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Dr. Rajendra Prasad Central Agricultural University, Pusa

In the imperial Gazetteer of India 1878, Pusa was recorded as a government estate of about 1350 acres in Darbhanba. It was acquired by East India Company for running a stud farm to supply better breed of horses mainly for the army. Frequent incidence of glanders disease (swelling of glands), mostly affecting the valuable imported bloodstock made the civil veterinary department to shift the entire stock out of Pusa. A British tobacco concern Beg Sutherland & co. got the estate on lease but it also left in 1897 abandoning the government estate of Pusa. Lord Mayo, The Viceroy and Governor General, had been repeatedly trying to get through his proposal for setting up a directorate general of Agriculture that would take care of the soil and its productivity, formulate newer techniques of cultivation, improve the quality of seeds and livestock and also arrange for imparting agricultural education. The government of India had invited a British expert. Dr. J. A. Voelcker who had submitted as report on the development of Indian agriculture. As a follow-up action, three experts in different fields were appointed for the first time during 1885 to 1895 namely, agricultural chemist (Dr. J. W. Leafer), cryptogamic botanist (Dr. R. A. Butler) and entomologist (Dr. H. Maxwell Lefroy) with headquarters at Dehradun (U.P.) in the forest Research Institute complex. Surprisingly, until now Pusa, which was destined to become the centre of agricultural revolution in the country, was lying as before an abandoned government estate. In 1898. Lord Curzon took over as the viceroy. A widely traveled person and an administrator, he salvaged out the earlier proposal and got London’s approval for the appointment of the inspector General of Agriculture to which the first incumbent Mr. J. Mollison (Dy. Director of Agriculture, Bombay) joined in 1901 with headquarters at Nagpur The then government of Bengal had mooted in 1902 a proposal to the centre for setting up a model cattle farm for improving the dilapidated condition of the livestock at Pusa estate where plenty of land, water and feed would be available, and with Mr. Mollison’s support this was accepted in principle. Around Pusa, there were many British planters and also an indigo research centre Dalsing Sarai (near Pusa). Mr. Mollison’s visits to this mini British kingdom and his strong recommendations. In favour of Pusa as the most ideal place for the Bengal government project obviously caught the attention for the viceroy.

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2015 - 201931
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End date: 2019 × Start date: 2015 × Thesis Type: Ph.D ×
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    ThesisItemOpen Access
    Molecular characterization and stability study in Indian mustard (Brassica juncea L.) genotypes under early and terminal heat stress
    (DRPCAU, Pusa, 2019) YADAV, SUMAN; PANDEY, ANIL
    Present study entitled “Molecular characterization and stability study in Indian mustard (Brassica juncea L.) genotypes under early and terminal heat stress” conducted under early-timely—late-sown environments during Rabi 2017-18 and 2018-19 at research farm of TCA Dholi. The twenty genotypes belonging to various geographic locations and diverse pedigree reflected their genetic worth for thirty five morpho-physio-biochemical traits exhibiting sufficient variability. PCV higher than GCV revealed varying environmental influence. High h2 bs and GAM for LMSI, TSS, PA & PC in early and terminal stress conditions showed preponderance of additive gene action. Positive and significant association of VPD, DFFO, D50%F & DPM while, negative with PAPD expressed their phonological inter-relationship and more usefulness of VPD & PAPD for terminal heat stress condition. SYP positively with HI, EL, CC & PH (and also between EL & CC); while, negative with H.T.E. (early & terminal heat stress); OC, SPB & PC (early-sown) whereas, SI & H.S.I. (late-sown). SI & H.S.I. decrease with increased H.T.E. and subsequently, increased SYP can be utilized. HI with high positive direct effect and association was major yield predictor (early & late-sown) alongwith BYP (early) and EL, RWC & CC (terminal) heat stresses. On Tocher‘s, Canonical (vector) and K-mean clustering, Rajendra Sufalam and Urvashi (oligo-genotypic) alongwith RAURD-14-18, BPR-541-4, DRMR4001, DRMR-15-9, RGN-368, RGN-13, PRE-2013-19 and KMR (E)16-1 were divergent genotypes and also reflected desirable per se for various morpho-physio-biochemical traits. Nine crosses between divergent parents suggested 5 crosses involving DRMR-15-9, RAURD-14-18, BPR-541- 4, DRMR4001 & RGN-368 with Urvashi; and 4 crosses involving RGN-13, RGN-368, PRE-2013-19 & KMR (E) 16-1 with Rajendra Sufalam. PA & H.T.E. contributed maximum towards total divergence under both stress environments. Molecular diversity analyses also reflected PRE-2013-19, KMR (E)16-1 & RAURD-14-18 as divergent as well as genotypes with unique alleles; whereas, DRMR-15-9, Rajendra Sufalam and RGN-368 as genotypes with unique alleles. Thus, reflecting their overall usefulness as divergent genotypes. NI2A09, showed best polymorphic bands, highest (0.636) PIC values and four alleles per locus and can be effectively utilized for studying diversity of Indian mustard genotypes. Studied genotypes reflected variability in all six environments except for CT & RGR. Rajendra Sufalam offered stability under poor environment and found most suitable genotype for terminal heat stress-late-sown & timely-sown conditions. Also it was only stable stable (rich environment) genotype for oil content overall six environments as well as diverse stable parent with superior per se for many traits including SYP. RGN-13 with average and rich environment stability in early-timely and late-timely-sown conditions whereas, RAURD-14-11 and BPR-541-4 (rich environment stability) suitable for farmers for both early and late-sown with timely-sown agroecologies of Bihar. Suggested Indian mustard plant type for heat stress condition, the emphasis is required towards seedlings and early growth stages before flowering (SDW-VPD-DFFO), PAPD, DPM, high: LPMA, PBP, SPMA, SPB, SL, TSW, RWC & CC including SI, H.S.I. and H.T.E.
