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In this thesis, laboratory investigations have been conducted to investigate several processes occurring during the melt segregation (crystal settling and compaction processes), as well as during emplacement of plutons. With the help of three different sets of centrifuge experiments rates of these three magmatic processes have been evaluated. In the first series of the centrifuge experiments, the diapiric ascent of buoyant material from two source layers at different depths was studied. Through five models, the hypothesis of ascending diapirs was tested and it was demonstrated whether a rising diapir ascends straight upward or if its ascent might be deviated by another buoyant, softer – and consequently easier to travel through – layer which is located within the overburden strata. We were interested under which conditions they can be formed. For this purpose we placed perturbations on top of both the buoyant layers; either with a set-off of both the protrusions (for three of these experiments), or with both protrusion sitting directly on top of each other (for one of the experiments). In the first experiment, we omitted the perturbations, to test which pathways diapirs take which grow from natural Rayleigh-Taylor instabilities. Three others experiments differed in the viscosity contrast between the overburden and the buoyant material. Through the experimental runs, the effects of different overburden viscosities and perturbation positions on the number of the diapirs were observed. The modeling results show that two diapirs rising from the offset perturbations do not take the same pathway through the overburden layer. Rather, each diapir takes a different pathway, with the deeper diapir piercing through its overburden while rising, regardless if it was a buoyant layer or denser overburden layers. However, when the two perturbations were situated directly above each other in the different PDMS layers, this resulted in the formation of one big diapir rather than several smaller ones, and the overburden layer was less deformed than with offset perturbations. Diapiric structures as those derived from the models without perturbation and where the perturbation are offset occur within Great Kavir Basin (Iran), where numerous salt diapirs grew from several salt horizons, which show a similar spatial distribution. The resulting structure observed in the model where the two perturbations situated directly above each other, is close to what is observed in composite batholiths such as the Flasergranitoid Zone within the Bergsträßer Odenwald Crystalline Complex (Germany). The second series of models were aimed to study crystal settling within a magma. For this purpose experiments with an artificial magma of 30 vol% olivine in 70 vol% basaltic melt were conducted to elucidate the formation mechanisms and time scales of gravitational cumulates. Through the experiments, two physical processes have been observed: (i) purely mechanical compaction, and (ii) chemical compaction induced by dissolution and re-precipitation of settled crystals. The results reveals that the mechanical settling of the dense olivine suspension occurs at about 1/6 the speed of simple Stokes settling, and a sedimentation exponent n of 4.1 is found. Evidences of chemical compaction induced by dissolution and re-precipitation of settled crystals have been highlighted by a detailed analysis of the fine structure of olivine grain boundaries. This last has revealed (1) the presence of Ca, which is characteristic only for MORB-melt, at the interface of two adjacent Ol-grains even when no melt is present; (2) a not fully crystallized boundary layer between two adjacent olivine grains. The crystal size distribution curves and the grain size growth exponent n ~3.6 indicate that diffusion controlled Ostwald ripening is the dominant crystal growth mechanism in concentrated magmatic suspensions. Finally, the formation times in natural olivine adcumulates have been calculated. The last series of centrifuge experiments deals with the crystal-melt settling-floating mechanism in a system composed of natural two pyroxene gabbro. The results have revealed a vertical evolution of the major and trace elements in the melt phase. Then, a numerical modelling of the sedimentation process of the crystals has been made in order to describe the compaction evolution with time. In comparing the numerical simulation with the centrifuge modelling, the stratification of the compacted layer in the runs is reproduced in numerical models. Moreover, on the base of the numerical and centrifuge modelling, a sedimentation exponent describing a deviation of settling in concentrated suspensions from Stokes sedimentation has been evaluated. Finally, the numerical simulation is applied to the Muskox intrusion to estimate the formation time and the melt fraction evolution in using the hindered sedimentation model calculations.
IFLS-Journal. Nr. 4, 2003
(2003)
IFLS-Journal. Nr. 3, 2003
(2003)
IFLS-Journal. Nr. 2, 2002
(2002)
IFLS-Journal. Nr. 1, 2002
(2002)
In this study, I investigate the crustal and upper mantle velocity structure beneath the Rwenzori Mountains in western Uganda. This mountain range is situated within the western branch of the East African Rift and reaches altitudes of more than 5000 m. I use four different approaches that belong to the travel-time tomography method. The first approach is based on the isotropic tomographic inversion of local data, which contain information about 2053 earthquakes recorded by a network of up to 35 stations covering an area of 140×90 km2. The LOTOS-09 algorithm described here is used to realize this approach. The second approach is based on the anisotropic tomographic inversion of the same local dataset. This method employs the tomographic code ANITA, developed with my participation, which provides 3D anisotropic P and isotropic S velocity distributions based on P and S travel-times from local seismicity. For the P anisotropic model, four parameters for each parameterization cell are determined. This represents an orthorhombic anisotropy with one vertically-oriented predefined direction. Three of the parameters describe slowness variations along three horizontal orientations with azimuths of 0°, 60° and 120°, and one is a perturbation along the vertical axis. The third approach is based on tomographic inversion of the teleseismic data, which contain information about the traveltimes of P-waves coming from 284 teleseismic events recorded by the seismic network stations. The TELELOTOS code, which is my own modification of the LOTOS-09 algorithm, is used in this approach. The TELELOTOS code is designed to iteratively invert the local and/or teleseismic datasets. Finally, I present the results of the new tomographic approach, which is based on the simultaneous inversion of the joint local and teleseismic data. The simultaneous use of these datasets for the tomographic inversion has several advantages. In this case, the velocity structure in the study area can be resolved as deep as in the teleseismic approach. At the same time, in the upper part of the study volume, the resolution of the obtained models is as good as in the local tomography. The TELELOTOS algorithm is used to perform the joint tomographic inversion. Special attention is paid in this work to synthetic testing. A number of different synthetic and real data tests are performed to estimate the resolution ability and robustness of the obtained models. In particular, synthetic tests have shown that the results of the anisotropic tomographic inversion of the local data have to be considered as unsatisfactory. For all approaches used in this study, I present synthetic models that reproduce the same pattern of anomalies as that obtained by inverting the real data. These models are used to interpret the results and estimate the real amplitudes of the obtained anomalies. The obtained models exhibit a relatively strong negative P anomaly (up to -10%) beneath the Rwenzori Mountains. Low velocities are found in the northeastern part of the array at shallower depths and are most likely related to sedimentary deposits, while higher velocities are found beneath the eastern rift shoulder and are thought to be related to old cratonic crust. The presence of low velocities in the northwestern part of the array may be caused by a magmatic intrusion beneath the Buranga hot springs. Relatively low velocities were observed within the lower crust and upper mantle in the western and southern parts of the study area (beneath the rift valley and the entire length of the Rwenzori range). The higher amplitude of the low-velocity anomaly in the south can be related to the thinner lithosphere in the southern part of the Albertine rift. In the center of the study area, a small negative anomaly is observed, with the intensity increasing with depth. This anomaly is presumably related to a fluids rising up from a plume branch in the deeper part of the mantle. According to the interpretation of the local earthquake distribution, the Rwenzori Mountains are located between two rift valleys with flanks marked by normal faults. The Rwenzori block is bounded by thrust faults that are probably due to compression.
