Research Article

 

Activity Dynamics of Gasterophilus spp. Infesting Donkeys (Equus asinus) in Tunisia

Khawla Elati1*, Hounaida Chiha1, Médiha Khamassi Khbou2, Mohamed Gharbi1

1Laboratoire de Parasitologie. Univ. Manouba. Institution de la Recherche et de l’Enseignement Supérieur Agricoles. École Nationale de Médecine Vétérinaire de Sidi Thabet. 2020 Sidi Thabet. Tunisia; 2Laboratoire de Maladies Contagieuses-Zoonoses-Législation Sanitaire. Univ. Manouba. Institution de la Recherche et de l’Enseignement Supérieur Agricoles. École Nationale de Médecine Vétérinaire de Sidi Thabet. 2020 Sidi Thabet. Tunisia.

 

Editor | Muhammad Imran Rashid, Department of Parasitology, University of Veterinary and Animal Sciences, Lahore, Pakistan.

Received | March 01, 2018; Accepted | March 25, 2018; Published | March 28, 2018

*Correspondence | Khawla Elati, Laboratoire de Parasitologie. École Nationale de Médecine Vétérinaire de Sidi Thabet. 2020 Sidi Thabet, Tunisia; Email: elati.khawla@gmail.com

Citation | Elati K, Chiha H, Khbou MK, Gharbi M (2018).Activity dynamics of Gasterophilus spp. infesting donkeys (Equus asinus) in Tunisia. J. Adv. Parasitol. 5(1): 1-5.

DOI | http://dx.doi.org/10.17582/journal.jap/2018/5.1.1.5

 

Copyright © 2018 Elati 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

 

In Tunisia, the donkeys’ population was estimated to 123,067 heads (Observatoire National de l’Agriculture, 2006). These animals play an important role in small agricultural activities such as transportation and tillage. Despite their utility, donkeys are neglected during most of the control programmes targeting horses. Numerous diseases affect the working ability of these animals. In several countries, gasterophilosis is one of the most important parasitic equids’ infestation (Agneessens et al., 1998; Ahmed and Miller, 1969; Getachew et al., 2012; Liu et al., 2016; Mukbel et al., 2001; Pandey et al., 1992; Pawlas-Opiela et al., 2010; Pilo et al., 2015). There are nine Gasterophilus species infesting equids, the major species distributed worldwide are G. intestinalis and G. nasalis (Zumpt, 1965). The parasites cause ulceration of the gastric mucosa and proximal duodenum and rectal lesions and prolapse (Al-Mokaddem et al., 2015; Getachew et al., 2012; Otranto et al., 2005; Principato, 1988; Sequeira et al., 2001).

 

In Tunisia, the only study concerning the donkeys’ Gasterophilus spp. infestation was carried out by Kilani et al. (1986). Since this date, there was no longitudinal study targeting these parasites in Tunisian equids. The aim of the present work was to investigate the Gasterophilus donkeys’ infestation dynamics.

 

Materials and methods

 

A total number of 117 donkeys (45 females and 72 males) slaughtered in Tunis slaughterhouse were included in this survey. Between 6 and 13 donkeys were monthly examined during one year (between November 2014 and September 2015). Animals were sampled from four districts: 2 from North (N=54) and 2 from Centre of Tunisia (N=63) (Figure 1).

 

Animals were classified into three age groups: less than

 

Table 1: Parasitological parameters according to Gasterophilus species, animals’ age groups and gender

 

Item		Infested/examined	Number of larvae	Infestation prevalence (%)±SE	Infestation intensity ±SE	Infestation abundance ±SE
Gasterophilus species	G. inermis	23/117	219	17.9±7	9.5±1.8	1.8±1.5
	G. intestinalis	58/117	2637	49.6±9	45.4±15.5	22.5±12.7
	G. nasalis	17/117	454	14.5±6.3	26.7±2.7	3.8±2.3
	G. pecorum	37/117	1226	31.6±8.4	33.1±7	10.4±5.8
Animal’s age groups (years)	≤ 1	23/36	1492	63.9±15	64.9±62.7	41.4±40.38
	[1-5]	34/45	1791	75.6±12.5	52.7±20.7	39.8±17
	> 5	24/36	1253	66.7±15	52.2±32.5	34.8±22.7
Gender	Females	34/45	2557	75.5±12	75.2±51	56.8±47
	Males	47/72	1979	65.2±11	42.1±51	27.4±39
Overall		81/117	4536	69.2±8.3	56±18.4	38.7±15

