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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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2013 - 201952020 - 20236
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Subject: Botany × Start date: 2013 ×
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Now showing 1 - 9 of 11
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    ThesisItemOpen Access
    Efficacy of gibberellic acid and triacontanol on morpho-physiological, biochemical and anatomy of Sorghum bicolor L. under salt stress
    (CCSHAU, Hisar, 2023-09) Mehra, Indu; Tallapragada, Sridevi
    The present study entitled “Efficacy of gibberellic acid and triacontanol on morpho-physiological, biochemical and anatomy of Sorghum bicolor L. under salt stress,” was examined in the screen house during the kharif season of 2022. Prior to sowing, different salt stress levels (control, 4, 6, and 8 dS m-1) were maintained by saturating each pot. Sorghum bicolor L. seeds were planted in pots under screen house conditions on July 25th, 2022. Triacontanol was applied at concentrations of 10 ppm and 20 ppm, while Gibberellic acid was applied (200 ppm and 400 ppm) to both stressed and non-stressed plants of two genotypes (CSH20MF and CSH24MF). Sampling was conducted at 30 and 60 days after sowing (DAS). Growth parameters were examined. An inverse relationship was observed between these parameters and increasing salinity levels. Furthermore, anatomical leaf characteristics were improved following the application of Triacontanol and Gibberellic acid, counteracting the negative effects of salt stress. A similar pattern was observed in the relative water content under different salt levels. Total chlorophyll content, carotenoid content, gaseous exchange studies, chlorophyll index, and photochemical quantum yield also displayed a decreasing trend from the control to the highest salt level (8 dS m-1) in both genotypes. The application of Triacontanol and Gibberellic acid aids in maintaining the relative water content, increasing proline and glycine betaine content, enhancing gas exchange, ash content, chlorophyll index, total chlorophyll, carotenoid content, anthocyanin, flavonoid content, and promoting the activity of antioxidant enzymes regardless of salt stress in both genotypes. Conversely, the relative stress injury worsens with each increment of salt stress, but the application of Triacontanol and Gibberellic acid partially mitigates the adverse effects of salt stress. An increase in Na+ content and a decrease in K+ and Ca2+ content was observed under salt stress, whereas the opposite trend was observed after the application of TRIA and GA3. In sorghum genotypes CSH24MF and CSH20MF performed better under salt stress and exhibited a superior response in alleviating salt stress with the foliar application of 20 ppm of Triacontanol.
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    ThesisItemOpen Access
    Efficacy of jasmonic acid on morpho-physiological, biochemical and quality attributes of sorghum (Sorghum bicolor L.) under salt stress
    (CCS HAU, Hisar, 2022-07-16) Prakriti; Sridevi Tallapragada
    The present study entitled “Efficacy of jasmonic acid on morpho-physiological, biochemical and quality attributes of sorghum (Sorghum bicolor L.) under salt stress” was investigated in the screen house during the kharif season of 2021. Before sowing, the desired levels of salt stress (control, 5, 7.5 and 8 dS m-1) were maintained by saturating each pot. Seeds of Sorghum bicolor L. were grown in pots under screen house conditions on 16th July 2021. Jasmonic acid (4.5, 6.5 and 8.5 mM) was applied exogenously after 30 days after sowing (DAS) under stressed as well as non-stressed plants in both genotypes (HJ 541 and CSV 21F). Sampling was done at 40 and 60 DAS. Growth parameters decreased with increasing levels of salt stress, whereas foliar application of jasmonic acid enhanced the growth of plants. Similarly, anatomical parameters of leaf were enhanced after the application of jasmonic acid which were negatively affected by salt stress. Plant water relation, gaseous exchange studies, chlorophyll index and photochemical quantum yield also showed declining trend from control to 8 dS m-1 of salt level in both genotypes, but more percent decrease was observed at 8 dS m-1 of salt stress like in ψw (46.66%), ψs (18.27), photosynthetic rate (31.80%), transpiration rate (14.60%) and stomatal conductance (44.41%) in HJ 541, over their respective control. The values ranged from 7.32 to 6.66, 27.37 to 23.32 and 54.51 to 50.83 in protein, fibre and in-vitro dry matter digestibility, respectively, at 8 dS m-1 of salt stress in CSV 21F at 40 DAS. Application of JA help in the maintenance of plant water status, enhanced the exchange of gases and chlorophyll index irrespective of salt stress in both genotypes. Reversibily, electrolyte leakage and ash content enhanced with every increment of salt stress but application of JA ameliorate the adverse effect of salt stress to some extent. Increment in Na+ but a decrease in K+ and Ca2+ content was noted under salt stress. While, the reverse trend was noticed after application of JA. In nut shell, sorghum genotypes CSV 21F and HJ 541 performed better under salt stress and showed better response in alleviating salt stress with foliar application of 8.5 mM jasmonic acid.