Flusssysteme im mediterranen Raum reagieren besonders sensitiv auf Veränderungen von Umweltbedingungen, z.B. durch Neotektonik, Klimaänderungen und Landnutzung. Geowissenschaftler der Goethe-Universität Frankfurt untersuchen in diesem Zusammenhang das Einzugsgebiet des Rio Palancia (Spanien), um über die Erstellung einer Sediment-Massenbilanzierung die Entwicklungsgeschichte des Systems zu erforschen. Zur Identifizierung und Quantifizierung verschiedener Sediment-Ablagerungstypen wurde das Georadarverfahren (GPR) eingesetzt. Ziel dieser Arbeit ist es, am Beispiel fluvialer Lockersedimente das Zustandekommen von Radargrammen noch besser zu verstehen und möglichst viel Information über den Untergrund aus einem Radargramm zu extrahieren. An 30 Standorten wurden GPR-Messungen durchgeführt und mit Geoelektrik und Rammkernsondierungen kombiniert. Die Einführung einer Bearbeitungs- und Auswertesystematik gewährleistet die Vergleichbarkeit von Radardaten unterschiedlicher Standorte. Als Besonderheit werden die Radargramme jeweils auf zwei verschiedene Arten bearbeitet und dargestellt, um sowohl Strukturen herauszuarbeiten als auch die – zumindest relative – Amplitudencharakteristik zu erhalten. Erst dadurch wird eine Auswertung mithilfe der erweiterten Radarstratigraphie-Methode möglich. Diese setzt sich aus der klassischen Radarstratigraphie und der neu entwickelten Reflexionsanalyse zusammen. Dabei werden systematisch Radar-Schichtflächen, Radareinheiten und Radarfazies ermittelt und anschließend die Amplitudengröße, die Polarität und die Breite der Reflexionen betrachtet. Die Radarstratigraphie liefert objektive Erkenntnisse über Form und Verlauf von Untergrundstrukturen, während mithilfe der Reflexionsanalyse Aussagen zu relativen Änderungen von Wassergehalt, Korngrößenverteilung und elektrischer Leitfähigkeit möglich sind. Mithilfe der Radarstratigraphie wurde die Radarantwort verschiedener Sediment-Ablagerungstypen im Untersuchungsgebiet verglichen. Die Radargramme zeigen unterschiedliche Zusammensetzungen von Radarfazies. Eine Unterscheidung und räumliche Abgrenzung verschiedener Ablagerungstypen mit GPR ist somit durchführbar. Die Dielektrizität des Mediums bestimmt, zusammen mit der elektrischen Leitfähigkeit, die Geschwindigkeit und Dämpfung der elektromagnetischen Welle sowie die Reflexionskoeffizienten. Um das Zustandekommen von Radargrammen im Detail nachvollziehen zu können, ist es notwendig, die Dielektrizitätskoeffizienten (DK) der untersuchten Sedimente zum Zeitpunkt der Messung zu kennen und die Abhängigkeit des DK von petrophysikalischen Parametern zu verstehen. Deshalb wurden Proben aus den Rammkernsondierungen entnommen. Im Labor wurden der Real- und Imaginärteil des DK im Radarfrequenzbereich (mit Schwerpunkt auf 200 MHz) in Abhängigkeit von Wassergehalt, Trockendichte, Korngrößenverteilung und Kalkgehalt mithilfe der Plattenkondensatormethode bestimmt. Der DK ist in erster Linie vom Wassergehalt abhängig. Es konnte eine für die Sedimente im Untersuchungsgebiet charakteristische Wassergehalts-DK-Beziehung ermittelt werden. Die resultierende Kurve ist gegenüber entsprechenden in der Fachliteratur zu findenden Beziehungen verschoben, was vermutlich auf die hohen Kalkgehalte der Proben zurückzuführen ist. Für trockene Sedimente wurde eine Korrelation des DK mit der Trockendichte festgestellt. Bei der Bestimmung der Absorptionskoeffizienten fiel auf, dass Proben mit hohem Tonanteil selbst bei geringen Wassergehalten außerordentlich hohe Dämpfungskoeffizienten aufweisen können. Die charakteristische Wassergehalts-DK-Beziehung wurde für Modellierungen von Radardaten genutzt, die dann mit Messdaten verglichen wurden. Über die Modellierung einer einzelnen Radarspur konnte die spezielle Charakteristik der entsprechenden gemessenen Spur erklärt werden, die durch den Einfluss einer dünnen Schicht zustande kommt, deren Mächtigkeit an der Grenze der theoretischen Auflösung für die verwendete Radarfrequenz liegt. Auf Basis der Erkenntnisse aus der erweiterten Radarstratigraphie an einem Radargramm auf fluvialen Lockersedimenten war es zudem möglich, ein komplettes Radargramm zu simulieren. Es gibt das gemessene Radargramm vereinfacht, aber in guter Übereinstimmung wieder. Die Georadarmethode erwies sich als sehr gut geeignet für die Untersuchung, Identifizierung und Quantifizierung fluvialer Sedimente im Palancia-Einzugsgebiet. Die im Rahmen dieser Doktorarbeit entwickelte erweiterte Radarstratigraphie-Methode stellt ein systematisches und weitgehend objektives Verfahren zur Auswertung von Radargrammen dar, das sich auch auf andere Untersuchungsgebiete übertragen lassen sollte. Durch Laboruntersuchungen wurde der Einfluss petrophysikalischer Parameter auf den DK bestimmt. Über die Modellierungen konnten die Ergebnisse großskaliger Geländemessungen mit denen kleinskaliger Labormessungen verknüpft werden. Die insgesamt gewonnenen Erkenntnisse tragen zu einem besseren Verständnis von Radargrammen bei.
The TTL is the transition layer between the tropical troposphere and stratosphere, and is the main region where tropospheric air enters the stratosphere. In this thesis different transport processes are studied by using in situ measurements of tracers. Long-lived tracers were measured with the High Altitude Gas Analyzer (HAGAR) on board the M55 Geophysica aircraft. The instrument was developed by the University of Frankfurt and measures the long-lived tracers CO2, N2O, CFC-12, CFC-11, H-1211, SF6, CH4 and H2 with two gas chromatographic channels and a CO2 sensor (LICOR). The measurements are supported by CO and O3 measurements of other instruments. Two campaigns were conducted to obtain measurements in the TTL: SCOUT-O3 (November/December 2005 in Darwin, Australia) and AMMA-SCOUT-O3 (August 2006 in Ouagadougou, Burkina Faso). After a general introduction of the thesis in chapters one and two, the third chapter describes the findings during this last campaign. Five local flights are analyzed to study the different transport processes that occur in the tropical tropopause layer above West-Africa: deep convection up to the level of main convective outflow, vertical mixing after overshooting of air in deep convection, horizontal inmixing from the extratropical lower stratosphere, and horizontal transport across the subtropical barrier. Main findings are that the TTL over West-Africa is mostly influenced by remote convection. The subtropical barrier is not a strong barrier but more a region of transition between the extratropical and the tropical stratosphere. Chapter 4 presents the results obtained during the SCOUT-O3 campaign. From the eight local flights the last four flights (051129, 051130a, 051130b, 051205) show enhanced values of ozone, CO and CO2 between 355 and 380 K potential temperature in comparison with the first four flights (051116, 051119, 051123, 051125). Horizontal inmixing from the extra-tropical stratosphere and influence of the local convective system Hector cannot explain the enhanced values of the two flights on 30 November Therefore, other possible explanations for these enhanced CO, CO2 and ozone levels are proposed. The first explanation is vertical mixing in the vicinity of the jet stream. However, the jet cannot explain the differences between the flights on 30 November and the flights on 29 November and 5 December. Another possible explanation is influence of polluted boundary layer air masses from the Indonesian region. Especially air sampled during the flights on November 30 crossed large parts of northern Indonesia between 8 and 10 days before the measurements. Convective uplift of biomass burning and other pollution plumes can transport CO and ozone precursors into the upper troposphere, where they can significantly enhance the ozone production. The last chapter deals with the vertical ascent rate in the TTL and uses measurements of both the SCOUT-O3 and AMMA-SCOUT-O3 campaign as well as data from previous aircraft campaigns (TROCCINOX and APE-THESEO). Time scales and residence times for mean vertical transport in the background TTL are estimated for different seasons and over different geographic regions using in situ observations of CO2 and long-lived tracers. The vertical transport time scales are constrained using the seasonal variation of CO2 in the tropical troposphere as a “tracer clock” for vertical ascent. Two methods are applied to calculate the residence time in the layer between 360 and 390 K potential temperature. The first method uses the slope of the CO2 index, the second method fits the CO2 index directly to the measurements assuming a constant ascent rate. The first method yields residence times for Australia,West Africa, and Brazil of the same order, 35-45 days to 380 K and 50 days to 390 K (where no value can be derived for Australia as the slope is changing approximately one month before the campaign). For APE-THESEO, the method does not yield reasonable results. The best estimates using the second method show moderate residence times between 360 and 390 K of 60±25 days SCOUT-O3 (NH autumn) and 43±8 days for AMMA/SCOUT-O3 (NH summer). These results agree well with the results calculated using the first method. For APE-THESEO and TROCCINOX the best fits yield shorter residence times of 23±7 and 40±10 days, respectively, both during winter. These results correspond well to the expectations based on the seasonal variation of the Brewer-Dobson circulation.
