https://doi.org/10.52973/rcfcv-e34441
Received: 21/04/2024 Accepted: 25/07/2024 Published: 19/10/2024
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Revista Científica, FCV-LUZ / Vol. XXXIV, rcfcv-e34441
ABSTRACT
Sheep farming in arid and semi-arid regions of Algeria is confronted
with large uctuations in the availability of fodder, which is all the
more restrictive for pregnant ewes whose needs are at a maximum
and constitute a major obstacle to the development of this sector.
This study aims to evaluate the inuence of the physiological stage
on the energy, nitrogen and mineral status of Ouled-Djellal ewes
living in arid zones (Biskra), by determining the plasma levels of
glucose, cholesterol, urea and calcium. Blood samples were taken
from 40 ewes divided into two groups according to their physiological
stage (pregnant and empty). The obtained results showed that the
physiological stage had a signicant inuence only on blood glucose,
being higher in empty sheep than in pregnant sheep (P<0.05), whereas
for the other blood parameters: cholesterol, urea, and the plasma
concentrations of calcium do not seem to be influenced by the
physiological stage.
Key words: Sheep; Ouled-Djellal breed; blood metabolites;
physiological stage; arid zone
RESUMEN
La cría de ganado ovino en las regiones áridas y semiáridas de Argelia
se enfrenta a grandes uctuaciones en la disponibilidad de forrajes,
lo que resulta aún más restrictivo para las ovejas gestantes, cuyas
necesidades son máximas y constituyen un obstáculo importante
para el desarrollo de este sector. Nuestro estudio tiene como objetivo
evaluar la inuencia del estado siológico sobre el estado energético,
nitrogenado y mineral de ovejas Ouled-Djellal que viven en zonas
áridas (Biskra), mediante la determinación de los niveles plasmáticos
de glucosa, colesterol, urea y calcio. Se tomaron muestras de sangre
de 40 ovejas divididas en dos grupos según su estado siológico
(preñada y vacía). Los resultados obtenidos mostraron que el estado
siológico tuvo inuencia signicativa sólo en la glucemia, cuando
es muy mayor en ovejas vacías que en ovejas preñadas (P<0,05),
mientras que para los demás parámetros sanguíneos: colesterol,
urea y concentraciones plasmáticas de calcio no parecen estar
inuenciados por el estado siológico.
Palabras clave: Oveja; raza Ouled-Djellal; metabolitos sanguíneos,
estado siológico, zona árida
Variation in blood glucose, cholesterol, urea and calcium levels according to
the physiological stage in Ouled-Djellal ewes in Algerian arid zone
Technical note
Variación de los niveles de glucosa, colesterol, urea y calcio en sangre según el estado siológico en
ovejas Ouled-Djellal en la zona árida de Argelia
Nota técnica
Nezar Adili
1
* , Naoual Guehiliz
2
, Chak Djebiret
2
, Kahramen Deghnouche
3
1
University of Batna 1 – Hadj Lakhdar, Institute of Veterinary Sciences and Agricultural Sciences, Department of Veterinary Sciences. Batna, Algeria.
2
Directorate of Agricultural Services of Biskra Governorate. Biskra, Algeria.
3
University of Biskra – Mohamed KHIDER, Faculty of Exact Sciences Natural and Life Sciences, Department of Agricultural Sciences. Biskra, Algeria.
*Corresponding author: nezar.adili@univ-batna.dz
Biochemical parameters in Ouled-Djellal ewes / Adili et al. __________________________________________________________________________
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INTRODUCTION
Sheep farming in Algeria ranks among the most traditional activities
and holds a very signicant position in the eld of animal production. It
constitutes the country’s primary supplier of red meat. Sheep (Ovisaries)
herd in Algeria is estimated at 18 million heads, of which 63% are of the
breed Ouled-Djellal [1]. The majority of herds are concentrated in steppe
regions, high plateaus, and a portion is exploited in the Saharan regions.
The Ouled-Djellal breed represents between 54-63% of the ovine herd
[2]. Sheep farming in Algeria is managed traditionally in the vast majority
of private farms and some state-owned farms. It faces challenges of
climatic, nutritional, and pathological hazards. The low production of
herds is linked to poor management of reproduction and feeding, which
are often extensive in nature [3].
