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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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Subject: Genetics and Plant Breeding × End date: 2018 × Start date: 2018 × Type: Thesis × Thesis Type: Ph.D ×
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    ThesisItemOpen Access
    Genetic diversity analysis in F4 and F5 rust resistant-derived progenies of bread wheat using molecular markers
    (CCSHAU, 2018) Reena Rani; Punia, M.S.
    The present study was carried out for evaluation of F4 and F5 generation progenies derived from two crosses namely WH 1105 (resistant) x WH 711 (susceptible) and Raj 3765 (resistant) x WH 711 (susceptible) for identification of some better performing progenies for different traits along with yellow rust resistance. The experiment was conducted in a randomized block design (RBD) during Rabi season of 2015-16 and 2016-17 in the Department of Genetics and Plant Breeding, CCS Haryana Agricultural University, Hisar. Data were recorded for response to yellow rust along with various morphological traits including plant height, number of tillers/plant, ear length, ear weight, number of grains/ear, grain weight/ear, number of spikelets/ear, 100-grain weight, grain yield/plant, biological yield/plant and harvest index. On the basis of mean performance, a total of 23 progenies derived from cross WH 1105 x WH 711 and 35 progenies derived from cross Raj 3765 x WH 711, were found better performing than the superior parent for different traits along with yellow rust resistance. This suggests that these progenies may become future high yielding and yellow rust resistant varieties. Analysis of variance revealed significant differences for all traits studied among the progenies. The correlation studies reveal highly significant positive association of grain yield/plant with all the important yield contributing traits. The path-coefficient analysis suggested the importance of biological yield/plant and harvest index as they exhibited high positive direct effects on grain yield/plant. The F4 generation progenies showed highly significant and positive intergeneration correlation and regression with F5 generation progenies for all the characters which concluded that the performance of progenies in F4 generation is a reliable indicator of the performance of progenies in subsequent generations. Narrow sense heritability based on parent offspring regression coefficient was high for number of grains/ear, grain weight/ear and grain yield/plant which implied that these traits may be given attention during selection. D2 analysis grouped the F4 and F5 generation progenies derived from both the crosses into different groups. The traits viz., number of grains/ear, grain weight/ear, number of tillers/plant and number of spikelets/ear contributed more than 60% per cent towards total divergence. Principal component analysis revealed that first five components accounting for more than 80% of the total variance. PC1 and PC2 contributing more to the total variation among progenies, were attributed to discriminatory traits such as number of spikelets/ear, ear length, 100-grain weight, grain yield/plant and grain weight/ear and, therefore, can be regarded as grain yield factors cumulatively. Total 100 SSR markers (including Yr specific primers) were used to detect parental polymorphism, out of which, 92 SSRs showed amplification in parental genotypes, WH 1105 and WH 711. 33 SSR markers were found polymorphic and the remaining 59 produced monomorphic bands. While 90 SSRs showed amplification in parental genotypes, RAJ 3765 and WH 711, of which, 31 SSRs were found polymorphic and the rest 59 were found monomorphic. It was confirmed by NTSYS-PC UPGMA cluster tree and dendrogram that two parents were genetically diverse and the progeny lines were interspersed between the two parents for yellow rust in both the crosses.
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    ThesisItemOpen Access
    Studies on genetic divergence, stability, heterosis and combining ability in sunflower (Helianthus annuus L.)
    (CCSHAU, 2018) Sachin Kumari; Sheoran, R.K.
