which reduced soil nutrient content and hindered nutrient uptake by C. equisetifolia. The function of characteristic fungi was primarily to damage soil texture, nourish pathogenic bacteria to infest C. equisetifolia, and damage the root system to inhibit nutrient uptake. Characteristic bacteria and fungi together accelerated the effect of continuous planting on the growth of C. equisetifolia. This study provides an important reference for the cultivation regulation of continuously planted C. equisetifolia.

Knowledge, attitudes, and practices of government workers on zoonotic parasites in pet animals: a study in Central Gondar Zone, Ethiopia

BackgroundParasitic zoonoses are infections transmitted between vertebrate animals and humans, posing serious public health risks and significant economic consequences. The study aimed at assessing government workers' knowledge, attitudes, and practices (KAP) regarding zoonotic parasites of pet animals in Ethiopia's central Gondar zone.MethodsA cross-sectional study was carried out in selected towns of Central Gondar Zone, Northwest Ethiopia from January 2022 to August 2022. Four hundred randomly selected government employees participated in the study. Data were collected through semi-structured questionnaire administered by face-to-face interview. The chi-squared (χ2) was calculated for association and p-value less than 0.05 was considered as significant.ResultsA 57.25% of respondents were males and 42.75% were females. Most of the respondents, 67.5%, had completed college/university education. About 60% of the respondents had 'high knowledge', 57.25% had 'positive attitude', and 73% had 'good practice' regarding pet animals as a source of zoonotic parasites. The chi-square analysis revealed a significant discrepancy (p < 0.05) between knowledge with sex, educational level, and position in the house. The attitude level was significantly associated (p < 0.05) with educational level, religious view, and service year. Significant association was also observed (p < 0.05) between practice level of the respondents and educational level and marital status. The study also showed a significant association between knowledge and attitude (χ2 = 40.4, p ≤ 0.001), knowledge and practice (χ2 = 34.9, p ≤ 0.001), and attitude and practice (χ2 = 12.76, p = 0.013) of the respondents.ConclusionAlthough our results revealed that more than half of the participants had good knowledge, attitudes, and practices regarding zoonotic parasites of pet animals, enhanced routine hygienic practices and regular awareness creation programs are recommended to bridge existing gaps.

Sergentomyia khawi: a potential vector for Leishmania and Trypanosoma parasites affecting humans and animals and insecticide resistance status in endemic areas of Songkhla, southern Thailand

BackgroundSand flies serve as crucial vectors in various medical and veterinary diseases. Sand fly-borne diseases pose a significant public health burden globally, as the causative agents can infect a diverse range of hosts, leading to severe consequences such as leishmaniasis and sand fly fever. Additionally, the widespread use of insecticides for agricultural purposes and mosquito control is not specifically targeted at sand flies, potentially leading to resistance development. We investigated sand fly species, their potential role as vectors of various parasitic agents, and insecticide resistance in the endemic regions of Natawi and Sadao districts in Songkhla, Thailand.MethodsSand flies were collected using CDC light traps. The collected sand flies were then identified to species level using molecular techniques. Subsequent analyses included the detection of pathogens and the identification of pyrethroid resistance mutations within the voltage-sensitive sodium channel (Vgsc) domain IIS6 gene, followed by sequence analysis.ResultsThe study identified nine sand fly species belonging to the genera Phlebotomus and Sergentomyia. The DNA of Sergentomyia khawi was the only species found to test positive for one sample of Leishmania orientalis in Sadao district. This finding represents the first detection of L. orientalis in Thailand. Moreover, three samples of Leishmania martiniquensis and four samples of Trypanosoma sp. were found in the Natawi district. No I1011M, L1014F/S, V1016G, or F1020S mutations were detected in Vgsc gene.ConclusionsThe results of this study provide valuable information on sand fly species and the continuous circulation of Leishmania spp. and Trypanosoma spp. in Songkhla, southern Thailand. Moreover, the development of geo-spatial information on vectors, parasites, and insecticide resistance in sand flies has the potential to provide well-informed risk assessments and evidence-based guidance for targeted vector control in Thailand. These results can serve as a foundation for integrating the One Health approach, which is crucial for disease control, considering the diverse ecological interactions among human and/or animal reservoir hosts, parasites, and sand fly vectors.Graphic

Efeito nematicida do fungo Duddingtonia flagrans em ovinos

The health of the sheep flock depends, among other factors, on effective sanitary control, and the use of fungus-based bioproducts has been a promising alternative against sheep gastrointestinal nematodes. The control of ovine gastrointestinal diseases caused by parasites requires good management practices that minimize the exposure of animals to the infective larvae of parasites present in the environment. The fungus Duddingtonia flagrans is an efficient agent for the biological control of nematodes due to its efficiency in controlling parasites in domestic animals. The aim of this literature review is to demonstrate the predatory activity of the fungus Duddingtonia flagrans against infective larvae (L) of gastrointestinal nematodes in ruminant sheep. The fungus in the form of D. flagrans chlamydospores proved to be resistant to the digestive process of ruminants and efficient against intestinal parasites. Its use in association with anthelmintics proved to be a good alternative for biological control. This possibility of using bioproducts and anthelmintics in combination reduces the effects of parasite resistance. Various methods of delivering the fungus orally, in pellets or powder, have obtained results that prove the efficacy of D. flagrans isolates in reducing infective nematode larvae.