Understanding the metabolic prole of ewes is important to clarify
their nutritional status as well as to prevent metabolic disorders that
lead to disruptions in production and reproduction [4]. Additionally,
the serum levels of minerals and various biochemical indicators in
sheep have been widely discussed [5, 6]. However, a limited number
of studies have reported the inuence of reproductive status in
different sheep breeds as important elements for the interpretation
of biochemical indicators in ewes [7, 8].
The main objective of this investigation is to analyze the inuence
of physiological stage on the variations or evolution of the following
biochemical parameters: blood glucose, blood cholesterol, blood
urea, and blood calcium levels. This analysis aims to evaluate the
metabolic state and identify which of these parameters could be
used as indicators for predicting the metabolic status of the ewe
according to its physiological stage.
MATERIAL AND METHODS
Ethical approval and statement
Adequate measures were taken to minimize pain or discomfort
in accordance with the International Animal Ethics Committee. The
study was approved by the committee framed for the research by
the university authority. During the study visits, the researchers
introduced themselves and explained the objective and methodology
of the study to all animal breeders.
Region of the study and animals
This study was conducted in Biskra governorate, it is a semi-arid
region, located in the south-eastern part of Algeria, at 440 Km from
the capital city Algiers at an altitude of about 110 m of the sea-level,
a latitude of 34°51' North and a longitude of 5°43' East.
Farm presentation
The farm extends over an area of 27 hectares and is organized into
two main components:
○
Crop production: of which cereal farming, namely wheat
(Triticum aestivum) and oats (Avena sativa), is the primary
activity, followed by the cultivation of forage crops of barley
(Hordeum vulgaris) in second place.
○
Animal production: this consists mainly of about 220 ewes
managed in an extensive system, along with 4 dairy cows. Milk
production is reserved solely for self-consumption.
Animals
The ewes included in this study are from the same farm described
above. They are Ouled-Djellel breed ewes (Ovis aries), which is the
predominant breed in this region. A total of 40 clinically healthy,
multiparous ewes aged between 2 and 5 years were selected. The
animals were divided into two groups based on their physiological stage:
○ 20 gestating ewes in their last trimester;
○ 20 non-gestating ewes in maintenance.
The farming method employed is extensive, with the sheep grazing
on the pasturelands available in the region, locally referred to as ‘Watn’.
Supplementary feed is provided during favorable seasons, especially
to pregnant ewes in the last trimester of gestation. This feed mainly
consists of barley and straw (Imperata cylindrica) produced on the farm.
In this arid region, supplemental feeding is provided for almost three-
quarters of the year during dry periods; in particular, concentrated
energy foods (wheat, corn, beets in pulp form) provided in daily rations
of approximately 0.25 to 1 kg per head. Mineral supplements (calcium,
phosphorus) and vitamins can also be provided; they are made freely
available to the animals, in the stable, in the form of a block of mineral
salts that breeders call the lick stone. In the summer, the herd migrates
to neighboring provinces such as Khenchela and Oum El-Bouaghi to
graze on cereal stubbles.
Blood sampling
Blood samples were collected using the protocol described by
Polizopoulou [9]. The samples were taken in the morning before
feeding (fasted) after disinfecting the area. They were drawn from the
jugular vein using a single-use needle into vacutainer tubes containing
lithium heparin. After collection, the samples were divided into two
batches and transported in a cooler (Haier Biomedical brand, HZY
SERIES, China). The rst batch was sent to the laboratory of the local
public health facility in Zéribet El-Oued. There, they were immediately
centrifuged with BioSan centrifuge (model LMC-3000 22005, Latvia)
at 1008 G and then frozen at 25°C in Haier Biomedical* (China) freezer
until analysis for blood glucose levels, blood cholesterol levels, and
blood urea levels, carried out by a spectrophotometer SECOMAM
model PRIM 500 (France). The second batch of samples was sent to
the laboratory of Ben Badis polyclinic in Biskra specically for the
analysis of blood calcium levels.
Analytical methods
The commercial kits used were manufactured by Biomaghreb (Spain):
○
Glucose Assay: by enzymatic method (GOD-PAP). Result is
done using spectrophotometry at a wavelength of 505nm
○
Cholesterol Assay: by colorimetric enzymatic test (CHOD-PAP).
Reading is carried out at a wavelength of 505 nm.
○
Urea Assay: with modied urease + Berthelot method. Reading
is carried out at a wavelength of 590 nm.
○
Calcium Assay: by colorimetric method. Reading is done
spectrophotometrically at a wavelength of 570 nm.
