Generalist nematodes dominate the nemabiome of roe deer in sympatry with sheep at a regional level

The growth of livestock farming and the recent expansion of wild ungulate populations in Europe favor opportunities for direct and/or indirect cross-transmission of pathogens. Comparatively few studies have investigated the epidemiology of gastro-intestinal nematode parasites, an ubiquitous and important community of parasites of ungulates, at the wildlife/livestock interface. In this study, we aimed to assess the influence of livestock proximity on the gastrointestinal nematode community of roe deer in a rural landscape located in southern France. Using ITS-2 rDNA nemabiome metabarcoding on fecal larvae, we analysed the gastrointestinal nematode communities of roe deer and sheep. In addition, we investigated Haemonchus contortus nad4 mtDNA diversity to specifically test parasite circulation among domestic and wild host populations. The dominant gastrointestinal nematode species found in both the roe deer and sheep were generalist species commonly found in small ruminant livestock (e.g. H. contortus), whereas the more specialised wild cervid nematode species (e.g. Ostertagia leptospicularis) were only present at low frequencies. This is in marked contrast with previous studies that found the nemabiomes of wild cervid populations to be dominated by cervid specialist nematode species. In addition, the lack of genetic structure of the nad4 mtDNA of H. contortus populations between host species suggests circulation of gastrointestinal nematodes between roe deer and sheep. The risk of contact with livestock only has a small influence on the nemabiome of roe deer, suggesting the parasite population of roe deer has been displaced by generalist livestock parasites due to many decades of sheep farming, not only for deer grazing close to pastures, but also at a larger regional scale. We also observed some seasonal variation in the nemabiome composition of roe deer. Overall, our results demonstrate significant exchange of gastrointestinal nematodes between domestic and wild ungulates, with generalist species spilling over from domestic ungulates dominating wild cervid parasite communities.     

Efficiency of a genetic test to detect benzimidazole resistant Haemonchus contortus nematodes in sheep farms in Quebec,Canada

Haemonchus contortus is a hemophilic nematode which infects sheep and causes anemia and death to lambs. Benzimidazole drugs are used to remove these parasites, but the phenomenon of resistance has arisen worldwide. A sensitive test to detect resistance before treatment would be a useful tool to enable farmers to anticipate the efficiency of the drug before drenching the flock. In this study, we compared a test for benzimidazole resistance based on detection of genetic markers in H. contortus before treatment with the common method of fecal egg count reduction test (FECRT). We recruited 11 farms from different regions of Quebec for this study. Fecal samples from animals were collected per rectum before and after treatment in control and treated groups (10 animals per group). The 10 sheep were treated with fenbendazole at the recommended dose rate. Among the 11 farms participating in the study, we found H. contortus in 8 of them and it was the most predominant nematode species detected by egg count. Using the genetic test, we found benzimidazole resistance in each of these 8 farms. In 5 of these 8 farms there were sufficient sheep with an egg count for H. contortus above 150 eggs per gram to allow the FECRT test to be conducted. Benzimidazole resistance was observed in each of these 5 farms by the FECRT. When we compared the results from the genetic test for samples off pasture and from individual sheep, with the results from the FECRT, we concluded that the genetic test can be applied to samples collected off pasture to estimate benzimidazole resistance levels before treatment for H. contortus infections.     

Secretion of anti-parasite substances and leukotrienes from ovine gastrointestinal tissues and isolated mucosal mast cells

The presence of larval migration inhibitory (LMI) compounds in the gastrointestinal mucus of nematode resistant sheep has been shown previously to be associated with increased numbers of gastrointestinal mucosal mast cells (MMC) and globule leukocytes (GL). This experiment was designed to determine if LMI compounds were secreted by MMC/GL in response to nematode antigenic challenge and if so, could secretion account for levels observed in mucus. Rommey sheep were immunized by repeated cycles of infection with Trichostrongylus colubriformis or Haemonchus contortus larvae and anthelmintic treatment. After slaughter, gastrointestinal tissue was taken for examination of histology and mucus anti-parasite activity. Segments of small intestine were ligatured to form sacs which were incubated with exsheathed nematode larvae or larval excretory/secretory antigens. Tissue slices from small intestine or abomasum were also incubated with nematode larvae or antigens. After homologous challenge, levels of leukotrienes secreted into small intestinal tissue sacs were significantly higher than levels in heterologously challenged sacs or unimmunized sheep intestinal sacs challenged with larvae of any nematode species (279.4±33.7, 141.0±27.8 and 39.5±15.2 ng h⁻¹ respectively). Tissue slices gave a similar pattern of leukotriene secretion. LMI activity was also significantly elevated in intestinal sacs from immunized sheep challenged homologously with nematode larvae or antigen (64±10 and 68±14% respectively cf. heterologous challenge 32±10% and unimmunized sheep sacs 15±6%). Histological examination of abomasal and small intestinal sections showed that immunized sheep had significantly greater numbers of MMC/GL than unimmunized sheep. MMC/GL isolated and purified from immunized sheep secreted leukotrienes and compounds having LMI activity when cultured with homologous nematode larvae or antigens. Secretion of leukotrienes and molecules having LMI activity from MMC/GL could account for the levels of these substances observed in small intestinal mucus.     

