Hostname: page-component-cd9895bd7-7cvxr Total loading time: 0 Render date: 2024-12-29T18:52:57.341Z Has data issue: false hasContentIssue false

Seasonal prevalence of gastrointestinal parasites in desert bighorn sheep (Ovis canadensis) in northern Mexico

Published online by Cambridge University Press:  11 April 2022

J.E. García
Affiliation:
Department of Animal Nutrition, Autonomous Agrarian University Antonio Narro, Calzada Antonio Narro 1923 Colonia Buenavista, Saltillo, Coahuila, Mexico
F.A. Rodriguez-Huerta
Affiliation:
Department of Animal Nutrition, Autonomous Agrarian University Antonio Narro, Calzada Antonio Narro 1923 Colonia Buenavista, Saltillo, Coahuila, Mexico
E.A. Lozano
Affiliation:
Department of Renewable Natural Resources, Autonomous Agrarian University Antonio Narro, Saltillo, Mexico
J. Encina
Affiliation:
Department of Renewable Natural Resources, Autonomous Agrarian University Antonio Narro, Saltillo, Mexico
M. Mellado*
Affiliation:
Department of Animal Nutrition, Autonomous Agrarian University Antonio Narro, Calzada Antonio Narro 1923 Colonia Buenavista, Saltillo, Coahuila, Mexico
*
Author for correspondence: Miguel Mellado, E-mail: melladomiguel07@gmail.com

Abstract

This study aimed to describe the shedding pattern of gastrointestinal parasite eggs by a wild population of desert bighorn sheep (DBS; Ovis canadensis) in northern Mexico. Seventy-five fresh faecal samples were collected from the ground in each season within an hour after being expelled by these animals. The generalized linear mixed model showed that eggs per gram of faeces were highest in winter (577 ± 399) and lowest in summer (260 ± 198). Generalized linear models revealed that Strongyloides spp. predominated during most seasons with a peak in summer (85% of faecal samples analysed) and the absence of this helminth in winter. Nematodirus spp. was another helminth present in three seasons, with the presence of this nematode in 35% of the faecal samples in spring and 0% in summer. Other parasites in DBS faeces included Bunostomun spp., Trichostrongylus spp., Cooperia spp., Mecistocirrus digitatus, Haemonchus contortus, Chabertia ovina and Eimeria ovinoidalis. There were differences among seasons in the percentage of these helminths and coccidia in faecal samples for all these parasites. It was concluded that helminths egg output in DBS in a semi-arid rangeland is lowest in summer and spring and highest in autumn and winter. Furthermore, it was shown that DBS in the study site do not suffer from severe parasite burden. Therefore, this nematode parasite burden is compatible with the conservation and well-being of this particular population.

