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Advances in Animal and Veterinary Sciences

AAVS_MH20150513070538_ Sultana et al

 

 

Research Article

 

First Pilot Study on the Prevalence of Tick Infestation in Livestock of Tehsil Hajira, Rawalakot, Azad Kashmir

 

Nizhat Sultana1, Asim Shamim2*, Muhammad Siddique Awan1, Usman Ali3, Murtaz Ul Hassan4, Rao Muhammad Siddique5

1Department of Zoology, University of Azad Kashmir; 2Department of Pathobiology, Faculty of Veterinary and Animal sciences, University of Poonch, Rawalakot, Azad Kashmir; 3Department of Zoology, Mirpur University of Science and Technology Azad Kashmir; 4Department of Pathobiology, Faculty of Veterinary Sciences, UAAR; 5Department of Parasitology, Faculty of Veterinary Science, University of Agriculture Faisalabad, Pakistan.

 

Abstract | Ticks (Acari: ixodid) are blood imbibing ecto-parasite of wide range of animals. Ticks and tick-borne infections impose major economic threats to the livestock industry throughout the world. The present study reports prevalence of tick in livestock population of Tehsil Hajira of District Rawalakot Azad Kashmir. Through random sampling technique, a total of 1350 animals were scrutinized for tick infestation in 6 villages with an average 225 animals per village from Tehsil Hajira, Rawalakot, Azad Kashmir. The study was piloted from June 2011 to November 2011. The performa was designed to collect the information on routine managemental practices, and customs to be performed by the farmers to their animals. The data were analysed statistically by SAS 2010. The dominant specie of ticks Hylomma anatolicum anatolicum was observed on all four species of livestock includes: Cattles (55.45%), Buffaloes (51.03%), Sheep (54.66%) and Goats (48.00%) with an overall prevalence of 51.25% in the study area. The month wise high prevalence observed during the June and July and lower prevalence during the month of November. Sex wise male and age wise young animals were found more infested compared to female and adult animals. It is the first report on tick prevalence from Azad Kashmir. There is a need of improvement and awareness regarding currently practiced tick control measures.

 

Keywords | Tick, Prevalence, Hylomma anatolicum, Livestock, Azad Kashmir

 

Editor | Kuldeep Dhama, Indian Veterinary Research Institute, Uttar Pradesh, India.

Received | May 13, 2015; Revised | June 21, 2015; Accepted | June 23, 2015; Published | June 27, 2015

*Correspondence | Asim Shamim, University of Poonch, Rawalakot, Azad Kashmir, Pakistan; Email: [email protected]

Citation | Sultana N, Shamim A, Awan MS, Ali U, Hassan M, Siddique RM (2015). First pilot study on the prevalence of tick infestation in livestock of Tehsil Hajira, Rawalakot, Azad Kashmir. Adv. Anim. Vet. Sci. 3(8): 430-434.

DOI | http://dx.doi.org/10.14737/journal.aavs/2015/3.8.430.434

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

Copyright © 2015 Sultana 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

 

Ticks (Acari: Ixodid) are active vector, next to mosquitoes (Le Bars, 2009), in disease transmission found in tropical and subtropical (Jongejan and Uilenberg, 1994), region of the world. Tick causes detrimental effect to animals via blood loss/ drain, stress, irritation and despair of immune function (Ghosh et al., 2007). In addition to these effects, ticks are also reason of financial losses in term of reducing hide and skin value up to 20-30% (Biswas, 2003), and economical losses associated with the diseases they transmit directly to the hosts (Garcia, 2003). Due to climatic changes and global warming, ticks have a vectorial potential. The rate of tick infestation are expected to be change which further limit sustainable livestock production globally in general and in tropical area particular (Kabir et al., 2011). A sufficient numbers of published data is available on tick prevalence from bordering region of the study area of Azad Kashmir (Irshad et al., 2010; Atif et al., 2012) but not a single study was intended formerly to this study on tick prevalence which may represent tick infestation in the area. The prevalence of tick infestation in livestock is much higher in developing countries (Minjauw and McLeod, 2003). Therefore, present study was designed with the objective to be acquainted with point prevalence of ticks in the livestock population of the Azad Kashmir and moreover interest behind study upon tick was also provide more information about the environmental settings i.e. temperature and humidity to which ticks are prone to be exposed.

