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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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20196
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Subject: Entomology × End date: 2019 × Start date: 2019 × Type: Thesis × Thesis Type: Ph.D ×
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    ThesisItemOpen Access
    Determination of pollen trapping frequency, pollen collection and hoarding behaviour in Apis mellifera L. colonies
    (CCSHAU, Hisar, 2019-09) Dalal, Pradeep Kumar; Yadav, Sunita
    With a view to explore the potential of pollen load trapping as subsidiary occupation among Indian beekeepers, the present investigations were carried out in 3 seasons (mustard bloom at Hisar and Kaul; multi-floral season at Kaul) during 2016-17 and 2017-18 to determine the optimum pollen trapping frequency that allow economically viable pollen collection as well as sufficient honey production and colony development. Fifteen colonies each of high (12-frame) and medium strength (8-frame) were put to five pollen trapping frequencies viz. daily, alternate days, 3 days, weekly and without trapping (control). The floral biology of dominant flowering crop under different seasons revealed that each flower of mustard, Brassica campestris and Egyptian clover, Trifolium alexandrium offered floral resources to A. mellifera bees for a period of 3 and 3.9 days, respectively. Mean pollen collection from high and medium strength colonies was 14.9 and 8.1 g/colony/day, translating to 1.98 and 1.09 kg/colony, respectively in mustard season. Pollen collection increased with increasing order of trapping frequencies. Pollen collection from high strength colonies from mustard was more in daily pollen trapping (25.3 g/colony/day) followed by alternate (18.4 g), 3 days (17.1) and weekly trapped colonies (14.0 g/colony/day). Similar trend was noticed for medium strength colonies on mustard bloom and multi-floral season, indicating direct relationship of pollen trapping with pollen load collection. Botanical diversity of pollen loads was estimated by employing 3 methods viz. visual, segregation on colour basis and haemocytometer method. Melissopalynological analysis identified 11 pollen types, yellow coloured B. campestris pollen being major source both at Hisar and Kaul comprising >50% of total pollen loads. During multi-floral season (Mar-Apr), white coloured pollen loads from weed, Ageratum conyzoides were in majority during initial phase and T. alexandrium in final phase. Crude protein and calorific value of B. campestris was 24.3% and 367.1 Kcal/100 g while values for A. conyzoides and T. alexandrium were 16.0 and 23.8% and 422.6 and 418.9 Kcal/100 g, respectively. Impact of different pollen trapping frequencies was studied on colony traits viz. honey, nectar, and pollen store, brood area, drone numbers, etc. During mustard bloom, in daily trapping the honey area depleted in high strength colonies (-5.0%) while in medium strength grew by 43.0%. Alternate trapping of high strength and 3 days trapping of medium strength colonies allowed honey area to expand by 95.3 and 73.1%, respectively over season. During multi-floral season, honey area dipped uniformly irrespective of trapping frequencies. Brood development suffered as a result of daily pollen trapping during mustard bloom as high and medium strength expanded by -2.9 and 11.0%. Under alternate trapping of high and 3 days trapping medium strength colony the brood area grew by 22.5 and 49.6%, respectively. During multi-floral season, shortage of good quality major floral source, led to reduction in total brood area across all trapping frequencies. Daily trapping of high strength colonies led to depletion of pollen store area (-24.7%) in colonies which triggered them to additionally recruit maximum proportion of foragers (29.0%) for pollen collection from existing foraging force, impacting other colony functions. Similarly medium strength daily trapped colony recruited additional pollen foraging force of 25.6%. Experimental colonies were also categorized based on pollen hoarding behavior and their sensitivity to hygiene. A total of 14 colonies possessed high pollen hoarding behaviour out of 90 colonies tested during all the season. Moderately sensitive (MS) trait alongside high pollen hoarding character was found in only one of the total lot of colonies. Overall analysis including economics suggested alternate trapping of high strength colonies as more remunerative in comparison to other trapping frequencies with adequate pollen yield, optimum colony growth and honey production with additional economic returns of Rs 264.9 per colony. Among medium strength colonies, 3 days pollen trapping was relatively better with net income of Rs 4.9 as per colony in addition to prolific honey production and brood development.
