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Advances in Animal and Veterinary Sciences

AAVS_7_8_629-633

 

 

Research Article

 

Helminthfauna of wild boars (Sus scrofabarbarus) in Morocco

 

Abdelaziz Amayour1,3*, Zakaria El Alaoui1,4, Kamal Brik1, Taoufik Hassouni2, Driss Lamri², Khadija El Kharrim1, Driss Belghyti1

1Laboratory of Agro-Physiology, Biotechnology, Environment and Quality, Faculty of Sciences, University Ibn Tofail, B.P. 133 P. O. Box 14000, Kenitra, Morocco; 2Team of Biology and Pedagogical Innovation, Regional Center of Education and Training, Meknes, Morocco; 3Hunting office of the Provincial Directorate of Water and Forests and the fight against desertification in Meknes El Hajeb, Morocco; 4Ain Defali health center, Sidi Kacem Province, Morocco.

 

Abstract |Objective: the aim of this study was to determine the helminth fauna of wild boars living in forests and cultivate lands in El Hajeb province in Morocco. Materials and Methods: From October 2014 to March 2015 the body cavity was opened, and the digestive tract removed. The oesophagus, stomach, small and large intestine, and lungs were opened and separately examined for helminths under a microscope (×10, ×40 or ×100 magnification). Results: Thirty three wild boars collected from two areas in the province of El Hajeb, were examined for digestive and respiratory helminth parasites. The overall prevalence of helminths fauna was 100% Helminth species and their prevalence species were Metastrongylus Pedondotectus (85%), followed by Macrcantronchyrus Hirudinaceus (82%), Metastrongylus Confusus (79%) and finally Metastrongylus Salmi (51%). Prevalence and infection intensity were greater in young animals than in older animals. There were no significant differences in prevalence between sexes groups (P>0.05). Prevalence of infection was higher in forest areas compared to cultivate areas. Conclusion: it’s the first study made in Morocco about helminth fauna of wild boars, further studies are needed to investigate more the diversity of this parasite fauna.

 

Keywords | Helminths, Sus scrofabarbarus, Wild boar, Morocco.

 

Received | February 05, 2019; Accepted | May 25, 2019; Published | June 15, 2019

*Correspondence | Abdelaziz Amayour, Laboratory of Agro-Physiology, Biotechnology, Environment and Quality, Faculty of Sciences, University Ibn Tofail, B.P. 133 P. O. Box 14000, Kenitra, Morocco; Email: [email protected]

Citation | Amayour A, El Alaoui Z, Brik K, Hassouni T, Lamri D, El Kharrim K, Belghyti D (2019). Helminthfauna of wild boars (Sus scrofabarbarus) in Morocco. Adv. Anim. Vet. Sci. 7(8): 629-633.

DOI | http://dx.doi.org/10.17582/journal.aavs/2019/7.8.629.633

ISSN (Online) | 2307-8316; ISSN (Print) | 2309-3331

Copyright © 2019 Amayour et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

 

INTRODUCTION

 

Wild boars (Sus scrofa) are distributed worldwide and found in many parts of Morocco, especially in the northern region from mountainous areas, live in condensed populations. It’s an omnivores consume everything, they are considered as vertebrate pests in agricultural fields, which can cause significant damage to cultivate zone. Furthermore, they are considered as a potential source of zoonotic parasites. Although it’s a reservoirs for many parasites as helminthes (Meng et al., 2009; Dodangeh et al., 2018) In the many part of the word, an increasing number of research publications in parasitic helminths fauna of wild boars Sus scrofa have made their appearance in the past few years. For example, in Europe (J.-F. Humbert and Henry,

 

 

1989; De La Muela et al., 2001; Rajković-Janje et al., 2002; Fernandez-De-Merai et al., 2003; Järvis et al., 2007; Senlik et al., 2011), in Asia (Eslami and Farsad-Hamdi 1992; Solaymani-Mohammadi et al., 2003; Sato et al., 2008) and in North America (Shender et al., 2002), In Africa (Van Wyk and Boomker 2011; Zeroual et al., 2014). In Morocco, limited data and no attention is available to disease and helminth infection of Sus scrofa until now. The objective of the current study is to determine the species composition of wild boar’s endoparasites helminths infections in El Hajeb province, Morocco.