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    ThesisItemOpen Access
    Studies on variability and management of Fusarium oxysporum f.sp. cubense isolates causing Panama wilt of banana
    (Dr. Rajendra Prasad Central Agricultural University, Pusa, Samastipur, 2019) Shukla, Daya Nand; Singh, S.K.
    Banana (Musa spp.) is one of the most important fruit crops grown in tropical and sub-tropical region throughout the world. Panama wilt incited by Fusarium oxysporum f.sp. cubense TR4 strain B2 was first time identified in Dwarf Cavendish group of banana cultivar by sending culture to Agharkar Research Institute, Pune. Panama wilt of banana incited by TR4 was found only in Koshi belt, whereas Race 1 and Race 2 of Fusarium oxysporum f.sp. cubense were present in Vaishali belt and this belt was found free from TR4 strain B2 during course of investigation. Inoculum mixed with sterilize soil @ 5% w/w (T5) was found most effective among all the tested inoculation techniques. The cv. FHIA-17 (AAAA) showed some level of tolerance to Fusarium oxysporum f.sp. cubense TR 4 strain B2under sick plot condition during 2017-18 and 2018-19. Fourteen different fungicide and novel chemicals were tested in vitro as well as in vivo conditions. Native (Tebuconazole 50% + Trifloxystrobin 25%) was found to exhibit 100% inhibition in vitro, whereas in pot conditions 86.2% inhibition of Fusarium oxysporum f.sp. cubense TR 4 strain B2 in cultivar Alpan (AAB) was observed. Aqueous extract of Garlic creeper (Adenocalymma alliaceum) was found superior among all the tested botanical extracts, while among bio-agents, Trichoderma viride (Native) was found most effective against the Fusarium oxysporum f.sp. cubense TR 4 strain B2. For integrated management of Panama wilt of banana incited by Fusarium oxysporum f.sp. cubense TR4 strain B2, the maximum inhibition of percent wilt index (93.1%) and percent vascular wilt index (93.4%) were observed in T12 (dipping roots of TC planting materials in Nativo (tebuconazole 50%+trifloxystrobin 25%) (0.2%) for 45 minutes followed by soil drenching with help of Nativo (tebuconazole 50%+trifloxystrobin 25%) (0.2%)@150 ml/pit +Garlic creeper (10%)@ 100 ml/pit and soil application of 50g BCA (Trichoderma viride(107)+Trichoderma harzianum(107)in1:1ratio) at 2nd 4th and 6th and 0, 3rd, 5th and 7th month after planting respectively . The next best treatment was T11 (dipping roots of TC planting materials in Nativo (tebuconazole 50%+trifloxystrobin 25%) (0.2%) for 45 minutes followed by soil drenching with Nativo (tebuconazole 50%+trifloxystrobin 25%) (0.2%)@150 ml/pit +soil application of 50 g BCA (Trichoderma viride (107)+Trichoderma harzianum(107)in1:1ratio) at 2nd 4th and 6th and 0, 3rd, 5th and 7th month after planting with more than 90% inhibition of wilt index and vascular wilt index .However difference between T11 and T12 was non- significant .
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    ThesisItemOpen Access
    Growth and instability of food grain production in Bihar: regional analysis
    (Dr. Rajendra Prasad Central Agricultural University, Pusa, samastipur, 2019) Kumari, Priyanka; Singh, Krishna Murari
    Agriculture is considered as backbone of the economy of Bihar. Agriculture contributed about 22 percent to the state GDP during 2010-14. The state has attained self sufficiency in food grains production, even though the productivity of various farm produces are much below the corresponding national average. Inspite of rich fertile soils and abundance of ground water the net sown area is shrinking on account of increasing population pressure and climatic variability. The agricultural production can further be enhanced through raising cropping intensity, changing cropping pattern, genetic improvement in crop varieties, mechanized cultivation practices and making availability of improved post harvest technology etc. Analysis of cropping pattern indicated that cereal crops like; paddy, wheat and maize were dominating crops in Bihar. Rice and wheat together contributed more than 60 per cent in gross cropped area. Paddy area declined but wheat area showed increasing trend for entire period of study, but, area of pulses declined in Bihar and all agro- climatic zones, except in zone II which exhibited fluctuating trend. Rapeseed & mustard is no doubt an important crop but growth in area reflected mixed trend in all zones and the state, whereas, area share of sugarcane and potato showed increasing trend. Area has increased only in case of wheat and maize, while the area under other crops like paddy, gram, red gram, lentil, green gram and rapeseed & mustard declined over both the referenced points of time i.e., 2005 over 1995 and 2016 over 2005 in Bihar. However, paddy, wheat and maize production observed increasing trend during both the referenced points. Among pulse crops, only lentil registered increase in production in the state. Productivity of all the crops under investigation registered positive trend at both the referenced points of time, only rapeseed & mustard observed declining trend in first point of reference. In zone I, it was found that wheat, gram, lentil and rapeseed & mustard registered increase in area under crops in the first decade. Production scenario indicated that only cereal crops like paddy, wheat and maize showed positive variation with respect to the reference period of time in zone II. In zone IIIA, the results indicated that decadal change in area of almost all the crops