School Of Environment And Earth Sciences

Permanent URI for this communityhttps://kr.cup.edu.in/handle/32116/83

Browse

Filters

2017 - 20204

Settings

Subject: search.filters.subject.Soil

Search Results

Now showing 1 - 5 of 5
  • No Thumbnail Available
    Item
    Amino-functionalized Magnetic Iron Nanoparticles As a Carrier for Laccase Enzyme and Its Potential to Degrade Chlorpyrifos in Contaminated Soil: Fate and Kinetics
    (Springer Science and Business Media Deutschland GmbH, 2022-04-14T00:00:00) Das, Anamika; Yogalakshmi, Kn
    The present study utilizes the covalent-crosslinking method to immobilize the�laccase enzyme on magnetic iron nanoparticles�and further assess its potential in degrading�chlorpyrifos in pesticide spiked�soil. The soil texture analysis revealed the presence of clay, silt and sand accounting to�7.1%, 14.3%, and 78.6%, respectively. The degradation of chlorpyrifos in spiked soil�using laccase enzyme�immobilized�magnetic iron nanoparticles was measured for 60�days�in a batch process. The results revealed a gradual increase in degradation efficiency showing around�29.3%, 43.8%, 56.3%, and 67.3% at the 20th, 30th, 40th, and 50th day�of incubation. A maximum degradation of�83.6% was observed on the 60th day of incubation. Intermediate products 2,4-bis(1,1 dimethylethyl) phenol, 1,2 benzenedicarboxylic acid, bis(2-methyl propyl) ester�and�piperidine confirmed the degradation of chlorpyrifos in soil. The piperidine originated in the chromatogram between�20�40�days of incubation and diminished later. Chlorpyrifos degradation followed pseudo first-order kinetics with a R2 of 0.96. Further, the nanoparticles showed no negative�impact on soil bacterial population during the antibacterial assay. The study confirms the degradation of chlorpyrifos in contaminated soil using laccase-immobilized nanoparticles. � 2022, The Author(s), under exclusive licence to Springer Nature Switzerland AG.
  • No Thumbnail Available
    Item
    Studies on the Use of Fly Ash and Crop Residue Biochar in Soil Amelioration and Nutrient Uptake in Wheat
    (Central University of Punjab, 2018) NAG, SHILPA; Garg, V.K. and Babu, J. Nagendra
    Catalytic pyrolysis of rice straw using fly ash as catalyst was studied in various gravimetric proportions of 1:3, 1:1 and 3:1 (fly ash : rice straw, w/w). The thermogravimetric analysis (TGA ) of the thermal degradation of rice straw in presence of fly ash and its subsequent kinetic analysis by Coats-Redfern equation showed a decrease in the activation energy. The pyrolysis was conducted in a laboratory scale batch reactor maintained at 400, 500 and 600 oC pyrolysis temperatures under slow pyrolysis conditions (10 oC/min). The pyrolysis furnishes three components namely biochar/biochar-fly ash composites (35-90%), bio-oil (4-22%) and syn-gas (6-48%) characteristic of slow pyrolysis conditions. The syn-gas obtained from catalytic pyrolysis were analysed and characterized using GC-TCD analysis to reveal CO2, CH4 and H2 as the major constituents with no traces of CO observed is accounted to fly ash metal oxide catalysed CO to CO2 conversion. The bio-oil obtained from catalytic pyrolysis upon GC-MS analysis, showed an increase in depolymerization of lignin and fragmentation and dehydration of the carbohydrate residues as the major processes operative in presence of fly ash. The results were further affirmed by the Ultimate (CHNO) analysis, 1H-NMR and HSQC 2D-NMR analysis for the catalytic pyrolysis biooil. The biochar and biochar-fly ash composites were characterized for their Ultimate analysis, Functional groups (FTIR and Boehm Titration), SEM-EDS, physico-chemical properties (pH, EC, alkalinity, total phosphate), surface area, micronutrients and its leaching characteristics and Cu(II) adsorption. The O/C and H/C atomic ratios for biochar and biochar fly ash composites decreased with increase in the pyrolysis Name of student Shilpa Nag Registration Number CUP/MPh-PhD/SEES/EVS/2010-11/07 Degree for which submitted Doctor of Philosophy Supervisor Prof. (Dr.) V. K. Garg Co-Supervisor Name Dr. J. Nagendra Babu Department Centre for Environmental Science and Technology School of Studies School of Environment and Earth Sciences Key words Crop residue, Biochar, Fly ash, Soil, Wheat iv temperature. Functional group analysis further reiterated the results with oxygenated functional groups like lactone and carboxylic acids present at lower temperature biochar whereas only phenols were present in case of high temperature biochar. Biochar were alkaline and with increase in the fly ash content the pH of the composites tend to be less basic. Cu(II) adsorption was characteristically observed to increase with increase in the fly ash content in the biochar obtained from catalytic pyrolysis at 500 oC. The biochar and biochar-fly ash composites were ameliorated to soil and changes in the physicochemical properties namely pH, EC, CEC, water holding capacity, total Phosphorus and available Phosphorus, of soil were characterized. The biochar-fly ash composite also prepared externally using biochar obtained at various pyrolysis temperatures with fly ash, mixed in proportion as calculated for the catalytic pyrolysis biochar obtained. The soil ameliorated with biochar-fly ash composite prepared from catalytic pyrolysis were compared with the soil ameliorated with externally mixed biochar-fly ash composite for various soil physicochemical properties. The plant growth of Triticum aestivum was studied for the full crop cycle. The plant growth parameters namely – root length, shoot length, photosynthetic pigments, cellular respiration, antioxidant enzymes, crop height were studied. The results of the study were compared statistically using one way and two way ANOVA. The ANOVA analysis revealed that all the plant growth parameters tend to show a significant change with the biochar/biochar-fly ash composites obtained at various pyrolysis temperatures and their composition. Regression analysis revealed the significant change with all the chemical and biological properties measured at different stages of Triticum aestivum and biochar/biochar-fly ash composite ameliorated soil physicochemical properties. The parameters indicate oxidative stress in case of the plants grown on the biochar and biochar-fly ash ameliorated soils.