 

MATERIALS AND METHODS

 

Study Area

The study area is at the crossway of the plain of Saïs and the hills of the middle Atlas, El Hajeb province, illustrated in Figure 1. It has an altitude of about 1000 m and it’s characterized by semi-arid to sub-humid climate with an average annual rainfall of 520 mm. The minimum temperature reached was 2.8° C, while the maximum temperature reached was 38.2° C. Farming is the main source of population.

 

 

Thirty three wild boars (Sus ScrofaBarbarus) (19 females and 14 males) from El Hajeb province (Middle Atlas) were hunted from October 2014 to March 2015. The body cavity was opened, and the digestive tract removed. The oesophagus, stomach, small and large intestine, and lungs were opened and separately examined for helminths under a microscope (×10, ×40 or ×100 magnification).

 

Nematodes were killed in hot saline solution, fixed in 70% ethanol, and mounted in glycerol. Worms acanthocephalans were punctured with a fine needle and subsequently stained in Mayer’s acid carmine, distained in 4% hydrochloric acid in 70% ethanol, dehydrated in ascending concentrations of ethanol (24 h each), and cleared in 100% xylene then in 50% Canada balsam and 50% xylene (24 h each). Whole worms were then mounted in Canada balsam. Helminth identification was based by morphological characters according to Soulsby (1986), Gassó et al. (2016) and Sarkari et al. (2016).

 

The relative prevalence, mean intensity, and abundance of different helminths species were calculated by following formula as used by Margolis et al. (1982).

 

Data obtained were analyzed using Fisher’s exact test (version 19.0), to investigate the significance of the differences in prevalence of helminth infections according to age and sex and locations, in all the analyses, probabilities (P≤0.05) were considered significant.

 

RESULTS AND DISCUSSION

 

Out of all 33 samples (19 females and 14 males), all host were found infected with one or more helminth species. The overall infection rate was 100%. 841 lungworms were allocated to the genus Metastrongylus were collected; three species were morphologically identified by observing their morphological features under a microscope (Figure 2). In Metastrongylus spp the males reach a length of 12.5 –19.5 mm, while the females measure 23.4 –44.1 mm. The spicules length reach between 1.69 –2.39mm. The eggs in the vagina are oval and contain fully developed larvae and grow up to a length ranging between 47.6 and 57.9 µm. Males and females live together in nodules inside the small and midsized bronchial cavities.

 

 

139 acanthocephalans were collected from the intestines belong to Macrcantronchyrus Hirudinaceus species (Figure 3). Adult Macracanthorhynchus hirudinaceus (thorny-headed worms) are usually seen in the small intestine. They are 7 cm (males) to 24 cm (females) long, 3–9 mm thick, and slightly pink with a transversely wrinkled outer covering; superficially, they resemble ascarids, retractable proboscis used for firm attachment to the intestinal wall. Proboscis

 

Table 1: Prevalence and Mean intensity of helminth infections in wild boars in mountainous area, El Hajeb province, Morocco

 

Helminth species

No. of wild boars infested (%)

Total worm recovery

Mean I ±SD (range)

Metastrongylus Pedondotectus

28 (85)

407

12.3±10.4 (0-47)

Metastrongylus Confusus

26 (79)

328

9.9±13.5 (0-48)

Metastrongylus Salmi

17 (51)

106

3.2±3.8 (0-11)

Macrcantronchyrus Hirudinaceus

27 (82)

139

4.2±3.5 (0-13)

 

Table 2: Prevalence of helminth species found in wild boars in Morocco according to sex and age (Fisher’s exact test)

 

Helminth species

Sex

P- value

Age

P- value

M

F

Juvenile

Sub-adult

Adult

M.Pedondotectus

11 (33%)

17(52%)

P=0,175

17 (52%)

8 (24%)

8 (24%)

P=0,001

M.Confusus

10 (30%)

14 (42%)

P=0,272

15 (46%)

8 (24%)

1 (3 %)

P=0,002

M.Salmi

7 (21%)

10 (30%)

P=0,099

13 (39%)

4 (12%)

0 (0%)

P=0,425

M.Hirudinaceus

12 (36%)

15 (46%)

P=0,553

12 (36%)

7 (21%)

8 (24%)

P=0,940

 

