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The thesis is devoted to the study of the Antarctic polar vortex, mainly by analyzing data collected during APE-GAIA (1999) and ASHOE (1994) campaigns and recorded by the ADEOS satellite (1996-1997), and to improvement of the chromato-graphic processing schemes. A general introduction and overview of the campaigns and instruments relevant to the present work are given in Chapters 1 and 2. A relatively large part of the thesis (Chapters 3-5) is on improvement of the analysis of raw chromatographic data recorded during in-flight measurements of the trace gases. A Gaussian non-straight-base-line method, i.e. the Gaussian processing scheme (Chapter 3), is developed for better evaluation of the chromatographic peak size. Furthermore, a statistical cross-correlation method (Chapter 5) based on statistical behaviour of the whole chromatogram series fNchrg recorded, e.g., during a research flight or laboratory calibration, is developed and applied to measure the low-concentration trace gases. As demonstrated for HAGAR's chromatograms (HAGAR - High Altitude Gas Analyzer), the combination of the Gaussian fitting scheme for individual chromatograms and the statistical cross-correlation method for a series of subsequent chromatograms considerably improves and stabilizes quantitative analysis of in-flight chromatographic data. In this case, the detection accuracy of weak and noisy chromatographic signals can be improved by up to 40 %. A particular attention is paid to the in-flight two-standard calibration method. For this method, a special procedure, that allows to evaluate and effectively remove a weak background chromatographic signal associated with residual molecules in the carrier gas N2, is proposed and coded (Chapter 4). The developed approaches and methods are completely automized and, therefore, can be used for processing of in-flight chromatograms of recent and future field campaigns. The main part of the thesis (Chapters 6-8) deals with a two-dimensional quasi-Lagrangian coordinate system ... , based on a long-lived stratospheric trace gas i, and its systematic use for i = N2O in order to describe the structure of a well-developed Antarctic polar vortex, linearization and compactization of the tracer-tracer correlations in the polar vortex core (i.e. the stratospheric dynamics in this area), and the differential ozone losses in the Antarctic polar vortex area. In the coordinate system ... (...-method, Chapter 6), which refers to a well-developed polar vortex, the mixing ratio Âi is the vertical coordinate and ... = .... i is the reference profile in the vortex core) is the meridional coordinate. The quasi-Lagrangian coordinates ... are much more long-lived comparing with the standard quasi-isentropic coordinates, potential temperature ... and equivalent latitude ..e, do not require explicit reference to geographic space, and therefore well-suited for studying the dynamics of the Antarctic polar vortex and the relevant ozone loss processes. By using the introduced coordinate system ... to analyze the well-developed Antarctic vortex investigated in the APE-GAIA campaign, it is shown, in concurrence with the conclusion of A. M. Lee et al. (2001), that the Antarctic vortex area can be described in terms of the well-mixed and well-isolated vortex core, relatively wide vortex boundary region and adjoining surf zone. In this case, the reference profile ... i , which is compact in a well-developed and isolated polar vortex core [J. B. Greenblatt et al. (2002)], can be found by combining airborne (and/or balloon) data with high-altitude satellite measurements. A criterion, which uses the local in-situ measurements of Âi = Âi(£) and attributes the inner vortex edge to a rapid change (±-step) in the meridional pro¯le of the mixing ratio..., is developed in Chapter 6 to determine the (Antarctic) inner vortex edge. In turn, the outer vortex edge of a well-developed Antarctic vortex is proposed to attribute to the position of a local maximum of ...H2O in the polar vortex area. For a well-developed Antarctic vortex, the ...-parametrization of tracer-tracer correlations allows to distinguish the tracer-tracer inter-relationships in the vortex core, vortex boundary region and surf zone (Chapter 7). This is clearly illustrated by analyzing the tracer-tracer relationships Âi ¡ ÂN2O obtained from the in-situ data of the APE-GAIA campaign for i = CFCl3 (CFC-11), CF2Cl2 (CFC-12), CBrClF2 (H-1211) and SF6. The solitary anomalous points in the ...CFC11 ¡ ÂN2O correlation, observed in the Antarctic vortex core during the APE-GAIA and ASHOE campaigns, are interpreted in terms of small-scale localized differential descent. As detailed in Chapter 8, the quasi-Lagrangian coordinate system fÂN2O; ¢ÂN2Og is an effective tool for evaluation of the differential ozone losses in the polar vortex area. With this purpose, a two-parametric reference function ...O3 = F(...), which characterizes the unperturbed O3 distribution in the early winter polar vortex area, is introduced to separate and quantify in terms of the meridional coordinate ...2O the differential ozone losses in the vortex core and vortex boundary region. The method is applied to analyze the ozone depletion in the Antarctic stratosphere during the austral spring 1999 (APE-GAIA campaign). In Chapter 9, the main results of the thesis are summarized.