    The present study entitled “Studies on genetic divergence, stability, heterosis and combining ability in sunflower (Helianthus annuus L.)” was undertaken to estimate genetic divergence, economic heterosis, combining ability with the objective of exploring possibilities of their commercial utilization and stability analysis in four different environments. The material for the present investigation comprised of seventy five hybrids developed by making crosses between fifteen female parents (lines) and five male parents (testers) in line x testers mating design along with one standard checks (HSFH 848). The crosses were made at research area of Oilseed Section, Department of Genetics and Plant Breeding, CCS HAU, Hisar during the spring season of 2014. Hybrids and parents were evaluated under four different environments i.e. Summer 2014, last week of August (E1) and First week of Sept. (E2) and during spring 2015, i.e. first week of February (E3) and last week of February (E4). Data on five randomly selected plants from each genotype in each replication were recorded on different quantitative characters viz. plant height (cm), head diameter (cm), stem diameter (cm) days to 50% flowering, days to maturity, hundred seed weight (g), seed yield per plant (g), oil content (%), hull content (%), percent seed filling, germination (%), electrical conductivity (μScm-1g-1), viability (%), vigour index I, vigour index II, palmitic acid (%), stearic acid (%), oleic acid (%) and linoleic acid (%) in all the test environments. Based on Euclidean minimum distance, all the genotypes were grouped into six clusters which showed the presence of enough amount of genetic diversity in the present material. The cluster IV was having highest numbers of genotypes followed by clusters V,I,VI, II, III .The intra-cluster distances were less than that of inter cluster distances which showed that there was narrow genetic variation within the clusters while there was maximum genetic variation in between the clusters. Hybrids CMS 207 A x HRHA 5-3, CMS 852 A x RHA 271, CMS 207 A x RHA 297, CMS 234 A x 6D-1 and CMS 207 A x 6D-1 were found better and superior for stability, combining ability and heterosis studies for seed yield and its contributing trait and also for oil content. The combining ability analysis revealed that non- additive variance in the expression of all the traits. Among lines CMS 207 A, CMS 148 A, CMSH 91 A, CMS 17A and testers RHA 271 and HRHA 5-3 were the good general combiners. The hybrids with good heterotic value, good GCA, SCA and better value of stability could be directly used for heterosis breeding because of their dominant nature. The use of genotypes in hybridization from these results is likely to produce more heterotic combination in future.
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    ThesisItemOpen Access
    Stability and correlation studies for yield and seed developmental traits in upland cotton (Gossypium hirsutum L.)
    (CCSHAU, 2018) Pinki; Siwach, S.S.
    The present investigation entitled “Stability and Correlation Studies for Yield and Seed Developmental Traits in Upland Cotton (Gossypium hirsutum L.)” were evaluated in three varieties H 1098 – I, H 1300 and H 1316 under six environments (three sowing periods i.e. early, normal and late sown conditions in year 2015 & 2016). Observations were recorded for seed quality traits, biochemical traits, fiber quality traits, seed cotton yield component traits and meteorological parameters. There were significant differences among the varieties for all traits in all the six environments. The early sown condition was best for high seed germination (%), high sugar (%), protein (%), oil (%) and low gossypol (%), high fiber quality traits, good boll retention (%) as well as for seed cotton yield traits. The time period between 2nd week of July to mid August was best for high seed germination. Seed germination (%) was negatively correlated with Tmax and sunshine hours while it was positively correlated with Tmin, RHm and RHe. and rainy days. Seed germination was positively correlated with vigor index- I and vigor index – II and with protein (%). Early sown conditions were good for desirable biochemical parameters. Fiber quality traits were least effected by environmental factors. Seed cotton yield per plant was significant and positively correlated with plant height, number of bolls per plant, number of seeds per boll, ginning outturn and lint yield per plant. High direct effect was observed for number of monopods / plant, number of seeds / boll, number of bolls / plant, ginning outturn, lint yield / plant and days to boll bursting
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    ThesisItemOpen Access
    Molecular analysis of yr genes in wheat (Triticum aestivum L. em.Thell)
    (CCSHAU, 2018) Pooja; Dhanda, S.S