Table 3: Prevalence (%) of helminth species detected in wild boars from El Hajeb Province, Morocco according to study areas. (Fisher’s exact test)

 

Helminth species

Site

Prevalence (%)

P- value

M.pudendotectus Forest

19 (58%)

P=0,000
Cultivate area

9 (27%)

M .confusus Forest

18 (55%)

P=0,002
Cultivate area

6 (18%)

M .Salmi Forest

12 (36%)

P=0,425
Cultivate area

5 (15%)

M.hirudinaceus Forest

18 (55%)

P=0,940
Cultivate area

9(27%)

 

reaches a length between 0.56 – 0.76 mm. The eggs (dark brown, embryonated, with three embryonic envelopes, and measure 90–110 × 50–65 μm).

 

Among the identified helminths, Metastrongylus Pedondotectus (85%), followed by Macrcantronchyrus Hirudinaceus (82 %), Metastrongylus Confusus (79%) and finally Metastrongylus Salmi (51%) are reported for the first time in Morocco (Table 1).

 

Pathological evaluation revealed some damages caused by the Metastrongylus infection is ever present in wild boars population influencing the health status of animals as loss of weight, abortion and higher mortality, especially in young animals (Alcaide et al., 2005; Marruchella et al., 2012).

 

Macrcantronchyrus Hirudinaceus has an indirect cycle using dung beetles as an intermediate host (Pavlović et al., 2010; Gassó et al., 2016;). It causes serious damage to the intestinal mucosa of their definitive host, through penetrating deep into its gut wall with its proboscis. Heavy infestations may induce catarrhal enteritis and, rarely, perforation of the guts wall, which can result in fatal peritonitis (Diana Gassó et al., 2016).

 

 

No data are available on helminth prevalence in sus scrofa barbarus in Morocco, the results of this study showed a high Metastrongylus spp prevalence compared to result reported for boars by Solaymani-Mohammadi et al. (2003) and García-González et al. (2013) in Iran and Spain.

 

The prevalence of Macrcantronchyrus hirudinaceus (82 %)found in our finding was consistent to that recorded respectively in Spain and in Bulgaria (Gassó et al., 2016; Panayotova-pencheva and Dakova 2018). This disparity was attributed to variability of geographical niches, gradual change in the climatic conditions, and the variation in the sampling collection procedures of each study area.

 

Poly-parasitism with Metastongylus spp was the most frequent, and the mean intensity was a considerably greater than those of Macrcantronchyrus hirudinaceus. This finding is in agreement with that of Poglayen et al. (2016). The high prevalence of infection reported in this study may reflect favorable conditions for environmental contamination and transmission of parasites in the study area.

 

Our study documented no difference in the prevalence from different host sexgroups (PImage1933492.PNG0.05) (Table 2) and between age groups, except for Metastrongylus Pedondotectus and Metastrongylus Confusus (PImage1933492.PNG0.05). Stojanov et al. (2018) reported that the degree of the infection was greater in female than in male wild boars, which is explained by the development of the immune response to certain parasitic species.

 

Furthermore, this survey studied the distribution of helminth fauna between forest and cultivate area are listed in Table 3.The difference is not significant for M.Salmi and M. hirudinaceus (P>0.05).

 

Foata et al. (2005) explained the presence of Metastrongylus spp by the presence of different species of earthworms, which form part of the diet of wild boars and act as intermediate hosts, the substrate type and the vegetable covering each sector.

 

Mobedi et al. (1971) cited that the wild boars may be infected by ingesting Scarabaeidae (dung beetles). In the present study we found that dung beetles are abundant in the hunting area.

 

CONCLUSION

 

To our best knowledge, this is the first study in Morocco showing the helminth parasites of wild boars. Further studies are needed to investigate more the diversity of the parasite fauna of wild boars in Morocco and to determine the relationship between these parasite communities and their host populations because wild boars might play an important role in transmitting zoonotic parasites to humans.

 

ACKNOWLEDGEMENTS

 

This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors.

 

CONFLICT OF INTEREST

 

The authors declared that they have no potential conflict of interest with respect to the authorship and/or publication of this article.

 

AUTHORS CONTRIBUTION

 

All authors are involved equally in the work.

