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Chaudhary Charan Singh Haryana Agricultural University, Hisar

Chaudhary Charan Singh Haryana Agricultural University popularly known as HAU, is one of Asia's biggest agricultural universities, located at Hisar in the Indian state of Haryana. It is named after India's seventh Prime Minister, Chaudhary Charan Singh. It is a leader in agricultural research in India and contributed significantly to Green Revolution and White Revolution in India in the 1960s and 70s. It has a very large campus and has several research centres throughout the state. It won the Indian Council of Agricultural Research's Award for the Best Institute in 1997. HAU was initially a campus of Punjab Agricultural University, Ludhiana. After the formation of Haryana in 1966, it became an autonomous institution on February 2, 1970 through a Presidential Ordinance, later ratified as Haryana and Punjab Agricultural Universities Act, 1970, passed by the Lok Sabha on March 29, 1970. A. L. Fletcher, the first Vice-Chancellor of the university, was instrumental in its initial growth.

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2012 - 20133
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Subject: Zoology × End date: 2014 × Start date: 2012 × Type: Thesis × Thesis Type: Ph.D ×
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    ThesisItemOpen Access
    To study the seasonal variation in growth, reproduction and vermicomposting efficiency of different earthworm species
    (CCSHAU, 2012) ANAND KUMAR; Sabhlok, V.P.
    Vermicomposting is a simple biotechnological process of composting, in which certain species of earthworms are used to enhance the process of waste conversion and produce a better end product. It is a mesophilic process, utilizing microorganisms and earthworms that are active at 10–32°C. The resulting vermicompost has been shown to have several positive impacts on plant growth and health. This organic fertilizer is therefore increasingly considered in agricultureand horticulture as a promising alternative to inorganic fertilizers and/or peat in greenhouse potting media. In presentstudies the direct and indirect effects of vermicompost on plant growth, as well as variability in the plant responses, were examined in pot experiment with chili, brinjal, okra, turnip and radish. Total five growth and yield parameters were recorded viz. height of plants, diameter of main stem, dry weight of whole plant (except fruit and roots), number of fruits per plant and total weight of fruits/seeds per plant and found better results. The effect of seasonal variation on the growth and reproduction was observed on different species of earthworms. The maximum numbers of cocoons, adults were recorded in E. fetida than P. excavatus and E. eugeniae. The rainy season was found to be better for the cocoon production and adult’s earthworm production in all the species as compared to the winter and summer seasons. The weight gain was recorded to be maximum i.e 1.90gm in case of E. eugeniaein rainy season and maximum length was 8.10cm in case of E. eugeniae as compared to E. fetidaand P. excavatus in rainy season. In present studies vermicompost was prepared from different agricultural wastes like wheat straw, millet straw, pulse brawn and mustard straw and were used as substrates for vermicomposting with a time interval at 0 day, 30 days, 60 days and 90 days. The changes in the micronutrients like nitrogen, potassium, phosphorus, organic carban, and C: N ratio was observed. In different agricultural wastes different changes in nutrients were found. It was found that nitrogen% in wheat straw:cow dung (in ratio 1:5) was found to be maximum i.e. 1.74%, in mustard straw 1.80%, in pulse brawn 1.91%, in millet straw 1.86%, in cow dung as control the nitrogen % was found to be 1.30% after 90 days. Potassium % was found to be 1.72% in wheat straw. In mustard it was 2.05%, in pulse brawn potassium % it was 1.53%, in millet straw it was observed to be 1.63% and in cow dung potassium % was found to be 1.07% after 90 days. Phosphorus wasfound to be maximum in wheat straw waste mixture. It was found to be maximum i.e 2.09% as compared to other wastes. The organic carban and C: N ratio was decreased in percentage after time interval during vermicomposting. In experiment I (2009- 2010) and II (2010- 2011). There were similar trend resuts were observed.
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    ThesisItemOpen Access
    To Study The Seasonal Variation In Growth, Reproduction And Vermicomposting Efficiency Of Different Earthworm Species
    (Chaudhary Charan Singh Haryana Agricultural University, College Of Basic Sciences And Humanities : Hisar, 2012) Kumar, Anand; Sabhlok, V. P.
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    ThesisItemOpen Access
    Damage potential of tetranychus urticae koch and its management in cucumis sativus linnaeus
    (CCSHAU, 2013) Kanika; Gulati, Rachna
    Studies on the seasonal incidence of Tetranychus urticae on cucumber revealed that mite attacked cucumber during summer months. Peak in T. urticae population was observed during first fortnight of August, 2011 (11.29 mites/sq cm leaf) and second fortnight of May, 2012 (9.71 mites/ sq cm leaf) under screen house conditions. Under field conditions, mite population peaked in the first week of August, 2011 (11.97 mites/ sq. cm leaf) and last week of May, 2012 (11.64 mites/ sq. cm leaf). Stage wise, grown up leaves harboured statistically higher number of mites as compared to tender and older leaves, both under screen house and field conditions. Among abiotic factors, T. urticae population showed positive correlation with maximum and minimum temperature, rainfall and wind velocity and negative correlation with relative humidity under screen house conditions. Under field conditions, T. urticae population was positively correlated with wind velocity. During 2012, it was negatively correlated with relative humidity and positively with maximum temperature. Investigations were carried out to access the damage potential of T. urticae at different initial infestation densities. Among the parameters recorded, population build up of mite, number of chlorotic patches on cucumber leaves, reducing sugars and stress measures (proline and total phenols) significantly increased in proportion to initial inoculation level as compared to control. Additionally, fruit number, length, width and weight, photosynthetic pigments (total chlorophylls, Chlorophyll-a, b, carotenoids), total sugars, non reducing sugars and mineral content (nitrogen, potassium and phosphorus) significantly decreased in response to varying initial inoculums of T. urticae as compared to control during 60 day study period. Under field conditions, highest reduction in T. urticae population was achieved with Omite (0.05%) followed by Nimbecidine (5ml/l), B. bassiana (1010 spores ml-1), Withania (7.5%), B. bassiana (108 spores ml-1), Liquorice (7.5%), Liquorice (5%), Liquorice (2.5%), Withania (5%) and Withania (2.5%). Higher yield of cucumber fruits was recorded in all the treatments as compared to control. In terms of percent increase in yield, omite caused highest increase (23.65% over control) followed by Nimbecidine, B. bassiana (1010 spores/ ml), Withania (7.5%), B. bassiana (108 spores/ ml), Liquorice (7.5%), Withania (5%), Liquorice (5%), Liquorice (2.5%), and Withania (2.5%) showing 13.97, 11.82, 10.75, 8.67, 8.67, 8.6, 6.76, 6.48 and 6.45 percent increase over control, respectively.