Im Rahmen dieser Dissertation wurde die spätpleistozäne und holozäne Landschaftsentwicklung im Umfeld der im Tal des Wadis Chuera in Nordsyrien liegenden bronzezeitlichen Siedlung Tell Chuera untersucht. Durch die Kombination von hochgenauen Vermessungen, Satellitenbildauswertungen und Untersuchungen der Wadisedimente konnten mehrere flussgeschichtliche Entwicklungsphasen erarbeitet und in einen chronostratigraphischen Rahmen eingeordnet werden. Über ein grobsandig-kiesiges System eines verzweigten Flusses wurden mindestens bis ins Obere Pleistozän mächtige Kieslagen im Untersuchungsgebiet sedimentiert. Innerhalb einer fossilen Rinne abgelagerte lössähnliche Sedimente, welche die Kiesfolgen partiell überlagern, konnten relativchronologisch ins Obere Pleistozän gestellt werden und dokumentieren vermutlich eine trockene Phase. Durch die mit scharfer Diskordanz über den Kiesen abgelagerten pelitischen Hochflutsedimente wird ein abrupter flussdynamischer Umbruch von dem eines ursprünglich verzweigten Flusses zu dem eines mäandrierenden Flusses mit Hochflutsedimentation nachgewiesen. IRSL-Datierungen stellen den Beginn der Ablagerung der Hochflutsedimente ins letzte Glazial. Der größte Teil der Sedimente wurde jedoch im frühen und mittleren Holozän (ca. 9 und 5 kaBP) abgelagert, so dass zu Beginn der Hauptsiedlungsphase am Tell Chuera (3. Jahrtausend v.Chr.) die Oberfläche der Überschwemmungsebene ihr heutiges Niveau nahezu erreicht hatte. Bis dahin führten großflächige Überschwemmungen zur Hochflutsedimentation in der Aue. Ein erneuter Wechsel der fluvialen Geomorphodynamik und der Sedimentationsverhältnisse zeigt sich darin, dass die letzten ca. 5000 Jahre keine nennenswerte Sedimentation in der Hochflutebene zu verzeichnen war. Es kam zu einer bis heute stattfindenden, lateralen Verlagerung der Mäander des Wadis und damit der Aufarbeitung von Teilen der Kiese und Hochflutsedimente. Siedlungsspuren im Wadiverlauf weisen auf eine Periodizität des Abflusses des Wadis Chuera zwischen etwa 4.7 und 4.2 kaBP hin. Die Theorie einer verstärkten Akkumulation von Kolluvien der Rahmenhöhen im Wadital als direkte Folge eines steigenden Siedlungsdrucks während der Hauptsiedlungsphase konnte widerlegt werden. Vielmehr handelt es sich bei den vermeintlichen Kolluvien um fluvial aufgearbeitete Hochflutsedimente. Anthropogene Eingriffe in den Landschaftshaushalt lassen sich in Form von Kalkkrustensteinbrüchen und einem komplexen Wegenetz nachweisen.
Am 7. September 1981 wurde der Raum Bellersen von einem heftigen Unwetter mit Gewitter und sintflutartigen Regenfällen heimgesucht. Das Unwetter richtete einen nicht unbeträchtlichen Schaden im Dorf und in der Feldmark an. Es bot aber auch Gelegenheit, den Einfluß solcher relativ seltener und daher episodisch zu bezeichnenden extremen Niederschlagsereignisse auf die Formung der Erdoberfläche zu erkennen. An dieser Stelle soll an einem Einzelbeispiel gezeigt werden, wie sich die Oberflächenformen im Talgrund von Trockentälern weiterentwickeln können. Genaue quantitative Angaben über den gefallenen Niederschlag lassen sich leider nicht machen, da für das angesprochene Einzugsgebiet keine Messungen vorliegen.
