SQU Journal for Science, 2018, 23(2), 73-77                                          DOI: http://dx.doi.org/10.24200/squjs.vol23iss2pp73-77 

Sultan Qaboos University  

73 

 

Effect of Management System on Serum 
Copper Level and Haematology of Jabal 
Akhdar Breed Goats in two Sites in Al Jabal 
Al Akhdar Region of Oman 

Nur El Huda I.E.D. Osman
1
* and Patrick A. Bobade

2
 

1
Directorate for Research, Planning and Development, Open University of Sudan, Obeid 

Khatim Street, Arkaweet, Sudan; 
2
Department of Animal and Veterinary Sciences, College of 

Agriculture, Sultan Qaboos University, P.O. Box 36, PC 32, Al-Khoud, Muscat, Sultanate of 
Oman.*Email: hudaisam@gmail.com. 

ABSTRACT: Blood samples were collected from randomly selected healthy Jabal Akhdar breed goats reared in 

two sites in the Jabal Akhdar region of Oman. Seven  males and 65 female goats, age range 2 months to 4 years, 

raised in Shnoot Al-Dar village were kept under a semi-intensive system (SIS) and 2 males and 18 females, age 

range 4 months to 5 years, raised in Al-Ala'lana village and kept the under free range system (FRS) were studied. 

Serum Cu and haematological values were measured. There were no significant (p>0.05) effects of age, sex or 

serum copper levels on the haematology of goats, so data was pooled and only the effects of the management 

system on serum Cu and haematology were analysed. There were highly significant (p<0.001) differences between 

the two systems in all parameters studied. FRS goats were higher than SIS goats in mean values (± SE) of serum 

Cu (mg/l) 0.60 ± 0.07 vs 0.48 ± 0.33, red blood cells (RBC) (X10
12

/L) value 15.03 ± 0.42 vs 14.97 ± 0.25, mean 

cell volume (MCV) (fl) 21 ± 21 vs 19.57 ± 0.19, and haematocrit (HCT) (%) value 31.84 ± 0.59 vs 29.6 ± 0.35.  

SIS values were higher than FRS in haemoglobin (Hb) (g/dl) 9.34 ± 0.16 vs 9.26 ± 0.27, mean cell haemoglobin 

(MCH) (pg) 6.21 ± 0.05 vs 6.16 ± 0.08 and mean cell haemoglobin concentration (MCHC) (g/dl) 31.96 ± 0.38 vs 

29.05 ± 0.64. Therefore, it is evident that the management system can affect the serum copper levels and 

haematology of the Jabal Akhdar breed of goats in the Jabal Akhdar region of Oman. 

 

Keywords: Haematology; Serum copper; Copper deficiency; Oman; Jabal Akhdar; Goats 

 أثر نظام الرعاية على مستوى عنصر النحاس في مصل ومكونات الدم في نوع ماعز الجبل األخضر في موقعين بمنطقة 

 الجبل األخضر بسلطنة عمان

عصام الدين عثمان وباتريك أ. بوبادي ،نور الهدى  

، من موقعين في منطقة الجبل األخضر بسلطنة عشوائيا  جمعت عينات من الدم من نوع ماعز الجبل األخضر تبدو بصحة جيدة، تم اختيارها  :صلخمال

سنوات ولدت وتربت في قرية شنوت الدار بالنظام شبه المغلق  4أنثى بأعمار تراوحت ما بين شهرين و 53ذكور و 7عمان. تضمنت الدراسة عدد 

(SIS وعدد ،)نا تربت 3أشهر و 4أنثى بأعمار تراوحت بين 81ذكور و 2 (. تم قياس كل من FRSعلى نظام الرعي المفتوح ) سنوات في قرية العّلا

 نسبة عنصرالنحاس في مصل وقيم مكونات الدم.  لم تكن هناك تأثيرات ذات دالالت إحصائية لكل من العمر، الجنس، أو مستوى عنصر النحاس في

كانت هناك فروق بين النظامين ذات دالالت إحصائية  المصل على قيم مكونات الدم، ولذلك ضمت البيانات وانحصرالتحليل على أثر نظام التربية فقط.