 

REFERENCES

 

  • Alcaide M, Frontera E, Rodríguez MJ, Sáez IE, Domínguez-Alpízar JL,Reina D, Navarrete I (2005). Parasitosis pulmonares del cerdoibérico Situación actual de la metastrongilosis en España. Mundo Ganadero. 176: 40 – 44.
  • Dodangeh, Samira, Davoud Azami, Ahmad Daryani, Shirzad Gholami, Mehdi Sharif, Iraj Mobedi, Shahabeddin Sarvi (2018). Parasitic Helminths in Wild Boars (Sus scrofa) in Mazandaran Province, Northern Iran. Iranian J. Parasitol. 13 (3): 416-422. http://www.ncbi.nlm.nih.gov/pubmed/30483333.
  • Eslami A, Farsad-HamdiS(1992). Helminth parasites of wild boar, Sus scrofa, in Iran.  J. Wildlife Dis. 28 (2): 316-318. https://doi.org/10.1007/10.7589/0090-3558-28.2.316.
  • Fernandez-De-Merai G, GortazarC, VincenteJ, HofleU, et Y Fierro (2004).  Efficacy of an in-feed preparation of ivermectin against helminths in the European wild boar. Parasitol. Res. 92: 133–136. https://doi.org/10.1007/s00436-003-0976-5
  • Foata, Joséphine, Julia-laurence Culioli, Bernard Marchand (2005). Helminth fauna of wild boar in Corsica . Acta Parasitologica 50 (2): 168-170.
  • García-González, Ángela María, Juan Enrique Pérez-Martín, José Antonio Gamito-Santos, Rafael Calero-Bernal, María Alcaide Alonso, et Eva María Frontera Carrión (2013).  Epidemiologic Study of Lung Parasites (Metastrongylus spp.) in Wild Boar (Sus scrofa) in Southwestern Spain. J. Wildlife Dis. 49 (1): 157-162. https://doi.org/10.7589/2011-07-217.
  • Gassó, Diana, Emmanuel Serrano, Raquel Castillo-Contreras, Xavier Fernández Aguilar, Andreu Colom Cadena, Roser Velarde, Gregorio Mentaberre (2016). Coprological tests underestimate Macracanthorhynchus hirudinaceus burden in wild boar . Parasitol. Res. 115 (5): 2103-210. https://doi.org/10.1007/s00436-016-4976-7.
  • Humbert JF, Henry C (1989). Studies on the prevalence and the transmission of lung and stomach nematodes of the wild boar (Sus scrofa) in france . J. Wildlife Dis. 25 (3): 335-341. https://doi.org/10.7589/0090-3558-25.3.335.
  • Humbert, J F, et J DROUET (1990). Enquête épidémiologique sur la métastrongylose du Sanglier (Sus scrofa) en France. Gibier Faune Sauvage. 7: 67-84.
  • Järvis T, Kapel C, Moks E,Talvik H, Mägi E (2007). Helminths of wild boar in the isolated population close to the northern border of its habitat area . Vet. Parasitol. 150 (4): 366-369. https://doi.org/10.1016/j.vetpar.2007.09.015.
  • LA Muela, Nuria DE, Sebastián Hernández-de-luján, et Ignacio Ferre (2001). Helminths of Wild Boar in Spain . J. Wildlife Dis. 37(4): 840-843.
  • Margolis L, Esch GW, Holmes JC, Kuris AM, Schad GA (1982). The Use of Ecological Terms in Parasitology (Report of an Ad Hoc Committee of the American Society of Parasitologists). J. Parasitol. 68 (1): 131. https://doi.org/10.2307/3281335.
  • Marruchella G, Paoletti B, Speranza R, Di Guardo G (2012). Fatal bronchopneumonia in a Metastrongylus elongatus and Porcinecircovirus type 2 co-infected pig. Res. Vet. Sci. 93: 310 – 312. https://doi.org/10.1016/j.rvsc.2011.05.016
  • Meng XJ, DS Lindsay, N Sriranganathan (2009). Wild boars as sources for infectious diseases in livestock and humans. Philosophical Transactions of the Royal Society B: Biolog. Sci. 364 (1530): 2697-2707. https://doi.org/10.1098/rstb.2009.0086.
  • Mobedi I, Arfaa F, Vedadi I (1971). The possible role of dung-pusher beetles in the epidemiology of intestinal helminths. Bull. Soc. Pathol. Exot. 64: 924 – 925.