 

SE: standard error

 

one year, between one and five years and more than five years. Stomach, duodenum and rectum of each donkey were collected and washed with tap water, dissected and all Gasterophilus spp. larvae were collected and stored in 70% ethanol. All larvae were identified under a stereomicroscope according to the key of Zumpt, (1965).

 

Three parasitological indicators were calculated as follows (Bush et al., 1997):

Infestation prevalence = 100 x (number of infested donkeys/number of examined donkeys)

Infestation intensity = number of larvae/number of infested donkeys

Infestation abundance = number of larvae/ number of examined donkeys

 

 

Statistical Analyses

Data was analysed using SPSS (IBM, version 21). Chi square and Student t tests were considered significant at a threshold value of 0.05 (Schwartz, 1993).

 

Ethical approval

 

Ethical concerns were taken into account by adhering to local animal welfare regulations and practices and conformed to ethical guidelines for animal usage in research of the National School of Veterinary Medicine of Sidi Thabet (Tunisia) and the Association Tunisienne des Sciences des Animaux de Laboratoire (ATSAL, Tunisia).

 

Results

 

Overall Infestation Indicators

Out of the 117 examined donkeys, 81 (69.2%±8.3) were infested by at least one of the following Gasterophilus species: G. intestinalis, G. pecorum, G. inermis and G. nasalis. The infestation intensity and abundance were 56 and 38.8, respectively (Table 1). The peak of infestation was observed during April (Figure 2). G. intestinalis (49.6%±9) was the most prevalent species, followed by G. pecorum (31.6%±8.4), G. inermis (17.9%±7) and G. nasalis (14.5%±6.3) (p<0.005).

 

Among 72 females and 45 males donkeys, 47 (75.5%) and 34 (65.2%) were infested, respectively (p=0.2). Similarly, there was no statistically significant difference of infestation prevalence according to age groups (p=0.4). However, infestation intensity and abundance were higher in young animals compared to adults (p<0.005 and p<0.003, respectively).

 

Out of the 81 infested animals, 38 (46.9%) were co-infested by at least two species. Twelve (14.8%) among them were co-infested by G. intestinalis and G. inermis and ten were co-infested by G. intestinalis and G. pecorum. Tripleco-infestation was recorded in 10 (12.3%) donkeys, six of them were co-infested by G. intestinalis; G. inermis and G. pecorum and three donkeys (3.7%) were infested by the four

Gasterophilus species (p<0.001) (Table 1).

 

 

Infestation Prevalence of Gasterophilus Larvae

All infested donkeys harboured both L2 and L3 in stars. G. inermis L2 instars was observed only in November and December, whilst L3 instars occurred between November and June (Figure 3).

 

 

Infestation Intensity of Gasterophilus Larvae

The infestation intensity of the Gasterophilus L2 and L3 instars showed a peak during May. For L3 instars, there was a peak in December and the parasites were absent from June to November. Activities of the four Gasterophilusspecies larvae were synchronised (Figure 4).

 

 

Abundance of Gasterophilus Larvae

G. intestinalis and G. pecorum L3 instars were the most abundant followed by G. nasalis and G. inermis. G. pecorum L2 instars numbers showed three peaks (May, August and October) (Figure 5).

 

 

Discussion

 

The present data showed a high mean infestation prevalence (69.2%; 81/117) of donkeys by Gasterophilus species (range: 40 - 85%). Infestation prevalence was not influenced by both donkeys’ age group and gender. This is in agreement with the observations of (Mukbel et al., 2001; Otranto et al., 2005).

 

The highest overall infestation prevalence by L2 instars occurred during September (38%) corresponding to an imagos’ autumnal activity. As the L3 instars spend approximately 10 months in the digestive tract of equids (Soulsby, 1982), the best period for treatment against gasterophilosis corresponds to the peak activity, i.e. during the winter.