 6.7±  6.0في كل من متوسط قيم النحاس )مج/ل( ) SISأعلى من نظام  FRS( في كل القيم التي تمت دراستها. كان نظام p<0.001) عالية جدا  

X 86(، عدد كرات الدم الحمراء )6.55±  6.41مقابل 
82

مقابل  6.28±  28، متوسط حجم الخلية )( )(6.23±  84.47مقابل  ±6.43 83.65( )

في قيم كل من الهيموجلوبين  FRSأعلى من نظام  SIS(. كان نظام 6.53±  24.0مقابل  6.34±  58.14( والهيماتوكريت )%( )±6.84  84.31

(، ومتوسط تركيز 0.08 ±  6.16مقابل 6.210.05 ±(، متوسط هيموجلوبين الخلية )بج( )6.27±   9.26مقابل   9.340.16±)ج/دس ل( )

(.استنتج من نتائج البحث أن نظام الرعاية يمكن أن يؤثر على مستويات 0.64±  29.05مقابل  0.38±   31.96هيموجلوبين الخلية )ج/دس ل( )

ح ربما يكون جزءا  النحاس في مصل وقيم مكونات الدم في نوع ماعز الجبل األخضر بمنطقة الجبل األخضر بسلطنة عمان، وأن نظام الرعي المفتو

 من حل مشكلة نقص عنصر النحاس في أمصال الماعز العمانية.

 

  .الجبل األخضر مكونات الدم،نحاس مصل الدم،نقص عنصر النحاس،عمان،الجبل األخضر،ماعز: مفتاحيةالكلمات ال

 

mailto:Email:%20hudaisam@gmail.com


NUR EL HUDA AND PATRICK A 

 

74 

 

1.  Introduction 

aemtological values are useful in assessing animal health and provide vital information on the physiological, 

nutritional and pathological status of an animal. These values are affected by several factors such as age, 

breed, sex, management systems [1-3], diet [4], rumen impaction [5] and parasitism [6].  

Copper is an essential trace element which is associated with clinical and biochemical disorders. Copper 

deficiency is an endemic problem in Oman where low tissue, plasma or serum values have been reported in 

livestock by many workers [7-9]. 

Goats comprise a very important source of meat and income to villagers in Oman.  Jabal Akdar goats, a large body 

size goat, comprise 20% of the total goat population of 854,060 in Oman, as reported by Mahgoub et al [10]. They 

are named after the region they inhabit, the Jabal Akhdar. The Jabal Akhdar, Jebel Akhdar or Al Jabal Al Akhdar, 

is a part of the Al Hajar Mountain range in Oman, which extends about 300 km northwest to southeast, between  

50 – 100 km inland from the Gulf of Oman coast. The range is mostly desert, with  the  higher altitudes receiving 

around 300 mm (12 in) of precipitation annually, which is moist enough to allow the growth of shrubs and trees 

and to support agriculture. This gives the mountains their 'green' name [11]. Goats are generally kept in medium to 

large herds of about 1-50 [10]. Villagers either leave their goats to graze all day on a free range management 

system, in which they browse on Acacia shrubs and other trees, or they feed them on seasonal indigenous range 

grass, Rhodes grass hay, by-products and household leftovers [10]. This work was intended to investigate the 

effect of the management system on the haematology and serum copper of goats in the Jabal Akhdar region of 

Oman.  

2. Materials and Methods. 

Blood samples were collected from the jugular vein from randomly selected, apparently healthy, Jabal 

Ahkdar breed goats, reared in two different sites in the Jabal Akhdar region of Oman. A total  of 72 goats, 7 males 

and 65 females, age range 2 months to 4 years, raised in Shnoot Al Dar village (GPS: N 23' 06.930  E 057' 39.507  

Elevation: 2289 meters above sea level (masl)) kept under the semi-intensive system (SIS) and 20 goats, 2 males 

and 18 females, age range 4 months to 5 years, raised in Al Ala'lana village (GPS: N 23' 06.903  E 057' 34.647  

Elevation: 2172 masl) kept under the free range system (FRS) were included in the study. Serum was collected 

from blood in situ, separated in vials and kept at a cool temperature, moved to the lab and then frozen. Serum 

copper values were detected using Atomic Absorption Spectrophotemtry. For haematology, blood was collected in 

EDTA vacuum tubes, kept at a cool temperature, moved to the lab and then analyzed immediately.  

