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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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2010 - 201411
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Subject: Plant Physiology × End date: 2015 × Start date: 2010 × Type: Thesis × Thesis Type: M.Sc ×
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Now showing 1 - 9 of 11
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    ThesisItemOpen Access
    Phosphorus uptake, yield and quality parameters in wheat (Triticum aestivum L)
    (CCSHAU, 2010) Renu Bala; Munjal, Renu
    The present experimentation was carried out on ten wheat genotypes namely WH-147, Raj-4083, WH-1021, WH-1022, WH-1025, LOK-1, NW-2030, C-306, PBW-343 and PBW-550 with three level of phosphorus i.e. 20%, 50% and 100% in order to identify the genotypes efficient in phosphrous uptake and utilization, the effect of phosphrous doses on quality parameters of wheat grains and the root morpho-physiological traits associated with efficient phosphors uptake. The investigation involved pot studies under screen house conditions during the year 2008-09.Data was recorded for dry weight of root,stem and leaves,physiological parameters(Chlorophyll fluorescence, Assimilation rate, Transpiration rate, Stomatal conductance, Water use efficiency ),days to heading, days to Anthesis, days to Maturity, Grain Filling duration, Plant Height, No. of productive tillers/plant, biomass/plant, Spike length, Grain yield/plant Test weight, Phosphorus cont Quality parameter in grain . In this study day to heading, anthesis, maturity and grain filling duration got delayed at low P level (20%) as compared to 100% P. Raj-4083, WH-1022, NW-2030, WH-1025, C-306, PBW-343 and PBW-550 showed significant difference for root, shoot and leaf dry weight at different level of phosphorus during anthesis stage. WH-147 and Raj-4083 was better in maintaining WUE at different P level. Acid and alkaline phosphate activity increased with decrease in the P. Activity of both enzymes was highest in NW-2030. For majority of the yield components the genotypes Raj-4083, WH-147, LOK-1, NW-2030 and PBW-550 performed better at different P levels. Among all these seedling characteristics root length root/ shoot dry weight and no. of secondary lateral roots increased at 20% P, but shoot length decreased at 20% P. No. of secondary lateral roots was found as major determinant of P deficiency.
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    ThesisItemOpen Access
    Studies on epibrassinolide induced amelioration of high temperature stress in brassica juncea (L.) czern & coss
    (CCSHAU, 2010) Walke, Mahadev Bapu; Chhabra, M.L.
    The present investigations were undertaken to study the role of epibrassinolide (EBR) on seed germination, seedling growth, 50% seedling mortality, relative water content, membrane stability, free proline content, antioxidative enzymes and metabolites at seedling stage, while gaseous exchange and yield attributes at terminal stage in field grown Brassica juncea plants. When seedlings were grown at 25C, 30C or 35C, it was observed that 25C is optimum temperature for germination and seedling growth. The germination, speed of germination and seedling growth of Brassica juncea in general reduced when temperature was increased from 25C to 30C and 35C. Soaking seeds in EBR (10-6 M, 10-8 M or 10-10 M) for 2 hrs in general reduced germination, seedling growth and delayed seedling mortality. Higher the concentration of EBR used, more was the reduction in germination and seedling growth. Acclimation at sublethal temperature (32C) and EBR pretreatments (10-8 M and 10-10 M ) for 24 hrs prior to high temperature stress (45C) were found to be effective in imparting thermo protection at seedling stage, which is the crucial stage of plant establishment. These pretreatments helped seedling to recover from heat stress by improved relative water content, reduced per cent injury and increased free proline content. Increase in enzymatic activity of catalase, peroxidase, and also reduction in MDA, H2O2 content conferred thermotolerance. At flower cessation stage, compared to normal sown, in late sown crop the rate of photosynthesis and seed yield decreased significantly whereas, rate of transpiration and stomatal conductance increased. Rate of photosynthesis, transpiration and stomatal conductance increased in plants sprayed with EBR at flower cessation stage. Lower concentration of EBR (10-10 M) was more effective to bring consecutive improvement in gaseous exchange. EBR spray (10-10 M) increased the seed yield (13.6%) and oil content (4.23%) as compared to control. Lower concentration of EBR (10-10 M) in general was more effective in imparting thermotolerance in B. juncea.
