Haemonchus placei

Contents

Rev 10/18/2025

Large Stomach Worm, Barberpole worm Classification Biology and Ecology
Morphology and Anatomy Life Cycle
Return to Haemonchus Menu Ecosystem Functions and Services
Distribution Management
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 Classification

Chromadorea
Chromadoria
Rhabditida
  Rhabditina
   Stronglyloidea
    Haemonchidae
Haemonchinae

Haemonchus contortus (Place, 1893) Ransom, 1911

 

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Morphology and Anatomy:

Among the parasite species that infect domestic ruminants, male specimens of H. similis are easily distinguished, because they have shorter spicules than those of H. placei and H. contortus. Also, distances of the barbs to distal end of the spicules of H. similis are longer.

Until recently, the sheep parasites of the genus were called H. contortus and the cattle species H. placei. However, there is now increasing evidence that these are both H. contortus with race adaptations to parasitism of  cattle and sheep (Talamini do Amaranti, 2011; Snyder et al., 2020)..

 

Males:

Females:

Ref: Snyder et al., 2020

Reported median body size for this species (Length mm; width micrometers; weight micrograms) - Click:


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Distribution:

Worldwide, Paleartic, Neartic, Oriental, Ethiopian, Neotropical, Australian.

Sheep are the primary host of H. contortus while cattle are the primary hosts of  H. placei, but H. placei also infects sheep amnd goats..

 

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Economic Importance:

Highly pathogenis of ruminants.

Parasitic gastroenteritis caused by Haemonchus spp. is a major cause of economic losses in the livestock industry.

It impairs weight gain and increases mortality in cattle and small ruminants, especially in tropical and subtropical areas.

Many reports of H. contortus, particularly in cattle might actually represent misidentification of H. placei because of difficulties in species identification.

 

 

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Hosts:

Haemonchus contortus is primarily considered a parasite of domestic sheep, Ovis aries, but also infects other domestic and wild ruminants.

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Feeding:

Haemonchus contortus cuts into host stomach tissues with a single dorsal tooth.  It feeds on the released blood, fluids and cell contents.

The nematode secretes an anti-coagulant to promote accesswibility of host blood.. 


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Life Cycle:

The eggs hatch after being expelled in the feces of the host. 

The first larvae hatch 14-17 hours after being passed through the feces and then go through a lethargic state for 8-10 hours. This is the first molting period. 

The first three juvenile stages of the organism are free-living microbivores. The second larval stage is reached 40 hours later and in 3-5 days the organism becomes infective .Eggs quickly develop to the L1 under optimal environmental conditions;  the hatched L1 feeds on bacteria and molts to the L2 that develop to the sheathed L3 infective larva. The extension of the sheath beyond the tip of the tail is used in identification.

When the infective stage is reached, the nematode moves onto the foliage of plants where it is ingested by grazing vertebrates.
The L3 develop from the egg between 6 days and 5 weeks depending on the temperature; it can survive up to 12 months on pasture. Infective L3 are ingested during animal grazing, reach the abomasum, exsheath, and penetrate the abomasal mucosa. The L4 develops within 48 h and then molts to the adult stage that reside in the abomasum, mates and females produce eggs.

Females are larger than males and have a higher metabolic rate.

The prepatent period is 2-3 weeks in sheep and 4 weeks in cattle.

Ref: Snyder et al., 2020

For Ecophysiological Parameters for this species, click If species level data are not available, click for genus level parameters
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Damage:

Haemonchus contortus cuts into host stomach tissues with a single dorsal tooth.  It feeds on the released blood, fluids and cell contents.

The nematode secretes an anti-coagulant. 

Parasitic gastroenteritis caused by Haemonchus spp. is a major cause of economic losses in the livestock industry.

 

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Management:

De-worming lambs.  

The prophylaxis of parasitic gastroenteritis relies heavily on anthelmintic treatments. However, their frequent use has led to the appearance of resistant parasite populations, which have been jeopardizing the livestock industry worldwide.

Proper identification of the various species, as well as knowledge regarding the epidemiology of parasitic gastroenteritis, is essential for the establishment of sustainable strategies of parasite control. Until recently, it was difficult to distinguish between H. placei and H. contortus, because of their similar morphology.


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References:

Chopra, A.K. 1982.Observations on non-specific phosphomonoesterases in relation to glycogen content in three nematodes in sheep. pp.191-193.Springar-Garwhal, eds. Journal of Comparative Physiology and Ecology.8:3.

Croll, N.A. 1976.The organization of Nematodes. Academic Press, London, New York, San Francisco.

Gibbons, L. 1986. SEM Guide to the morphology of Nematode parasites of vertebrates. CAB International, United Kingdom.P.191.

Lee, D.L. 1976.Physiology of Nematodes. MaCMillan Press. Columbia University.

Snyder, D.E., Marchiondo, A.A. Cruthers, L.R. 2020. Nematoda, Trichostrongyloidea. Chapter 2 in Marchiondo, Cruthers and Fourie (eds) Parasiticide Screening Vol 2. Academic Press.

Talamini do Amaranti, A.F. 2011. Why is it important to correctly identify Haemonchus species? Rev. Bras. Parasit. Vet. 20:263-268

Wertjuk, M. 1964. On the infective larvae of the gastointestinal nematodes of sheep, and their identification.pp.361-404. Journal of Parasitology.2:19.

 

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