under investigation was observed negative in the first decade. In case of production and productivity of all the crops except gram (-23.08%) and red gram (-33.21%) in production and red gram (-30.36%) in productivity registered positive changes in production and productivity. In zone III B, area under wheat registered positive (10.61%). Production and productivity of most of the crops under study were also found positive except for some pulse crops. Compound growth rate of area of paddy observed negative for overall period in the state and for different zones except zone II. But in case of wheat, area was found positive in zone I, zone IIIB and the state for overall period. In case of maize, area during overall period was positive in zone II, zone IIIB and for the state as a whole. Growth rate of area in major pulse crops and oilseed crops mostly declined during different periods in all the zones and the state. Production and productivity of major cereal crops and lentil in pulses group was found positive, except it was negative in zone II and zone-IIIB for period II & IIIB. For overall period in all the zones and the state production of lentil was positive except in zone-II. Red gram, Gram and Green gram showed mixed trend. Instability in area of cereals i.e., paddy and wheat and maize was comparatively low during overall period in the state, while production and productivity of these crops were found more unstable as compared to area. Besides several other factors, total production of crop output is determined mainly by yield, area and their interaction effect. In the state, yield effect was positive during all study periods except period-I in paddy. Area effect exerted negative effects on production of paddy in the state. In zone wise analysis, area effects for most of the periods were computed negative and interaction effects were observed negative in all zones for most of the periods under study. In wheat, yield effect for all the periods in the state and in all the zones was found positive. Similar trend was found in case of area effect except in period-III for zone-II. Interaction effects reflected mixed scenario. In maize crop, yield effect, area effect and interaction effect were found positive for all the periods under investigation in zone II and Bihar. Change in production in red gram and gram was mainly due to area effect. But in lentil, production was influenced by yield effect. In green gram, area effect and yield effect were assessed fluctuating during the period of investigation. For most of the periods in different zones, area and interaction effect have positive influence on augmenting the production of rapeseed and mustard in the state. A detail analysis on components of growth performance was carried out. In paddy and wheat crops, irrigated area and consumption of fertilizer were found significantly positive components in augmenting production of these crops in the state but only irrigated area emerged as an important factor in maize. In case of pulse crops total area was common factor of the production of respective crop which was positively significant in red gram, gram and green gram. Rainfall affected adversely to production of lentil. Total area of the crop, irrigated area and fertilizer consumption played positive and significant role in production of rapeseed & mustard. Yield gap analysis was carried to know the actual differences in demonstration yield and average yield of farmer‟s field in the state and its agro-climatic zones. In case of paddy, yield gap was comparatively higher in zone IIIA (28.19%) and it was 18.43 % in the state as whole. Yield gap in wheat was assessed comparatively high, 28.98% in zone-IIIA and it was computed to be 26.42 % for the state. Yield gap in maize was estimated to be 32.49% in the state and highest yield gap was found in zone-I and lowest in zone-IIIB. The yield gap was recorded comparatively low in case of lentil (23.01 %) and high in case of green gram (49.39 %) followed by red gram (36.33 %) and in gram (24.38%). In case of rapeseed and mustard, mean yield gap was recorded 28.88% for the state. Among the zones, zone IIIB recorded the highest yield gap of 32 % and lowest 27.85% in zone II. The study suggests that there is need for research and innovation at the state level to embrace and leverage new technologies. Offering credit support to the individual farmer and at cluster levels is highly desirable to ensure the adoption of technology and diversification. There is a need to emphasize on National Agriculture Market (eNAM) which is a digital-India electronic trading portal which helps to get knowledge about the market of agricultural commodities. However, arrangement should also be made to improve the farmers‟ access to eNAM portal. On the other side, Bihar‟s agriculture sector is also facing the wrath of natural calamities, particularly flood in north Bihar and drought in south Bihar. Therefore, through the use of appropriate crop technology and extending crop insurance for all farmers would help to reduce risk of climatic variation.
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    ThesisItemOpen Access
    Morphological and bio chemical characterization of Winged bean Rhizobium and its impact as seed Inoculant either singly or Combinedly with PGPR towards Yield Attributing Characters and Yield of Winged Bean (Psophocarpus tetragonolobus)”
    (Dr. Rajendra Prasad Central Agricultural University, Pusa, Samastipur, 2018) Kumari, Shweta; Yadav, R.C.