An eclogite barometer has profound importance in the study of upper mantle processes and potential application to diamond prospecting. Studies on the partitioning of Li between clinopyroxene (cpx) and garnet (grt) in natural samples have shown that this particular element is very sensitive to changes in pressure and could be calibrated as the barometer demanded for bimineralic eclogites. Experiments were performed from 4 to 13 GPa and 1100 to 1400°C in the CMAS (CaO, MgO, Al2O3, SiO2) system with Li added as Li3PO4 to quantify this pressure dependence into a barometer expressed in the following equation: P= (0.00255*T-lnKd)/0.2351 where P is in GPa, T is in °C and Kd is defined as the partition coefficient of Li (in ppm) between clinopyroxene and garnet. The experimental pressures are reproduced to ± 0.38 GPa (1σ) by this equation. This barometer is strictly applicable only to CMAS. Experiments at 1300°C, 8-12 GPa showed that Henry’s Law is fulfilled for Li partitioning between cpx and grt in the concentration range of approximately 0.01 – 1 wt% Li. Direct application of the equation to experiments in natural systems performed at 1300°C from 4 GPa to 13 GPa consistently overestimates pressures by approximately 2 GPa. Our previous experiments in the system CaO-MgO-Al2O3-SiO2 + Li3PO4 showed that the partitioning of Li between garnet and clinopyroxene is pressure dependent in eclogitic bulk compositions. This supports experimentally the hypothesis of Seitz et al. (2003), based on the analysis of Li in eclogitic xenoliths and inclusions in diamond, that the partitioning of this particular element between clinopyroxene and garnet is very sensitive to changes in pressure and could be calibrated as a barometer for bimineralic eclogites. In order to calibrate this pressure dependence into a barometer, experiments were performed in natural systems using starting materials sourced from a well preserved eclogitic xenolith from the Roberts Victor kimberlite pipe (South Africa) to extrapolate our findings in CMAS to natural systems. Sixteen multianvil experiments were performed from 4-13 GPa and 1100-1500°C. Our findings reinforced the general trend we observed in the CMAS system, that KdLi cpx-grt for Li decreases with increasing P, and that at P ≥ 12 GPa, garnet is able to incorporate more Li than clinopyroxene. Multiple linear regression was applied to our experimental results to create the barometer: P = (0.000963*T – ln KdLi cpx-grt + 1.581) / 0.252 Where P is pressure in GPa, T is temperature in °C and KdLi cpx-grt is defined as the partitioning coefficient of Li obtained by dividing the concentration of Li in cpx by the concentration of Li in garnet. This barometer reproduces the experimental conditions to ± 0.2 GPa. It is applicable to eclogitic xenoliths, to garnet pyroxenites and to peridotitic and eclogitic inclusions in diamond. Application of the barometer to diamond bearing xenoliths results in pressures in the diamond stability field. Clinopyroxene is easily corrupted in xenoliths and also preferentially takes in Li during short lived metasomatic processes. Care must be taken therefore to analyse primary, unaltered clinopyroxene. Our preliminary application to natural samples shows that the barometer can be applied beyond the experimental range to pressures down to 3 GPa. Seventeen eclogitic xenoliths were chosen from a sample set of greater than 200 for their fresh microscopic and macroscopic appearance and were analyzed for Li content in coexisting garnet (grt) and clinopyroxene (cpx). These samples can be subdivided into two groups on the basis of Mg in cpx (cpfu: cations per formula unit, based on 6 oxygens): Group 1 with Mg > 0.75, and Group 2 with Mg < 0.75. Group 1 xenoliths show lower Li contents in both grt and cpx compared to Group 2. The Li barom ter calibrated in Hanrahan et al. (2009b)/Chapter 3 was applied to these samples as well as available literature data to obtain pressures of provenance - Group 2 xenoliths often provide pressures that appear unrealistic for eclogitic xenoliths. In light of observed crystal chemical relations in the natural samples, a new fitting procedure was applied to the experimental data presented in Chapter 3. This new fit appears to be more realistic than the previous fit, although a strong relationship with Mg# remains present, suggesting that Li-barometry is, at present, only applicable to Mg-rich eclogites. Inclusions in diamond, with the exception of eclogitic inclusions of coexisting majorite and cpx, often yield pressures that are inconsistent with the pressures required for diamond formation. Although an interesting observation when comparing all of the data is that inclusions in diamond have significantly higher average Li concentrations compared to xenoliths, which suggests that Li is highly present in the fluids from which diamonds form in the mantle, an observation which was previously made for the deep mantle as a result of high Li in ferropericlase inclusions in diamond (Seitz et al. 2003).
During a 4-week run in October–November 2006, a pilot experiment was performed at the CERN Proton Synchrotron in preparation for the Cosmics Leaving OUtdoor Droplets (CLOUD) experiment, whose aim is to study the possible influence of cosmic rays on clouds. The purpose of the pilot experiment was firstly to carry out exploratory measurements of the effect of ionising particle radiation on aerosol formation from trace H2SO4 vapour and secondly to provide technical input for the CLOUD design. A total of 44 nucleation bursts were produced and recorded, with formation rates of particles above the 3 nm detection threshold of between 0.1 and 100 cm -3 s -1, and growth rates between 2 and 37 nm h -1. The corresponding H2O concentrations were typically around 106 cm -3 or less. The experimentally-measured formation rates and htwosofour concentrations are comparable to those found in the atmosphere, supporting the idea that sulphuric acid is involved in the nucleation of atmospheric aerosols. However, sulphuric acid alone is not able to explain the observed rapid growth rates, which suggests the presence of additional trace vapours in the aerosol chamber, whose identity is unknown. By analysing the charged fraction, a few of the aerosol bursts appear to have a contribution from ion-induced nucleation and ion-ion recombination to form neutral clusters. Some indications were also found for the accelerator beam timing and intensity to influence the aerosol particle formation rate at the highest experimental SO2 concentrations of 6 ppb, although none was found at lower concentrations. Overall, the exploratory measurements provide suggestive evidence for ion-induced nucleation or ion-ion recombination as sources of aerosol particles. However in order to quantify the conditions under which ion processes become significant, improvements are needed in controlling the experimental variables and in the reproducibility of the experiments. Finally, concerning technical aspects, the most important lessons for the CLOUD design include the stringent requirement of internal cleanliness of the aerosol chamber, as well as maintenance of extremely stable temperatures (variations below 0.1 °C)
In order to quantitatively analyse the chemical and dynamical evolution of the polar vortex it has proven extremely useful to work with coordinate systems that follow the vortex flow. We propose here a two-dimensional quasi-Lagrangian coordinate system {X i, delta X i}, based on the mixing ratio of a long-lived stratospheric trace gas i, and its systematic use with i = N2O, in order to describe the structure of a well-developed Antarctic polar vortex. In the coordinate system {X i, delta X i} the mixing ratio X i is the vertical coordinate and delta X i = X i(theta) - X i vort(theta) is the meridional coordinate (X i vort(theta) being a vertical reference profile in the vortex core). The quasi-Lagrangian coordinates {X i, delta X i} persist for much longer time than standard isentropic coordinates, potential temperature theta and equivalent latitude Phi e, do not require explicit reference to geographic space, and can be derived directly from high-resolution in situ measurements. They are therefore well-suited for studying the evolution of the Antarctic polar vortex throughout the polar winter with respect to the relevant chemical and microphysical processes. By using the introduced coordinate system {X N2O, delta X N2O} we analyze the well-developed Antarctic vortex investigated during the APE-GAIA (Airborne Polar Experiment – Geophysica Aircraft in Antarctica – 1999) campaign (Carli et al., 2000). A criterion, which uses the local in-situ measurements of X i=X i(theta) and attributes the inner vortex edge to a rapid change (delta-step) in the meridional profile of the mixing ratio X i, is developed to determine the (Antarctic) inner vortex edge. In turn, we suggest that the outer vortex edge of a well-developed Antarctic vortex can be attributed to the position of a local minimum of the X H2O gradient in the polar vortex area. For a well-developed Antarctic vortex, the delta X N2O-parametrization of tracer-tracer relationships allows to distinguish the tracer inter-relationships in the vortex core, vortex boundary region and surf zone and to examine their meridional variation throughout these regions. This is illustrated by analyzing the tracer-tracer relationships X i : X N2O obtained from the in-situ data of the APE-GAIA campaign for i = CFC-11, CFC-12, H-1211 and SF6. A number of solitary anomalous points in the CFC-11 : N2O correlation, observed in the Antarctic vortex core, are interpreted in terms of small-scale cross-isentropic dispersion.
Östlich des Rwenzori Gebirges im Westen Ugandas wurden magnetotellurische Messungen durchgeführt. An 23 Stationen wurden Übertragungsfunktionen und Phasen Tensor Elemente zwischen den gemessenen magnetischen- und tellurischen Feldern im Periodenbereich von 10s bis 10000s geschätzt. Die Übertragungsfunktionen deuten eine komplexe drei dimensionale Leitfähigkeitsstruktur innerhalb der Kruste an, insbesondere in der Verbindungszone zwischen dem Rwenzori Gebirge und der östlichen Riftschulter. In dieser Arbeit wird eine alternative Darstellung der Phasen Tensor Ellipsen als Balken eingeführt. Für Perioden größer 100s zeigen die maximalen Phasen der Phasen Tensor Balken aller Stationen einheitlich in SSW-NNE und die Phasen Tensor Invarianten f min und f max weisen eine Differenz von mindestens 20° auf. Dieses auffällige Verhalten und die kleinen vertikalen magnetischen Feldr im gleich Periodenbereich kann mit einer anisotropen Leitfähigkeit in einer Tiefenbereich zwischen 30-50km mit der gut leitenden Richtung senkrecht zur Riftachse erklärt werden. Die Anisotropie könnte ihren Ursprung in orientierten Olivien Kristallen im oberen Mantel haben, wobei die Orientierungsrichtung mit der Delamination der Unterkruste unter den Rwenzoris zusammen hängen kann. Eine gut leitende Zone süd-östlich der Rwenzoris wurde in 15km Tiefe gefunden, die mit einer seismischen low velocity zone übereinstimmt und partielle Schmelzen innerhalb der Kruste andeutet. An allen Stationen steigt die minimale Phase bei der Periode 200s über 45° und zeigt einen Anstieg der elektrischen Leitfähigkeit unterhalb der Lithosphäre an.
