I.A. Barger

THE GENETICS OF RESISTANCE AND RESILIENCE TO HAEMONCHUS CONTORTUS INFECTION IN YOUNG MERINO SHEEP

Abstract Young Merino sheep in 60 half-sib groups, totalling over 1000 lambs, were given a single dose of 11,000 Haemonchus contortus larvae. Resistance was measured, together with productivity during infection and when uninfected. One half-sib group exhibited an extremely high level of resistance; its sire was postulated to be the carrier of a major resistance gene. Genetic parameters were estimated for productivity during infection and in the absence of infection, for resistance as measured by faecal egg count and haematocrit, and for resilience as measured by the depression of productivity due to infection. The heritability of faecal egg count was estimated at 0.3, that for haematocrit after infection at 0.4. The heritability of resilience was too low to allow substantial progress by direct selection for this trait. Genetic correlations between resistance to infection and production traits when uninfected were not significantly different from zero. It was concluded that selection for polygenically controlled resistance would lead to substantial progress for this trait and would also increase productivity of infected animals.

Influence of sex and reproductive status on susceptibility of ruminants to nematode parasitism.

Bulls and rams are notorious among stockmen and stud breeders for their apparently greater susceptibility than cows, ewes, steers or wethers to diseases caused by excessive infection with parasitic nematodes. Extension advice given to farmers generally includes a recommendation to treat entire male animals as though they were weaners. In contrast, the scientific literature contains little documentation of this fact, although the phenomenon has been well-described in laboratory animals. Scientific interest in the susceptibility of lactating cows and especially ewes to nematode parasitism has been more extensive, but unproductive in terms of elucidating responsible mechanisms. Where ewes have acquired immunity to nematode infection, they tend to lose it around the time of parturition and during lactation, with important epidemiological and productivity consequences. In strains of sheep selected for resistance to nematode infection, principally through a more rapidly acquired immune response, resistant ewes still undergo a periparturient loss of immunity but retain their relative superiority over unselected or susceptible ewes. The mechanisms involve effects of hormones associated with lactation on the immune system, but an unequivocal role for prolactin or any other hormone has not yet been identified. Collaboration between immunologists, endocrinologists and parasitologists is required.

The statistical distribution of trichostrongylid nematodes in grazing lambs

Barger I. A. 1985. The statistical distribution of trichostrongylid nematodes in grazing lambs. International Journal for Parasitology15: 645–649. Worm counts of the genera Haemonchus, Ostertagia, Trichostrongylus and Nematodirus from 104 naturally-infected lambs were found to follow negative binomial distributions. Although mean counts covered a 10-fold range, k values did not differ significantly among the four genera. It was concluded that all genera were equally overdispersed. Some implications of this overdispersion for flock productivity and for parasite control were examined

Effects of dietary protein intake on responses of young sheep to infection with Trichostrongylus colubriformis

The effects of protein supplementation and infection with Trichostrongylus colubriformis on production responses and immune function in young sheep and on nematode population dynamics were assessed. Eighty-four 3-month-old Merino wether sheep were housed in individual pens and fed ad libitum chopped oaten hay containing 0.5% urea, together with 50 g day-1 lucerne meal. Fish meal (FM) was given as a source of protected protein at 0, 50 or 100 g day-1 (FM0, FM50, FM100; from Days --28 to 140). From Days 1 to 140, 0 or 1000 T. colubriformis infective larvae were given on Mondays, Wednesdays and Fridays. Infected sheep were slaughtered after 35, 70, 105, or 140 days of infection. Live-weight gain was reduced significantly by infection with T. colubriformis in sheep given FM0, but not in sheep given FM50 or FM100. Greasy wool production and fibre diameter were increased by FM, whereas the effects of infection with T. colubriformis on wool measurements depended on the level of FM given. Worm egg concentrations in faeces were significantly lower for sheep given FM100 than for those given FM0 or FM50 during the last 28 days of infection. Similarly, the apparent rate of worm expulsion was considerably higher in sheep given FM than in those not given FM. The rate of expulsion of T. colubriformis correlated with levels of circulating eosinophils as well as with the concentration of intestinal sheep mast cell proteases. Levels of parasite-specific and non-specific circulating antibodies were either unaffected or reduced as a result of supplementation with FM, although lymphocyte stimulation in vitro in response to T. colubriformis third stage larval antigen was enhanced significantly in infected animals given FM100. It was concluded that supplementary feeding with FM substantially reduced the production losses attributable to infection with T. colubriformis and was associated with enhanced expulsion of the parasite burden.

Regulation of Haemonchus contortus populations in sheep exposed to continuous infection

Abstract 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 hosts previous experience of infection.