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    ThesisItemOpen Access
    Studies on the ripening of Mango (Mangifera indica L.) cv. Dashehari by ethephon and calcium carbide
    (CCSHAU, 2011) Poonam Kumari; Sandooja, J. K.
    An expriement was conducted to compare the ripening caused by ethephon (source of natural ripening hormone, ethylene) and calcium carbide (source of acetylene and applied commercially) in mango fruits as compared to control. Physiological loss in weight increased with increase in the period of storage in all the treatments. There was no decay loss up to 6th day, however it was observed on 8th day of storage in all the treatments and further it increasd on 10th day of storage. Fruits treated with calcium carbide had higher physiological loss in weight, decay loss, sugars and total soluble solids as compared to fruits ripened with ethephon. However, acidity, ascorbic acid, cellulose and pectin content of fruits were lower in calcium carbide treated fruits as compared to fruits ripened with ethephon. Sugars (total, reducing and non-reducing) and total soluble solids increased with increase in period of storage up to 4th and 6th day of storage respectively in all the treatments and decreased thereafter whereas cellulose, pectin, acidity and ascorbic acid decreased with increase in the period of storage in all the treatments. Among the different treatments, calcium carbide @ 3g/kg was highly effective in increasing decay loss, total soluble solids and sugars and decreasing acidity, ascorbic acid, pectin and cellulose content. Fruits ripened with ethephon @ 250 ppm showed better ripening and sensory qualities.
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    ThesisItemOpen Access
    Physiological studies on the effect of salinity on germination and early growth in Gossypium hirsutum L. and Gossypium arboreum L.
    (CCSHAU, 2011) Kavita; Promila Kumari
    The present investigation was aimed on “Physiological studies on the effect of salinity on germination and early growth in Gossypium hirsutum L. and Gossypium arboreum L.” using various physiological parameters. Six cultivars of cotton (RCH-134, Bio-6488, H-1236, HHH-223, HD-123, AAH-1) were grown in screen house having four salinity levels as control, 4, 8, and 12 dSm-1. Results revealed that with progressive increase in salinity levels the seed germination, vigour index, relative water content of leaves, osmotic potential and stomatal conductance transpiration rate, as well as K+ content of leaves. Maximum reduction in seed germination was recorded in desi cotton cultivar HD-123 at highest level (12dSm-1) of salinity. A progressive increase in salinity levels on the other hand caused catalase, peroxidase activity and Na+ content of leaves enhanced. The maximum enhancement in catalase and peroxidase activity in leaf was observed in Bt. cultivars at both the sampling stages i.e at 30 and 60 DAS. Accumulation of Na+ content in leaves was maximum in desi cultivars HD-123 followed by American. Sodium content of leaves of all the cultivars of cotton increased with increasing salinity level; increase being found to highest in leaves of desi cotton cultivars. Potassium content of all cotton cultivars showed decreasing trend with increasing salinity levels. K+/Na+ ratio of leaves of all cultivars also decreased with increasing salinity level; decrease being highest in Bt. cultivars and minimum was recorded in desi cotton cultivars AAH-1. On the basis of the observations taken in the score-card it was found that Bt. cotton cultivars RCH-134 and Bio-6488 was tolerant to salinity. Both Bt. cotton cultivars (RCH-134 and Bio-6488) showed maximum no of polypeptide bands i.e 14 in SDS-PAGE, while American showed total number of thirteen polypeptide bands while desi cultivars had twelve in AAH-1 and fourteen in HD-123. Result revealed that with the progressive increase in salinity level from 4 to 12 Dsm-1 there was decrease in various physiological parameter enhanced viz; On the other hand, with the increase salinity levels increase in catalase, peroxidase enzymes and the Na+ content was recorded.