Statistical analysis
For a better analytical treatment of the recorded results, statistical
analysis was conducted using the MedCalc 2017 software (version
TABLE I
Variation in blood glucose levels according
to physiological stage (g·L
-1
)
Physiological stage M ± SD
Non-gestating ewes (n = 20) 0.61 ± 0.11*
Gestating ewes (n = 20) 0.43 ± 0.06
M: Mean, SD: Standard deviation, *:
P–Value <0.05
TABLE II
Variations in blood cholesterol levels
according to physiological stage (g·L
-1
)
Physiological stage M ± SD
Non-gestating ewes (n = 20) 1.54 ± 0.24
Gestating ewes (n = 20) 1.48 ± 0.24
M: Mean, SD: Standard deviation,
P–Value >0.05
TABLE III
Variations in blood urea levels according
to physiological stage (g·L
-1
)
Physiological stage M ± SD
Non-gestating ewes (n = 20) 0.31 ± 0.08
Gestating ewes (n = 20) 0.28 ± 0.06
M: Mean, SD: Standard deviation,
P–Value >0.05
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17.2 copyright © 1993-2017 MedCalc software bvba); it is a powerful
and useful statistical tool, designed and developed for researchers in
biology and medical eld. The main test used is the Student’s t-test
for comparing the means of two independent samples (groups).
RESULTS AND DISCUSSION
The biochemical characterization of animals is of particular interest
for evaluating the nutritional and/or metabolic status of the animal
through the exploration of the results of the biochemical prole as
well as the understanding of factors that can inuence the plasma
concentrations of some blood metabolites [10].
Blood glucose levels
Results indicated in TABLE I shows that blood glucose is
signicantly higher in non-gestating ewes than in gestating ewes
(P<0.05 by Student’s t-test).
Blood cholesterol levels concentration in ruminants could be
inuenced by several factors: breed, age, sex, physiological stage,
dietary composition and season [19, 22, 23]. It could also be an
indicator of thyroid function because hypothyroidism is generally
associated with hypercholesterolemia [21, 23, 24]. Furthermore, the
obtained results are consistent with those demonstrated by Varanis
et al. [13]
who concluded that there is no signicant difference in
blood cholesterol levels concentrations between gestating ewes
and non-gestating ewes.
Moreover, a signicant decrease in total cholesterol at the end of
gestation has been reported in other species: cows [25], goats [26]
and mares [27]. This is likely related to the role of this metabolite in
the synthesis of ovarian steroids, so total cholesterol concentrations
are under the control of complex factors. Iriadam [28] described
variations in blood cholesterol levels during estrus and gestation as
precursors to steroid hormones.
Blood urea levels
In the TABLE III are presented the results of the inuence of the
physiological stage of ewes on the blood levels of urea. After comparing
the averages using the analytical test Student T, it appears that
there is no signicant difference between the two batches of ewes
(with P>0.05).
The blood glucose levels obtained in this study are within the lower
limit of the reference values for gestating ewes (0.50 – 0.80 g·L
-1
) as
reported by Dubreuil et al. [11], Frye et al. [12] and Varanis et al. [13],
and within the upper limit for non-gestating (0.41 – 0.65 g·L
-1
) ewes
as reported by Dubreuil et al. [11]. They also fall within the range of
reference values reported by Kaneko et al. [14] and Sarmin et al. [15].
Additionally, the recorded results were higher than those obtained
by Nedeva et al. [16], Abdelsattar et al. [17], Nedeva et al. [18] and
Xulu et al. [19].
The low blood glucose levels observed in ewes at the end of gestation
could be explained by the abundant use of maternal glucose by the
fetus(es). The development and rapid growth of the fetus(es) in the
last trimester of gestation require energy input that the mother should
satisfy [20]. The results obtained in the present study demonstrate that
physiological stage has a signicant inuence on blood glucose levels,
which is consistent with the ndings reported by Varanis et al. [13] and
Hamadech et al.
[20], who concluded that blood glucose levels are lower
in gestating ewes compared to those in lactation or non-gestating ewes.
Blood cholesterol levels
Regarding the parameter of blood cholesterol levels, statistical
analysis did not reveal a signicant difference (P>0.05) between the
two physiological stages (TABLE II).
In the current study, the cholesterol levels observed in both
physiological stages are higher than those reported by Dubreuiletal.
[11] (0.52 – 0.76 g·L
-1
for non-gestating ewes; and 0.50 – 1.39 g·L
-1
for
gestating ewes); however, the reported results are lower than those
recorded in studies conducted by Nedeva et al. [18]
and Vicente et al. [21].