 

MATERIALS AND METHODS

 

Study Area

The study was piloted from 1st June 2011 to 31st December, 2011 in the six villages naming Nundinaar, Kamorh, Kalah, Draykutti, Numbal and Naka of Tehsil Hajira of district Poonch/Rawalakot of Azad Kashmir lies between longitude 33º 51’ 28 North and latitude 73º 45’ 39 East. The study area is bounded by Bagh from North, Sudnuti by South, and East by occupied Kashmir (India) and west by Kahuta (Pakistan). Its population according to census 2006 was 0.490 million and its area is 855 km. Average maximum temperature of the year was 21.64˚C while minimum 7.20˚C. Maximum temperature was recorded in months of June and July while minimum temperature was recorded during December and January (Anonymous, 2011).

 

Sampling Technique

For the collection of data a random sampling technique (Thrushfield, 2007) was applied to gathered the data on tick prevalence from six village of the Tehsil Hajira. All the information required like age, sex, breed, managmental conditions, routine medication, and customs were collected on the predesigned proforma.

 

Specimen Collection

Before collection of ticks animals were restrain properly and their whole body was thoroughly inspected visually for the presence of tick. Tick specimens were collected following the procedure of Ica et al. (2007). After detachment of ticks through forcep from the animal body, they were preserved in 70% ethanol. The bottles were properly labelled and shipped to the Microbiology and Parasitological laboratory, Department of Zoology, Azad Kashmir University, Muzaffarabad, for identification and record of ticks.

 

Mounting and Identification of Ticks

Following the methods of (Soulsby, 1982), the tick specimens were mounted and identified using standard morphological tick identification keys (Walker et al., 2003) under stereomicroscope.

 

Statistical Analysis

All the data collected was analysed statistically by using software package SAS (Version 2010).

 

RESULTS

 

During the present survey six villages were visited and a total of 1350 animals viz. 600 goats, 300 sheep, 220 cows and 230 buffaloes were randomly inspected for tick collection. Out of 1350 animals 692/1350 (51.25%) animals were found positive/infested with ticks. From the sampled animals 288/600(48.00%) goats, 164/300(54.66%) sheep, 122/220(55.45%) cattle and 118/230(51.03%) buffaloes were found positive for ticks respectively. off the tick belong to genus Hylomma was identified i.e. Hylomma a. anatolicum commonly. The seasonal tick infestation during the study was observed in summer season than autumn season (Figure 1). Monthly highest prevalence of tick was during June and July and lowest during November. Sex-wise male animal were frequently infested than female animals. Association of various host and environment related determinants with the prevalence of ticks in livestock population of study area have been shown in Table 1. The overall prevalence in Livestock species, there was non-significant (P.>0.05) association in the present study.

 

 

Table 1: Prevalence and host associated features of ticks infesting livestock species of Tehsil, Hajira, Rawalakot, Azad Kashmir

Variables

Levels

Animals Screened

Ticks Positive

Prevalence (%)

Confidence interval 95%

Odds Ratio

P-value

Lower limit

Upper limit

Animal Specie

Cattle

220

122

55.45

48.84

61.93

1.16

0.266

Sheep

300

164

54.66

49.00

60.24

1.14

0.289

Buffalo

230

118

51.30

44.85

57.73

1.07

0.614

Goat

600

288

48.00

44.02

52.00

-

-

Cattle

Age

Young

74

56

75.68

37.21

54.79

1.67

0.024

Adults

146

66

45.21

45.21

62.79

-

-

Sex

Male

82

60

73.17

40.38

58.02

1.63

0.034

Female

138

62

44.93

41.98

59.62

-

-

Season

Summer

110

76

69.09

53.45

70.56

1.65

0.027

Autumn

110

46

41.82

29.44

46.55

-

-

Buffalo

Age

Young

86

60

69.77

41.86

59.79

1.73

0.019

Adults

144

58

40.28

40.21

58.14

-

-

Sex

Male

86

58

67.44

40.21

58.14

1.62

0.034

Female

144

60

41.67

41.86

59.79

-

-

Season

Summer

115

74

64.35

53.73

71.08

1.68

0.027

Autumn

115

44

38.26

28.92

46.27

-

-

Sheep

Age

Young

86

68

79.07

34.10

49.12

1.76

0.006

Adults

214

96

44.86

50.88

65.90

-

-

Sex

Male

102

74

72.55

37.62

52.79

1.60

0.019

Female

198

90

45.45

47.21

62.38

-

-

Season

Summer

150

100

66.67

53.35

68.22

1.56

0.022

Autumn

150

64

42.67

31.78

46.65

-

-

Goat

Age

Young

176

118

67.05

35.40

46.73

1.67

0.001

Adults

424

170

40.09

53.27

64.60

-

-

Sex

Male

204

128

62.75

38.78

50.22

1.55

0.003

Female

396

160

40.40

49.78

61.22

-

-

Season

Summer

300

178

59.33

56.09

67.22

1.62

0.021

Autumn

300

110

36.67

32.71

43.91

-

-

 


