1. KAUTIR (Kerala Agricultural University Theses Information and Retrieval)

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Subject: search.filters.subject.Meteorological observations

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    Evaluation of production performance in F strain of white Leghorn
    (Department of Poultry Science,College of Veterinary Science, Mannuthy, 1995) Beena C Joseph; Peethambaran, P A
    A study was carried out with ‘F’ strain of White Leghorn maintained at University Poultry Farm, Mannuthy in order to evaluate the production potential of the particular strain based on the part year performance. At the age of 18 weeks, 400 pullets belonging to four consecutive hatches were taken and housed in 100 multiple-bird cages of identical size at the rate of four hens per cage at random. Feed and water were given ad lib and the managemental practices were uniform for all cages. The production performance as well as meteorological observations were studied for five, 28-day periods from 21 to 40 weeks of age during the period from February through August 1994. Body weight at 20 and 40 weeks of age were recorded individually and the respective mean values were found out to be 944.05+ 8.86 g and 1346.67+ 12.19 g. The first egg in each cage was recorded and the mean age at first egg was 174.67+ 0.95 days. The mean ages at 10 and 50 per cent production in the flock were 178 and 196.5 days respectively. These values indicated very late maturity in the strain. The egg production was recorded as 56.73 eggs with 40.52 per cent on hen-housed basis and 57.09 eggs with 40.79 per cent on hen-day basis. The peak production was obtained at 32 weeks of age. The mean daily feed consumption was worked out as 93.83 g per bird. Feed efficiency worked out in terms of dozen eggs and kilogram egg mass were 2081 and 5.01 respectively. Egg weight at last three days in each period were indivitualy recorded and the overall mean egg weight for 21 to 40 weeks of age was 46.21 g. The total egg mass out put in the flock up to 40 weeks of age was 1044.07 kg with an average output of 2.61 kg per hen housed. Livability was found to be excellent (95.5 per cent ) in the strain. The mean of the maximum and minimum temperature recorded in the experimental house were 32.50 C and 26.120 C respectively. The mean per cent relative humidity was 76.67 in the F.N. and 69.18 in the A.N. On analysis of results, it was found that the body weight, egg production, feed consumption and egg weight are considerably low in this strain. There was poor uniformity in pullet body weight and also in age at sexual maturity. These traits can be improved if independent culling levels are fixed for body weight as well as for minimum rate of pay per bird. This strain can be improved further by applying selection for body weight at 20 weeks of age.
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    Temporal changes in the weather elements at Panangad region and their influence on the hydrography of a pond
    (Department of Fishery Hydrography, College of Fisheries, Panangad, 2004) Pronob Das; Raman, N N
    The present study was undertaken with a view to finding out the seasonal and diurnal changes of weather elements at Panangad region, seasonal and diurnal changes in the hydrographic parameters of a freshwater pond and finally to understand the possible influence of weather elements on hydrographic conditions of a pond during the four seasons viz. southwest monsoon season (June-September), post monsoon season (October-November), northeast monsoon season (December-February) and pre monsoon season (March-April) at the College of fisheries, Panangad, Cochin. Meteorological data were collected at 03 UTC (0830 IST) and 12 UTC (1730 IST) daily during the period from June 2003 to April 2004. Water samples were collected from a pond every fortnightly to analyse hydrographical parameters. To study the diurnal variation, 24-hour observation were taken at an interval of 3 hrs, once for each season. Meteorological observation includes air temperature, maximum temperature, minimum temperature, total rainfall, relative humidity, cloudiness, wind speed and direction. Hydrographic parameters like water temperature, pH, transparency, water level, total alkalinity, primary productivity, dissolved oxygen, nitrate, nitrite, phosphate and silicate were estimated. There was a considerable seasonal variation in water qualities. The surface temperature closely followed the air temperature and exhibits a clear double oscillation. Low pH values confined to the southwest monsoon period were due to heavy rainfall. pH showed a positive relation with air temperature. At higher temperature evaporation was more and water level decreased, which leads to the higher concentration of plankton bloom and low level of transparency. Presence of nutrient elements in optimum concentration and there by production of phytoplankton and algal bloom may be the possible reason for the high productivity during the northeast and pre monsoon periods. The low values of primary production during southwest monsoon period (June to September) and in October might be due to cloudy conditions before and during the sampling, which reduced light intensity, and along with incessant rains cut down production. The high concentration of alkalinity during pre monsoon may be due to decrease in water level due to evaporation. The effect of rainfall in decreasing bicarbonates is well known. Dissolved oxygen was at the highest level in ponds during colder months and was due to low temperature and intense photosynthetic activities. Subsequent fall of dissolved oxygen in pre monsoon period is attributed to the death and decay of plankton and presence of other organic matter. The plankton population in the pond was highest during the month of December/January to April, coinciding with the higher concentration of alkalinity and nutrients. Diurnal variations in water temperature, pH, dissolved oxygen, alkalinity and primary productivity were well marked. Among nutrients phosphate, nitrate and nitrite did not show any specific pattern, where as silicate concentration showed well-marked short-term variation in all seasons. Weather elements showed significant relationship with many hydrographical parameters and the variations might be due to the combined effects of all those factors. The influence may be direct or indirect. Among the weather elements the influence of air temperature and rainfall was most prominent. The seasonal and diurnal changes in weather elements were equally important for the changes in hydrographical parameters. Shallow water bodies quickly react to the changes in weather elements.