The blood urea levels obtained in this study for both groups fall
within the range described by several authors [11, 14, 15], it appears
that there is no signicant difference between the two experimental
batches; indeed, uremia is subject to large uctuations linked to
the importance of protein intake in the ration, it constitutes a good
indicator of nitrogen intake in sheep and goats. Contrary to the current
results, Varanis et al. [13]
and Sarmin et al. [29] found a signicant
difference in blood urea between non-gestating and gestating ewes,
they observed higher urea levels in gestating ewes compared to
non-gestating or lactating ewes.
TABLE IV
Variations in blood urea levels according
to physiological stage (mg·L
-1
)
Physiological stage M ± SD
Non-gestating ewes (n = 20) 103.80 ± 8.46
Gestating ewes (n = 20) 96.82 ± 10.61
M: Mean, SD: Standard deviation,
P–Value >0.05
Biochemical parameters in Ouled-Djellal ewes / Adili et al. __________________________________________________________________________
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Blood calcium levels
Results indicated in TABLE IV shows that blood calcium levels
are slightly higher in non-gestating ewes compared to gestating
ewes; however, this difference does not appear to have a signicant
inuence on this parameter (with P>0.05).
RECOMMENDATIONS
However, further research with larger sample sizes is needed to
establish specic reference values for Ouled-Djellal ewes in arid zones
and to assess the impact of challenging climatic conditions on the
general metabolism and reproductive performance of the animals.
Conict of interests
The authors declared no potential conicts of interest with respect
to the research, authorship, and/or publication of this article.
BIBLIOGRAPHIC REFERENCES
[1] Ghozlane F, Ziki B, Yakhlef H. Variations saisonnières des
caractères quantitatifs du sperme de bélier de race Ouled-
Djellal [Seasonal variation of the quantitative parameters of
adult ram semen of the Ouled-Djellal race]. Rencontres Rech.
Rumin. [Internet]. 2005 [cited 29 Feb. 2024]; 12:164. French.
Available in: https://goo.su/TC4zB
[2] Aissaoui C, Chibani J, Bouzebda Z. Études des variations de la
production spermatique du bélier de race Ouled-Djellal soumis
à un régime pauvre [The study of the variation of seminal
production of Ouled Djellal rams undertaken poor pasture].
Rencontres Rech. Rumin. [Internet]. 2004 [cited 29 Feb. 2024];
11:402. Available in: https://goo.su/GbO2bu
[3] Bencherif S. L’élevage pastoral et la céréaliculture dans la
steppe algérienne: Évolution et possibilités de développement
[dissertation on the Internet]. Paris: Université Agro Paris Tech;
2011 [cited 20 Feb.2024]. 295 p. French. Available in: https://
goo.su/jZ2by7O
[4] Balikci E, Yildiz A, Gurdogan F. Blood metabolite concentrations
during pregnancy and postpartum in Akkaraman ewes. Small.
Rumin. Res. [Internet]. 2007; 67(2-3):247-251. doi: https://doi.
org/b2b3fc
[5] Sykes AR, Field AC. Seasonal changes in plasma concentrations
of proteins, urea, glucose, calcium and phosphorus in sheep
grazing a hill pasture and their relationship to changes in body
composition. J. Agric. Sci. [Internet]. 1974; 83(1):161-169. doi:
https://doi.org/c474t7
[6] Pastrana R, McDowell LR, Conrad JH, Wilkinso NS. Macromineral
status of sheep in the Paramo region of Colombia. Small Rumin.
Res. [Internet]. 1991; 5(1-2):9-21. doi: https://doi.org/bkzhcg
[7] Antunović Z, Šperanda M, Steiner Z. The inuence of age and the
reproductive status to the blood indicators of the ewes. Arch.
Tierz. [Internet]. 2004: 47(3):265-273. doi: https://doi.org/nm9x
[8] Yokus B, Cakir DU, Kurt D. Effect of seasonal and physiological
variation one the serum major and trace element levels in sheep.
Biol. Trace. Elem. Res. [Internet]. 2004; 101:241-255. doi: https://
doi.org/bbmb2r
[9] Polizopoulou ZS. Haematological tests in sheep health management.
Small Rumin. Res. [Internet]. 2010; 92(1-3):88-91. doi: https://doi.
org/bh578p
[10] Abdel-Lattif FH, Al-Muhja RK. Some blood and biochemical
parameters and body dimensions in Awassi sheep. IOP Conf.