Haematological parameters were obtained from these fresh samples using a CELL-DYN 3700 automated blood 

analyzer (Abbott Laboratory, Diagnostic Division, Abbott Park, IL 60064, USA). Parameters studied included the 

following: Red blood cells (RBC), Packed cell volume (PCV), Haemoglobin concentration (Hb), Mean cell 

volume (MCV), Mean cell haemoglobin concentration (MCHC) and Mean cell haemoglobin (MCH). 

3. Statistical Analysis 

Means were compared to study the effects of the management systems, age, sex and serum copper levels on 

these values using Type III general linear model statistical analysis using the SPSS computer package. There were 

no effects of age, sex or serum copper levels on haematological values; so data were pooled and only the effect of 

the management system on serum copper (mg/l) and haematological values were studied. A serum copper 

concentration ≤ 0.59 mg/l was considered as low and ≥ 0.60 mg/l was considered as normal.    

4.  Results and Discussion 

4.1  Serum copper  

The effect of the management system on serum copper level is presented in Table 1. FRS mean serum copper 

(mg/l) was significantly (p<0/001) higher than mean values for SIS. 

 

Table 1. Serum copper and haematological values (±SE) of Jabal Akhdar goats under two management systems.  

 

 Parameter Free range System Semi-intensive System   Significance 

Serum copper (mg/l) 

RBC (x 10
12

/l) 

MCV (fl) 

PCV (%) 

Hb (g/dl) 

MCH (pg) 

MCHC (g/dl) 

0.60 ± 0.07 

15.03 ± 0.48 

21.00 ± 0.21 

31.84 ± 0.59 

9.26 ± 0.27 

6.16 ± 0.08 

29.07 ± 0.06 

0.48 ± 0.33 

14.97 ± 0.25 

19.57 ± 0.19 

29.6 ± 0.35 

9.34 ± 0.17 

6.21 ± 0.05 

31.96 ± 0.38 

0.000 

0.000 

0.000 

0.000 

0.000 

0.000 

0.000 

H 

http://en.wikipedia.org/wiki/Precipitation_%28meteorology%29


EFFECT OF MANAGEMENT SYSTEM 

75 

 

The mean of serum Cu in FRS goats was at the bottom of the normal range, while that of the SIS goats was 

within the low or deficient range. At the same time the numbers and proportions of goats with normal or low serum Cu 

and mean values of each group, presented in Table 2, show that there was a higher proportion of goats with normal 

serum Cu than of those of low serum Cu in FRS, while there was a lower proportion of normal goats than of low serum 

Cu goats under SIS.  Copper deficiency can be caused by low dietary Cu intake (simple Cu deficiency) or dietary 

intake of interfering elements, particularly molybdenum and sulphur [12] or iron (secondary Cu deficiency). Previous 

reports indicate that the prevalence of Cu deficiency in many Omani regions could be related to low Cu, high iron, 

sulphur and elevated molybdenum contents in different feeds [7,13]. In this study the goats in FRS presented better 

serum Cu status than the SIS goats. This may indicate that the FRS grazing goats, having the opportunity to select 

feeds [14], could have possibly selected either higher Cu or lower interfering element contents than the SIS goats, 

which mostly take feeds provided by owners, and which may be of low Cu content or contain causative agents of Cu 

deficiency. Although the results still show a low Cu status in some goats in the FRS, it may be a management system 

of higher potentiality to reduce the Cu deficiency problem in this area of Oman. However, the high stocking rate and 

overgrazing in this region [15] could have led to low availability of feeds to support the grazing goats, and thus get 

their Cu and other nutrient requirements fulfilled. 