Die Magnesitlagerstätte Beli Kamen, die so nachdem Berge im Dorfe Strezovce, unweit von Novo Brdo, benannt wurde, war der Gegenstand unserer Untersuchungen fünf volle Jahre hindurch - von Juni 1956 bis Juli 1961. In der ersten Phase dieses Zeitabschnittes war es unsere Aufgabe, alle Untersuchungsarbeiten in diesem bisher ungenügend bearbeiteten Objekte, von dem seitens unserer Wirtschaft und unserer Forscher viel erwartet wurde - anzusetzen und durchzuführen. Die Ergebnisse dieser Arbeiten wurden in unserem Elaborat (1959), mit einer ausführlichen Dokumentation über die allgemeine Charakteristik und praktischen Wert der untersuchten Magnesitmasse dargestellt. In der zweiten Phase - in Zusammenhang mit der Planung und Finansieurng wissenschaftlicher Arbeiten seitens des Rates für wissenschaftliche Arbeit, V. R. Serbien, und seitens des Geologischen Forschungsinstitutes, V. R. Serbien, wurden die Untersuchungen über die Frage des Auftretens des Magnesit in der Lagerstätte Beli Kamen fortgesetzt, wobei das Untersuchungsgebiet bedeutend erweitert und eingehender erfasst wurde. Unumgänglich nötige nachträgliche Begehungen und neue Untersuchungen wurden von der Tatsache diktiert, dass eine wissenschaftliche Bearbeitung solcher Lagerstätten, insbesondere deren Entstehung, bedeutend zahlreichere Angaben forderte, als es alle durchgeführten, von praktischen Standpunkt aus ansomsten zufriedenstellende und umfangreiche Untersuchungsarbeiten boten. So musste in der zweiten Phase, von 1958 bis 1961 mehrmals das Terrain begangen werden und dabei stiessen wir auf neue Probleme, allmählich das Untersuchungsgebiet immer mehr erweiternd. Ausserdem war es nötig, gleichzeitig die umfangreiche Probensammlung, die nicht nur Magnesit, sondern auch verschiedenartiges taubes Material enthielt, laboratorisch zu bearbeiten. Die Ergebnisse dieser vervollständigten, vor allem wissenschfatlichen Behandlung der Magnesitlagerstätte Beli Kamen und deren Nebengesteine, sowie natürlich auch jene aus dem erwähnten Elaborat (1959), werden nun in dieser Studie dargestellt. Wir sind der Ansicht, dass viele Einzelheiten dieser Studie, die wie vorliegend geordnet ist und in den Hauptzügen ausreichend bearbeitet ist, von besonderem InLeresse für die Fachwelt sein wird, um so mehr, da sich dieselbe tatsächlich auf eine ganz besonderes, in der Welt seltenes Magnesitvorkommen handelt. Von den insgesamt gewonnen Ergebnissen der wissenschaftlichen Bearbeitung der Lagerstätte Beli Kamen wollen wir nur die allgemeinsten und ausgeprägtesten hervorheben.
Active chlorine species play a dominant role in the catalytic destruction of stratospheric ozone in the polar vortices during the late winter and early spring seasons. Recently, the correct understanding of the ClO dimer cycle was challenged by the release of new laboratory absorption cross sections (Pope et al., 2007) yielding significant model underestimates of observed ClO and ozone loss (von Hobe et al., 2007). Under this aspect, nocturnal Arctic stratospheric limb emission measurements carried out by the balloon version of the Michelson Interferometer for Passive Atmospheric Sounding (MIPAS-B) from Kiruna (Sweden) on 11 January 2001 and 20/21 March 2003 have been reanalyzed with regard to the chlorine reservoir species ClONO2 and the active species, ClO and ClOOCl (Cl2O2). New laboratory measurements of IR absorption cross sections of ClOOCl for various temperatures and pressures allowed for the first time the retrieval of ClOOCl mixing ratios from remote sensing measurements. High values of active chlorine (ClOx) of roughly 2.3 ppbv at 20 km were observed by MIPAS-B in the cold mid-winter Arctic vortex on 11 January 2001. While nighttime ClOOCl shows enhanced values of nearly 1.1 ppbv at 20 km, ClONO2 mixing ratios are less than 0.1 ppbv at this altitude. In contrast, high ClONO2 mixing ratios of nearly 2.4 ppbv at 20 km have been observed in the late winter Arctic vortex on 20 March 2003. No significant ClOx amounts are detectable on this date since most of the active chlorine has already recovered to its main reservoir species ClONO2. The observed values of ClOx and ClONO2 are in line with the established polar chlorine chemistry. The thermal equilibrium constants between the dimer formation and its dissociation, as derived from the balloon measurements, are on the lower side of reported data and in good agreement with values recommended by von Hobe et al. (2007). Calculations with the ECHAM/MESSy Atmospheric Chemistry model (EMAC) using established kinetics show similar chlorine activation and deactivation, compared to the measurements in January 2001 and March 2003, respectively.
Atmospheric observation-based global SF6 emissions - comparison of top-down and bottom-up estimates
(2009)
Emissions of sulphur hexafluoride (SF6), one of the strongest greenhouse gases on a per molecule basis, are targeted to be collectively reduced under the Kyoto Protocol. Because of its long atmospheric lifetime (≈3000 years), the accumulation of SF6 in the atmosphere is a direct measure of its global emissions. Examination of our extended data set of globally distributed high-precision SF6 observations shows an increase in SF6 abundance from near zero in the 1970s to a global mean of 6.7 ppt by the end of 2008. In-depth evaluation of our long-term data records shows that the global source of SF6 decreased after 1995, most likely due to SF6 emission reductions in industrialised countries, but increased again after 1998. By subtracting those emissions reported by Annex I countries to the United Nations Framework Convention of Climatic Change (UNFCCC) from our observation-inferred SF6 source leaves a surprisingly large gap of more than 70–80% of non-reported SF6 emissions in the last decade.
Emissions of sulphur hexafluoride (SF6), one of the strongest greenhouse gases on a per molecule basis, are targeted to be collectively reduced under the Kyoto Protocol. Because of its long atmospheric lifetime (estimated as 800 to 3200 years), the accumulation of SF6 in the atmosphere is a direct measure of its global emissions. Examination of our extended data set of globally distributed high-precision SF6 observations shows an increase in SF6 abundance from near zero in the 1970s to a global mean of 6.7 ppt by the end of 2008. In-depth evaluation of our long-term data records shows that the global source of SF6 decreased after 1995, most likely due to SF6 emission reductions in industrialised countries, but increased again after 1998. By subtracting those emissions reported by Annex I countries to the United Nations Framework Convention of Climatic Change (UNFCCC) from our observation-inferred SF6 source leaves a surprisingly large gap of more than 70–80% of non-reported SF6 emissions in the last decade. This suggests a strong under-estimation of emissions in Annex I countries and underlines the urgent need for independent atmospheric verification of greenhouse gases emissions accounting.