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    ThesisItemOpen Access
    Studies on molecular variability in whitefly, Bemisia tabaci (Gennadius) population in cotton and its management
    (CCSHAU, Hisar, 2019-06) Roomi Devi; Yogesh Kumar
    The present investigation was carried out at CCS Haryana Agricultural University, Hisar during Kharif seasons of 2017 and 2018. A survey of cotton growing areas was done in north region of India viz. Haryana, Punjab and Rajasthan and whitefly samples were collected to find out the molecular variation among whitefly. MtCOI gene specific primers were used to amplify the mtCOI gene segment of extracted DNA of whitefly. Screening of forty cotton genotypes were done against whitefly and level of resistance was further correlated with different biochemical and morphological traits. Different crops like sorghum, bajra, pigeon pea, cowpea and sesame were grown as intercrops with cotton to know their effects on whitefly population. Efficacy of different pesticides were tested against whitefly. For this two spray were done at ETL and data was recorded before spray and 1st, 3rd, 7th and 10th DAS. Results revealed that in all the samples mtCOI gene segment were amplified at 1000bp band. Sequences were generated from these samples and aligned along with reference sequences all over the world representing seven different clades of B.tabaci to analyse phylogenetic relationship. It was found that our sequences belong to Asia II-1 and clustered in clade of representing Asia II-1 biotype from Northern region of India. During both the years population of whitefly commenced in month of June (24th SMW) and continued till harvest of crop (41st SMW) with two peaks. Observations during Kharif 2017, 2018 and pooled analysis of both the years showed that maximum population was recorded in ARBH 1601 (15.81, 9.76, 12.79 adults/leaf) and minimum in HS 286 (10.03, 5.21, 7.62 adults/leaf), respectively. Whitefly population showed significant negative correlation with maximum temperature and significant positive with morning relative humidity. Population of whitefly showed significant and positive correlation with total sugar content, trichomes density while non significant and positive with protein and chlorophyll content. Significant and negative correlation with phenol, tannin and leaf thickness. Intercropping system revealed significant suppression in all the intercropped treatments over the sole cotton crop. Pooled mean of both the years revealed that minimum population was recorded in cotton intercropped sorghum (3.69 adults/leaf) and maximum in sole cotton (10.82 adults/leaf). Pooled mean of both the years 2017 and 2018 showed that the flonicamid 50% WG @ 150 g/ha (68.65%) was the most effective insecticide while Verticilium lecanii 1.15WP @ 2.5kg/ha (41.11%) was least effective.
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    ThesisItemOpen Access
    Pollination efficiency of Apis mellifera L. colony placement modes under protective environment and field conditions
    (CCSHAU, Hisar, 2019-05) Rinku; Chaudhary, O.P.
    The present research was conducted at department of Vegetable Science (bitter gourd, IPNH) and Horticulture (strawberry, NVPH), CCS Haryana Agricultural University, Hisar. Four honey bee colony placement modes viz. i) bee colony permanently inside enclosure, ii) colony inside enclosure with dual entrance, iii) colony inside enclosure on alternate days, and iv) colony replacement after weakening were further evaluated with three other treatments namely hand pollination (HP), without bee pollination (WBP) and crop grown in open field conditions (open pollination, OP) for two commercial crops, one vegetable- bitter gourd (under insect proof net house) and a fruit- strawberry (under naturally ventilated poly house) for two crop seasons. A. mellifera pollination units comprised of 3-frame colony that were introduced at the initiation of flowering in enclosures. In bitter gourd conditions under enclosures prompted early flowering (30-31 days) and prolonged flowering (88-89 days) compared to crop in open pollination (40 days, spread over 76 days). Hymenopterans (63.35%) dominated with four Apis honey bees (26.49%) and individually A. mellifera visiting from nearby apiary was most dominant (14.42%) while six non Apis hymonopterans comprised of 36.88% of all floral visitors. A. mellifera foragers in exhibited higher foraging rate as they visited higher number of flowers (5.3-7.1 min-1) compared to open field conditions (4.0 min-1). A pistillate flower produced 4.12 fold higher DNS (0.907 mg/flower) than staminate flower (0.221 mg/flower). Superior fruit quality was obtained in terms of length, breadth, volume, weight, TSS, acidity of fruits in treatments under enclosures supplemented