Ser. Earth Environ. Sci. [Internet]. 2021; 735:012010. doi: https://
doi.org/g8gxtk
Regarding the blood calcium levels, the comparative analysis of
the results did not reveal a signicant inuence of the physiological
stage on calcium levels (P>0.05) between the two groups studied;
this finding was also demonstrated by Sarmin et al. [29] and
Aksoyet al. [30]. Tanritanir et al. [31], did not report any signicant
difference in this element between ewes in the pre – and post-partum
periods. On the other hand, Abdelrahman [32] reported that calcium
requirements increase with the progression of gestation and noted
that the reproductive stage has a very considerable inuence on
serum mineral concentrations, which is inconsistent with our results.
Physiological stage is a variable factor which is included in our
study, and the different results observed, as well as those from other
studies, may have different interpretations based on:
»
Experimental protocol: which varies among studies, particularly
in terms of blood sampling for each physiological stage,
that is to say, the day of sampling relative to the exact date
of the physiological stage (non-pregnant, early pregnancy,
mid-pregnancy, late pregnancy), and the sampling days are
not identical for all studies.
» Use of animals relative to physiological stage; some studies
use a batch of ewes for each physiological stage, while
others track the same group of animals through different
physiological stages.
»
Feeding; different studies on Ouled-Djellal ewes use feed rations
based on the forage availability in the region, whereas forage
composition and nutritional value vary from one region to
another Season; there is a seasonal effect (climate, temperature,
photoperiod: long days, short days) on some biochemical
parameters as reported by some studies, and additionally, the
relief shows a signicant effect of altitude on blood parameters.
CONCLUSIONS
The study of the influence of physiological stage on various
blood biochemical parameters in Ouled-Djellal ewes living in the
challenging conditions of arid zones has shown that the physiological
state significantly affects blood glucose levels (P<0.05), while
other parameters such as blood cholesterol, urea, and calcium
concentrations do not seem to be affected by the physiological stage.
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[11] Dubreuil P, Arsenault J, Bélanger D. Biochemical reference
ranges for groups of ewes of different ages. Vet. Rec. [Internet].
2005; 156(20):636-638. doi: https://doi.org/g8gxtm
[12] Frye EA, Behling-Kelly EL, Lejuene M, Webb JL. Complete
blood count and biochemistry reference intervals for healthy
adult sheep in the northeastern United States. Vet. Clin. Pathol.
[Internet]. 2022; 5(1):119-125. doi: https://doi.org/g8gxtn
[13] Varanis LFM, Oliveira KA, Araújo CM, Cruz WFGD, Macedo Júnior
GDL. Serum biochemical reference ranges for pregnant sheep.
Biosci. J. [Internet]. 2021; 37:e37036. doi: https://doi.org/g8gxtp
[14] Kaneko JJ, Harvey JW, Bruss ML. Clinical biochemistry of
domestic animals. 6th ed. San Diego (California, USA): Academic
Press; 2008. 936 p.
[15] Sarmin SS, Astuti P, Airin CM. The hematological and biochemical
profiles of Wonosobo sheep blood in various physiological
conditions. Buletin Peternakan [Internet]. 2022; 46(3):169-178.
doi: https://doi.org/g8gxtq
[16] Nedeva I, Slavov T, Varlyakov I, Radev V, Panayotov D.
Haematological and blood biochemical parameters in Lacaune
dairy sheep. Bulg. J. Agric. Sci. [Internet]. 2019 [cited 10 Mar.
2024]; 25(Suppl. 1):91-95. Available in: https://goo.su/dHzsdNX
[17] Abdelsattar MM, Vargas-Bello-Pérez E, Zhang N. Age-related
changes in blood biochemical composition of Hu sheep. Italian
J. Anim. Sci. [Internet]. 2022; 21(1):1297-1306. doi: https://doi.
org/g8gxtr
[18] Nedeva I, Slavov T, Radev V, Panayotov D, Varlyakov I. Blood
biochemical profile as an objective measure of welfare in
Lacaune sheep. Bulg. J. Agric. Sci. [Internet]. 2022 [cited 10 Mar.
2024]; 28(2):324-330. Available in: https://www.agrojournal.
org/28/02-19.pdf
[19] Xulu TG, Ncobela CN, Kunene NW. Inuence of season and rangeland-
type on serum biochemistry of indigenous Zulu sheep. Open
Agric. [Internet]. 2022; 7(1):455–464. doi: https://doi.org/g8gxts
[20] Hamadeh ME, Bostedt H, Failing K. Konzentrationen
stoffwechselrelevanter Parameter im Blut hochgravider Schafe
[Concentrations of metabolically relevant parameters in the blood
of highly pregnant ewes]. Berl. Munch. Tierarztl. Wochenschr.