Micrometeorological factors involved in development and survival of free-living stages of the sheep nematodesHaemonchus contortus andTrichostrongylus colubriformis. A review

Temperature and soil moisture are the most important factors affecting the development and survival ofHaemonchus contortus andTrichostrongylus columbriformis eggs and larvae on pasture. More than half of the eggs develop into infective larvae in the laboratory, but a very low percentage (0.03% forH. contortus) does so on pasture. There is a marked difference betweenH. contortus andT. colubriformis in survival of infective larvae.H. contortus larvae survived in the winter at Urbana poorly, whereasT. colubriformis did well. The former survived better than the latter in the spring and worse in the summer, while both survived equally well in the fall. Technics for larval recovery from pasture are not very efficient. Meteorologic conditions at ground level where the larvae exist are quite different from those in a standard weather shelter 1.6 m above the ground. Bioclimatographs in which mean monthly maximum temperatures are plotted against total monthly precipitation are fairly good in predicting the type of nematode liable to be important in a given region, but they are too simplistic to be relied on for more than approximations.     

Ultraviolet light increases mortality of nematode larvae and can explain patterns of larval availability at pasture

Despite its documented effects on the viability of living organisms, the impact of ultraviolet (UV) light on the survival of parasitic nematode larvae has received surprisingly little attention. Infective L3s of the trichostrongyloid nematodes Haemonchus contortus, Teladorsagia circumcinta and Nematodirus battus, suspended in water, were exposed to direct UV irradiation in two experiments. In the first, during 6 days of constant illumination with UVA lamps at intensities simulating sunlight at ground level, the mortality rate was increased up to 100-fold compared with controls sheltered by UV-impermeable perspex. Significant differences in mortality rates were detected between the three species, with H. contortus the least sensitive. In the second experiment, larvae were exposed to natural sunlight during the temperate spring and summer, for 24-h periods on seven separate days representing a range of weather and UV doses. Mortality was again increased by UV exposure in all species, but was less in H. contortus than in T. circumcincta or N. battus. At higher daily UV doses, the mortality rate was on average 2.27 times higher in exposed larvae than in sheltered controls. Increased mortality caused by UV irradiation could help to explain patterns of abundance of infective stages at pasture, especially pronounced population declines in spring when solar radiation rises rapidly and temperature is still low. Implications for the epidemiology of gastrointestinal nematode infection in ruminants, and for trade-offs in parasite life history, are discussed.     

Ion Beam Mutagenesis in Arthrobotrys oligospora Enhances Nematode-Trapping Ability

The nematode-trapping fungus Arthrobotrys oligospora is able to produce extracellular protease that degrades the body walls of parasitic nematode larvae found in livestock and immobilizes the nematodes. Our aim was to obtain a strain of A. oligospora with a strong ability to trap nematodes by production of high levels of extracellular protease. A wild type strain of A. oligospora was subjected to mutagenic treatments involving low-energy ion beam implantation to generate mutants. Among these mutants, A. oligospora N showed high efficiency in trapping nematodes and was also able to secrete more extracellular protease, helping it to penetrate and digest the body walls of larvae. This work represents the first application of low-energy ion beams to generate mutations in a nematode-trapping fungus, and provides a new method of obtaining a fungus with high potential application.     