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    ThesisItemOpen Access
    Response of jasmonic acid for alleviating cadmium (Cd) toxicity in Brassica spp. (Brassica napus, Brassica juncea)
    (CCS HAU, Hisar, 2022-07-22) Sajid Khan; Sridevi Tallapragada
    The present study entitled “Response of jasmonic acid for alleviating cadmium (Cd) toxicity in Brassica spp. (Brassica napus, Brassica juncea)”. was investigated in the screen house during the Rabi season of 2021. Before sowing, the desired levels of cadmium stress (Control, 14 mg/kg, 21 mg/kg) were maintained by saturating each pot. Jasmonic acid (5 μmol L-1, 10 μmol L-1, and 20 μmol L-1) was applied exogenously after 30 days after sowing (DAS) under stressed as well as non-stressed plants in both genotypes (RH 725 and HNS 0901). Sampling was done at 45 DAS. Seeds of Brassica spp. were grown in pots (three plants per pot) under screen house conditions on 15th October 2021. Growth parameters decreased with increasing levels of cadmium stress, whereas foliar application of jasmonic acid enhanced the growth of plants at sampling stages. Similarly, plant water relation, gaseous exchange studies, chlorophyll content (SPAD units) and oil content also showed declining trend from Control to 21 mg/kg of cadmium level in both genotypes. Per cent decrease was observed at 21 mg/kg of cadmium stress like in ψw (68.3%), ψs (52.2%), photosynthetic rate (30%), transpiration rate (25%) and stomatal conductance (29.2%) in RH 725 at 45 DAS, over their respective control. The values ranged from 31.66 to 24.47 and 81.27% to 60.95% of chlorophyll content (SPAD units) and RWC respectively, decreased at 21 mg/kg of cadmium stress in RH 725 at 45 DAS. In anatomical study it is observed that increase in cadmium level is responsible for decrease in stomatal frequency (23.9%, 30%) and stomatal index (25.9 9%, 29.01%) in RH 725 and HNS 0901 respectively at 21 mg/kg of cadmium stress. Foliar application of jasmonic acid is responsible for slightly increase in stomatal frequency and stomatal index at its maximum value (20 μmol L-1) in both genotypes at 45 DAS. Application of JA help in the alleviation of plant water status, exchange of gases and chlorophyll pigment irrespective of cadmium stress in both genotypes at 45 DAS. Reversibly, ash content and ECe show increase along different cadmium level. Seed yield decline significantly by decreasing yield attributing characters i.e., siliqua per plant, seed per siliqua, biological yield under cadmium stress. Reduction in seed yield was ranged from 4.55 to 3.14 in RH 725 and 4.16 to 2.58 in HNS 0901 at 21 mg/kg. Uptake of cadmium from soil increase along with increase in cadmium level 14 mg/kg to 21 mg/kg is 1144.50 μg/pot to 1450 μg/pot in RH 725 and 1025 μg/pot to 1224.8 μg/pot in HNS 0901. JA is showing an alleviating effect against cadmium uptake from soil and decrease cadmium uptake in plant. Conclusively, based on the above studies, it can be concluded that after foliar spray of JA, RH 725 performed better under cadmium stress by maintaining higher plant growth, water status, photosynthetic rate, seed yield, biological yield. JA treatments not only mitigate the negative effect of cadmium stress on plants, but also showed, a stimulating effect and 20 μmol L-1 JA was found more effective than 10 μmol L-1 at 45 DAS.
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    ThesisItemOpen Access
    Wide hybridization and embryo rescue for pre breeding in Indian Mustard
    (CCSHAU, Hisar, 2022-10) Anjali; Lakra, Nita
    The present study was conducted to develop hybrid between Brassica juncea cv. RH 725 taken as a female parent and Sinapis alba genotype DRMR 2183 taken as a male parent with the help of embryo rescue because hybrid embryo usually abort at early stages. The pod setting was 40%. The hybrid siliquae were intermediate in size with respect to the parent plant with an average length of 3.44 cm. The average length of siliquae in B. juncea cv. RH 725 was 4.85 cm and in Sinapis alba the average length was 1.92 cm. Developing ovules were used as an explant and cultured on Murashige and Skoog‟s medium supplied with optimum concentration of different growth regulators. Maximum no. of ovules germinated after 25-30 days of inoculation. Maximum shooting response (48.33%) was observed on MS medium supplemented with MS + BAP (2.5mg/l) + CH (0.5g/l) and maximum rooting response was observed on MS + IAA (0.5 mg/l) i.e. 57.17%. After hardening in a mixture of sterilized sand: soil (1:1), 22% plants successfully moved to green house.