  • No Thumbnail Available
    Item
    Degradation of chlorpyrifos in soil using laccase immobilized iron oxide nanoparticles and their competent role in deterring the mobility of chlorpyrifos
    (Elsevier Ltd, 2020) Das A.; Jaswal V.; Yogalakshmi K.N.
    Covalent-immobilization of the laccase enzyme onto the iron oxide nanoparticles was achieved using N-(3-Dimethylaminopropyl)-N?-ethylcarbodiimide hydrochloride (EDAC) as cross-linkers. The presence of sulphur moeity in the laccase immobilized nanoparticles (LNPs) observed through Scanning Electron Microscopy- Energy dispersive X-ray spectroscopy (SEM-EDS) spectra confirmed the immobilization of laccase enzyme. The TEM analysis of iron oxide nanoparticles (FNPs), chitosan coated iron nanoparticles (CNPs) and laccase immobilized nanoparticles (LNPs) confirmed their sizes around 12, 15 and 20 nm, respectively. The effect of LNPs in degrading chlorpyrifos under field conditions was studied by simulating the conditions in a column. Column A, which was used as control showed more leaching of chlorpyrifos as compared to column B containing LNPs. The sorption coefficient (Kd) value obtained for control (column A) and LNPs containing column B were 21.6 and 112.3 L/kg, respectively. LNPs altered the Kd values of soil thereby showing lesser leaching potential. Higher the Kd value, lesser will be the leaching potential in the ground water. Copper in laccase enzyme resulted in hydrolysis of chlorpyrifos. Chitosan used for coating on FNPs and soil organic matter resulted in the adsoption of chlorpyrifos. Current results will allow a better assessment of the role of LNPs as a competent deterrent in chlorpyrifos mobility and degradation.
  • Thumbnail Image
    Item
    Management of food and vegetable processing waste spiked with buffalo waste using earthworms (Eisenia fetida)
    (Springer Verlag, 2017) Sharma, K.; Garg, V.K.
    The present investigation was focused on the vermicomposting of food and vegetable processing waste (VW) mixed with buffalo dung (BW) under laboratory condition employing Eisenia fetida earthworm species. Four different proportions of VW and BW were prepared and subjected to vermicomposting after 3?weeks of pre-composting. After vermicomposting, nitrogen (7.82?20.73?g/kg), total available phosphate (4.80?11.74?g/kg) and total potassium (7.43?12.75?g/kg) content increased significantly as compared to initial feed stocks. Significant reduction was observed in pH (7.56 to 6.55), total organic carbon (48.25?23.54%) and organic matter (83.18?40.68%). Metal content (Fe, Cu, Zn and Ni) was higher in all the vermicomposts than feedstocks. Data on growth and reproduction of earthworm revealed that the highest biomass gain and fecundity of worms were attained in 100% BW followed by [BW75%?+?VW25%]?>?[BW50%?+?VW50%]?>?[BW25%?+?VW75%] feedstocks. Results evidenced the suitability of VW (up to 50%) spiked with BW for increasing earthworm population and in providing potent organic manure for agricultural applications. ? 2017, Springer-Verlag Berlin Heidelberg.
  • Thumbnail Image
    Item
    A comparative analysis of composts and vermicomposts derived from municipal solid waste for the growth and yield of green bean (Phaseolus vulgaris)
    (Springer Verlag, 2017) Soobhany, N.; Mohee, R.; Garg, V.K.
    This work was conducted to evaluate and compare the responses of Phaseolus vulgaris to three types of composts and vermicomposts derived from municipal solid waste (MSW). Different amendment rates were used and evaluated for their effect on germination, growth, and marketable yield. MSW-derived vermicomposts and composts were substituted into mineral brown-earth soil, applied at rates of 0 (control), 10, 20, 30, 40, 50, and 100% (v/v) in plastic pots of 7.2-L capacity. Green beans which are grown in 40% vermicompost/soil mixtures and compost/soil mixtures yielded 78.3?89.5% higher fruit weights as compared to control. Results showed that MSW vermicomposts consistently outperformed equivalent quantities of composts in terms of fruit yield, shoot, and root dry weights, which can be attributed to the contributions of physicochemical properties and nutrients content (N, P, and K) in the potting experiments. Consequently, it seemed likely that MSW vermicompost provided other biological inputs such as plant growth regulators (PGRs) and plant growth hormones (PGHs), which could have a considerably positive effect on the growth and yields of P. vulgaris as compared to composts. More in-depth scientific investigation is required in order to identify the distinctive effects and the exact mechanisms of these PGRs in MSW vermicomposts which influenced plant growth responses. ? 2017, Springer-Verlag Berlin Heidelberg.