Isolation,identification, and in vitro predatory activity of nematophagous fungus Arthrobotrys musiformis and its interaction with nematodes using scanning electron microscopy

We isolated and identified nematophagous fungus Arthrobotrys musiformis from materials derived from cattle and sheep. We also molecularly characterised the native fungal isolates and evaluated the nematophagous activity of the isolates. A total of 19 isolates of A. musiformis were isolated from 1532 samples, and the detection rate of A. musiformis in all samples was 1.24%. These isolates were identified using a light microscope and their 5.8S rDNA, 18S rDNA, 28S rDNA, and the internal transcribed spacers 1 and 2 region. Interaction of the isolate (NPS045) with the nematode targets of the infective larvae (L₃) of Haemonchus contortus and the free-living nematode Caenorhabditis elegans was observed by scanning electron microscopy (SEM). SEM result showed that the two species of nematodes were initially captured at 5?h after being added to the isolates. L₃ was penetrated at 22?h after capture and completely destroyed by the fungus at 68?h. C. elegans was penetrated at 14?h post-capture and was completely digested by the fungus at 24?h. In vitro experimental assay of samples in 24-well plates showed that for the three fungal isolates, the L₃s of Trichostrongylus colubriforms were reduced by 94.80%, 90.17%, and 89.02%.     

Haemonchus contortus and Trichostrongylus colubriformis did not adapt to long-term exposure to sheep that were genetically resistant or susceptible to nematode infections

We tested the hypothesis that Haemonchus contortus and Trichostrongylus colubriformis would adapt to long-term exposure to sheep that were either genetically resistant or susceptible to H. contortus. Sheep genotypes were from lines with 10 years prior selection for low (resistant, R) or high (susceptible, S) faecal worm egg count (WEC) following H. contortus infection. Long-term exposure of H. contortus and T.colubriformis to R or S genotypes was achieved using serial passage for up to 30 nematode generations. Thus, we generated four nematode strains; one strain of each species solely exposed to R sheep and one strain of each species solely exposed to S sheep. Considerable host genotype differences in mean WEC during serial passage confirmed adequate nematode selection pressure for both H. contortus (R 4900 eggs per gram (epg), S 19,900 epg) and T. colubriformis (R 5300 epg, S 13,500 epg). Adaptation of nematode strain to host genotype was tested using seven cross-classified tests for H. contortus, and two cross-classified and one outbred genotype test for T. colubriformis. In the cross-classified design, where each strain infects groups of R, S or randomly bred control sheep, parasite adaptation would be indicated by a significant host genotype by nematode strain interaction for traits indicating parasite reproductive success; specifically WEC and, for H. contortus strains, packed cell volume. We found no significant evidence of parasite adaptation to host genotype (P > 0.05) for either the H. contortus or T. colubriformis strains. Therefore, we argue that nematodes will not adapt quickly to sheep bred for nematode resistance, where selection is based on low WEC, although selecting sheep using a subset of immune functions may increase adaptation risk. Our results support the hypothesis that nematode resistance is determined by many genes each with relatively small effect. In conclusion, selection of sheep for nematode resistance using WEC should be sustainable in the medium to long-term.     

The response of sheep to parenteral vaccination and immunizing infections against the abomasal nematode, Haemonchus contortus

Adams D. B., Beh K. J. and Davies H. I. 1982. The response of sheep to parenteral vaccination and immunizing infections against the abomasal nematode, Haemonchus contortus. International Journal for Parasitology12: 445–449. Subcutaneous injection of relatively large amounts of unfractionated homogenates of adults plus infective larvae of Haemonchus contortus emulsified in complete Freund's adjuvant produced a degree of protective immunity when challenge infection was given eight weeks after the first or only dose of vaccine. In an attempt to improve acquired immunity, parenteral vaccination was either followed or preceded by a short immunizing infection with H. contortus, which was terminated by anthelmintic before patency. This treatment aimed at stimulating general responsiveness to worm antigens and invoking mucosal immunity in the abomasum. Disparate results were obtained; immunizing infections either increased immunity or made sheep more susceptible to challenge infection. In this latter situation, the unresponsiveness associated with primary infection with H. contortus may have been increased.     