    A laboratory investigation for morphological and bio-chemical characterization and physiological properties of winged bean Rhizobium with a purified culture; and a field experiment consisting of four seed-inoculation treatments [No inoculation, Rhizobium, PGPR(Bacillus) and Rhizobium+PGPR(Bacillus)] and three nitrogen levels [0, 20 and 40 kg ha-1] in RBD (factorial) with three replications for evaluation of two winged bean germplasm IC-17002 and DLN-9, during crop season in the year 2014-15 and with better-performing IC-17002 in 2015-16 to find out impact of the Rhizobium as seed inoculant alone or in combinedly with PGPR on yield attributes and yield of winged bean were conducted at Tirhut College of Agriculture, Dholi Farm of RPCAU, Pusa (Bihar). The pure-culture of winged bean Rhizobium isolate was Gram-negative rod-shaped with a dimension of 0.59 μm x 1.81μm. The Rhizobium tested vis-à-vis (pea, gram, lentil and moong-rhizobia) showed a wide diversity in tolerance for its growth at different pH values, though neutral pH being the optimum. The winged bean-Rhizobium isolate produced 64.6 μg mL-1 of IAA at 72h of incubation with antibiotic-resistance and carbon-utilization test, the Rhizobium isolate was found to be resistant to vancomycin (30μg) and utilized a wider group of carbon sources than other rhizobia. The Fatty-Acid-Methyl-Ester (FAME) profiling confirmed that it belonged to Rhizobium-miscellany group. Seed inoculation and nitrogen levels greatly influenced nodule-parameters, nitrogenase activity and yield attributes, value of which were the highest with the combined inoculation of Rhizobium+PGPR (Bacillus), followed by seed inoculation of Rhizobium alone, and differed significantly among themselves at both 60 and 120 days after sowing (DAS). Nitrogen application @ 20 kg ha-1 recorded significantly higher nodule parameters over the control. The inoculation x nitrogen interaction effect was found to be significant with respect to nodule parameters. The combined inoculation of Rhizobium+PGPR (Bacillus) at 20 kg N ha-1 appeared significantly superior to other treatment combinations. S, Fe and Mo in the nodule recorded higher at 60 DAS than at 120 DAS. Rhizobium inoculation alone caused higher S and Mo content in nodule, whereas combined application of Rhizobium and PGPR recorded the highest Fe content at both growth stages. Nitrogen application @ 20 kg ha-1 increased Fe content significantly over no-nitrogen application at 120 DAS. The highest nitrogen content in pod was noted by combined inoculation of Rhizobium and PGPR treatment, followed by Rhizobium alone. Nitrogen @ 20 kg ha-1 was found to be superior to the higher level of N application. The combined inoculation of Rhizobium and PGPR at 20 kg N ha-1 proved better than the other treatments. The treatments recorded greater N and P content of winged bean plant at 60, 120 DAS and at harvest. In seed, Rhizobium and PGPR inoculation in combination recorded more N content than other treatments and was found to be at par with Rhizobium inoculation alone. Nitrogen application @ 20 kg ha-1 recorded higher N, P and K in seed of winged bean in first year only. Protein content in green edible pod, seed and tuber was significantly increased by combined inoculation of Rhizobium and PGPR over the control and was at par with the treatment of Rhizobium inoculation alone, whereas basal nitrogen @ 20 kg ha-1 favoured more protein content than higher level of nitrogen. After harvest of winged bean, the highest available soilnitrogen build-up was recorded with the treatment of Rhizobium inoculation alone. Seed-oil content (33.76 %) recorded the highest in the treatment with seed inoculation of PGPR at zero nitrogen application. The study proved the multiple-utilitarian potential of winged bean including its role in soil fertility improvement which was best with seedinoculation of Rhizobium-miscellany and PGPR either alone or in combination with basal dose of 20 kg N ha-1.
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    ThesisItemOpen Access
    Physiology of wheat (Triticum aestivum L.) under salt and high temperature stress condition
    (Dr. Rajendra Prasad Central Agricultural University, Pusa, Samastipur (Bihar), 2018) Neelambari; Singh, Ajay Kumar
    Under natural conditions, plants are often subjected to a combination of different stresses such as salt stress and heat shock. Wheat crops are slightly salinity tolerant but as a cool season crop it is sensitive to heat stress at both vegetative and reproductive stages. Recent studies revealed that the response of plants to a combination of two different stresses is specific and cannot be deduced from the stresses applied individually because increased transpiration rate associated with high temperature stress worsen the harmful effects of salinity stress. Therefore, the present investigation entitled “Physiology of wheat (Triticum aestivum L.) under salt and high temperature stress condition” was conducted with three main objectives (1) Screening of wheat genotypes for combined salt and high temperature stress to identify the contrasting sets of wheat genotypes on the basis of physiological traits. (2) To study physiological and biochemical mechanisms of tolerance of wheat genotypes subjected to independent, and combined salt and high temperature stress conditions. (3) To quantify the changes in yield and yield attributes of wheat genotypes grown under independent, and combined salt and high temperature stress conditions. In the present study, two independent experiments were conducted. The first experiment was done in laboratory condition where 46 wheat genotypes were screened for individual and combined salinity and high temperature stress condition at seedling stage. Wheat seeds were sown in petri plate in three replications for germination. A saline