    The present investigation entitled “Molecular analysis of Yr genes in wheat (Triticum aestivum L. em.Thell)”was conducted to evaluate 210 recombinant inbred lines of bread wheat to identify Yr genes using SSR markers, estimate variability and associations among the various traits. Medium to high values of GCV, PCV, heritability and genetic advance as percent of mean for grain yield per plant and biological yield in both years indicating a high scope of selection for these traits followed by 100-grain weight, number of spikelets per ear, harvest index, days to heading and days to maturity. Grain yield was significantly and positively correlated with biological yield, harvest index, number of tillers per plant, ear length, number of spiklets per ear, plant height and number of grains per ear, whereas negative and significantly correlated with days to heading in both years.Biological yield and harvest index had high direct and indirect effects on grain yield per plant over the years, indicating the true relationships with grain yield, in this set of material. Fifteen, out of 70 SSR markers used were found polymorphic in parental genotypes and in RILs. The gene Yr7, Yr18, Yr26, Yr29, Yr36, Yr47 and Yr53 were linked to yellow rust resistance in the present investigation. The RIL No. 52 with 4 Yr genes (Yr7,Yr36,Yr47,Yr53) had better performance for the traits loaded on PC-2, namely grain yield per plant, biological yield and number of tillers per plant and showed 4 Yr genes (Yr7,Yr36,Yr47,Yr53). This line was also better than overall mean for grain yield and its components. The lines viz, RIL No. 13, 24, 31, 120, 121, 134 showed a desirable combination of the traits loaded on PC-1 and PC-2, namely grain yield per plant, biological yield and number of tillers per plant and complemented with disease resistance. Among these lines, RIL No. 24, 121 had 2 Yr genes (Yr18,Yr26, Yr7,Yr47). The RIL No. 117, 25, 12, 15 had better performance for the traits loaded on PC-1, namely grain yield, biological yield and ear length and showed 2 Yr genes out of Yr7,Yr47, Yr18,Yr36, Yr26,Yr29, Yr26,Yr29 observed in the present study. The RIL Nos. 12, 15, 25 were also showed better performance than mean values in terms of grain yield and its components.
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    ThesisItemOpen Access
    Genetic analysis of segregating generations for yellow rust resistance in bread wheat (Triticum aestivum L. em. Thell)
    (CCSHAU, 2018) Gangopadhyay, Shipra; Panwar, I.S.
    In the present study entitled ―Genetic analysis of segregating generations for yellow rust resistance in bread wheat (Triticum aestivum L. em. Thell)‖, the cross WH1105 x WH711 derived F2, F3, BC1F2 and BC1F3 generations were evaluated for inheritance studies and molecular aspects of yellow rust resistance and genetics of quantitative traits including grain yield and its component traits. The experiments were conducted at the research area of Department of Genetics and Plant Breeding, CCS Haryana Agricultural University (CCSHAU), Hisar, India during two successive years of Rabi seasons 2014-15 and 2015-16. The field results have shown that inheritance of yellow rust was governed by two dominant genes. Generation mean analysis revealed significant differences for all traits studied. The C-scale was significant for all of characters indicating the presence of non-allelic interactions. Preponderance of additive component was recorded for all the characters, except spike weight (g) over the dominance component. Additive x additive (i) and dominant x dominant (l) type of interactions were reported significant for most of the characters. Duplicate type of interaction was recorded for number of tillers per plant, grain yield per plant (g) and biological yield per plant (g). Grain yield per plant (g) showed significant positive correlations with number of tillers per plant, spike length (cm), spike weight (g), number of grains per spike, number of spikelets per spike, 1000 grain weight (g), biological yield per plant (g) and harvest index (%). Path analysis revealed that the biological yield per plant (g) had highest positive direct effect on grain yield per plant (g) followed by harvest index (%) and number of tillers per plant. Out of the 210 primers, 70 primers (including eight Yr specific primers) were found polymorphic and 140 primers were monomorphic. The size of PCR amplified products ranged from 119 bp (Xgwm133) to 290 bp (Xgwm359). The molecular size difference between the smallest and the largest allele at a SSR locus varied from 7 bp (Xgwm11) to 35 bp (Xbarc1152). It was confirmed by NTSYS-PC UPGMA cluster tree and dendrogram that two parents (WH1105 and WH711) were most genetically diverse and the progeny lines were interspersed between the two parents for yellow rust.
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    ThesisItemOpen Access
    Genetic diversity and effects of selective intermating on genetic variability in bread wheat (Triticum aestivum L. em. Thell)
    (CCSHAU, 2018) Preeti; Panwar, I.S.