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    ThesisItemOpen Access
    Role of salinity in tree mortality in southwest Haryana conditions
    (CCSHAU, 2012) Dharamvir; Angrish, Rajiv
    This investigation was conducted to find out the effect of native soil salinity on Dalbergia sissoo and Acacia nilotica growing under field conditions. For each tree 20 nonsaline (ECe < 4 dS m-1) and 20 saline (ECe > 8 dS m-1) sites were earmarked in Hisar district. About 7-8 months old leaves were sampled and proceeded for analysis of various morphological and physiological traits. It was observed that the leaf area of Dalbergia sissoo showed a decrease of 11.3 % and Acacia nilotica showed a decrease of 9.81 % under saline conditions as compared to the non-saline conditions. An increase in the specific leaf weight and total soluble solids was observed in both the tree species under saline conditions. Salinity also caused membrane injury in both the species under saline conditions as determined by the increased relative stress injury index. The trees growing under saline conditions also had a lower water status as depicted by the relative water content % at the saline sites. Likewise the chlorophyll content also depicted a decline at the saline sites. Interestingly ,however, total sugars in both Dalbergia sissoo and Acacia nilotica showed that increase in response to salinity at saline sites. Both the tree species showed a many fold increase in leaf sodium content. However the leaf potassium content decreased with a concomitant increase in the Na:K ratio. A many fold increase in the leaf chloride and sulphate content of both the species was also observed. It is concluded that the saline site trees of Dalbergia sissoo and Acacia nilotica show growth inhibition as evidenced by decreased leaf area. The tree species appear to cope up with the saline stress by osmoregulation due to increased osmolites like sugars. However disturbed ionic balance due to many fold increase in sodium, chloride and sulphate inhibits growth over a period of time and results in the tree decline and ultimate mortality.
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    ThesisItemOpen Access
    Physiological evaluation of pigeonpea [Cajanus cajan (L.) Millsp.] genotypes for waterlogging and salinity tolerance
    (CCSHAU, 2014) Manohar Lal; Sheokand, Sunita
    Thirty pigeonpea genotypes HO6-1, HO6-12, HO3-41, HO9-27, HO9-33, HO9-34, HO9-36, HO9-38, MANAK, PARAS, ICPH 2431, ICPH 2671, ASHA, MARUTI, ICPL 87051, ICP 5028, ICPL 20096, ICPL 87091, ICPL 20241, LRG 30, ICPL 20120, MAL 9, ICPL 20238, ICPL 20237, MAL 12, SIPS 2, SGBS 6, ICP 8857, UPAS 120 and ICP 7035 were screened for waterlogging, salinity (60mM NaCl) and combined waterlogging + salinity (30mM NaCl) tolerance. All the physiological parameters such as germination, seed vigour index, plant survival, leaf senescence, chlorophyll content, chlorophyll fluorescence were adversely affected with waterlogging and salinity. The genotypes ICPH 2431, PARAS, HO9-33, HO6-1, HO6-12, HO9-36 were less affected and UPAS 120, SGBS 6, MAL-12, ICPL 20237, HO9-34, LRG 30 were more affected with waterlogging and salinity treatments. Based on these studies four genotypes were selected ICPH 2431, PARAS as relatively tolerant and UPAS 120, SGBS 6 as relatively sensitive. These four pigeonpea genotypes [ICPH 2431, PARAS (relatively tolerant) and SGBS 6, UPAS 120 (relatively sensitive)] were further evaluated for physiological and biochemical changes. Waterlogging, salinity and the combination of waterlogging and salinity had adverse effect on membranes as was evident from increased electrolyte leakage and lipid peroxidation levels. The carbohydrate metabolism was altered resulting in a decline in total soluble sugar content and an increase in reducing sugar content. A significant decline in plant biomass and yield was observed. The adverse effects were more on the sensitive genotypes SGBS 6 and UPAS 120 as compared to the relatively tolerant genotypes ICPH 2431 and PARAS. The effect of waterlogging was significantly greater than that of salinity and that of combination of both stresses was greater than either stress alone. The aerenchyma formation was also less in sensitive genotypes as compared to tolerant genotypes. The aerenchyma formation was more during waterlogging + salinity (30mM NaCl) treatment.