solution of composition NaCl:CaCl2: Na2SO4 (7:2:1) with salinity levels at 4.0 and 8.0 dS m-1 were used as irrigation solution for giving salt stress treatments. High temperature treatment, was given by keeping the petri dishes in incubator at temperature 37 ± 2°C, and combined salinity and high temperature stress was given by transferring salinity stressed plant to incubator at high temperature (37 ± 2°C). The physiological parameters were measured in 10-day-old seedling. Physiological parameters (germination percentage, shoot length, seedling length, shoot fresh weight, root fresh weight, seedling fresh weight, root dry weight, shoot dry weight, seedling dry weight, vigour index I, vigour Index II and SPAD value) were measured and found to be reduced, except root length which was found to be increased in some genotypes and decreased in others under salinity, high temperature and combined stress. However the reduction was more pronounced under combined stress. On the basis of physiological data, the contrasting set of wheat genotypes (tolerant genotypes, i.e., KRL-1-4, KRL-19 and HD-2733, and susceptible genotypes, i.e., HT-8, HI-1563 and HD-2987) were identified for further study. The genotypes identified from screening experiment were used for a pot culture experiment to study the physiological and biochemical mechanism of stress tolerance and yield/yield associated parameters. Three replications of pot were arranged in factorial completely randomized design. Four treatments were given, i.e., control (wheat genotypes were sown timely in soil with ECe 1.3 dS m-1), salinity stress treatment (wheat genotypes were sown timely in natural saline soil with ECe 7.4 dS m-1), high temperature stress treatment (wheat genotypes were sown late in soil with ECe 1.3 dS m-1) and combined salinity and high temperature stress treatment (wheat genotypes were sown late in natural saline soil with ECe 7.4 dS m-1). The physiological and biochemical parameters were measured in flag leaf at anthesis period and yield parameters were measured at physiological maturity. The result revealed a decrease in physiological parameters in all wheat genotypes, while in tolerant group the decrease was less in all parameters, i.e., relative water content (25.0-29.6%), membrane stability index (23.9-27.2%), total chlorophyll (41.1-42.4%) and carotenoids content (14.9-17.2%), chlorophyll stability index (30.8-36.2%) and SPAD value (26.1-28.7%) as compared to susceptible group of genotypes in which percentage change in relative water content ranged from 37.7 to 41.2%, membrane stability index (37.9-44.5%), total chlorophyll (52.6-60.2%) and carotenoids content (15.1-33.9%), chlorophyll stability index (44.6-49.9%) and SPAD value (33.5-40.9%) under combined salinity and high temperature stress treatments. However, lipid peroxidation was increased in all the genotypes with minimum percentage increase in tolerant group which ranged from 58.6 to 60.3% and maximum percentage increase in susceptible group ranged from 71.4-88.3% under combined salinity and high temperature stress treatments. Greater antioxidant enzyme activities were induced in tolerant group, i.e., peroxidase (61.8-69.8%) and superoxide dismutase activity (75.4-86.9%). Similarly, proline content (61.1-68.1%), total phenol content (59.9-71.9%), total soluble sugar (42.5-48.9%), and free amino acids (43.3-50.9%) were higher in tolerant types, in comparison to susceptible group, i.e.,, peroxidase (40.6-49.2%), superoxide dismutase activity (50.7-56.3), total soluble protein (12.2-24.4%), proline content (37.6-47.4%), total phenol content (43.8-49.0%), and free amino acids (21.1-32.2%) under combined stress condition. However, total soluble protein content was found to be decreased less in tolerant group (19.6-21.6%) then in susceptible group (36.6-28.4%) under combined stress condition. Irrespective of the genotypes, combined stress reduced the yield and yield components in all genotypes. However, the reduction was minimum in tolerant genotypes, i.e., plant height (25.8-30.6%), number of grain per ear (28.6-34.1%), test weight (29.2-31.9%), harvest index (36.7-39.0%) and yield per plant (37.6-43.6%) as compared to susceptible genotypes in which reduction in plant height ranged from 36.9 to 49.6%, number of grain per ear 44.4 to 49.4%, test weight 38.7 to 43.4%, harvest index 47.3 to 50.3% and yield per plant 53.5 to 58.3% under combined stress treatments. However, floret sterility index was increased in all the genotypes with minimum percentage increase in tolerant group which ranged from 67.0-74.1% and maximum percentage increase in susceptible group ranged from 96.3 to 101.2% under combined salinity and high temperature stress treatments. From the present investigation it was evident that tolerant genotypes, i.e., KRL-19, KRL-1-4 and HD-2733 had the potential to cope up with the adverse effect of given stress treatments and they performed well under stress condition with least reduction in physiological, yield and yield associated parameters and greater increase in biochemical parameters. Among all parameters, antioxidants enzyme activity (SOD), phenol and proline content were highly correlated with yield per plant and showed maximum induction under combined salinity and high temperature stresses. Hence, the higher percentage increase in these parameters may be the reason for the tolerance of genotypes, HD-2733, KRL-19 and KRL-1-4. Possibly, some of these indices might prove useful for improving wheat genotypes to withstand combined salinity and high temperature.
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    ThesisItemOpen Access
    Stability study in spring planted early maturing sugarcane clones for higher yield
    (Dr. Rajendra Prasad Central Agricultural University, Pusa, Samastipur (Bihar), 2018) Kumar, Praveen; Pandey, S.S.
