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Theses

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2020 - 202211
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Subject: Agricultural Meteorology × End date: 2022 × Start date: 2020 × Thesis Type: M.Sc ×
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Now showing 1 - 9 of 11
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    ThesisItemOpen Access
    Study of weather and spectral parameters in Potato crop under different growing environments
    (Chaudhary Charan Singh Haryana Agricultural University hisar, 2022-07) Saini, Saloni; Anil Kumar
    The field study entitled “Study of weather and spectral parameters under different growing environments” was carried out at University Research farm of Department of Agricultural Meteorology, CCS HAU, Hisar during rabi 2021-22 season (Lat.: 29° 10 N; Log.: 75° 46 E; Alt.: 215.2 m). The study was comprised of four sowing dates as factor (A) namely (D1) -16th November, (D2) – 22nd November, (D3) – 30th November and (D4) – 7th December, comprising three different cultivars factor (B) viz. (V1)- Kufri Bahar, (V2)-Kufri Pushakr, and (V3)-Kufri Lima. The experiment was laid out in factorial RBD design with four replications. With respect to agrometeorological indices highest GDD, HTU, PTU were accumulated in crop sown on 30th November (D3) and in variety Kufri Lima (V3) and highest TUE and RUE were found in crop sown on 22nd November (D1) and in variety Kufri Pushkar compared to others. Tuber yield and haulm yield was recorded highest in D2 under different growing environments. Highest chlorophyll content was recorded in crop sown on 16th November (D1) and negative value of difference between canopy and air temperature revealed that crop feels no stress. The value of NDV1 was recorded highest in D2. Negative significant correlation of NDVI existed with Tmax, RHe and RF whereas positive correlation existed with LAI, dry matter and tuber yield. Variable reflectivity signature was observed, NDVI were varies among the growing environment at physiological maturity.
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    ThesisItemOpen Access
    Spatio-temporal trend analysis of evapotranspiration in different agro-climatic zones of Haryana
    (Chaudhary Charan Singh Haryana Agricultural University, Hisar, 2021-09-21) Punia, Rahual; Anurag
    Evapotranspiration is the integrated process of evaporation and transpiration and is affected by meteorological variables, crop characteristics, and management practices, as well as environmental characteristics. There have been many studies in the estimation of ETo around the world. Evapotranspiration plays an important role in maintaining water balance of terrestrial ecosystem and for irrigation scheduling in crop production. The present study was carried out at Deptt. of Agricultural Meteorology, CCS HAU Hisar, to compute spatio-temporal trend analysis of evapotranspiration at different location of Haryanaviz. Ambala, Karnal, Bawal, Hisar and Sirsa that are evenly distributed in two agro-climatic zones of Haryana. The study was based on PET calculation by maximum and minimum temperature using Thornthwaite method. The calculated values were interpreted on monthly as well as seasonal scales. Highest normal annual PET was at Sirsa with 5.5 mm/day followed by Bawal (4.72 mm/day), Hisar (4.55 mm/day), Ambala (4.34 mm/day) and Karnal (4.14 mm/day). The annual PET had an increasing trend as per MK test at all locations. Sirsa and Ambala had significant +ve trends. In Kharif season, Sirsa had highest PET while in Rabi, Ambala showed highest value of normal PET. An increasing trend was observed at all locations during Kharif and Rabi seasons but significant trends were revealed at Sirsa and Ambala in Kharif, and Bawal and Ambala in Rabi seasons. In winter season (January-February) all stations had a decreasing trend of PET with significant decreasing trends at Karnal location. On monthly scale, June had the highest and January had the lowest value of PET in Haryana as observed at all five locations.Month of October observed with significantly increasing trends in PET at all locations expect for Karnal. January and December months observed with decreasing trends at all location. Overall, for the state of Haryana as a whole, 4.56 mm/day was found as a normal annual potential evapotranspiration, likewise seasonal normal were 7.6 mm/day in Kharif, 1.5 mm/day in Rabi, 0.6 mm/day in winter, 5.5 mm/day in pre monsoon, 7.8 mm/day in monsoon and 1.9 mm/day in post monsoon period.
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    ThesisItemOpen Access
    Study the effect of weather parameter on bacterial blight in cluster bean [Cyamopsis tetragonoloba (L.) Taub.]