The influence of fungicides on Arthrobotrys oligospora in simulated putting green soil

Plant‐parasitic nematodes are destructive pests in bentgrass putting greens. Few chemical or nonchemical approaches for nematode management exist. Studies were conducted to determine: the in vitro tolerance of the nematophagous fungus Arthrobotrys oligospora, to the fungicides chlorothalonil and myclobutanil used to manage diseases on putting greens; the concentration of fungicides obtained from simulated putting green soil; and the ability of the fungus to reduce populations of the ring nematode, Criconemella ornata. Both fungicides reduced in vitro hyphal growth and germination of conidia above 10 mg kg^‐1. Soil concentrations of chlorothalonil were less than 5 mg kg^‐1 and concentrations of myclobutanil were below detection limits. Nematode populations were not affected by A. oligospora in simulated greens but nematode populations were lowest in pots inoculated with A. oligospora and receiving fungicide treatments. Results of these studies indicate that applications of chlorothalonil and myclobutanil used to manage fungal diseases of bentgrass may not adversely affect A. oligospora; however, the fungus may not reduce nematode populations below desired thresholds.     

Weather and the ecology of bursate nematodes

The free-living stages of bursate nematodes are affected in different ways by meteorological factors. The eggs and 1st and 2nd stage larvae live in the feces, and these factors act on them through the feces. The embryo in the egg is protected by the eggshell. The 1st and 2nd stage larvae feed on micro-organisms, and are affected by the species of microorganisms and their metabolic products. The 3rd stage, infective larvae do not feed but leave the feces and migrate onto the vegetation, where they are more directly affected by meteorological factors than the earlier stages. They are partially protected by their sheath. The degree day concept can be used to predict the length of time required for development to the infective stage. Under constant conditions at 100% relative humidity and 20–35° C,Trichostrongylus colubriformis requires 90–115 degree days (temperature times number of days) to reach the infective stage, andHaemonchus contortus requires 95–144 degree days. The great majority of eggs dies within the 1st day after reaching pasture, altho most of them would develop to the infective stage in the laboratory. Only 0.03% ofH. contortus andT. colubriformis eggs placed on pasture were recovered from the vegetation as infective larvae. When larvae ofH. contortus were placed on pasture, 1.6% (about 50 times as many but still only aout 1/30 of their potential) were later recovered. The cause of this die-off is unknown. Two types of potential worm burden prediction must be made-general and specific. The former can be made on the basis of temperature and moisture, but the latter requires information on many modifying factors.Presented at the Eighth International Congress of Biometeorology, 9–14 September 1979. Shefayim, Israel.     

Developmental arrest of Haemonchus contortus in sheep treated with a corticosteroid

Adams D. B. 1986. Developmental arrest of Haemonchus contortus in sheep treated with a corticosteroid. International Journal for Parasitology16: 659–664. Developmental arrest of the nematode, Haemonchus contortus, at the fourth larval stage within sheep appears to be controlled by a complex of signals and events in which both host-associated and parasite-associated factors are essential participants. Treatment of worm-free sheep with the corticosteroid, dexamethasone, during infection demonstrated the existence of an arrest-prone state in infective larvae and a host-associated influence actuating the phenomenon of arrest. Not all subpopulations of the parasite responded to the influence of dexamethasone and a selection experiment in which the parasite was passaged through immune and non-immune sheep showed that the arrest-prone state was largely determined by genetic factors. The host-associated factor initiating or actuating arrest and identified by dexamethasone-treatment could be ascribed more satisfactorily to a manifestation of immune responsiveness than to a direct effect of the corticosteroid.     

Time of onset and target of immune reactions in sheep with acquired immunity against Haemonchus contortus

Adams D. B. 1982. Time of onset and target of immune reactions in sheep with acquired immunity against Haemonchus contortus. International Journal for Parasitology12: 439–443. Nonimmune sheep and sheep rendered immune by infection with the abomasal nematode, Haemonchus contortus, were infected with the parasite and treated at various times with the glucocorticosteroid, dexamethasone. The results show that this immunosuppressant drug abolished acquired but not innate immunity to H. contortus and that acquired responses were not important in restraining the fecundity of adult worms during primary infection. By treating immune sheep with dexamethasone during reinfection, it was shown that the responses acting against the establishment of infection commence later than the fourth day after larval administration and are complete by the seventh day. H. contortus more advanced in development than the fourth-larval stage were relatively insusceptible to this manifestation of acquired immunity.     

Meiotic abnormalities in backcross lines of hybrid Haemonchus

Le Jambre L. F. and Royal W. M. 1979. Meiotic abnormalities in backcross lines of hybrid Haemonchus. International Journal for Parasitology10: 281–286. Hybrid worms from the reciprocal matings between Haemonchus contortus and H. placei were backcrossed to the parent species. Six of the possible eight backcrosses produced fertile eggs. The six backcross lines were passaged through sheep for four generations. The adults of this generation had various levels of meiotic abnormality as evidenced by abnormal variations in chromosome structure and aneuploidy. The eggs from backcross lines with a degree of meiotic abnormality had the lowest percentage hatch. Four of the six backcross lines required a higher temperature for larval development than did H. contortus. The size of the third-stage larvae varied from one with larvae larger than H. placei to one line with larvae smaller than H. contortus.     