 

Four species of Gasterophilus were identified, namely, G. intestinalis (49.6%±9), G. pecorum (31.6%±8.4), G. inermis (17.9%±7) and G. nasalis (14.5%±6.3). These results confirm those reported in Tunisia by Kilani et al. (1986) who identified the same species with higher infestation prevalence of G. intestinalis and G. nasalis (90.3 and 70.1%, respectively). This prevalence decrease could be explained by the generalisation of ivermectine use in Tunisian horses. These four species were found in horses from South Italy with overall infestation prevalence of 82.2% by Otranto et al. (2005) who reported that the most prevalent species was G. intestinalis (95.2%) followed by G. nasalis (44.8%), G. inermis (15.2%) and G. pecorum (2.6%) and a small population of G. haemorrhoidalis (0.8%). This similarity could be explained by the fact that both studies were performed in very similar Mediterranean climate conditions.

 

In Morocco, G. intestinalis and G. nasalis were the main Gasterophilus species infesting donkeys with a prevalence of 97.5 and 95.5 %, respectively (Pandey et al., 1992). In Jordan, a study conducted by Mukbel et al. (2001) showed that 93 and 48% of donkeys were infested by G. intestinalis and G. nasalis, respectively.

 

The difference between prevalence and species composition in equids from different countries could be explained by several factors such as, the implemented treatments, the receptivity of the host species, breed, age, immunity, health status of the animals and the climatic factors (Otranto et al., 2005). Moreover, the Gasterophilus strains and their interactions with their hosts showed regional differences as observed for G. nasalis in comparison to G. intestinalis (Pawlas-Opiela et al., 2010).

 

The mean infestation intensity was estimated to 56 larvae per donkey and a mean of 38.8 larvae harboured in the stomach of each infested donkey. Parasites numbers were significantly associated with age groups but not with gender. This is consistent with the findings of Mukbel et al. (2001) in Jordan but contrarily to results found in horses in Belgium (Agneessens et al., 1998) that showed a higher infestation prevalence of mares (65%) compared to stallions and geldings (50%). This difference could be due to the management conditions of both horses’ gender.

 

Donkeys were infested throughout the year by L2 and L3 instars. The infestation by L3 was significantly higher than L2 as observed in Jordan and Egypt (Hilali et al., 1987; Mukbel et al., 2001).

 

Gasterophilus infestation is a serious neglected problem threatening equids’ health, welfare and their working ability. Further studies should be conducted in other regions to investigate the infestation of Tunisian equids by these parasites. A control programme should be implemented to donkeys in order to decrease the impact of these parasites on donkeys’ health and welfare and to prevent horses infestation. Indeed, since in Tunisia donkeys do not receive preventive treatments; they represent an important reservoir of the parasites.

 

AcknowledgementS

 

This study was financially supported by the “Laboratory of epidemiology of enzootic infections in herbivores in Tunisia: application to control (Laboratory reference: LR02AGR03)” (Ministry of Higher Education and Scientific Research, Tunisia). The authors thank Mr. Bechir Guesmi, Mr. Mokhtar Dhibi and Mr. Taoufik Lahmar for their support.

 

Conflict of interest

 

The authors declare that they have no conflicts of interest.

 

Authors Contribution

 

Khawla Elati (École Nationale de Médecine Vétérinaire de Sidi Thabet (ENMV Tunisia) analyses the data, discussed the results and wrote the manuscript. Mohamed Gharbi (ENMV Tunisia) was the project leader. Hounaida Chiha (ENMV Tunisia) collected and identified the parasites. Médiha Khamassi Khbou (ENMV Tunisia) discussed the results and wrote the manuscript. All authors read and approved the final manuscript.