    The present investigation “Genetic diversity and effects of selective intermating on genetic variability in bread wheat (Triticum aestivum L. em. Thell)” was conducted to evaluate 75 bread wheat genotypes to assess magnitude of genetic diversity among wheat germplasm lines for grain yield, its components and quality traits. The character association for yield and quality traits was also studied. Analysis of variance revealed considerable amount of variability among genotypes for most of the characters under study. Sedimentation value followed by grain yield per plot, and harvest index exhibited high GCV. The differences between GCV and PCV values were minimum for most of characters which show least environmental influence. Heritability estimates were high for all the characters except plant height (cm), number of effective tillers per meter, number of grains per ear, biological yield per plot(g), harvest index (%). Sedimentation value (ml) followed by grain yield per plot (g) exhibited high genetic advance as per cent of mean alongwith high heritability estimates. The grain yield per plot showed significant and positive correlation with number of effective tillers per meter, number of grains per ear, 1000-grain weight, biological yield per plot and harvest index and significant negative correlation with canopy temperature (post-anthesis 7 and post-anthesis 21 days) in normal as well as heat stress environment. Harvest index, biological yield per plot (g), effective tillers per meter in both normal and heat stress environment had positive direct effect on grain yield. So, direct selection for these traits will be effective to increase the grain yield. On the basis of Euclidean cluster analysis, 75 genotypes were grouped into 9 clusters in both the environments, which indicated the presence of considerable amount of genetic diversity among the genotypes studied. Cluster II and cluster IX showed maximum genetic divergence in both the environments and also having higher mean values for important yield traits and thus involving genotypes of cluster II and cluster IX in hydbridization programme is advocated in order to achieve high yielding segregants. Second experiment aimed at comparing the variability under different systems of selective intermating. On comparison of the selective intermated populations and F2 populations of two crosses Cross I (WH542/WH1080) and Cross II (WH1105/RAJ3765//WH283) the higher mean values were obtained in all selected intermated populations SIM-I, SIM-II and SIM-III in order and wider range values for genetic variability in SIM-III compared to F2 populations of two crosses for most of the characters studied which might be due to additional variability released by selective intermating accumulating favourable genes. The efficiency of intermating over F2 was witnessed in this investigation in terms of days to heading, number of tillers per plant, number of grains per ear,1000 grain weight (g), biological yield per plant (g) and grain yield per plant (g) and other yield related traits. The wider range accompanied by a higher values of mean, phenotypic coefficient of variation, heritability and genetic advance as percentage of mean for biological yield per plant(g) and grain yield per plant(g) in selective intermated populations provides opportunity for further selection in intermated populations for further yield improvement in bread wheat.
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    ThesisItemOpen Access
    Studies on genetic diversity, combining ability and heterosis for yield and its component traits in Gossypium hirsutum L.
    (CCSHAU, 2018) Bankar, Ashish Haridas; Nirania, K.S.