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    ThesisItemOpen Access
    Physiological and biochemical responses to low temperature in chickpea (Cicer arietinum L.)
    (CCSHAU, 2013) Manohar lal; Neeraj Kumar
    The effects of low temperature on morpho-physiological traits, antioxidant defense mechanism and protein profile (SDS-PAGE) in three chickpea(Cicer arietinum L.) genotypes i.e. ICCV88503, ICCV96029 and H08-28 differing in their sensitivity to low temperature (<5 o C) was investigated under field conditions. Sampling was done 4 days after exposure (DAE) to low temperature (<5 o C) and control (>5 o C). The water potential (Ψ w) of leaf and osmotic potential (Ψ s ) of leaf decreases in all the three genotypes. ICCV88503 showed more negative values Ψ w of leaf i.e. from -0.69 to -0.88 MPa as compared to -0.66 to -0.84MPa in ICCV96029 and -0.64 to -0.83 in H08-28, respectively. The Ψ s of leaf decreased from -1.78 to -2.06 MPa in ICCV88503 and -1.59 to -2.03 MPa in ICCV96029 and -1.11 to -1.49 MPa in H08-28 after 4 days exposure to low temperature (<5 o C). The proline content of leaf increased significantly from 67.24% in ICCV88503 followed by 44.14% in ICCV96029 and 35.28% in H08-28 as compared to control. Similar increasing trends was observed in the total soluble carbohydrate (TSC) content at 4 DAE (<5 o C). A marked increase in hydrogen peroxide (H2O2 ), lipid peroxidation (MDA) content and relative stress injury (RSI %) was noticed in leaf which was higher in ICCV88503 followed by ICCV96029 and H08-28. More negative values of Ψw of leaf, Ψ s of leaf better accumulation of osmotically active solutes, i.e. Proline and TSC in leaf of ICCV88503 helped in maintaining the higher RWC % of these organs than noticed in ICCV96029 and H08-28. ROS scavenging enzyme of leaves i.e. SOD, CAT and POX specific activity increased maximum in ICCV88503 followed by ICCV96029 and H08-28 after 4 days exposure to low temperature (<5 o C) as compared to control (>5 o C). Higher specific activities of antioxidant enzymes, lower accumulation H 2O2 and MDA content in ICCV88503 than ICCV96029 and H08-28, indicated that these enzymes play a key role in removal of ROS in ICCV88503 better than other two genotypes ICCV96029 and H08-28, thus minimizing the cellular damage caused by ROS under low temperature. Pollen viability (%), in vivo pollen germination and tube growth were also adversely affected with increasing exposure to low temperature (<5 o C) and the effect being most pronounced in H08-28. SDSPAGE revealed more deletion of polypeptide bands in H08-28 than ICCV96029 and ICCV88503 with increasing exposure to low temperature (<5 o C) as compared to control (>5 o C) in leaf. The yield parameters like number of pods plant -1 , number of seeds plant -1 , 100 seed weight and seed weight plant -1 decreased more in H08-28 in early sown condition. Hence, the mechanism of cold tolerance was better in ICCV88503 as compared to ICCV96029 and H08-28 as found from physiological and biochemical traits studied.
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    ThesisItemOpen Access
    Photosynthetic rate studies in Indian mustard (B. juncea (L.) Czern & Coss.)