    (Chaudhary Charan Singh Haryana Agricultural University, Hisar, 2021-09) Bharti, Rahul Raj; Bharti, Rahul Raj; Khichar, M.L; M.L Khichar, M.L
    Field studies on“Study the effect of weather parameter on bacterial blight in Cluster bean [Cyamopsis tetragonoloba (L.) Taub.]”was conducted at dry land research area of department of Plant Pathology,CCS Haryana Agricultural University, Hisar during Kharif 2020. The main plot treatments consisted of three date of sowing viz., 1st week of July (D1), 2nd week of July (D2) and 4th week of July (D3) and the sub-plot treatments consisted of three varieties viz., HG 365, HG 563, HG 2-20.Nine treatment combinations were tested in randomized block design in three replications. The 1st week of July sown crop had highest agrometeorological indices, followed by 2nd week of July and 4th week of July. All growth parameters, yield and yield attributes were found highest in 1st week of July sown crop. Among different varieties, HG 563 consumed highest heat units, heliothermal units and photothermal units followed by HG 2-20 and HG 365 under different growing environments. Heat use efficiency were highest in variety HG 365.Progression of bacterial blight was found highest in variety HG 365 followed by HG 2-20 and HG 563 in all three date of sowings.Among different sowing dates crop sown on 1st week of July were recorded lowest progression of bacterial blight followed by 2nd week of July and 4th week of July.The correlation analysis were carried out to study the relationship between bacterial blight and microclimate of cluster bean varieties. Temperature minimum, relative humidity evening highly significant negatively correlated in all date of sowings and in all varieties. Relative humidity morning positively correlated in all date of sowings and in all varieties. Maximum AUDPC were recorded in 4th week of July sown crop in all varieties. Minimum AUDPC were recorded in 1st week of July sown crop in all varieties.
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    ThesisItemOpen Access
    Study on microclimate of cluster bean [Cyamopsis tetragonoloba (L.) Taub.] cultivars under two crop row orientations
    (CCSHAU, Hisar, 2021-07) Yadav, Ankit; Ram Niwas
    The field investigation on “Study on microclimate of cluster bean [Cyamopsis tetragonoloba (L.) Taub.] cultivars under two crop row orientations” was carried out during Kharif season 2020-21 at Research area, Department of Agricultural Meteorology, Research Farm, Chaudhary Charan Singh Haryana Agricultural University, Hisar. The treatment consisted of two crop row orientations D1 (East-West) and D2 (North-South) and three cultivars/varieties V1 (HG 365), V2 (HG563) and V3 (HG 2-20). These eighteen plots were evaluated in factorial randomized bock design with three replications. The North-South crop row orientation had a higher seed yield owing to its greater number of pods/plant as compared to East-West crop row orientation. The cultivar HG 2-20 similarly had a higher seed yield due to more pods/plant. There was no difference between crop row orientations in the occurrence of phenophases but variety HG 2-20 had a longer reproductive phase i.e. it entered flowering stage earlier and matured later. The LAI of cluster bean increased up until around 70 DAS after then started decreasing while dry matter accumulation kept on increasing up until maturity. Both row orientations intercepted through their entire canopy the same amount/percentage of total incident PAR. However, variety HG 2-20 intercepted more par as compared to other varieties. All cultivars and crop row orientations had similar kind of relative humidity and temperature profiles with diurnal variations being lowest at bottom of the canopy and highest at the top of canopy. The top of canopy was much closer to the ambient environment as compared to bottom of the canopy. The correlational analysis of yield attributes and weather parameters and agrometeorological indices showed that negative correlation with temperature especially with night time and relative humidity especially evening RH. However, crops planted in North-South row orientation were less affected. Cluster bean crop was significantly positively correlated with sunshine duration and heat units as well.