  • Pavlović IN, Kulišić ZB, Tambur ZŽ, Protiž NM: Scarabidae intermediate host for Macracanthorhynchus hirudinaceus. Zbornik Matice Srpske Za Prirodne Nauke (2010). 119:89–95.
  • Panayotova-pencheva, Mariana, et Vassilena Dakova (2018). Original papers Studies on the gastrointestinal and lung parasite fauna of wild boars ( Sus scrofa scrofa L .) from Bulgaria. Ann. Parasitol. 64 (4): 379-384. https://doi.org/10.17420/ap6404.174.
  • Poglayen, Giovanni, Barbara Marchesi, Giulia Dall’Oglio, Giulia Barlozzari, Roberta Galuppi, Benedetto Morandi (2016). Lung parasites of the genus Metastrongylus Molin, 1861 (Nematoda: Metastrongilidae) in wild boar (Sus scrofa L., 1758) in Central-Italy: An eco-epidemiological study. Vet. Parasitol. 217 (Fevrier): 45-52. https://doi.org/10.1016/j.vetpar.2015.12.007.
  • Rajković-Janje, Ranka, Sanja Bosnić, D. Rimac, P. Dragičević, et Bara Vinković (2002). « Prevalence of helminths in wild boar from hunting grounds in eastern Croatia ». Zeitschrift für Jagdwissenschaft. 48 (4): 261-270. https://doi.org/10.1007/BF02189697.
  • Sarkari B, Mansouri M, Najjari M, Derakhshanfar A, Mowlavi G (2016). Macracanthorhynchus hirudinaceus: the most common helminthic infection of wild boars in southwestern Iran. J. Parasit. Dis. 40 (4): 1563-1566. https://doi.org/10.1007/s12639-015-0728-3.
  • Sato H, Suzuki K, Yokoyama M (2008). Visceral helminths of wild boars (Sus scrofa leucomystax) in Japan, with special reference to a new species of the genus Morgascaridia Inglis, 1958 (Nematoda: Schneidernematidae). J. Helminthol. 82 (02). https://doi.org/10.1017/S0022149X08936191.
  • Senlik B, CirakVY, GirisginO, AkyolCV (2011). Helminth infections of wild boars (Sus scrofa) in the Bursa province of Turkey. J. Helminthol. 85 (04): 404-408. https://doi.org/10.1017/S0022149X1000074X.
  • Shender, Lisa A, Richard G. Botzler, Luke George T (2002). Analysis of serum and whole blood values in relation to helminth and ectoparasite infections of feral pigs in texas. J. Wildlife Dis. 38 (2): 385-394. https://doi.org/10.7589/0090-3558-38.2.385.
  • Solaymani-Mohammadi S, Mobedi I, Rezaian M, Massoud J, Mohebali M, Hooshyar H, Ashrafi K, Rokni MB (2003). Helminth parasites of the wild boar, Sus scrofa, in Luristan province, western Iran and their public health significance . J. Helminthol. 77 (3): 263-267. https://doi.org/10.1079/JOH2003168.
  • Soulsby EJL (1986). Helminths, Arthropods and Protozoa of Domestic Animals, seventh ed. Bailliere, Tindall, London, 807p.
  • Stojanov I, Pavlović I, Pušić I, Prodanov-Radulović J, Ratajac R, Doroteja M, Savić B. (2018). Determination of Endoparasites by Faecal Examination in the Wild Boar Population in Vojvodina (Serbia). Macedonian Vet. Rev. 41 (1): 39-46. https://doi.org/10.1515/macvetrev-2017-0029.
  • Wyk, Ilana C. Van, Joop Boomker (2011). Parasites of South African wildlife. XIX. The prevalence of helminths in some common antelopes, warthogs and a bushpig in the Limpopo province, South Africa. Onderstepoort J. Vet. Res. 78 (1): 1-11. https://doi.org/10.4102/ojvr.v78i1.308.
  • Zeroual, Fayçal, Bitam I, Ouchene N, Leulmi H, Aouadi A, Benakhla A (2014). Identification and seasonal dynamics of ticks in wild boar (Sus scrofa) in the extreme north-eastern Algeria . Bulletin de la Societe Zoologique de France. 139 (1): 247-255.
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