    The present study comprising 66 Gossypium hirsutum L. cotton genotypes viz., 50 hybrids along with their fifteen parents and one standard check hybrid (HHH 223) were raised in a randomized block design with three replications during kharif 2016-17 at CCS Haryana Agricultural University, Cotton Research Station, Sirsa. Observations were recorded on ten characters viz., days to first flower (earliness), plant height (cm), number of monopods per plant, number of sympods per plant, number of bolls per plant, boll weight (g), seed cotton yield per plant (g), ginning out turn (%), seed index (g) and lint index (g). Economic heterosis was estimated over standard check HHH 223. Out of fifty, five hybrids viz., H1226 x SR-38 (46.0%) followed by H1300 x Gregg 45 (43.2%), H1098i x PUSA 31 (39.5%), H1300 x PUSA 31 (38.2%) and H1117 x LRA 5166 (30.9%) recorded more than 30 per cent economic heterosis for seed cotton yield per plant and thus need special attention so as to exploit high heterotic values for seed cotton yield in these hybrids. Analysis of variances revealed that the magnitude of SCA variance was greater than GCA variance for all the traits that specified pre-dominance of non-additive gene action. Among fifteen parents; male parents Gregg 45, MESR-17 & SR-38 and female parent H1300 & H1098i were found to be best general combiners for seed cotton yield and its component traits. The best specific combinations were H1117 x LRA 5166, H1226 x SR-38, H1098i x PUSA 31 and H1300 x AVB SM- 277 recorded high heterosis for seed cotton yield and its component traits along with good SCA effects. This was the combination of both good combining parents, one good & one poor combiner parent and both poor combining parents. This indicated that both additive and non-additive gene action were important for this character. Hence, these crosses may be used for future heterosis breeding programme. The result has discussed in the light of their usefulness in future breeding programs.Two hundred and eleven alleles were amplified by using 44 SSR primers. Primer BNL1053 possess maximum PIC value (0.881) specified that this primer show maximum contribution for diversity analysis. Production of more than two SSR bands was a quite common phenomenon in the present study. The reason for usual production of multiple bands was assigning as either presence of SSR alleles with different molecular weight on A & D genome or on more than one linkage group. The NTSYS-pc UPGMA tree cluster analysis revealed that fifteen parental genotypes were quite distinct. At 0.73 similarity index fifteen cotton genotypes were clustered into five groups except two parents which doesn’t fall in any group and separated as out group. The use of genotypes in hybridization from these different groups is likely to produce heterotic combination in future breeding programme.
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    ThesisItemOpen Access
    Stability and correlation studies for yield and seed developmental traits in desi cotton (Gossypium arboreum L.)
    (CCSHAU, 2018) Sunayana; Sangwan, R.S.
    The present study comprised of three Gossypium arboreum varieties grown in six environments under three different sowing periods viz., early, normal and late was carried out during the kharif seasons in the year 2015 and 2016 in a randomized block design (RBD) at CCS Haryana Agricultural University, Hisar. Daily weather data during crop seasons of both the years were collected on meteorological aspects viz., rainfall (mm) and number of rainy days, maximum and minimum temperature (°C), sunshine hours and relative humidity (%). Energy indices namely heat unit, heliothermal unit and photothermal unit were computed using this data. These variables were used to describe the prevailed weather situation for seed development. The observations on five randomly selected plants from each replication in each environment were recorded for morphological traits. The data were subjected to examine variability parameters, such as coefficient of variation, association among seed cotton yield and component traits and to study stability of various traits. Fibre quality traits were analyzed. Seed quality parameters and biochemical parameters were also estimated. The results indicated that among the environmental factors; minimum temperature, morning and evening relative humidity and photo thermal units play important role in seed development. In all the three varieties during both the years, early sown conditions were observed most suitable for seed development and the period from August 1 to September 7 was observed most suitable for seed development in all the sowing conditions. Number of flowers produced and number of boll setting were higher in early sown conditions compared to normal sown conditions and least in late sown conditions in all the three varieties whereas boll setting per cent were almost similar indicated the advantage of early sown conditions for obtaining higher seed cotton yield. During the experimental period a total of 22277 flowers of all the three sowing conditions were tagged in the variety HD 432, 20453 in HD 123 and 19554 in HD 324 and effective boll setting was 59.1%, 60.9% and 59.1%, respectively. Seed germination in early sown conditions was higher compared to normal sowing and it further decreased under late sown conditions indicated the superiority of early sown conditions for better seed development. Similarly highest protein content, oil content and sugar content were observed in early sown conditions and gossypol content was minimum and vice-versa in later sown conditions. It was observed that fibre quality parameters were least affected by varying environmental conditions. Seed cotton yield per plant showed highly significant positive correlation with lint yield per plant, number of bolls per plant, boll weight, seed index, number of seeds per boll, number of monopods per plant, plant height, days to boll bursting and days to first flower. The path-coefficient analysis suggested the importance of lint yield per plant, number of bolls per plant, seed index, boll weight and plant height as they exhibited positive direct effects on seed cotton yield. The estimation of environmental additive effects (Ij) revealed that early sown conditions during both the seasons were most suitable for seed cotton yield (g/plant), days to first flower, plant height, lint yield (g/plant), number of bolls /plant and lint index.