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    ThesisItemOpen Access
    Response of Pearl millet (Pennisetum glaucum L.) cultivars under different growing environments using DSSAT-model
    (CCSHAU, Hisar, 2020-02) Sarika; Anil Kumar
    The field experiment entitled “Response of Pearl millet (Pennisetum glaucum L.) cultivars under different growing environments using DSSAT-model” was conducted during Kharif season (2018) at research farm of Department of Agricultural Meteorology, CCS HAU, Hisar (29°10 N, 75°46 E and altitude 215.2 m). The experiment was comprised of three sowing dates main plot treatments namely (D1) -5th July, (D2) - 15th July and (D3) - 31st July; sub plot treatments comprising three different cultivars viz. (V1)- GHB 558, (V2)- HHB 67 Improved and (V3)- HHB 272. The experiment was laid out in split-plot design with four replications. Different agrometeorological indices viz. GDD was higher in D2 and HTU was higher in D3. PTU, RUE and TUE accumulation was significantly higher under first date of sowing at various phenophases in comparison to the other date of sowing. The first sowing date (D1- 5th July) resulted in better overall growth and produced higher grain yield as compared to second sowing date (D2- 15th July) and third sowing date (D3-31st July). While among varieties, GHB 558 produced highest grain yield with better yield attributes as compared to HHB 67 Improved and HHB 272. In respect of phenological observations, agrometeorological indices and growth parameters shows better efficiency 5th July sown crop with variety GHB 558 among different sowing dates and varieties. IPAR was more in D3 as compared to other treatments. Grain yield was positively correlated with minimum temperature and rainfall. The radiation use efficiency (RUE) was higher in D1 treatment and variety GHB 558. DSSAT model was calibrated for (2018) and derived their genetic coefficients and further used for yield prediction. The results revealed that comparison of observed and simulated days to anthesis and physiological maturity were in good agreement with observed values of growth and yield attributes for Hisar conditions. The model over estimated both days to anthesis and physiological maturity in all the treatments. The simulated grain yield was over estimated and model simulation for maximum LAI was under estimated. Simulation performance of the model was found satisfactory with reasonable agreement (±10).The model has proved to a suitable tool for predicting phenology, maximum LAI and grain yield of pearl millet crop
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    ThesisItemOpen Access
    Study of microclimate and radiation interception in Bt cotton under different growing environments
    (CCSHAU, Hisar, 2021-07) Godara, Mohit; Khichar, M.L
    Field experiment on ‘Study of microclimate and radiation interception in Bt cotton under different growing environments’ was carried out at research farm, Department of Agricultural Meteorology, CCS HAU, Hisar during Kharif season 2020. The main plot treatments consisted of three date of sowing viz., 19th of April (D1), 8th of May (D2) and 28th May (D3) and the sub-plot treatments consisted of three spacing viz., 67.5 cm × 60 cm (S1), 100 cm x 45 cm (S2) and 100 cm x 60 cm (S3) replicated three times and tested in split plot design. All growth parameters, growth rates, yield and yield attributes, dry matter accumulation, LAI and plant height were found highest in early sown crop under 19th April (D1). Intercepted Photosynthetically active radiation was highest in narrow plant spacings 67.5 cm x 60 cm and in early sown crop under 19th April (D1). Seed cotton yield was positively correlated with temperature, BSS and agrometeorological indices whereas negatively correlated with relative humidity in three different Dates of sowing. Dry matter accumulation per plant found to be highest in wider plant spacing 100 cm x 60 cm while plant height and LAI were maximum in narrow plant spacing 67.5 cm x 60 cm. Diurnal range of temperature and relative humidity profiles were higher in wider plant spacing 100 cm x 60 cm and in late sown crop under 28th May (D3) sown Bt cotton crop.
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    ThesisItemOpen Access
    Soil moisture depletion pattern and its effect on growth and yield of pearl millet (Penisetum glaucum L.)
    (CCSHAU,HiSAR, 2020-08) Yadav, Pooja; Dagar, C.S
    The field experiment entitled “Soil moisture depletion pattern and its effect on growth and yield of pearl millet (Penisetum glaucum L.)” was conducted during Kharif season (2019) at research farm of Department of Agricultural Meteorology, CCS HAU, Hisar. The experiment was comprised of three dates of sowing and three varieties and laid out in factorial RBD with four replications. The 30th June sown crop depleted higher amount of water from the deeper soil layers on 49 and 63 DAS which coincide with higher water requirement and lower moisture availability. The early sown crop depleted higher total amount of water as compared to the subsequent sowings and the soil moisture depletion pattern was similar under different sowing dates with varying amount of moisture depletion. Among the different varieties the highest amount of moisture was depleted by HHB-67 Improved and depletion from deeper layers was also higher by this variety showing its drought resistance characteristics. The early sown crop i.e. 30th June experienced lower canopy temperature depression values and the crop enjoyed the most of crop season with no water stress and resulted in superior yields. The grain and stover yields are influenced differently by different weather parameters at different growth phases. The effect of soil moisture depletion on growth and yield was also studied and the percent available soil moisture (PASM) of soil depth up to 60 cm during milking to maturity found positive influence on LAI and plant height of pearl millet. The PASM have significant positive influence on dry matter, grain and stover yield. The crop phase from flag leaf to maturity were more sensitive to soil moisture availability than the early vegetative stage and hence, the availability of soil moisture at reproductive stage determines the growth and development of pearl millet and ultimately the yield than early vegetative stage. At early growth stage (7-14 DAS) yield negatively correlated with soil moisture and thereafter positively. The soil moisture shows high correlation with yield at milking stage.