    Fifteen early maturing sugarcane genotypes were planted in spring season at two different locations viz. Pusa and Madhopur for two consecutive years (2016 and 2017) to assess their stability across four environments viz. E1 – Pusa‟2016, E2 – Madhopur‟2016, E3 – Pusa‟2017 and E4 – Madhopur‟2017, in Randomized Block Design with three replications for yield and attributing traits. The genotypes showed high amount of variability present in individual (E1, E2, E3 and E4) and pooled over environments for most of the characters. Genotypes viz. CoP 16437, CoP 16436, CoP 11437 and CoP 16438 showed superiority for most of the traits including sugar and cane yield. PCV was found higher than GCV revealed environmental influence, sugar yield exhibited high heritability coupled with high GAM revealing preponderance of additive effects of gene while cane yield at harvest showed high heritability coupled with moderate GAM. Significant G × E interaction including environment (linear), linear component of G × E interaction and pooled deviation (non-linear) were significant indicating considerable genetic variability for most of the studied traits. Role of the environmental variation was observed for most of the attributes except for the number of shoots at 120 days, plant height (PH) at 240 days, single cane weight (SCW), number of milliable cane (NMC) and cane yield (CY) at harvest revealing no effect of environment or similar behaviour and response of studied genotypes. As per estimated stability parameters, six genotypes were found stable viz. CoP 16437, CoP 11438 and BO 153 stable for CY and SY in rich environment. CoP 16436 stable in poor environment for CY while in rich environment stable for SY. CoP 16438 stable in poor and rich environment for SY and CY respectively whereas CoP 11437 was stable for CY in rich environment. In AMMI analysis, G × E interaction was found highly significant for most of the traits, IPCA I and IPCA II were also found highly significant for most of the traits. IPCA I and IPCA II cummulatively contributed more than 80 percent of the total G × E interaction for all traits. All four environments E1, E2, E3 and E4 were identified as favourable for cane yield and sugar yield at harvest and fall into two groups i.e. one group (E2 and E4) and another group (E1 and E3) were preferred for most of the traits and had similar effects on genotypes. Biplot analysis revealed that genotypes CoP 16437, CoP 16436, CoP 11437, CoP 16438, BO 153 and CoP 11438 were found the most desirable and favourable across different environments. As per both the stability model the genotypes viz. CoP 16437, CoP 16436, CoP 11438, CoP 16438 and CoP 11437 were identified as stable one for yield and yield attributing traits in their respective environments.
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    ThesisItemOpen Access
    Stability study on basal and non-basal branching genotypes of Indian Mustard (Brassica juncea L. Czern & Coss) under different moisture regimes
    (Dr. Rajendra Prasad Central Agricultural University, Pusa, Samastipur (Bihar), 2018) Chandra, Khusboo; Pandey, Anil
    Keeping in view large acreage of Indian mustard under conserved residual moisture – rainfed condition on farmers‟ fields, the present study entitled “Stability study on basal and non-basal branching genotypes of Indian mustard (Brassica juncea L. Czern & Coss) under different moisture regimes” was undertaken. Two field experiments: Divergence study under rainfed condition (Rabi 2015-16) with 50 genotypes from 10 AICRP-R&M centres located in major crop Brassicas growing areas; Stability study (Rabi 2016-17) with 20 genotypes, under four environments viz, no irrigation under Rainout Shelter (E1), rainfed (E2 ), one irrigation : 45 DAS (E3 ) and two irrigations: 45 and 65 DAS (E4 ), conducted in Randomized Complete Block Design in three replications and evaluated for twenty – five and thirty – three morpho-physio-biochemical traits, respectively along with laboratory experiment for drought related thirteen physiological traits. 50 genotypes for investigated characters revealed significant amount of variability, categorized as 13 BB and 37 Nbb (27 M-Nbb and 10 H-Nbb) plant types. Rajendra Suphlam and NDRE7 (BB), Pusa Mahak and NRCDR-2 (M-Nbb) and Rohini (H-Nbb) reflected superiority for many traits as compared to best national check basal – branching variety Varuna. High level of variation with more number of PBB, SB-PBB, less IL-PBB, bold seeds – PBB on basal branches observed as compared to Nbb on all 13 BB genotypes. PCV higher than GCV revealed environmental influence, PBP-1, SBP-1, NS, SG, IL, HFPB, HFS, AS, AB, RL, RV and RG exhibited high h2bs and Genetic advance as percent of mean revealing preponderance of additive effects of gene. Early DFF, DPM and less IL showed negative whereas, RV, RG and SS-1 exhibited positive association of traits with GYP1. Multivariate analyses, Tocher‟s, Euclidean and PCA methods reflected maximum contribution (85.39%) of root length, HFPB and RV towards total divergence. The suggested crosses with the most divergent parents involved all branching patterns (BB, M-Nbb and H-Nbb) in 13 crosses combining 9 (Tocher‟s and Euclidean method) and more reliable in six divergent crosses between six most divergent genotypes: Rajendra Suphlam/ Divya, Rajendra Suphlam/ RH0406 and Rajendra Suphlam/ TM-2 (BB/BB); Pusa Mahak/ Divya (M-Nbb/BB); Rajendra Suphlam/ Kranti(BB/M-Nbb) and Pusa Mahak/ Kanti (M-Nbb/H-Nbb) common from Tocher‟s, Euclidean and PCA methods, were suggested for future Brassica improvement. High amount of variability individual (E1, E2, E3, E4) and pooled over environments reflected worth of studied genotypes for most of the characters. Significant G-E interaction including environment (linear), linear component of G-E interaction and pooled deviation (non-linear) were significant indicating considerable genetic variability for most of the studied traits. Role of the environmental variation was observed for most of the attributes except no influence on SD, LS, SS-1, LAI, CC, PRO, TSW and OC. Out of eleven stable genotypes, seven (NRCDR-2, TM-151, Kranti, PKRS-28, TM-128, PM-28 and RAURD-78) in poor, two (Rajendra Suphlam and KMR 10-2) in average and two (Rohini and RH8814) in rich environments. NRCDR-2 and Rajendra Suphlam, both stable genotypes for yield in