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    ThesisItemOpen Access
    Study on sustainability and survival rate of in–vitro propagated sugarcane under green house conditions
    (CCSHAU, Hisar, 2021-09) Shweta; Tallapragada, Sridevi
    The investigation was carried out to study the effect of different energy sources and gelling agents on in vitro multiplication and rooting response on sugarcane cultivar Co-89003. For in vitro multiplication plant cultures were inoculated on MS media supplemented with various sugars (fructose, sucrose, glucose, table sugar and maltose) and gelling agents (agar-agar, agarose, gelrite, guargum and isabgol). The maximum shoots (11.5±0.23 and 9.7±0.23) were observed on medium enriched with table sugar and agrose, respectively. And the maximum shoot-length (7.1±0.39 cm and 7.1±0.51cm) was noticed in sucrose and agar –agar media on after 28th day of inoculation. The very good growth/ rooting (+++++) was observed on ½ MS media supplemented with sucrose and gelrite. Then well rooting plantlets were transplanted into pots containing various compositions of soil, sand, vermicompost, FYM, coco pit and perlite for acclimatization. The maximum and survival (100%) were observed in four different potting mix including sand : soil : FYM, Sand : Soil : Vermicompost, Sand : Soil : FYM : Vermicompost and Coco pit : Vermicompost : Perlite under green house conditions. Hardened plantlets were successfully transferred to the field conditions
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    ThesisItemOpen Access
    Evaluation of antagonistic effect of cell free culture filtrates of Rhizoctonia sp., anastomosis groups/sub-groups infecting Zea mays
    (CCSHAU, Hisar, 2021-08) Sumit; Vimla Singh
    The present study entitled “Evaluation of antagonistic effect of cell free culture filtrates of Rhizoctonia sp., anastomosis groups/sub-groups infecting Zea mays” was conducted during Kharif season of 2020 at CCSHAU, Regional Research Station Uchani, Karnal. Maize (Zea mays L.) is the most economically important cereal crops with a promising yield potential and industrial importance. Banded leaf and sheath blight (BLSB) disease caused by Rhizoctonia solani f.sp. sasakii is a devastating stress on Maize and which leads to huge monetary losses to the farmers. Single hypha tip culture of the isolates viz., Rs-Khp (Kohlapur), Rs-Rch (Ranchi), Rs-Bhw, (Bhuvneshwar), Rs-Kau (Kaul) and Rs-Lck (Lucknow) maintained on PDA plates and characterized for virulence profiles based on cultural, morpho metric and pathogenic variability. The R. solani isolates Rs-Khp, Rs-Kau and Rs- Lck were found to be virulent and comparatively more aggressive than isolates Rs-Rch and Rs-Bhw. Hyphal anastomosis studies showed that, weaker interaction of less virulent isolates with the more virulent isolates. Investigations on cross protective effects of cell free culture filtrates of weaker isolates in suppressing the virulent isolates was examined at dilutions 15% and 25%. Seeds pre-soaked in 15% dilution of culture filtrate showed better results in terms of reduction of severity of symptoms by 25%. However, satisfactory results with 25% dilution were not obtained. The findings reveal that culture filtrate of weaker isolated can serve to reduce yield losses due to severe isolates and such studies may be further undertaken at field level. Further, insight of mechanism of disease suppression may be studied to devise more accurate technique for minimizing losses due to BLSB.
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    ThesisItemOpen Access
    Morphogenetic and biochemical studies in callus cultures of devil’s thorn (Tribulus terrestris Linn.)
    (CCSHAU, 2013) Manogya; Goyal, S.C.