Type
Research Paper
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Amadi, ANC, Avoaja, DA and Essien, EJ (2012) Epidemiology of helminth parasites of West African Dwarf Goat (Capra hircus) in Umuariaga in Ikwuano LGA, Abia State. Journal of Applied Science and Environmental Management 16(4), 359362.Google Scholar
Bakunzi, FR, Mogapi, LK, Motsei, LE, Nyirenda, M, Ndou, RV and Mwanza, M (2018) An evaluation of protein, mineral supplements and anthelmintic treatment on communally managed sheep, naturally infected with gastrointestinal nematodes. Life Science Journal 15(3), 5457.Google Scholar
Bansal, DK, Agrawal, V and Haque, M (2015) A slaughter house study on prevalence of gastrointestinal helminths among small ruminants at Mhow, Indore. Journal of Parasitic Diseases 39(4), 773776.CrossRefGoogle Scholar
Barone, CD, Wit, J, Hoberg, EP, Gilleard, JS and Zarlenga, DS (2020) Wild ruminants as reservoirs of domestic livestock gastrointestinal nematodes. Veterinary Parasitology 279, 109041.CrossRefGoogle ScholarPubMed
Becklund, WW and Senger, CM (1967) Parasites of Ovis canadensis canadensis in Montana, with a checklist of the internal and external parasites of the Rocky Mountain desert bighorn sheep in North America. The Journal of Parasitology 53(1), 157165.CrossRefGoogle Scholar
Besier, RB, Kahn, LP, Sargison, ND and Van Wyk, JA (2016) The pathophysiology, ecology and epidemiology of Haemonchus contortus infection in small ruminants. Advances in Parasitology 93, 95143.CrossRefGoogle ScholarPubMed
Blackie, S (2014) A review of the epidemiology of gastrointestinal nematode infections in sheep and goats in Ghana. Journal of Agricultural Science 6(4), 109118.CrossRefGoogle Scholar
Brahma, A, Jas, R, Das, S and Ghosh, J (2018) Prevalence of gastrointestinal helminth infection in Garole sheep of sundarban delta in West Bengal. Journal of Animal Research 8(1), 5760.Google Scholar
Carrau, T, Silva, LMR, Pérez, D, Failing, K, Mantínez-Carrasco, C, Macías, J, Taubert, A, Hermosilla, C and Ruiz, Y (2018) Associated risk factors influencing ovine Eimeria infections in southern Spain. Veterinary Parasitology 263, 5458.CrossRefGoogle ScholarPubMed
Chagas, ACS, Oliveira, MCS, Esteves, SN, De Oliveira, HN, Giglioti, R, Giglioti, C, de O Carvalho, C, Ferrezini, J and Schiavone, DC (2008) Gastrointestinal nematode parasitism in ewes and lambs raised in São Carlos, São Paul. Revista Brasileira de Parasitologia Veterinária 17(Suppl 1), 126132.Google Scholar
Chartier, C and Paraud, C (2012) Coccidiosis due to Eimeria in sheep and goats, a review. Small Ruminant Research 103(1), 8492.CrossRefGoogle Scholar
Coop, RL and Kyriazakis, I (2001) Influence of host nutrition on the development and consequences of nematode parasitism in ruminants. Trends in Parasitology 17(7), 325330.CrossRefGoogle ScholarPubMed
Craig, BH, Pilkington, JG and Pemberton, JM (2006) Gastrointestinal nematode species burdens and host mortality in a feral sheep population. Parasitology 133(4), 485496.CrossRefGoogle Scholar
Craig, BH, Jones, OR, Pilkington, JG and Pemberton, JM (2009) Re-establishment of nematode infra-community and host survivorship in wild Soay sheep following anthelmintic treatment. Veterinary Parasitology 161(1–2), 4752.CrossRefGoogle Scholar
Dafur, BS, Mbap, ST and Dafur, GS (2021a) Breed and environmental effects on faecal egg counts in sheep of Nigeria. Asian Journal of Research in Animal and Veterinary Sciences 7(1), 2939.Google Scholar
Dafur, BS, Mbap, ST, Tok, CC and Okoh, JJ (2021b) Breed and environmental factors influencing prevalence of helminths in sheep. Nigerian Journal of Animal Production 47(5), 1328.Google Scholar
Demarchi, RA, Hartwig, CL and Demarchi, DA (2000) Status of the rocky mountain bighorn sheep in British Columbia. Victoria, BC, BC Minister of Environonment, Lands and Parks, Wildl. Branch. Wildlife Bulletin No. B-99, p. 56.Google Scholar
Festa-Bianchet, M (1989) Individual diferences, parasites, and the costs of reproduction for bighorn ewes (Ovis canadensis). Jourmal of Animal Ecology 58(3), 785795.CrossRefGoogle Scholar
Harder, A (2016) The biochemistry of Haemonchus contortus and other parasitic nematodes. Advances in Parasitology 93, 6994.CrossRefGoogle ScholarPubMed
Harris, RB, Winnie, J Jr, Amish, SJ, Beja-Pereira, A, Godinho, R, Costa, V and Luikart, G (2010) Argali abundance in the Afghan Pamir using capture–recapture modelling from fecal DNA. Journal of Wildlife Management 74(4), 668677.CrossRefGoogle Scholar
Jansen, MS, Nyangiwe, N, Yawa, M, Dastile, M, Mabhece, V, Muchenje, V and Mpendulo, TC (2020) Prevalence and seasonal variation of gastrointestinal nematodes and coccidia infecting ovine grazing on communal rangelands in the Eastern Cape, South Africa. Parasitology Research 119(12), 41694175.CrossRefGoogle ScholarPubMed
Kandasamy, G, Rajapakse, RPVJ and Rajakaruna, RS (2013) Gastrointestinal and blood parasites of a free grazing flock of sheep in Kaithady farm in Jaffna District. Journal of the National Science Foundation of Sri Lanka 41(3), 195201.CrossRefGoogle Scholar