poor and average environments, respectively, exhibited stability for RGR, LAI,SLW, HI and DME( in poor) and for RV, DPM, CC, PRO and BY (in rich) environments. But for HFPB and TSW, Rajendra Suphlam reflected stability in poor whereas for HFPB, NRCDR-2 expressed in rich environment. For none of the 11 stable genotypes DFFO reflected stability and needs attention for ideotype development except RH-8814 in rich environments. NRCDR-2 (M-Nbb, Variety 2007) is the most stable genotype in poor whereas popular variety Rajendra Suphlam (BB) stable in average environments can be suggested to farmers for residual moisture – rainfed condition. Suggested plant ideotype based on findings of present investigation for moisture stressed – rainfed condition would be basal – branching, semi – compact growth habit (AB) and semi – appressed (less AS) siliqua bearing one; with more than 50% PBBs accommodating SBs, less IL, lower positioning of HFS, deep tap root with more volume (RL and RV), earliness in DFF and DPM, high RGR, LAI and SLW up to early DFFO stage, bold seeds and other yield components like LS, SS-1 and DME. Yield determinants RV, RL and HFPB are most important for residual moisture – rainfed environments as reflected by their contribution towards total divergence, high significantly positive (RL, RV) and negative ( HFPB) association, regression direct effect towards yield along with high h2bs and Genetic advance as percent of mean. Overall, RV as best yield contributor also reflected stability in rich environment among stable genotypes for yield (poor and rich environments) and could be utilized for mustard varietal improvement in moisture stress.
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    ThesisItemOpen Access
    Characterization and micropropagation of Physalis minima L. in Bihar
    (DRPCAU, Pusa, Samastipur, 2018) Kumari, Anjani; Kumar, Harsh
    A study was undertaken to characterize populations of Physalis minima L. collected from the seven locations of Bihar. A list of 47 morphological characters were used to score the variations present in the plants. Qualitative and quantitative estimation for the presence of phytochemicals was done to determine the medicinal and nutritive value of the plant. Different populations were also characterized on the basis of their molecular study using ISSR and SSR markers. The superior plant populations were identified on the basis of these studies. The micropropagation of the plants was carried out for their multiplication and maintaining superior characters and also prevent the natural hybridization. The morphological characterization based on 24 qualitative and 13 quantitative characters revealed the presence of variations within and between populations. The variations not reported before were observed, which lead to the identification of new forms of the Physalis minima L. plants in Bihar. The quantitative morphological traits were found to be significantly correlated. The cluster analysis and Principal Component Analysis successfully grouped the populations into three groups. The presence of eight phytochemicals were detected in leaves, stem, fruits and roots of the plants from all the seven populations by using thirteen qualitative tests. The quantitative estimation revealed the presence of a high amount of total soluble sugar, ascorbic acid, protein, phenols, flavonoids and alkaloids in leaves and fruits of the seven populations. The populations showed significant variations in their phytochemical constitution. The dissimilarity coefficient and Principal Component analysis based on quantitative biochemical characters clustered the populations in three groups similar to the groups identified by morphological characterization. The biochemical profile highlighted the fruit and medicinal value of the plant. Three out of the eight SSR markers used in the study failed to achieve amplification in the forty two plants of Physalis minima, suggesting a lack of transferability of these primers. A total of 50 alleles were detected using the five SSR primer pairs. The plants were effectively diversified using the SSR primer based similarity coefficients and Principal Coordinate Analysis. The plants were grouped in three clusters having the plants from different populations. A total of 574 alleles were detected using fifteen ISSR primers. The results of ISSR marker based similarity coefficient and Principal Coordinate Analysis showed corresponding results. The plants were again grouped into three clusters. The similarity coefficients and Principal Coordinate Analysis based on both the markers revealed a similar result, suggesting the applicability of both the markers in scoring the genetic variation present in the Physalis minima L. plants. A high level of genetic heterogeneity was identified in the populations based on molecular studies. The results of the three studies were found to be related suggesting that the variations in morphological and biochemical parameters are a result of the genetic variations. The Selao was identified as the superior population based on the score of biochemical characters. Since the Physalis minima L. populations are highly heterogeneous, there is a need for purification of the populations which can lead to the development of superior genotypes. The tissue culture responses were found to be independent of the effect of population. The shoot apical bud followed by nodal stem were identified as the best explant for most of the tissue culture response except swelling and callogenesis for which leaves were the most effective. MS 30 (1 mg l-1 BAP and 1 mg l-1 2, 4-D) was identified as the best medium for differentiation of multiple shoots in shoot apex and nodal stem while MS 2 (1 mg l-1 BAP) was the best for leaves. MS 7 (1 mg l-1 KIN) was invariably identified as the best medium with the highest number of shoots per explant for all the explants. The leaves were the best explant for callogenesis. The in vitro flowering and fruiting were obtained from shoot apex and nodal stem culture. MS 32 (1.0 mg l-1 BAP and 1.5 mg l-1 2, 4-D) for flowering and MS 30 for fruiting was identified as the best medium for both the cultures. R3 (MS + 1 mg l-1 NAA) was identified as the best medium for rooting. The in vitro studies led to the development of a highly efficient protocol for micropropagation of Physalis minima L.