All living organisms exhibit daily fluctuations in biochemical, physiological and behavioural parameters driven by endogenous oscillators, residing in the organism itself. In mammals, the core circadian oscillator is located in the paired suprachiasmatic nuclei (SCN) of the hypothalamus. Circadian rhythm generation in the SCN depends upon the expression of clock genes interacting in positive and negative transcriptional/translational feedback loops. The SCN governs the timing of peripheral circadian oscillators by neuronal pathways and by neuroendocrine mechanisms. An important neuroendocrine hand of the core circadian oscillator is melatonin, which is produced in and secreted from the pineal gland night by night. The adenohypophysis represents a peripheral circadian oscillator and the secretion of one of its hormones, prolactin, is known to be regulated by melatonin. The aim of the present study was to analyze a putative influence of melatonin on the activity state and diurnal variations of identified cell types in the hypophysis. Particular attention was paid to lactotroph, gonadotroph and pars intermedia cells. Experiments were performed with young male mice of different strains: melatonin-proficient C3H, melatonin-deficient C57BL, melatonin-proficient C3H with targeted deletions of the Mel1a receptor (MelaaBB), Mel1b receptor (MelAAbb) or both receptors (Melaabb). Cells producing prolactin (PRL), follicle stimulating hormone (FSH) were immunocytochemically identified and the presence of phosphorylated CREB protein (pCREB) and clock gene protein PER1 was demonstrated by double immunolabeling at different time points during the light/dark cycle in melatonin deficient, melatonin proficient and melatonin receptor knockout mice. Melatonin influence on Prl mRNA levels was investigated by means of in situ hybridization. At night the percentage of lactotroph cells showing a positive nuclear pCREB- and PER1-immunoreaction is significantly smaller in C57BL than in C3H mice. In both mouse strains, the percentage of pCREB –immunoreactive cells is minimal in the early morning and gradually increases to reach a maximum in the late night. PER1 levels show a parallel temporal variation in C3H, but in C57BL, they are drastically reduced in the early afternoon. The percentage of FSH-immunoreactive cells showing pCREB immunoreaction was significantly lower in the melatonin-deficient C57Bl mice than in the melatonin-proficient C3H mice during the second part of the day and during the night. In each strain, the percentage of FSH-immunoreactive cells was lowest at the early morning and gradually increases until the maximum at late night. In wild type (MelAABB) and MelAAbb mice the percentage of lactotroph cells with nuclear pCREB immunoreactions varied significantly over 24 h period, whereas in MelaaBB and Melaabb mice no significant differences were found between the five time points analyzed. The number of Prl mRNA expressing cells was significantly higher in MelaaBB and MelAAbb than in their wild type (MelAABB) littermates. pCREB levels in the pars intermedia did not show rhythmic variation in wild type or Melaabb animals, but wild type mice had higher pCREB levels than Melaabb. The observation that, during darkness, the percentage of lactotroph cells with nuclear pCREB immunoreaction is significantly higher in C3H than in C57BL mice suggests the existence of a distinct cell population that is under the control of melatonin-dependent intrapituitary signaling. Results with melatonin receptor knockout mice indicate that Mel1a and Mel1b melatonin receptors are involved in the control of the activity state of lactotroph cells, but to a differing degree. Analysis of cells expressing Prl mRNA showed that inhibitory action on the Prl expression is mostly mediated through the Mel1a receptor. The significant difference between pCREB immunoreaction in gonadotroph cells of C3H and C57BL mice might suggest that, like lactotrophes, FSH cells represent a heterogeneous population and only a subpopulation is under control of melatonin signaling. The present study is first to show that melatonin signaling also affects pCREB levels in pars intermedia of mice.