 

References

 

• Agneessens J, Engelen S, Debever P, Vercruysse J (1998). Gasterophilus intestinalis infections in horses in Belgium. Vet. Parasitol. 77:199–204. https://doi.org/10.1016/S0304-4017(98)00106-X

• Ahmed MJ, Miller A (1969). Pulmonary coin lesion containing a horse bot, Gasterophilus. Report of a case of myiasis. Am. J. Clin. Pathol. 52: 414–419. https://doi.org/10.1093/ajcp/52.4.414

• Al-Mokaddem AK, Ahmed KA, Doghaim RE (2015). Pathology of gastric lesions in donkeys: A preliminary study. Equine Vet. J. 47: 684–688. https://doi.org/10.1111/evj.12336

• Bush AO, Lafferty KD, Lotz JM, Shostak AW (1997). Parasitology meets ecology on its own terms: Margolis et al. revisited. J. Parasitol. 83: 575–583. https://doi.org/10.2307/3284227

• Getachew AM, Innocent G, Trawford AF, Reid SWJ, Love S (2012). Gasterophilosis: a major cause of rectal prolapse in working donkeys in Ethiopia. Trop. Anim. Health Prod. 44: 757–762. https://doi.org/10.1007/s11250-011-9961-7

• Hilali M, Derhalli FS, Baraka A (1987). Incidence and monthly prevalence of Gasterophilus spp. larvae (Diptera: Gasterophilidae) in the stomach of donkeys (Equus asinus) in Egypt. Vet. Parasitol. 23: 297–305. https://doi.org/10.1016/0304-4017(87)90015-X

• Kilani M, Soussi K, Drochies P, Franc M (1986). Observations epidemiologiques sur les gasterophiles des equides de la région de Tunis (Tunisie). Rev. Médecine Vét. 137: 537–540.

• Liu SH, Li K, Hu DF (2016). The incidence and species composition of Gasterophilus (Diptera, Gasterophilidae) causing equine myiasis in northern Xinjiang, China. Vet. Parasitol. 217: 36–38. https://doi.org/10.1016/j.vetpar.2015.12.028

• Mukbel R, Torgerson PR, Abo-Shehada M (2001). Seasonal variations in the abundance of Gasterophilus spp. larvae in donkeys in Northern Jordan. Trop. Anim. Health Prod. 33:501–509. https://doi.org/10.1023/A:1012732613902

• Observatoire National de l’Agriculture, 2006. Enquête sur les structures des exploitations agricoles 2004-2005.

• Otranto D, Milillo P, Capelli G, Colwell DD (2005). Species composition of Gasterophilus spp. (Diptera, Oestridae) causing equine gastric myiasis in southern Italy: parasite biodiversity and risks for extinction. Vet. Parasitol. 133: 111–118. https://doi.org/10.1016/j.vetpar.2005.05.015

• Pandey VS, Ouhelli H, Verhulst A (1992). Epidemiological observations on Gasterophilus intestinalis and G. nasalis in donkeys from Morocco. Vet. Parasitol. 41: 285–292. https://doi.org/10.1016/0304-4017(92)90087-P

• Pawlas-Opiela M, Sołtysiak Z, Gorczykowski M (2010). Morphological and biochemical changes in the blood of horses naturally infected with Gasterophilu ssp. larvae. Pol. J. Vet. Sci. 13: 247–251.

• Pilo C, Altea A, Scala A (2015). Gasterophilosis in horses in Sardinia (Italy): effect of meteorological variables on adult egg-laying activity and presence of larvae in the digestive tract, and update of species. Parasitol. Res. 114: 1693–1702. https://doi.org/10.1007/s00436-015-4352-z

• Principato M (1988). Classification of the main macroscopic lesions produced by larvae of Gasterophilus spp. (Diptera:Gasterophilidae) in free-ranging horses in Umbria. Cornell Vet. 78: 43–52.

• Schwartz D (1993). Méthodes statistiques à l’usage des médecins et des biologistes. Ed. Flammarion Médecine Sciences, France. 3 éme and éd.

• Sequeira JL, Tostes RA, Oliveira-Sequeira TCG (2001). Prevalence and macro- and microscopic lesions produced by Gasterophilus nasalis (Diptera: Oestridae) in the Botucatu Region, SP, Brazil. Vet. Parasitol. 102: 261–266. https://doi.org/10.1016/S0304-4017(01)00536-2

• Soulsby EJL (1982). Helminths, arthropods and protozoa of domesticated animals. ELBS 400–404.

• Zumpt F (1965). Myiasis in man and animals in the old world; a textbook for physicians, veterinarians and zoologists. Butterworth, London.