    Present investigation was carried out on Tribulus terrestris Linn. for the selection of suitable nutritive medium and explant for callus induction, growth and differentiation. In vitro studies were conducted with employing different explants viz. leaf, internode and node used for callogenesis and growth, node explant was found to be the best for callus induction and growth. Best callus growth was obtained on MS medium fortified with 2,4-D (2.0 mg/l) in combination with Kn (0.5 mg/l) depending on fresh and dry weight of callus. This callus selected for further studies of biochemicals and protein profile during differentiation. MS medium supplemented with BAP (3.0 mg/l) + NAA (1.5 mg/l) enabled the early regeneration of shoot from callus. Early root emergence from callus obtained on medium MS+NAA (2.0 mg/l). Biochemicals like starch and total soluble sugars decreased while reducing sugar, total phenol and total protein increased during root differentiation from callus. Enzyme activity viz. α- amylase, acid invertase, peroxidase and acid phosphatase increased during root differentiation. In shoot differentiating calli, all these metabolites were increased and enzyme activity of α-amylase and acid phosphatase increased while acid invertase and peroxidase activity decreased during shoot differentiation. SDS-PAGE studies revealed that there was synthesis of three root specific polypeptide bands with (MW 40.64, 19.23 and 11.81 kDa) and three shoot specific bands (MW 28.10, 17.02 and 12.46 kDa) during differentiation. MW 24.96 kDa and 21.20 kDa bands were common bands which disappeared during root and shoot differentiation. TLC analysis showed that the diosgenin and hecogenin were present in the calli as well as in natural fruits. They were further confirmed by IR spectroscopy. The incorporation of cholesterol in the medium was observed to be effective for the increased steroidal sapogenins (hecogenin and diosgenin) production in calli than natural fruits.
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    ThesisItemOpen Access
    Studies on the salt tolerance status of clusterbean [Cyamopsis tetragonoloba (L.) Taub.] and its improvement by in vitro methods by using ethylmethane sulphonate
    (CCSHAU, 2013) Deepika; Dhingra, H.R.
    Present investigation was conducted on clusterbean (Cyamopsis tetragonoloba (L).Taub.) var. HG 2-20 to study the effect of chloride dominated salinity on growth, development and yield attributes and to explore the possibility of induction of salinity tolerance through deployment of EMS. Seedling emergence, plant height, root length and its fresh as well as dry weights decreased with progressive increase in rhizospheric salinity. Membrane injury of leaves and roots, leaf succulence increased while relative water content and chlorophyll fluorescence decreased with salinity. Accumulation of soluble sugars and free proline in leaves with salinity is indicative of osmotic adjustment of leaves to some extent but decline in protein and starch content is possibly due to ion toxicity. Salinity decreased male fecundity conomittant with reduction in quantitative production of ovules. This is suggestive of female adjustment according to male fecundity and resource availability as evident from no change in the % ovules fertilized under saline conditions over control. Salinity decreased number of pods/cluster, number of pods/plant and number of seeds/pod. However percent pod set did not differ significantly upto 8dSm-1 and then decrease was evident at 12 dSm-1 level. Dry aerial biomass/plant was not affected significantly of 4dSm-1 salinity and it decreased with further increase in the level of rhizospheric salinity. Harvest index was not affected significantly by salinity upto 8dSm-1 level and then it declined at 12dSm-1 salinity. Seed yield/plant and seed quality in terms of starch, protein and guar gum content was, however deteriorated by rhizospheric salinity. Protein profile of leaves of guar plants raised under non-saline conditions showed polypeptide bands ranging from 67.61, 45.28, 29.12, 21.38 and 14.45 kDa. Among these, polypeptide bands of MW 45.28 and 14.45 kDa were present in leaves of salinized plants. Among various explants, cotyledonary node was found be the best explant and MSB5 medium + 2mgl-1 2,4-D and 1mgl-1 BAP supported best callus growth. Callus of cotyledonary node origin was compact, while those from other explants were fragile and forms suspension in EMS solution. BAP (1 and 2 mgl-1) alone supported 100% callusing from the cut end cotyledonary node while 2.0 mgl-1 BAP in combination with 1.5 mgl-1 NAA supported minimum callusing. Various permutation and combinations of plant growth regulators were used for regeneration from callus but could not be successful. Among different concentrations of salt, 200 mM NaCl was found to be the lethal. Culturing of EMS treated calli on NaCl adjunct medium showed no significant growth of callus upto 2.0h EMS treatment. An increase of duration of EMS treatment beyond 2.0h supported growth of callus which increased upto 3.0h and again declined with further increase in duration of EMS treatment. Fresh and dry weights of calli treated with EMS also increased upon raising on salt free medium over untreated ones. On the other hand, it decreased in untreated and treated calli (upto 2.0h duration) upon culturing on salt amended medium. EMS treatment of 2.5h and 3.0h duration improved callus growth on salt amended medium. EMS treatment in general increased starch, protein content, proline content and sodium content on salt amended medium over respective control while it decreased chloride content over respective control. Untreated subcultured callus, showed polypeptides of MW ranging 67.61, 66.07, 56.23, 50.12, 32.36 and 18.20 kDa, while the fresh callus showed 5 polypeptides of MW ranging 67.61, 50.12, 23.93, 21.38 and 13.80 kDa. NaCl induced new bands of MW 57.54, 28.18, 26.92 and 20.89 kDa while EMS treated calli for 2.5h and 3.0h and cultured on salt free medium showed polypeptide band of MW 56.23 and 32.36 kDa. Culturing of these calli on salt amended medium revealed presence of polypeptide bands of MW 67.61, 53.70, 50.12, 28.84, 20.89 and 18.62 kDa.