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    ThesisItemOpen Access
    Calibration and validation of CROPGROW -chickpea model under semiarid condition
    (CCSHAU, Hisar, 2021-09) Sharma, Vivek; Raj Singh
    Field experiment entitle “Calibration and validation of CROPGROW-chickpea model under semiarid condition” was conducted during Rabi season 2020-21 at research farm of Department of Agricultural Meteorology, CCS HAU, Hisar (290 10’ N, 750 46’ E and altitude 215.2 m). The experiment consisted of four date of sowings as main plot treatments namely, D1-13th October, D2-1st November, D3-15th November, D4- 2nd November; sub plot treatments comprised of three varieties viz. (V1)- HC 1, (V2)- HC 7 and (V3)- HC 5. The experiment was laid out in split plot design with three replications. Relative humidity and temperature at morning hours was maximum at the bottom of canopy and it decreased towards the top at flowering and pod initiation stage while at maturity stage temperature increased towards the canopy top and relative humidity decreased towards the top of canopy. Accumulated intercepted PAR was maximum for (D1-13th October) and variety HC 7. Yield and yield attributes were highest for (D1- 13th October) and variety HC 7. Plant height was maximum in variety HC 5 and (D1-13th October). Crop growth observations except plant height were highest for (D1-13th October) and HC 7 while plant height was observed maximum in (D1-13th October) and variety HC 5. DSSAT model was simulated and compared with observed values and results have revealed that simulated days to flowering, days to pod initiation, days to physiological maturity and seed yield were in good agreement with observed values. Model overestimated days to flowering, days to pod initiation, days to physiological maturity and underestimated the seed yield and leaf area index. The model can be used satisfactorily for prediction of phenology and seed yield.
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    ThesisItemOpen Access
    Study of crop-weather relationships and evaluation of CERES-Barley model under different growing environments
    (CCSHAU, Hisar, 2020-09-29) Renu; Anil Kumar
    The field study entitled “Study of crop-weather relationships and evaluation of CERES-Barley model under different growing environments” was conducted in rabi 2019-20 at University Research farm of Department of Agricultural Meteorology, CCS HAU, Hisar (Lat.: 29° 10 N; Log.: 75° 46 E; Alt.: 215.2 m). The study was comprised of four sowing dates as factor (A) namely (D1) -15th November, (D2) – 30th November, (D3) – 15th December and (D4) – 30th December, comprising four different cultivars factor (B) viz. (V1)- BH 393, (V2)-BH 902, (V3)- BH 946 and (V4)-BH 885. The experiment was laid out in factorial RBD design with three replications. With respect to agrometeorological indices highest GDD, HTU, PTU were accumulated in crop sown on 2nd fortnight of December (D4) and in variety BH885 (V4) and highest TUE and RUE were found in crop son on 1st fortnight of November (D1) and in variety highest TUE was found in BH 393(V1) and highest RUE was found in BH 902(V2) as compared to others. Highest IPAR was accumulated in late sown crop (D4) and in variety BH 885, highest chlorophyll content was recorded in early sown crop (D1) and negative value of difference between canopy and air temperature concluded that crop feels no stress upto anthesis stage. The crop growth and phenological observations were found significantly highest in early crop sown on 1st fortnight of November (D1) that resulted in better overall growth and in terms of yield and yield contributing attributes crop sown on 1st fortnight of November (D1) and in variety BH 393(V1) that resulted in better overall grain and biological yield as compared to others. CERES-Barley model evaluation overestimated the days to anthesis and grain yield and underestimated the days to maturity and leaf area index. Lower RMSE in estimation of days to anthesis, physiological maturity and leaf area index revealed that good agreement between actual and predicted model data. The CERES-Barley simulation model has proved to a suitable tool for predicting phenology, maximum LAI and grain yield of Barley crop.