    (CCSHAU, 2013) Kirpa Ram; Munjal, Renu
    The objectives of present investigation were to the study photosynthetic rate of wild and cultivated variety of B. juncea and to compare photosynthetic rate of hybrids with their respective parents. The characters observed were net photosynthetic rate, transpiration rate, stomatal conductance, intracellular CO2 concentration, water use efficiency, mesophyll efficiency, chlorophyll content and seed yield per plant were recorded. Result revealed that average net photosynthetic rate was maximum in 5 th upper leaf, whereas average stomatal conductance was maximum in 3 rd upper leaf and intracellular CO2 concentration at 1 st lower most leaf at 45 (DAS). At varying light interception, net photosynthetic rate and transpiration rate was found maximum at 12:00 PM. However intracellular CO 2 concentration was maximum at 10:00 AM. Intracellular CO2 concentration was found to be positive and significantly correlated with transpiration rate, stomatal conductance and chlorophyll content. Significant differences for photosynthetic traits indicated the ample variability existed among the genotypes. The estimate of heritability were high for the characters- water use efficiency and mesophyll efficiency, whereas low to moderate genetic advance was observed for the characters net photosynthetic rate and chlorophyll content. High heritability coupled with high genetic advance was observed for seed yield per plant and stomatal conductance. The highest mean over parental heterosis was observed in Kranti x RB-50 for transpiration rate (95.18%) and intracellular CO 2 concentration (67.82%). The overall performance of the crosses Kranti x RH-0446, Kranti x RB-50, RH-9304 x RH-8113, RB-50 x RH-9304, RH-0446 x RH-8113 were found promising and may be exploited in future breeding programme in order to improve the photosynthesis and seed yield in mustard.
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    ThesisItemOpen Access
    Physiological and Molecular characterization of heat tolerance in wheat (Triticum aestivum L.)
    (CCSHAU, 2013) Seema; Munjal, Renu
    The objectives of present investigation were to determine the variation for morphophysiological traits, to identify physiological traits related to heat tolerance and to identify physiological traits using SSR markers grown under normal and terminal heat stress late sownconditions. The characters observed were grain yield/sq. meter (g), number of productive tillers/meter row length, 100-grain weight (g), grain weight/spike (g), number of spikelets/spike, days to heading, days to maturity, plant height at 45 days (cm), plant height at maturity (cm), biomass/sq. meter (g). Data on four physiological traits viz., canopy temperature depression, membrane thermostability, chlorophyll fluorescence and 2,3,5-triphenyl tetrazolium chloride were also recorded. Results revealed that the mean of genotypes in two environments (normal and late sown) were significant for the characters viz., grain yield/sq. meter (g), number of productive tillers/meter row length, number of spikelets/spike, days to heading, days to maturity, plant height at maturity (cm), biomass/sq. meter (g). This indicated that genotypes of bread wheat differed in their response to terminal heat stress for these characters. The genotype WH730 showed least inactive reaction centres in late sown conditions indicating the high efficiency in photosystem- II. The magnitude of direct effects showed that grain weight/ spike and spikelets/ spike were important for improvement of grain yield in normal sown conditions. The direct contribution of cell membrane stability followed by plant height at 45 days were important for improvement of grain yield in late sown environment. The NTSYS-PC UPGMA cluster tree analysis led to the grouping of 21 wheat genotypes in two major groups and 7 subgroups. Cluster V was the largest consisting of 6 genotypes (DBW17, MP4010, RAJ3765, HD2687, HD2931 and HD2967) followed by cluster IV consisting of 5 genotypes (WH730, WH1100, WH1111, WH1021 and DBW14), cluster III and VI consisting of 3 genotypes-WH416, WH542, WH711 and PBW343,SONALIKA and PBW550 and cluster II (2 genotypes-DBW16 and PBW590) and cluster I and cluster VII (1 genotype each-WH147 and PBW373) . WH1100 and WH730 showed a maximum similarity coefficient of 0.86. The molecular size difference between smallest and largest allele at a locus varied from 30 to 450 bp.