Samples of freshly fallen snow were collected at the high alpine research station Jungfraujoch, Switzerland, during the Cloud and Aerosol Characterization Experiments (CLACE) 5 in February and March 2006. Sampling was carried out on the Sphinx platform. Headspace-solid-phase-dynamic extraction (HS-SPDE) combined with gas chromatography/mass spectrometry (GC/MS) was used to quantify C6–C10 n-aldehydes in the snow samples. The most abundant n-aldehyde was n-hexanal (median concentration 1.324 micro g L -1) followed by n-nonanal, n-decanal, n-octanal and n-heptanal (median concentrations 1.239, 0.863, 0.460, and 0.304 micro g L -1, respectively). A wide range of concentrations was found among individual snow samples, even for samples taken at the same time. Higher median concentrations of all n-aldehydes were observed when air masses reached Jungfraujoch from the north-northwest in comparison to air masses arriving from the southeast-southwest. Results suggest that the n-aldehydes detected most likely are of direct and indirect biogenic origin, and that they entered the snow through the particle phase.
Both, gas and particle scavenging contribute to the transport of organic compounds by ice crystals in the troposphere. To simulate these processes an experimental setup was developed to form airborne ice crystals under atmospheric conditions. Experiments were performed in a wall independent reactor (WIR) installed in a walk-in cold chamber maintained constantly at -20°C. Aerosol particles were added to the carrier gas of ambient air by an aerosol generator to allow heterogeneous ice formation. Temperature variations and hydrodynamic conditions of the WIR were investigated to determine the conditions for ice crystal formation and crystal growth by vapour deposition. In detail, the dependence of temperature variations from flow rate and temperature of the physical wall as well as temperature variations with an increasing reactor depth were studied. The conditions to provide a stable aerosol concentration in the carrier gas flow were also studied. The temperature distribution inside the reactor was strongly dependent on flow rate and physical wall temperature. At an inlet temperature of -20°C, a flow rate of 30 L•min exp -1 and a physical wall temperature of +5°C turned out to provide ideal conditions for ice formation. At these conditions a sharp and stable laminar down draft "jet stream" of cold air in the centre of the reactor was produced. Temperatures measured at the chamber outlet were kept well below the freezing point in the whole reactor depth of 1.0 m. Thus, melting did not affect ice formation and crystal growth. The maximum residence time for airborne ice crystals was calculated to at 40 s. Ice crystal growth rates increased also with increasing reactor depth. The maximum ice crystal growth rate was calculated at 2.82 mg• exp -1. Further, the removal efficiency of the cleaning device for aerosol particles was 99.8% after 10 min. A reliable particle supply was attained after a preliminary lead time of 15 min. Thus, the minimum lead time was determined at 25 min. Several test runs revealed that the WIR is suitable to perform experiments with airborne ice crystals.
Within the present study the occurrence and fate of the organophosphorus flame retardants and plasticizers tris(2-chloroethyl) phosphate (TCEP), tris(2-chloro-1-methylethyl) phosphate (TCPP), tris(1,3-dichloro-2-propyl) phosphate (TDCP), tris(2-butoxyethyl) phosphate (TBEP), tri-iso-butyl phosphate (TiBP), and tri-n-butyl phosphate (TnBP) in precipitation, lake water, surface runoff and groundwater from urban and remote areas in Germany was investigated between June 2007 and October 2009. 255 samples of precipitation, 210 samples of lentic surface water and 72 samples of groundwater were analyzed for the six organophosphates (OPs) by solid phase extraction followed by gas chromatography-mass spectrometry. The research focused on aspects concerning (1) the atmospheric washout of OPs by precipitation, (2) the temporal variation of OP concentrations in precipitation and in lentic surface waters as well as (3) the pollution of groundwater by OPs. The results of the study emphasize the importance of precipitation as an all-season entry-pathway for OPs in the aquatic environment, particularly in densely populated urban environments with high traffic volume and abundant usage of flame-protected products. No seasonal trends were observed for all analytes in precipitation at the urban sampling site. TCPP dominated in all precipitation and storm water holding tank (SWHT) water samples with maximum levels exceeding 1 µg/L. An accumulation of OPs deposited in SWHTs was observed with concentrations often exceeding those observed in wet precipitation. Median concentrations of TCPP (880 ng/L), TDCP (13 ng/L), and TBEP (77 ng/L) at the urban SWHT were more than twice as high as those measured at the urban precipitation sampling site (403 ng/L, 5 ng/L, 21 ng/L) located close to the SWHT. OP levels in more remote lakes were often below or close to the limits of quantitation (LOQ). Nevertheless, TCPP was the substance with the highest median concentration in rural volcanic lakes (7–18 ng/L) indicating an atmospheric transport of the compound. At urban lakes the median OP concentrations were in the range of 23–61 ng/L (TCEP), 85–126 ng/L (TCPP), <LOQ–53 ng/L (TBEP), 8–10 ng/L (TiBP), and 17–32 ng/L (TnBP). In laboratory experiments, TBEP, TiBP, and TnBP were photochemically degraded in spiked lake water samples upon exposure to sunlight. In the SWHT a seasonal trend with decreasing concentrations in summer/autumn was evident for TiBP and TnBP but not for the chlorinated OPs. The decreasing concentrations can be explained by in-lake photodegradation. Results have also shown that the occurrence of OPs in groundwater is depending on the anthropogenic impact during groundwater recharge/natural replenishment. Infiltration of precipitation was found to be no important entry-pathway for OPs into aquifers at rural sites. Highest OP concentrations (>0.1 µg/L) were determined in groundwater polluted by percolating leachate from contaminated sites or groundwater recharged via bank filtration of OP-loaded recipients. Concentrations of TCEP, TCPP, TiBP and TnBP in groundwater decreased rapidly (89–97%) during bank filtration with increasing distance from the recipient due to adsorption processes and/or biotransformation. Although TCEP and TCPP are stable within the aquifer, they are not suitable as conservative organic tracers in groundwater.
Nucleation experiments starting from the reaction of OH radicals with SO2 have been performed in the IfT-LFT flow tube under atmospheric conditions at 293±0.5 K for a relative humidity of 13–61%. The presence of different additives (H2, CO, 1,3,5-trimethylbenzene) for adjusting the OH radical concentration and resulting OH levels in the range (4–300) ×105 molecule cm -3 did not influence the nucleation process itself. The number of detected particles as well as the threshold H2SO4 concentration needed for nucleation was found to be strongly dependent on the counting efficiency of the used counting devices. High-sensitivity particle counters allowed the measurement of freshly nucleated particles with diameters down to about 1.5 nm. A parameterization of the experimental data was developed using power law equations for H2SO4 and H2O vapour. The exponent for H2SO4 from different measurement series was in the range of 1.7–2.1 being in good agreement with those arising from analysis of nucleation events in the atmosphere. For increasing relative humidity, an increase of the particle number was observed. The exponent for H2O vapour was found to be 3.1 representing an upper limit. Addition of 1.2×1011 molecule cm -3 or 1.2×1012 molecule cm -3 of NH3 (range of atmospheric NH3 peak concentrations) revealed that NH3 has a measureable, promoting effect on the nucleation rate under these conditions. The promoting effect was found to be more pronounced for relatively dry conditions, i.e. a rise of the particle number by 1–2 orders of magnitude at RH = 13% and only by a factor of 2–5 at RH = 47% (NH3 addition: 1.2×1012 molecule cm -3). Using the amine tert-butylamine instead of NH3, the enhancing impact of the base for nucleation and particle growth appears to be stronger. Tert-butylamine addition of about 1010 molecule cm -3 at RH = 13% enhances particle formation by about two orders of magnitude, while for NH3 only a small or negligible effect on nucleation in this range of concentration appeared. This suggests that amines can strongly influence atmospheric H2SO4-H2O nucleation and are probably promising candidates for explaining existing discrepancies between theory and observations.