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    ThesisItemOpen Access
    Effect of salt stress on the morphophysiological, yield and quality parameters in isabgol (Plantago ovata Forsk.) genotypes
    (CCSHAU, 2014) Suraj Kala; Varshney, U.K.
    Effect of NaCl salt stress on the morpho-physiological, yield and quality parameters in four isabgol (Plantago ovata Forsk.) genotypes viz. GI-2, HI-96, PB-80 and HI-5 was studied under screen house conditions. All the genotypes were grown in the dune sand filled polythene bags with control (without salt), 5 and 10 dSm-1 EC level of NaCl salt solution along with nutrients. Sampling was done at vegetative (58 DAS), flowering (115 DAS) and maturity (150 DAS) stage of growth. Results revealed a significant reduction in various plant growth parameters at every growth stages with increasing salt stress. Root/shoot ratio remained indifferent with the increasing salt stress level up to flowering stage but an increase in the ratio was observed at the maturity stage. Both reproductive effort as well as reproductive capacity of all the isabgol genotypes decreased with increasing salt stress. Reduction in plant growth, in general was maximum in the genotype PB-80 and minimum in GI-2. Increasing salt stress caused reduction in various yield attributes in all the isabgol genotypes. Mucilage (%) as well as seed swelling factor of all the isabgol genotypes also significantly declined under salt stress. Decline in yield as well as quality parameters was highest in the genotype PB-80 and lowest in GI-2. On the other hand increasing EC level caused enhancement of RMI, lipid peroxidation and ROS content in all the isabgol genotypes. The increase was maximum in the genotype PB-80 and minimum in GI-2. Chlotrophyll, carotenoid, ascorbic acid and total soluble protein content in leaves of all the isabgol genotypes decreased with increasing salt stress level and maximum decrease was found in the genotype PB-80 and minimum in GI-2. An accumulation of proline and total soluble carbohydrate content in leaves of all the isabgol genotypes was detected with the increase of salt stress; increase being maximum in the genotype GI-2 and minimum in PB-80. The enhancement in the activity of antioxidant enzymes viz., CAT, SOD and POD with the increase of salt stress was also highest in GI-2 and lowest in PB-80 among all the genotypes. In the Protein profile of leaves of the genotype GI-2 three new protein bands of the MW 29.59, 54.95 and 55.72 kDa and in the genotype HI-96 two new protein bands of the MW 29.59 and 55.72 kDa were detected under salt stress. While in the genotype PB-80 one protein band of MW 30.06 kDa was disappeared and one new protein band of MW 43.65 kDa was appeared under salt stress. Genotype HI-5 showed three new protein bands of MW 43.65, 55.72 and 66.07 kDa and disappearance of one protein band of MW 32.36 kDa under salt stress. The de novo synthesis of new protein bands under salt stress could be responsible for induction of salt tolerance in isabgol genotypes. While in the genotype PB-80 and HI-5 disappearance of protein bands may be viewed as marker of their salt sensitivity. Sodium and chloride content in different plant parts of isabgol genotypes increased while potassium content decreased with increasing EC level. Maximum sodium and chloride content was found in the genotype PB-80 and minimum in GI-2. Potassium content on the other hand was highest in the genotype GI-2 and lowest in PB-80. Based on the overall performance of all the genotypes under present study with respect to various morpho-physiological, yield and quality parameters, the genotype GI-2 was found to be most tolerant and the genotype PB-80 least tolerant to salt stress. Relative order of salt tolerance of different isabgol genotypes was GI-2>HI-96>HI-5>PB-80.