Evaluation of biocontrol potential of Arthrobotrys oligospora against Meloidogyne graminicola and Rhizoctonia solani in Rice (Oryza sativa L.)

The nematode trapping and mycoparasitic potential of Arthrobotrys oligospora was tested in vitro against Meloidogyne graminicola and Rhizoctonia solani, respectively. Five isolates of A. oligospora were isolated from different locations of India. Diversity of the trapping structures is large and highly dependent on the environmental condition and nature of the fungus. In A. oligospora, a three-dimensional adhesive net (in response to nematode) and hyphal coils developed around the hyphae of R. solani. In vitro trap formation and predacity were tested against second-stage juveniles of M. graminicola (J₂) and the interactions between A. oligospora and R. solani were recorded. Under field conditions, we demonstrated the biocontrol potential of A. oligospora against R. solani causing sheath blight of rice (Oryza sativa) for the first time. All the isolates of A. oligospora parasitized and killed M. graminicola and R. solani. Application of A. oligospora, isolate VNS-1, in soil infested with M. graminicola and R. solani reduced the number of root knot by 57.58–62.02%, sheath blight incidence by 55.68–59.32% and lesion length by 54.91–66.66% under green house and miniplot (field) conditions. Applications of A. oligospora to the soil increased plant growth: shoot length by 56.4–68.8%, root length by 44.0–54.55%, fresh weight of shoot and root by 62.91–65.4% and 38.9–44.19%, respectively, as compared to the plants grown in nematode infested soil.     

Regulation of Haemonchus contortus populations in sheep exposed to continuous infection

Groups of sheep were infected three times weekly for 15 weeks with infective larvae of Haemonchus contortus at four rates ranging from 600 to 4800 larvae per week. At 3-weekly intervals, sheep from each group were killed for total worm counts after receiving a dose of radiolabelled larvae which enabled a direct measurement of establishment of incoming larvae during the continuing infection. Peak H. contortus burdens were reached between 6 and 9 weeks of infection, and were related to infection rate. In the groups receiving 2400 and 4800 larvae per week, worm numbers then declined rapidly and by the end of the experiment were lower than those in the groups given 600 or 1200 larvae per week. Establishment of incoming larvae was not influenced by infection rate, and declined from 45% in the first 4 weeks of infection to insignificant levels during the final 6 weeks. The proportion of incoming larvae arrested in their development increased as the infection progressed. It was concluded that H. contortus numbers were regulated by development of resistance to infection and by a loss of established worms which was related to the current rate of larval intake, and to the host's previous experience of infection.     

Predatory activity and passage of six nematophagous fungi species in gastrointestinal tract of trichostrongylide-infected sheep*

With the development of anthelmintic resistance of parasitic nematodes, screening the potential of predatory fungi candidates by in vitro and in vivo assay is necessary for biocontrol of parasitic nematodes in sheep. Fifteen native isolates of fungi species of six predators were evaluated through in vitro and in vivo experiment to evaluate the capacity of passing through the gastrointestinal tract of sheep. The results of the in vitro experiment showed that the reduction percentages of the third-stage larvae (L3) of trichostrongylides in faeces were 97.02–98.49% for five isolates of Arthrobotrys (Monacrosporium) sinense; 83.47–99.12% for three isolates of Arthrobotrys oviformis; 80.00–97.41% for four isolates of Arthrobotrys conoides; and 99.18%, 77.56%, and 75.72% for one isolate of Arthrobotrys microscaphoides, Arthrobotrys salina, and Dactylellina leptospora, respectively. In the in vivo assay, the results exhibited that the larval recoveries in faeces were significantly decreased (p?D. leptospora. After fungal treatment (within 24?h) of one isolate of A. salina, although the efficacy against L3 was 43.83%, tested fungus was detected in the faeces. The remaining isolates, except one isolate of D. leptospora and one isolate of A. conoides, were positive for either L3 reduction or fungal survival in faeces. The present study showed that nematophagous fungi could survive in the passage through the alimentary tract of sheep and should be potential candidates as a feed supplement.