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Anand Agricultural University, Anand

Anand Agricultural University (AAU) was established in 2004 at Anand with the support of the Government of Gujarat, Act No.(Guj 5 of 2004) dated April 29, 2004. Caved out of the erstwhile Gujarat Agricultural University (GAU), the dream institution of Sardar Vallabhbhai Patel and Dr. K. M. Munshi, the AAU was set up to provide support to the farming community in three facets namely education, research and extension activities in Agriculture, Horticulture Engineering, product Processing and Home Science. At present there seven Colleges, seventeen Research Centers and six Extension Education Institute working in nine districts of Gujarat namely Ahmedabad, Anand, Dahod, Kheda, Panchmahal, Vadodara, Mahisagar, Botad and Chhotaudepur AAU's activities have expanded to span newer commodity sectors such as soil health card, bio-diesel, medicinal plants apart from the mandatory ones like rice, maize, tobacco, vegetable crops, fruit crops, forage crops, animal breeding, nutrition and dairy products etc. the core of AAU's operating philosophy however, continues to create the partnership between the rural people and committed academic as the basic for sustainable rural development. In pursuing its various programmes AAU's overall mission is to promote sustainable growth and economic independence in rural society. AAU aims to do this through education, research and extension education. Thus, AAU works towards the empowerment of the farmers.

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Subject: Veterinary Medicine × Author: RAVAL, SUNANT KANTILAL × End date: 1999 × Start date: 1990 × Type: Thesis ×
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    ThesisItemOpen Access
    EPIDEMIOLOGICAL SURVEILLANCE, CLINICO PATHOLOGY. DIAGNOSTIC AND TECHNOECONOMIC ASPECTS OF FASCIOLIASIS IN BUFFALOES
    (AAU, Anand, 1997) RAVAL, SUNANT KANTILAL; Patel, P. R.
    The epidemiological surveillance is a urgent need of today. The study was carried out from 1st January to 31st December, 1996 in the five villages of Anand district by visiting rural herd on a regular basis. In the present study the efforts were made to generate and analyse epidemiological data for fascioliasis from rural buffaloes. The epidemiological data on disease incidence in relation to season, meteorological factors. Physiological status, nutritional status, body condition score, housing and hygienic condition were analysed. The visit of the slaughter house was also made. The incidence of fascioliasis was 11.71 per cent in survey group and 22.26 per cent in slaughter group. The higher incidence was observed in August and September in both the group of buffaloes. A significant correlation was observed between the monthly incidence of fascioliasis in slaughtered and survey group. The lymnea species of snails was present in the nearby area of canals and ponds. Higher incidence was recorded in aged buffaloes (15.52 per cent) than young-esters below one year (3.10 per cent )whereas non-lactating buffaloes have more incidence of fascioliasis than lactating buffaloes. A positive significnat correlation of disease incidence with morning and evening relative humidity, minimum temperature has been noticed. A negative correlation of disease incidence with maximum temperature, pan evaporation and bright sunshine has been recorded. Clinically buffaloes suffering from fascioliasis were found to be weak, anorexic debilated, emaciated and having submandibular edema. On clinical observation respiration rate was increased and ruminal movements decreased in infected animals in compared to healthy animals. The respiration rate was higher in infected animals (26.90/minute) as compared to healthy one ( 16.30/minute) . Ruminal movements were also significantly decreased in infected animals (1.20/5 minutes) as compared to healthy one (3.08/5 minutes). The overall accuracy observed by faecal sample examination was 78.07 per cent. The egg count per gram of faeces was found to be in between 275 to 410. The haematobiochemical changes in blood and serum of infected buffaloes were investigated in comparison to healthy control, in both the groups. Infected buffaloes had low haemoglobin and erythrocyte count. The blood haemoglobin content in control group was 11.42±0.14 g/dl while in infected group it was 9.43±0.07 g/dl in survey group of animals.