We report the first measurements of 1,1,1,2,3,3,3-heptafluoropropane (HFC-227ea), a substitute for ozone depleting compounds, in remote regions of the atmosphere and present evidence for its rapid growth. Observed mixing ratios ranged from below 0.01 ppt in deep firn air to 0.59 ppt in the northern mid-latitudinal upper troposphere. Firn air samples collected in Greenland were used to reconstruct a history of atmospheric abundance. Year-on-year increases were deduced, with acceleration in the growth rate from 0.026 ppt per year in 2000 to 0.057 ppt per year in 2007. Upper tropospheric air samples provide evidence for a continuing growth until late 2009. Fur- thermore we calculated a stratospheric lifetime of 370 years from measurements of air samples collected on board high altitude aircraft and balloons. Emission estimates were determined from the reconstructed atmospheric trend and suggest that current "bottom-up" estimates of global emissions for 2005 are too high by more than a factor of three.
We report the first measurements of 1,1,1,2,3,3,3-heptafluoropropane (HFC-227ea), a substitute for ozone depleting compounds, in air samples originating from remote regions of the atmosphere and present evidence for its accelerating growth. Observed mixing ratios ranged from below 0.01 ppt in deep firn air to 0.59 ppt in the current northern mid-latitudinal upper troposphere. Firn air samples collected in Greenland were used to reconstruct a history of atmospheric abundance. Year-on-year increases were deduced, with acceleration in the growth rate from 0.029 ppt per year in 2000 to 0.056 ppt per year in 2007. Upper tropospheric air samples provide evidence for a continuing growth until late 2009. Furthermore we calculated a stratospheric lifetime of 370 years from measurements of air samples collected on board high altitude aircraft and balloons. Emission estimates were determined from the reconstructed atmospheric trend and suggest that current "bottom-up" estimates of global emissions for 2005 are too high by a factor of three.
A comprehensive evaluation of seasonal backward trajectories initialized in the northern hemisphere lowermost stratosphere (LMS) has been performed to investigate the factors that determine the temporal and spatial structure of troposphere-to-stratosphere-transport (TST) and it’s impact on the LMS. In particular we explain the fundamental role of the transit time since last TST (tTST) for the chemical composition of the LMS. According to our results the structure of the LMS can be characterized by a layer with tTST<40 days forming a narrow band around the local tropopause. This layer extends about 30K above the local dynamical tropopause, corresponding to the extratropical tropopause transition layer (ExTL) as identified by CO. The LMS beyond this layer shows a relatively well defined separation as marked by an aprupt transition to longer tTST indicating less frequent mixing and a smaller fraction of tropospheric air. Thus the LMS constitutes a region of two well defined regimes of tropospheric influence. These can be characterized mainly by different transport times from the troposphere and different fractions of tropospheric air. Carbon monoxide (CO) mirrors this structure of tTST due to it’s finite lifetime on the order of three months. Water vapour isopleths, on the other hand, do not uniquely indicate TST and are independent of tTST, but are determined by the Lagrangian Cold Point (LCP) of air parcels. Most of the backward trajectories from the LMS experienced their LCP in the tropics and sub-tropics, and TST often occurs 20 days after trajectories have encountered their LCP. Therefore, ExTL properties deduced from CO and H2O provide totally different informations on transport and particular TST for the LMS.
Two different single particle mass spectrometers were operated in parallel at the Swiss High Alpine Research Station Jungfraujoch (JFJ, 3580 m a.s.l.) during the Cloud and Aerosol Characterization Experiment (CLACE 6) in February and March 2007. During mixed phase cloud events ice crystals from 5–20 micro m were separated from larger ice aggregates, non-activated, interstitial aerosol particles and supercooled droplets using an Ice-Counterflow Virtual Impactor (Ice-CVI). During one cloud period supercooled droplets were additionally sampled and analyzed by changing the Ice-CVI setup. The small ice particles and droplets were evaporated by injection into dry air inside the Ice-CVI. The resulting ice and droplet residues (IR and DR) were analyzed for size and composition by the two single particle mass spectrometers: a custom-built Single Particle Laser-Ablation Time-of-Flight Mass Spectrometer (SPLAT) and a commercial Aerosol Time-of-Flight Mass Spectrometer (ATOFMS, TSI Model 3800). During CLACE 6 the SPLAT instrument characterized 355 individual IR that produced a mass spectrum for at least one polarity and the ATOFMS measured 152 IR. The mass spectra were binned in classes, based on the combination of dominating substances, such as mineral dust, sulfate, potassium and elemental carbon or organic material. The derived chemical information from the ice residues is compared to the JFJ ambient aerosol that was sampled while the measurement station was out of clouds (several thousand particles analyzed by SPLAT and ATOFMS) and to the composition of the residues of supercooled cloud droplets (SPLAT: 162 cloud droplet residues analyzed, ATOFMS: 1094). The measurements showed that mineral dust was strongly enhanced in the ice particle residues. Close to all of the SPLAT spectra from ice residues did contain signatures from mineral compounds, albeit connected with varying amounts of soluble compounds. Similarly, close to all of the ATOFMS IR spectra show a mineral or metallic component. Pure sulfate and nitrate containing particles were depleted in the ice residues. Sulfate and nitrate was found to dominate the droplet residues (~90% of the particles). The results from the two different single particle mass spectrometers were generally in agreement. Differences in the results originate from several causes, such as the different wavelength of the desorption and ionisation lasers and different size-dependent particle detection efficiencies.
The likely manifestations of climate change like flood hazards are prominent topics in public communication. This can be shown by media analysis and questionnaire data. However, in the case of flood risks an information gap remains resulting in misinformed citizens who probably will not perform the necessary protective actions when an emergency occurs. This paper examines more closely a newly developed approach to flood risk communication that takes the heterogeneity of citizens into account and aims to close this gap. The heterogeneity is analysed on the meso level regarding differences in residential situation as well as on the micro level with respect to risk perception and protective actions. Using the city of Bremen as a case study, empirical data from n=831 respondents were used to identify Action Types representing different states of readiness for protective actions in view of flood risks. These subpopulations can be provided with specific information to meet their heterogeneous needs for risk communication. A prototype of a computer-based information system is described that can produce and pass on such tailored information. However, such an approach to risk communication has to be complemented by meso level analysis which takes the social diversity of subpopulations into account. Social vulnerability is the crucial concept for understanding the distribution of resources and capacities among different social groups. We therefore recommend putting forums and organisations into place that can mediate between the state and its citizens.
Atmospheric new particle formation is a general phenomenon observed over coniferous forests. So far nucleation is described as a function of gaseous sulfuric acid concentration only, which is unable to explain the observed seasonality of nucleation events at different measurement sites. Here we introduce a new nucleation parameter including ozone and water vapor concentrations as well as UV-B radiation as a proxy for OH radical formation. Applying this new parameter to field studies conducted at Finnish and German measurement sites it is found capable to predict the occurrence of nucleation events and their seasonal and annual variation indicating a significant role of organics. Extrapolation to possible future conditions of ozone, water vapor and organic concentrations leads to a significant potential increase in nucleation event number.
