International journal of Rural Development, Environment and Health Research(IJREH) https://dx.doi.org/10.22161/ijreh.1.3.4
[Vol-1, Issue-3, Sep-Oct, 2017] ISSN: 2456-8678
Dynamics of Proteolytic Activity of Trematodes in Livers of Sheeps and Cows of Guba - Gusar Zone of Azerbaijan Sh. A. Topchiyeva, J.V. Hasanova, F.Z. Mammadova, А. А. Namazova, S.M. Mammadova 1
Institute of Zoology of NAS of Azerbaijan, Baku Adress: AZ1073,Baku,Sabail,Abbasgulu Abbaszadeh,115 Abstract— The article presents the data of experimental studies of the proteolytic activity of trematodes in livers of sheeps and cows of Guba – Gusar zone of Azerbaijan. Determination of the enzymatic activity was carried out spectrophotometrically using a Folin reagent on a Specol 1500 spectrophotometer (Analitik Jena). As a result of the experimental work, maximum peaks in the intensity of proteolytic activity of nematodes isolated from liver of sheep and cows were detected. The maximum enzyme activity was reached in March, which corresponded to 180 and 140 μg of tyrosine per gram of wet weight of the helminth, and the minimum was reached in June reaching a value of 55 and 75 μg of tyrosine per gram of green weight of the helminth isolated from the liver of sheep and cows, respectively Keywords— proteolytic activity, trematodes, sheeps, cows. I. INTRODUCTION Parasitic diseases represent a serious social and economic problem for the community. Multidimensional studies prove that the extent of the spread of invasions throughout the world is increasing, despite all attempts to conduct a a complex of activities for their elimination with the use of modern antiparasitic drugs [15, 16, 17, 18]. Around the world, diseases of farm animals have a negative impact on the production of livestock products. Parasitic diseases cause enormous economic damage. In recent years, significant progress has been made in the therapy and prevention of invasive diseases. However, the damage caused to livestock by parasitosis continues to be significant. High concentration of animals in limited areas, the use of pastures in lowland, marshy areas create optimal conditions for intensive infection of cattle with various helminthes. Often they cause associative invasive diseases in the organism of animals [7-10].
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Internal parasites or ‘worms’ impact significantly on the production efficiency of Victorian cattle herds, causing disease, reducing growth rates and sometimes causing death. Internal parasites include tapeworms (cestodes), roundworms (nematodes) and flukes (trematodes). Liver fluke and roundworms cause the biggest problems for Victorian producers [15]. It has been established that effective control of animal helminthiasis is most effective at the knowledge of their epizootology in each climatic and geographical area with the compilation of epizootic maps [11]. It is noted that the development of epizootic process is affected by ecological components such as: conditions of pastures and water reservoirs, weather and climate especially in current pasture season; therefore it is necessary to conduct the antiparasitic treatment. Nematodes are pathogenic parasites, causing disease in the host. Usually they live in the digestive system of the host. Haemonchus contortus attaches to the wall of the abomasums in sheep and goats, feeding on the host’s blood, causing aneamia. Other nematodes usurp the nutrients eaten by the host, causing weight loss [16]. One of the important factors determining the degree of spread and intensity of invasions is the season and the climatic conditions of farms. In the literature, data are given on the extent of the invasion, depending on climatic conditions. The difference in invasiveness is explained by unequal conditions of detention, the degree of contamination of keeping and feeding areas of animals. The isolation of invasive elements in their opinion is dependent on the condition of the host organism, feeding, habitat conditions and abiotic factors. All these factors affect the viability of helminthes in the external environment and the host organism [13, 14] It is noted that the increase in the physiological activity of parasites and the mass maturation of most of them occur in the spring and summer and in a lesser degree in the autumn. [2, 3, 4].
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