Rotational grazing for control of gastrointestinal nematodes of goats in a wet tropical environment

A preliminary experiment involving contamination of pasture plots with eggs of Haemonchus contortus, Trichostronglyus colubriformis and Oesophagostomum columbianum every month for a year established that in the tropical environment of the Pacific island of Tongatapu, hatching and development of all species was rapid and continuous, with a short survival on pasture (3-7 weeks) of the resulting infective larvae. These results indicated that a rotational grazing system consisting of ten paddocks grazed in sequence for 3.5 days at a time may permit a reduction in the frequency of anthelmintic treatment of goats. In comparison with an adjacent set-stocked flock which required treatment on three occasions during the year when mean flock egg counts exceeded 2000 eggs per gram (EPG), rotationally grazed goats generally maintained mean egg counts of less than 1000 EPG. Anthelmintic treatment was only given to rotationally grazed goats individually as they kidded, and there were indications that even this precaution was unnecessary. Because of the expense of frequent anthelmintic treatment and the resulting selection of strains of anthelmintic-resistant nematodes, rotational grazing of small ruminants through fencing, tethering or herding deserves further investigation as a nematode control option in wet tropical environments.

Response to helminth infection of sheep selected for resistance to Haemonchus contortus

Lines of Merino sheep selected for increased (IRH) and decreased (DRH) resistance to Haemonchus contortus were compared with an unselected (CH) line, after approximately four generations of selection. Measurements were recorded on 69 IRH, 47 DRH and 84 CH animals. Following artificial challenge with H. contortus, the IRH line had significantly (P less than 0.001) lower faecal egg counts than the CH and DRH lines (2730, 12,720 and 17,400 epg, respectively). Significant differences (P less than 0.05) were found between all lines in the minimum packed cell volumes during artificial infection (25.7, 22.0 and 20.3%) and in faecal egg counts after natural infection (140, 3590 and 8750 epg). Differences were also recorded (P less than 0.05) following artificial challenge with Trichostrongylus colubriformis (490, 840 and 1340 epg). On a percentage basis, faecal egg counts in the IRH line deviated less from the CH line following artificial infection with T. colubriformis (42%) than with H. contortus (79%). The reverse was true for the DRH line (60 and 37%, respectively). Differences in egg output of this magnitude should have a marked effect on requirements for anthelmintic treatment, rate of development of drug resistance and level of pasture contamination when the lines are grazed separately.

Development and survival of infective larvae of Haemonchus contortus and Trichostrongylus colubriformis on pasture in a tropical environment.

A trial to determine the seasonal pattern of egg hatching and larval survival on pasture was carried out in representative wet and dry zones of Fiji. Fourteen plots were established on parasite-free pasture at each of two sites. One plot at each site was contaminated every month with faeces from naturally infected goats containing a known proportion of Haemonchus contortus and Trichostrongylus colubriformis eggs. Pasture was sampled at regular intervals after contamination and infective larvae identified and counted. Larvae of both species developed throughout the year in the wet zone but development was more sporadic in the dry zone. Larval counts generally declined to below detectable levels within 9 weeks of contamination between September and March but longevity increased during the cooler weather from April to August. The comparatively short larval survival times noted in this experiment may present opportunities for manipulation of parasite population dynamics in the wet tropics.

Resistance of young lambs to Haemonchus contortus infection, and its loss following anthelmintic treatment

Abstract Barger I.A. 1988. Resistance of young lambs to Haemonchus contortus infection, and its loss following anthelmintic treatment. International Journal for Parasitology 18 : 1107–1109. A comparison of worm burdens of grazing Merino lambs that were untreated, treated once and allowed to graze for 2 weeks, or given suppressive anthelmintic treatment until their final 2 weeks on pasture, showed that resistance to reinfection with Ostertagia circumcincta and Trichostrongylus colubriformis did not develop until the lambs were about 8 months old. By contrast, there was clear evidence that untreated lambs, but not lambs given one or more treatments, had acquired substantial resistance to infection with Haemonchus contortus by an age of 4 months.

Parasitological and immunological responses of genetically resistant Merino sheep on pastures contaminated with parasitic nematodes

One hundred and twenty lambs were grazed continuously from weaning until 9 months of age on 12 plots contaminated with larvae of three nematode species (Haemonchus contortus, Trichostrongylus colubriformis and Ostertagia circumcincta). The lambs were sired by either a genetically resistant ram or susceptible rams (determined by the response of previous progeny to artificial H. contortus infection). Half the resistant and half the susceptible lambs were given strategic anthelmintic treatment and the remainder remained untreated. Faecal egg counts and blood packed cell volume were measured frequently in all animals. One and 5 months after weaning, two lambs from each plot were slaughtered, and worm burdens and larval establishment rates of the three species of nematode were estimated. At the second slaughter, leukotriene levels and larval migration inhibitory (LMI) activity were measured in mucus collected from the small intestine. The dominant species in all faecal samples and the gastrointestinal tract was T. colubriformis. Lambs of the resistant genotype had lower faecal worm egg counts, lower worm burdens and higher levels of resistance to larval establishment. There were no differences in larval migration inhibition (LMI) activity, but resistant lambs had higher levels of the leukotriene LTC4/D4/E4. Further, the resistant genotype, identified on responsiveness to artificial infections with H. contortus, was more resistant to infections of three important species acquired naturally from contaminated pastures. All these genetic differences were maintained while the lambs were subject to strategic anthelmintic treatment.