1996; 109(3):81-86. German. PMID 8721300.
[21] Vicente Pérez A, Avendaño Reyes L, Macías Cruz U, Aguilar
Quiñones A, Vicente Pérez R, Mellado M, Gatélum Delgado MÁ,
Correa Calderón A, López-Rincón G, Barajas Cruz R, Guerra Liera
JE. Evaluation of the biochemical and hematological proles
of feedlot hair sheep after the supplementation with generic
zilpaterol hydrochloride. Rev. Mex. Cienc. Pecu. [Internet]. 2020;
11(4):1208-1219. doi: https://doi.org/g8gxtt
[22] Souza DFD, Reers TSSS, Gilaverte S, Cruz TAD, Hentz F, Castilhos
BDQ, Dittrich RL, Monteiro ALG. Dynamics of biochemical
parameters in lambs during the rst four months of life. Rev. Bras.
Zootec. [Internet]. 2020; 49:e20190167. doi: https://doi.org/g8gxtv
[23] Zaitsev SY, Savina AA, Volnin AA, Voronina OA, Bogolyubova
NV. Comparative study of the water-soluble antioxidants in
fodder additives and sheep blood serum by amperometric and
biochemical methods. Animals [Internet]. 2020; 10(7):1186. doi:
https://doi.org/g8gxtw
[24] Megerssa YC. Stability of Some Biochemical Parameters in
Sheep and Goat Serum Stored at – 20°C. Vet. Med. Res. Rep.
[Internet]. 2022; 13:323-328. doi: https://doi.org/g8gxtx
[25] Bekeová E, Elečko J, Hendrichovsky V, Choma J, Krajničáková M.
Vplyv beta-karoténu na koncentrácie tyroxínu a cholesterolu u telných
jalovíc pred pôrodom a po pôrode [The effect of beta-carotene on
thyroxine and cholesterol levels in pregnant heifers before and after
parturition]. Vet. Med. (Praha). 1987; 32(8):459-468. Slovak
[26] Krajničáková M, Kovac G, Kostecký M, Valocký I, Maraček I,
Šutiaková I, Lenhardt L. Selected clinic-biochemical parameters
in the puerperal period of goats. Bull. Vet. Res. Inst. Pulawy.
2003; 47(1):177-182.
[27] Watson TDG, Burns L, Packard CJ, Shepherd J. Effects of
pregnancy and lactation on plasma lipid and lipoprotein
concentrations, lipoprotein composition and post-heparin lipase
activities in Shetland pony mares. J. Reprod. Fertil. [Internet].
1993; 97(2):563-568. doi: https://doi.org/dww7tz
[28] Iriadam M. Variation in certain hematological and biochemical
parameters during the peri-partum period in Kilis does. Small Rumin.
Res. [Internet]. 2007; 73(1-3):54-57. doi: https://doi.org/bp2xtv
[29] Sarmin S, Winarsih S, Hana A, Astuti P, Airin CM. Parameters of
blood biochemistry in different physiological status of fat-tailed
sheep. AIP Conf. Proc. [Internet]. 2021; 2353(1):030070. doi:
https://doi.org/g8gxtz
[30] Aksoy NH, Karaşahin T, Dursun Ş, Akbulut NK, Haydardedeoğlu
AE, İlgun R. Büyükleblebici O. Versatile analysis of some
biochemical and hematological parameters of sheep. J. Adv.
VetBio. Sci. Tech. [Internet]. 2021 [cited 20 Mar. 2024]; 6(2):130-
141. Available in: https://goo.su/PiDe3c
[31] Tanritanir P, Dede S, Ceylan E. Changes in some macro minerals and
biochemical parameters in female healthy siirt hair goats before
and after parturition. J. Anim. Vet. Adv. [Internet]. 2009 [cited 27
Mar. 2024]; 8(3):530-533. Available in: https://goo.su/ISDnaC
[32] Abdelrahman MM. The effect of high calcium intake by
pregnant Awassi ewes at late gestation on minerals status and
performance of ewes and newborn lambs. Livest. Sci. [Internet].
2008; 117(1):15-23. doi: https://doi.org/bncsv9