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    ThesisItemOpen Access
    In vitro morphological and molecular evaluation of rice genotypes and validation of markers for salinity tolerance
    (DRPCAU, Pusa, Samastipur, 2018) Kumari, Rima; Kumar, Harsh
    A set of thirty rice varieties including two tolerant (Pokkali and CSR-36) and two susceptible (IR-29 and IR-64) checks were screened for assessment of their salt tolerance at early seedling stage on the basis of in vitro seed germination and seedling growth at different salinity levels (0, 4, 8 and 16 dS m-1) created by application of salt mixture consisting of NaCl, CaCl2, Na2SO4 in 7:2:1 ratio. Seed germination and seedling growth were adversely affected with the increase of salt concentrations. The salt tolerance index (STI) of the rice varieties was calculated on the basis of seed germination, seedling shoot and root dry weights at different levels of salt stresses. Phenotypic grouping of the thirty rice varieties for their salt tolerance level on the basis of overall salinity tolerance indices across in vitro seed germination and seedling growth (shoot and root dry weight) under salt stress clearly reflected that seventeen varieties, namely, Pokkali, CSR-36, Mandakini, Kranthi, Jyothi, Bardhan, Pusa Sugandh-2, Duna Sankhi, Sanwal Basmati, Ratnagiri-4, Shanthi, Rajendra Dhan-102, Sahbhagi Dhan, Vaisak, Annada, Badami and Jyotrirmayee were highly tolerant to salt stress. Among the remaining entries, Pusa-834, Sarsa, Govind, Khira, Pusa Sugandh-5, MTU-7029 and Saraswathi were found to be moderately salt tolerant, whereas varieties IR-29, IR-64, Daya, Kalinga-3, Golaka and Shatabdi were highly susceptible to salt stress. Out of thirty rice varieties, eighteen rice varieties, namely, Pokkali, CSR-36, IR-29, IR-64, Mandakini, Pusa Sugandh-2, Saraswathi, Ratnagiri-4, Rajendra Dhan-102, Sahbhagi Dhan, Badami, Sarsa, Jyotrirmayee, MTU-7029, Golaka, Daya, Vaisak, and Shatabdi were further screened with the help of ISSR, SSR, salt stress responsive candidate genes and EST primer pairs for the purpose of their molecular profiling in relation to their salinity tolerance. Genetic profiling of entries with a panel of 14 ISSR markers generated altogether 483 allelic variants including 236 shared and 247 unique alleles with an average of 34.50 alleles per primer, revealing ample extent of genetic differentiation and divergence amongst the entries. Among these markers, 811, 814, 815, 823, 834, 836, 840, 841, 842, 872 were found to be highly polymorphic and informative on the basis of their PIC and PP values. However, using a panel of salt stress response related 24 SSR primer pairs, altogether 205 allelic variants including 114 shared and 91 unique alleles were detected with an average of 8.54 alleles per primer due to length variation of simple sequence repeats. Simple sequence repeat loci with di-nucleotide and tri-nucleotide repeat motifs detected greater number of alleles than the repeat loci with tetra-nucleotide and complex repeat motifs. Additionally, the simple sequence repeat loci with CT, GT, AT, AG and AC di-nucleotide repeat motifs detected greater number of alleles. Contrarily, the loci with GA and CA di-nucleotide repeat motifs appeared to detect relatively lesser number of alleles. Considering the number of alleles generated in conjunction with the level of polymorphism detected in the present study, the primers RM 302, RM 8094, RM 10665, RM 10694, RM 10748 and RM 10825 appeared to be highly polymorphic and comparatively more informative primers. Six SSR primer pairs, namely, RM 140, RM 1287, RM 3412, RM 10745, RM 10764 and RM 10772 were validated on the basis of their efficiency to distinguish salt tolerant varieties from susceptible varieties. These six primers can be utilized for the purpose of genetic differentiation and discrimination in relation to salt stress responsiveness of the rice genotypes. Similarly, microsatellite containing salt stress responsive candidate gene (OsHKT1;5, SNAC1, CDMK, CCC, SHMT1 and SHMT2) and microsatellite lacking salt stress responsive candidate gene (OsHKT1;1, OsHKT1;3, OsHKT2;3 and OsHKT2;4) specific markers based genetic profiling allowed unambiguous discrimination of salt stress responsive and tolerant entries, validating their utility for the purpose of differentiation and discrimination of salt stress sensitive and tolerant varieties. Principal coordinate analysis completely supported the results obtained from hierarchical classification of the varieties. Using a panel of eight salt stress responsive EST-contigs based markers, monomorphic bands amongst all the 18 varieties were recorded for six markers, namely, Contig2 (Ferritin superfamily), Contig54 (Plant peroxidase superfamily), Contig138 (ATPase expression protein), Contig314 (Exonuclease), Contig545 (Major latex protein) and Contig633 (Protein kinase), revealing genetic similarity with respect to primer binding sites and molecular size of targeted genomic regions. Remaining two markers specific to Ferritin superfamily (Contig43) and Microtubule associated protein (Contig215) genes revealed genetic polymorphism in the form of presence or absence of bands. Thus, combining in vitro morphological and molecular assessment, seventeen varieties were considered as salt tolerant varieties which can be used as parental donor in rice breeding programme to develop salt tolerant rice varieties.