Khajuria, JK, Katoch, R, Yadav, A, Godara, R, Gupta, SK and Singh, A (2013) Seasonal prevalence of gastrointestinal helminths in sheep and goats of middle agro-climatic zone of Jammu province. Journal of Parasitic Diseases 37(1), 2125.Google ScholarPubMed
Khalafalla, RE, Elseify, MA and Elbahy, NM (2011) Seasonal prevalence of gastrointestinal nematode parasites of sheep in Northern region of Nile Delta, Egypt. Parasitology Research 108(2), 337340.CrossRefGoogle ScholarPubMed
Kistner, TP, Matlock, SM, Wyse, D and Mason, GE (1977) Helminth parasites of desert bighorn sheep in Oregon. Journal of Wildlife Diseases 13(2), 125130.CrossRefGoogle Scholar
Mellado, M, González, H, García, JE and García, R (2004) Anthelmintic treatment of goats on an arid range and its effect on milk production in late lactation. Journal of Applied Animal Research 25(2), 9195.CrossRefGoogle Scholar
Naem, S and Gorgani, T (2013) Gastrointestinal parasitic infection of slaughtered sheep (Zel breed) in Fereidoonkenar city of Iran. Veterinary Research Forum 2(4), 238241.Google Scholar
Nuraddis, I, Mulugeta, T, Mihreteab, B and Sisay, A (2014) Prevalence of gastrointestinal parasites of small ruminants in and around Jimma Town, Western Ethiopia. Acta Parasitologica Globalis 5(1), 2632.Google Scholar
Olivas-Salazar, R, Estrada-Angulo, A, Mellado, M, Aguilar-Caballero, AJ, Castro-Pérez, BI, Gutiérrez-Blanco, E and Ruiz-Zárate, F (2018) Prevalence of gastrointestinal nematode infections in goat flocks on semi-arid rangelands of northeastern Mexico. Tropical Animal Health and Production 50(4), 807813.CrossRefGoogle ScholarPubMed
Oliveira de Macedo, L, Bezerra-Santos, MA, Lopez de Mendonça, C, Alves, LC, Ramos, RAN and de Carvalho, GA (2020) Prevalence and risk factors associated with infection by Eimeria spp. in goats and sheep in Northeastern Brazil. Journal of Parasitic Diseases 44(3), 607612.CrossRefGoogle Scholar
Papri, PAL, Chatlod, LR and Avasthe, RK (2017) Seasonal prevalence of gastrointestinal parasites of goats in North-East Himalayan region of Sikkim, India. Indian Journal of Animal Sciences 87(5), 558561.Google Scholar
Poddar, PR, Begum, N, Alim, MA, Dey, AR, Hossain, MS and Labony, SS (2017) Prevalence of gastrointestinal helminths of sheep in Sherpur. Bangladesh. Journal of Advanced Veterinary and Animal Research 4(3), 274280.CrossRefGoogle Scholar
Raza, MA, Younas, M and Schlecht, E (2014) Prevalence of gastrointestinal helminthes in pastoral sheep and goat flocks in Cholistan desert of Pakistan. Journal of Animal and Plant Sciences 24(1), 127134.Google Scholar
Rose Vineer, H, Baber, P, White, T and Morgan, ER (2019) Reduced egg shedding in nematode-resistant ewes and projected epidemiological benefits under climate change. International Journal for Parasitology 49(12), 901910.CrossRefGoogle ScholarPubMed
SEMARNAT (2010) Estrategia estatal para la conservación y el manejo sustentable del borrego cimarrón en Baja California [State strategy for the conservation and sustainable management of the bighorn sheep in Baja California]. Available at http://wwwspabcgobmx/wp-content/uploads/2017/10/ESTRATEGIAESTATAL-CONSERVACION-_MANEJO-SUSTENTABLE-DEL-BORREGOCIMARRON-2012pdf (accessed 3 March 2019). [In Spanish.]Google Scholar
Sharma, DK, Agrawal, N, Mandal, A, Nigam, P and Bushan, S (2009) Coccidia and gastrointestinal nematode infections in semi-intensively managed Jakhrana goats of semi-arid region of India. Tropical and Subtropical Agroecosystems 11(1), 135139.Google Scholar
Sharma, DK, Paul, S, Rout, PK, Mandal, A, Bhusan, S, Sharma, N and Kushwah, YK (2017) Caprine coccidiosis in semi-arid India: dynamics and factors affecting fecal oocysts count. Journal of Advanced Veterinary Animal Research 4(1), 5257.CrossRefGoogle Scholar
Sissay, MM, Uggla, A and Waller, PJ (2007) Epidemiology and seasonal dynamics of gastrointestinal nematode infections of sheep in a semi-arid region of eastern Ethiopia. Veterinary Parasitology 143(3–4), 311321.CrossRefGoogle Scholar
Souza, LEB, Cruz, JF, Teixeira Neto, MR, Albuquerque, GR, Melo, ADB and Tapia, DMT (2015) Epidemiology of Eimeria infections in sheep raised extensively in a semi-arid region of Brazil. Brazilian Journal of Veterinary Parasitology 24(4), 410415.Google Scholar
Swarnkar, CP and Singh, D (2020) Rhythmicity in thermal humidity index and regulation of Haemonchus contortus in sheep of semi-arid tropical Rajasthan. Biological Rhythm Research 51(1), 5866.CrossRefGoogle Scholar
Tariq, KA and Lateef, M (2017) Studies on abomasal nematodes of sheep in relation to temperate climatic factors. Journal of Zoology Studies 4(1), 15.Google Scholar
Van Wyk, JA, Cabaret, J and Michael, LM (2004) Morphological identification of nematode larvae of small ruminants and cattle simplified. Veterinary Parasitology 119(4), 277306.CrossRefGoogle ScholarPubMed
Waller, P, Bernes, G, Thamsborg, S, Sukura, A, Richter, S, Ingebrigtsen, K and Höglund, J (2001) Plants as de-worming agents of livestock in the nordic countries: historical perspective, popular beliefs and prospects for the future. Acta Veterinaria Scandinavica 42(1), 31–44.CrossRefGoogle ScholarPubMed