DISCUSSION

 

Ticks are potential vector of viral bacterial, protozoal and helminths diseases with zoonotic significance in animals and human (Dantas-Torres, 2008). So in this regard evidence about tick prevalence in any specific area in essential for the planning of control measure towards ticks and tick borne diseases. Due to continuous change in environmental setting, tick borne emerging and re-emerging infections of different causes have been reporting globally. In the present developmental scenario, it is very much necessary to attain information about the ever changing trends of diseases particularly of vector linked which infect livestock and Humans both. Widespread research studies have been piloted on the prevalence of the tick fauna and associated risk factors in numerous part of the world but the study area is not explored regarding this aspect. This is the first effort to conduct study in the area. Only single species of tick Hylomma anatolicum was identified from the examined livestock of the area. The identified species of tick was also reported by (Sajid et al., 2009; 2011; Atif et al., 2012; Biu et al., 2012; Monfared et al., 2013; Mustafa et al., 2014) from other areas. Results of the present study are somewhat similar or different to the studies carried out earlier in other part of the globe (Irshad et al., 2010; Sajid et al., 2011; Ahmed et al., 2012; Monfared et al., 2013; Iqbal et al., 2013; Tasawar et al., 2014; Hassan and Al-Zubaidi, 2014; Mustafa et al., 2014). Several environment related factors which support tick survival in the specific area including; temperature, humidity, rainfall (Greenfield et al., 2011), vegetation (Gray, 2002), host availability, season (Teel et al., 1996), altitude (Cadenas et al., 2007), breed, age, sex, stage of lactation, gestation period and nutritional status of the animal (Alonso et al., 2007; Yacob et al., 2008), body condition (Rony et al., 2010), method of application of acaricides (Bianchi et al., 2003) and husbandry practices (Sajid et al., 2011), and animal movement (Hassan and Osman, 2003). The reason of higher prevalence of tick in livestock species of the study area could be due to the climate and geography of the study area as the climate variables significantly affect ticks distribution in particular region (Estrada-Pena, 2003). Season plays key role in tick propagation and distribution and it is an established that peak tick prevalence has been reported in summer (Rony et al., 2010). From the surrounding part of the study area reports have shown that higher tick prevalence in summer (Durrani and Shakoori, 2009). Present study was carriedout in summer and autumn season depicted higher prevalence in summer when weather conditions were hot and humid that support ticks survival and expanding (Ghosh et al., 2007). Husbandry practices are also correlated with tick richness and distribution. In this situation, mixed grazing of different animal species at same pasture and / or mixed housing provides maximum opportunity for tick to infest large population at a time. In study area, sheds for animals are made of bricks and stones with mud which provides cracks and cervices that suits for nidiculoous questing behaviour of ticks (Soulsby, 1982). Result of the current study found that male and young crop of livestock species were more exposed to tick infestation. This could be due to the less attention has been paid by owner towards male in the investigated area and on the other hand hormonal effect mainly, androgen and oestrogen which had inhibitory and stimulatory effect on immune response due to which male animals are more prone to ticks then females (Bilbo and Nelson, 2001). Soft and pliable skin of young animal facilitates tick and prolongs duration of attachment (Sajid et al., 2009; Kabir et al., 2011). In male animals higher prevalence was also reported by (Tasawar et al., 2014). Awareness about the treatment of infested animals and lack of veterinary facilities are the noteworthy reasons for high tick infestation in the area.

 

CONCLUSION

 

So it has been concluded that ticks are prevalent in the livestock population of study area and different determinants including age, sex, and season are the risk factors for tick distribution.

 

RECOMMENDATIONS

 

On the basis of results of the present study some recommendations are advised for farmers and researchers (a) prophylactic therapy, to their livestock population must be administered at the start of warm season (April-May), (b) young and male animals should especially be attended (c) livestock and dairy development organizations must launch an awareness campaign to the areas for possible threats of tick and ticks borne diseases to the livestock (d) screening of ticks for the detection of pathogen of zoonotic significance using modern biotechnology tools. (e) arrange such kind of study in other areas of Azad Kashmir.

 

ACKNOWLEDGEMENT

 

The authors are thankful to the farmer community of the study area and field staff of Livestock Department of Tehsil Hajira, Poonch District, of Azad Kashmir for their support during tick collection.

 

CONFLICT OF INTEREST

 

There exist no conflict of interest.

 

AUTHORS CONTRIBUTION

 

All the authors have equal contribution for this manuscript.

 

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