with honey bee colonies as compared to open field conditions. Maximum yield was obtained in treatments under enclosures ranged from 19783.14-33816.33 kg/hac while remarkable lower yield in WBP (4033.29 kg/ha), open pollination (8849.91 kg/ha) and hand pollination (17549.82 kg/ha). Colony with dual entrance and colony permanently inside the encloure treatments are recommended as they fulfil the dual aim of optimum pollination under the enclosures as well as strong colony growth during the entire period of flowering. In strawberry with total flowering period of 78-89 days visited by a total of 17 floral visitors dominated by Hymenoptera (71.13%) comprising of four Apis bees (45.81%) and six individual non-Apis bees (25.32%). Foraging rate of A. mellifera was higher inside enclosures (5.3-5.8 min-1) compared to open field conditions (3.3 min-1). The mature 3 day old flowers (DOF) produced maximum DNS (5.503 mg/flower) and lower amounts were produced in 4 (3.961 mg), 2 (3.826 mg) and 1 DOF (2.697 mg/flower). Maximum DNS was produced by strawberry flowers grown under open field conditions (4.279 mg/flower) than under enclosures (3.922-3.981 mg/flower). Maximum fruit yield were obtained when bee colony was kept permanently inside enclosure (0.727 kg/picking, 18.18 kg/plot and 0.606 kg/plant) followed by colony dual entrance (0.697 kg/picking, 17.43 kg/plot and 0.606 kg/plant) while in absence of pollination, minimum yields per picking (0.343 kg), plot wise (8.58 kg) as well as per plant basis (0.286 kg). Quantitative yield increase was matched by corresponding increase in quality traits of fruit dimension, volume, weight, achene numbers, TSS, acidity, ascorbic acid and anthocynin content in different pollination treatments. Colony with dual entrance and colony permanently inside the enclosure treatment with higher quantitative and qualitative yields and strong colony strength likely ensure optimum pollination of strawberry fruits during the long flowering season under enclosures
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    ThesisItemOpen Access
    Role of insect pollinators towards yield attributing parameters of sesame (Sesamum indicum Linnaeus)
    (CCSHAU, Hisar, 2019) Rao, Kavadana Sankara; Yogesh Kumar
    The present investigation entitled “Role of insect pollinators towards yield attributing parameters of Sesame (Sesamum indicum Linnaeus)” was carried out at Research farm and Apicultural laboratory, Department of Entomology, CCS Haryana Agricultural University, Hisar on the two promising cultivars, HT-1 and HT-2 during Kharif of 2017 and 2018. Flowers of the both cultivars had the similar floral biology in relation to different floral parts which essentially consisted of five sectioned calyx (5-6 mm), five lobed corolla (26-36 × 10-23 mm), two pairs of stamens, gynoecioum with superior ovary (3-7 mm) and characteristic extrafloral nectaries at base of pedicel. Flowers were found to be visited by a total of 34 insect species belonging to four orders and 18 families. Hymenpoterans occupied the dominant share (62 %) followed by lepidopterans (17 %), dipterans (12 %) and coleopterans (9%). Among them, 17 species were reported to be frequent visitors where A. dorsata was the abundant species with an abundance of 4.76, bees/ m²/5 min (26.92 %) and it was followed by A. mellifera, M. lanata and A. florea with abundance of 2.34 (13.20 %), 2.23 (12.58 %) and 1.32 (7.44 %) bees/m²/5 minute, respectively, whereas Coelioxys sp., A. cingulata, Compsomeriella sp., and X. iridipennis were found be the least abundant species. Insect visitors/ pollinators had followed the unimodal diurnal activity pattern with single visiting peak at 1000 -1200 hours. With pertaining to foraging behaviour, A. dorsata had highest working duration (11.09 hours) and it was followed by A. mellifera, A. cerana, M .lanata and M. cephalotes. The overall mean foraging rate was found to be maximum in M. cephalotes (5.65 flowers/ minute) and M. lanata (5.54 flowers /minute) than other recorded species, meanwhile the foraging speed was recorded highest for C. smaragdula (11.84 seconds/ flower) and A. florea (8.43 seconds/flower). The pollination index computed revealed the high pollination efficiency of social honey bees over the solitary bees. The average dry nectar sugar present in a single flower varied from 0. 205 to 0.542 mg and significantly the peak production were recorded at 1000 - 1200 hours. Both varieties profoundly responded to different modes of pollination, where significant improvement of various qualitative and quantitative yield traits of S. indicum registered in bee pollination treatments than open pollination and without insect pollination treatments. The present study also proved the utility of sesame as resource crop for beekeeping.
