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dc.contributor.advisorGhosh, Prosenjit
dc.contributor.authorPrasanna, K
dc.date.accessioned2018-02-20T02:48:25Z
dc.date.accessioned2018-07-31T06:31:09Z
dc.date.available2018-02-20T02:48:25Z
dc.date.available2018-07-31T06:31:09Z
dc.date.issued2018-02-20
dc.date.submitted2016
dc.identifier.urihttps://etd.iisc.ac.in/handle/2005/3142
dc.identifier.abstracthttp://etd.iisc.ac.in/static/etd/abstracts/4007/G27819-Abs.pdfen_US
dc.description.abstractThe thesis presents observations on the CO2 concentration and carbon isotopes in air CO2 (δ13C) to constrain the inter-annual variability of carbon inventory over the Southern Ocean between the years 2011-2013. Based on the observation, the region of CO2 venting was identified over the Southern Ocean. Further, isotopic characterization allowed inferring about the possible sources of CO2 degassing and contribution from the dissolved inorganic carbon (DIC) that exsolved to generate CO2. It is concluded that the origin CO2 is mainly from the degassing of CO2 available from the dissociation of DIC or organic degradation. Live Foraminiferal samples of Globigerina bulloides from towing were captured, separated and analysed for δ18O and δ13C from various locations across the Southern Ocean between 10°N−60°S. A large similarities in the estimated values (deduced from simultaneous composition of ocean water 18O, δ13C in DIC and temperature i.e. SST under equilibrium condition) and measured δ18O and δ13C values were observed until 40°S from the equator, and hence it was concluded that the calcification depth of G. bulloides is confined to a depth of ~75-200m till 40°S latitude. However, further south (>40oS) disequilibrium from the estimates was detected. A number of possible reasons were cited for the observed disequilibrium such as (1) Deeper depth habitat (2) Partial dissolution (3) Non-equilibrium calcification (4) Oceanic Suess Effect and (5) Genetic Variability. A box model of isotopic mass balance was presented in this study to explain the pattern of enrichment in the 13C values of sea water DIC with latitude (up to about 43°S). The model shows that a steady state of the carbon isotope ratio of water is achieved in a relatively short time of ~5000 days. Rainwater isotope in the open marine condition across the latitudinal transects over Southern Ocean marking zone of precipitation and evaporation is another element of this thesis. A variation with excess lighter isotopes in rainwater was observed in high latitude rain in this study. Observed isotopic depletion is attributed to rainout process over the ocean. The average rainout fraction over the Southern Ocean in the region of zone of precipitation is ~44%, while it drops to ~25% in the zone of evaporation. Second part of the thesis presents a novel method of isotope thermometry which is called “clumped isotope (13C18O16O16O-2 in the calcite structure) thermometry”. A revision in the thermometry equation relating 47 vs T in synthetic carbonates precipitates and otoliths was proposed. The revised calibration was used on fish otoliths from the modern and past environment to estimate the temperatures. Together with the clumped isotope, conventional stable isotopes in the shell carbonates were measured to effectively reconstruct the seasonal fresh water fraction at seasonal time scales.en_US
dc.language.isoen_USen_US
dc.relation.ispartofseriesG27819en_US
dc.subjectSouthern Oceanen_US
dc.subjectClumped Isotope Geochemistryen_US
dc.subjectCarbon Cycleen_US
dc.subjectEocene Climatic Optimum (EECO)en_US
dc.subjectClumped Isotope Thermometryen_US
dc.subjectCO2 Ventilationen_US
dc.subjectCarbonate Clumped Isotope Thermometryen_US
dc.subjectBiogenic Carbonatesen_US
dc.subjectAir CO2en_US
dc.subjectAir Carbondioxideen_US
dc.subject.classificationEcological Sciences (CES)en_US
dc.titleCO2 Ventilation, Hydrological Cycle over Southern Ocean and Clumped Isotope Thermometry in Biogenic Carbonatesen_US
dc.typeThesisen_US
dc.degree.namePhDen_US
dc.degree.levelDoctoralen_US
dc.degree.disciplineFaculty of Engineeringen_US


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