4.2   Haematological Values 

The results of the effect of the management system on haematological values are presented in Table 1. There 

were highly significant differences (p<0.001) between the two systems on all haematological parameters studied. FRS 

were higher than SIS in mean values of RBC (X10
12

/L), MCV (fl) and PCV (%).  SIS values were higher than FRS in 

Hb (g/dl) MCH (pg) and MCHC (g/dl). Similar results to these current ones were observed in West African Dwarf 

(WAD) Goats by Imasuen [16], West African Dwarf sheep in Nigeria [17] and in cattle (summarized by Etim et al  [1]. 

On the other hand, Ifut et al [18] reported no significant effect of management system on the haematology of WAD 

goats.  

Red blood cells function as carriers of haemoglobin. The latter contains iron and is responsible for the 

transportation of O2 to body cells and CO2 from cells to the lungs for excretion through respiration [19]. Therefore, 

their number reflects the availability of O2 to tissues, for them to perform their normal functions of excretion of CO2. In 

this work, the FRS goats had higher RBC, MCV and, hence, PCV%. Packed Cell Volume value indicates either an 

increase in number of RBCs or a reduction in plasma volume [20]. It is involved in the transport of O2 and the 

absorption of nutrients [19]. A higher value of PCV indicates better transportation and thus results in an increased 

primary and secondary polycythemia [1]. PCV and RBC can be affected by nutritional status [21] and environmental 

temperature [22]. Therefore, it appears that FRS goats were in better condition than SIS goats. Contrary to the present 

results, Imasuen [16] reported higher PCV%, and RBC in SIS than in FRS goats while Hb and MCHC were similarly 

higher in SIS than FRS goats.  Another study which compared WAD goats reared in the intensive and semi-intensive 

systems showed that the SIS goats had higher PCV than intensive system goats [18]. Packed Cell Volume, Hb and 

MCH values are significant indices for diagnosis of anaemia. The indices’ values and their differences between 

different management systems may reflect the differences in nutritional status and/or possible parasitic infestations 

[23].   

On the other hand, compared to some other published normal haematological values, both SIS and FRS goats had 

mean Hb and MCHC values lower, but RBCs and PCV values higher, than in WAD [24] and Red Sokoto [25] goats. 

These observations support other reports of breed differences [26]. 

5.    Conclusion 

Jabal Akhdar goats presented different serum Cu and haematology values when reared in FRS rather than in SIS 

in the Jabal Akhdar region of Oman. The goats of the FRS generally showed a better performance compared to those in 

 

 

 

 

 

 

Table 2. Numbers and (%) of goats with normal or low serum Cu and mean values (mg/l ± SE) in Semi-intensive 

and Free range management systems. 

 

 

 

Serum Cu level 

Semi-intensive system Free range system 

Goats number (%) Serum Cu (mg/l) Goats number (%) Serum Cu (mg/l) 

Normal  20(27.8%) 0.87±0.04 11(57.9%) 0.72±0.05 

Low  52(72.2%) 0.33±0.02 8(42.2%) 0.45±0.06 

Total  72  19  

Significance of 

management system  

X serum Cu 

interaction  

 0.005   

MCHC (g/d1) 29.07±0.06 31.96±0.38  0.000 



NUR EL HUDA AND PATRICK A 

 

76 

 

the SIS, especially on the serum Cu levels and RBC, MCV and PCV values. Although a proportion of goats had serum 

Cu levels within the subclinical and deficient range, it can be concluded that the FRS has the potential to provide for a 

reduction in Cu deficiency as well as higher haematological values of RBC, MCV and PCV. Further studies are needed 

to support these findings and to find proper supplementation methods to help to totally alleviate Cu deficiency and to 

improve the haematology and health status of Jabal Akhdar grazing goats in Oman. 

Acknowledgement 

The authors would like to convey their appreciations to Mr. Rashid Albusaidi for blood collection and analysis 

and to Mr. Rabei Almigbali for assistance in serum Cu analysis.  

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Received   18 June 2017         

Accepted   12 October 2017