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    ThesisItemOpen Access
    Population dynamics and management of major insect-pests on cabbage
    (CCSHAU, 2019) Purti; Rolania, Krishna
    The present studies on population dynamics and management of insect-pests on cabbage were conducted at Experimental Area, Department of Entomology, CCS Haryana agricultural University, Hisar during 2017-18 and 2018-19. The population dynamics studies of major insect-pests revealed that the peak population of diamondback moth (Plutella xylostella), semilooper (Trichoplusia ni) and aphid (Brevicoryne brassicae) was observed in 11th and 12th SMW (Standard Meteorological Weeks) last week of March, 2017-18 and 2018-19 whereas, the peak population of cabbage butterfly (Pieris brassicae) was observed in 13th SMW i.e., first week of April in both the years. The correlation studies revealed that the population of diamondback moth, semilooper and aphid had a positive and significant correlation with maximum and minimum temperature and negative but significant correlation with morning and evening relative humidity during 2017-18. In 2018-19 the population of diamondback moth and aphid had a positive and significant correlation with maximum temperature and sunshine hours and negative but significant correlation with evening RH in both the years. Population of semilooper showed the positive and significant correlation with temperature (both maximum and minimum) and sunshine hours and negative but significant correlation with relative humidity (both morning and evening) in both the years. Coccinellids, syrphid fly and spiders were recorded as natural enemies along with the population of insect-pests. Peak incidence of natural enemies was recorded in 12th and 13th SMW i.e., last week of March and 1st week of April. The efficacy studies of insecticides showed that the lowest population of diamondback moth, semilooper and cabbage butterfly was observed in chlorantraniliprole 18.5 SC @ 50 ml and the highest population of these pests was observed in nimbecidine 0.03 EC during both the years. While in the case of aphids malathion 50 EC proved to be the best insecticide and Bacillus thuringiensis was proved to be the least effective insecticides in reducing the population of pest in both the years. The cumulative effect of all the treatments indicated that the maximum yield was recorded in chlorantraniliprole 18.5 SC @ 50 ml i.e., 194.70 q/ha (pooled) and the lowest in nimbecidine 0.03 EC i.e., 157.70 q/ha (pooled). The IPM modules studies revealed that module M2 was proved to be the effective module against diamonback moth, semilooper and cabbage butterfly during both the years with 3.41, 1.01 and 17.18 larvae/plant, respectively followed by module M3 which recorded 3.51, 1.13 and 18.74, respectively. Module M1 proved to be the least effective module (4.10, 1.24 and 19.14 larvae/plant, respectively) but superior over control. In case of aphid, module M3 was the most effective module followed by module M1 (11.59 aphids/plant). Module M2 (11.91 aphids/plant) proved to be the least effective module but effective over control. The cumulative effect of two years data revealed that the maximum yield was recorded in module M2 (198.90 q/ha) statistically at par with module M3 (191.64 q/ha) and the lowest yield was recorded in module M1 (183.14 q/ha). The residues of chlorantraniliprole 18.5 SC (50 ml and 100 ml/ha) and malathion 50 EC (1 L and 2 L/ha) were determined at different intervals i.e., 0 (1 hr), 3, 5, 7, 10 and 15 days after application of insecticides. Chlorantraniliprole 18.5 SC was dissipated faster than malathion 50 EC. The residue level of malathion was found below MRL (Maximum Residue Limit) i.e., 3.0 mg kg-1on 0 day at single and double dose whereas, the residue level of chlorantraniliprole was found below MRL i.e., 0.03 mg kg-1 after 7th day at single dose and after 10th day at double dose.
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    ThesisItemOpen Access
    Population dynamics, effect of intercropping in relation to sowing time and efficacy of insecticides against major insect-pests of chickpea
    (CCSHAU, 2019) Chitralekha; Yadav, G.S.
    A two year study (2015-16 and 2016-17) on effect of different management practices such as date of sowing, intercropping and insecticides application and weather variables on population dynamics of Helicoverpa armigera, Spodoptera exigua and Autographa nigrisigna attacking chickpea crop in Haryana, India was conducted at CCS Haryana Agricultural University, Hisar. Residues of lambda-cyhalotrin and novaluron in chickpea pods and grains at recommended and double the recommended dose were also estimated. It was found that date of sowing had significant effect on population of these pests. The larval population of all the three pests was comparatively higher in late sown crop (i.e. sowing done on 15th and 30th November) than in early sown crop (i.e. sowing done on 15th and 30th October). Population of these pests in all the sowing dates generally reached their peaks during the 12th Standred Meteorological Week (SMW) after which there was decline in population. Population of all these pests exhibited significant positive correlation with temperature and sunshine hours during both the the years. Pooled data of the two years indicated that intercropping chickpea with other crops such as coriander, mustard, linseed and barley harboured lesser population of these pests than when intercropped with other crops. Minimum larval population of H.armigera (3.05 larvae/meter row length), S. exigua (1.37 l/mrl) and A. nigrisigna (1.69 l/mrl) were observed in intercropping combinations of chickpea + coriander, whereas maximum in chickpea + fenugreek combinations, being 4.15, 1.73 and 2.04 l/mrl. Among the various insecticides evaluated against these pests, chlorantraniliprole 18.5 EC at 25 g a.i./ha and novaluron 10 EC at 37.5 g a.i./ha proved to be most promising insecticides in reducing larval population, pod damage and increasing grain yield. Residues of lambda-cyhalothrin in chickpea pods and grains at double the recommended dose i.e. 50 g a.i./ha were below maximum residue limit (MRL) while that of novaluron i.e. 75 g a.i./ha above MRL.