Atmospheric new particle formation is a general phenomenon observed over coniferous forests. So far nucleation is either parameterised as a function of gaseous sulphuric acid concentration only, which is unable to explain the observed seasonality of nucleation events at different measurement sites, or as a function of sulphuric acid and organic molecules. Here we introduce different nucleation parameters based on the interaction of sulphuric acid and terpene oxidation products and elucidate the individual importance. They include basic trace gas and meteorological measurements such as ozone and water vapour concentrations, temperature (for terpene emission) and UV B radiation as a proxy for OH radical formation. We apply these new parameters to field studies conducted at conducted at Finnish and German measurement sites and compare these to nucleation observations on a daily and annual scale. General agreement was found, although the specific compounds responsible for the nucleation process remain speculative. This can be interpreted as follows: During cooler seasons the emission of biogenic terpenes and the OH availability limits the new particle formation while towards warmer seasons the ratio of ozone and water vapour concentration seems to dominate the general behaviour. Therefore, organics seem to support ambient nucleation besides sulphuric acid or an OH-related compound. Using these nucleation parameters to extrapolate the current conditions to prognosed future concentrations of ozone, water vapour and organic concentrations leads to a significant potential increase in the nucleation event number.
A new, two-channel instrument for simultaneous NO3 and N2O5 monitoring was used to make the first comprehensive set of nocturnal NOx measurements (NO, NO2, NO3 and N2O5) at the Taunus Observatory, a rural mountain site (Kleiner Feldberg) in South-western Germany. In May 2008, NO3 and N2O5 mixing ratios were well above the instrumental detection limit (a few ppt) on all nights of the campaign and were characterised by large variability. The concentrations of NO3, N2O5 and NO2 were consistent with the equilibrium constant, K2, defining the rates of formation and thermal dissociation of N2O5. A steady-state lifetime analysis is consistent with the loss of nocturnal NOx being dominated by the reaction of NO3 with volatile organic compounds in this forested region, with N2O5 uptake to aerosols of secondary importance. Analysis of a limited dataset obtained at high relative humidity indicated that the loss of N2O5 by reaction with water vapour is less efficient (>factor 3) than derived using laboratory kinetic data. The fraction of NOx present as NO3 and N2O5 reached ~20% on some nights, with night-time losses of NOx competing with daytime losses.
Fractional release factors of long-lived halogenated organic compounds in the tropical stratosphere
(2010)
Fractional release factors (FRFs) of organic trace gases are time-independent quantities that influence the calculation of Global Warming Potentials and Ozone Depletion Potentials. We present the first set of vertically resolved FRFs for 15 long-lived halocarbons in the tropical stratosphere up to 34 km altitude. They were calculated from measurements on air samples collected on board balloons and a high altitude aircraft. We compare the derived dependencies of FRFs on the mean stratospheric transit times (the so-called mean ages of air) with similarly derived FRFs originating from measurements at higher latitudes and find significant differences. Moreover a comparison with averaged FRFs currently used by the World Meteorological Organisation revealed the limitations of these measures due to their observed vertical and latitudinal variability. The presented data set could be used to improve future ozone level and climate projections.
We synthesised observations of total particle number (CN) concentration from 36 sites around the world. We found that annual mean CN concentrations are typically 300–2000 cm -3 in the marine boundary layer and free troposphere (FT) and 1000–10 000 cm -3 in the continental boundary layer (BL). Many sites exhibit pronounced seasonality with summer time concentrations a factor of 2–10 greater than wintertime concentrations. We used these CN observations to evaluate primary and secondary sources of particle number in a global aerosol microphysics model. We found that emissions of primary particles can reasonably reproduce the spatial pattern of observed CN concentration (R2=0.46) but fail to explain the observed seasonal cycle (R2=0.1). The modeled CN concentration in the FT was biased low (normalised mean bias, NMB=& -88%) unless a secondary source of particles was included, for example from binary homogeneous nucleation of sulfuric acid and water (NMB= -25%). Simulated CN concentrations in the continental BL were also biased low (NMB= -74%) unless the number emission of anthropogenic primary particles was increased or a mechanism that results in particle formation in the BL was included. We ran a number of simulations where we included an empirical BL nucleation mechanism either using the activation-type mechanism (nucleation rate, J, proportional to gas-phase sulfuric acid concentration to the power one) or kinetic-type mechanism (J proportional to sulfuric acid to the power two) with a range of nucleation coefficients. We found that the seasonal CN cycle observed at continental BL sites was better simulated by BL particle formation (R2=0.3) than by increasing the number emission from primary anthropogenic sources (R2=0.18). The nucleation constants that resulted in best overall match between model and observed CN concentrations were consistent with values derived in previous studies from detailed case studies at individual sites. In our model, kinetic and activation-type nucleation parameterizations gave similar agreement with observed monthly mean CN concentrations.
River flow regimes, including long-term average flows, seasonality, low flows, high flows and other types of flow variability, play an important role for freshwater ecosystems. Thus, climate change affects freshwater ecosystems not only by increased temperatures but also by altered river flow regimes. However, with one exception, transferable quantitative relations between flow alterations and ecological responses have not yet been derived. While discharge decreases are generally considered to be detrimental for ecosystems, the effect of future discharge increases is unclear. As a first step towards a global-scale analysis of climate change impacts on freshwater ecosystems, we quantified the impact of climate change on five ecologically relevant river flow indicators, using the global water model WaterGAP 2.1g to simulate monthly time series of river discharge with a spatial resolution of 0.5 degrees. Four climate change scenarios based on two global climate models and two greenhouse gas emissions scenarios were evaluated. We compared the impact of climate change by the 2050s to the impact of water withdrawals and dams on natural flow regimes that had occurred by 2002. Climate change was computed to alter seasonal flow regimes significantly (i.e. by more than 10%) on 90% of the global land area (excluding Greenland and Antarctica), as compared to only one quarter of the land area that had suffered from significant seasonal flow regime alterations due to dams and water withdrawals. Due to climate change, the timing of the maximum mean monthly river discharge will be shifted by at least one month on one third on the global land area, more often towards earlier months (mainly due to earlier snowmelt). Dams and withdrawals had caused comparable shifts on less than 5% of the land area only. Long-term average annual river discharge is predicted to significantly increase on one half of the land area, and to significantly decrease on one quarter. Dams and withdrawals had led to significant decreases on one sixth of the land area, and nowhere to increases. Thus, by the 2050s, climate change may have impacted ecologically relevant river flow characteristics more strongly than dams and water withdrawals have up to now. The only exception refers to the decrease of the statistical low flow Q90, with significant decreases both by past water withdrawals and future climate change on one quarter of the land area. However, dam impacts are likely underestimated by our study. Considering long-term average river discharge, only a few regions, including Spain, Italy, Iraq, Southern India, Western China, the Australian Murray Darling Basin and the High Plains Aquifer in the USA, all of them with extensive irrigation, are expected to be less affected by climate change than by past anthropogenic flow alterations. In some of these regions, climate change will exacerbate the discharge reductions, while in others climate change provides opportunities for reducing past reductions. Emissions scenario B2 leads to only slightly reduced alterations of river flow regimes as compared to scenario A2 even though emissions are much smaller. The differences in alterations resulting from the two applied climate models are larger than those resulting from the two emissions scenarios. Based on general knowledge about ecosystem responses to flow alterations and data related to flow alterations by dams and water withdrawals, we expect that the computed climate change induced river flow alterations will impact freshwater ecosystems more strongly than past anthropogenic alterations.
This paper investigates the potential impact of secondary information on rainfall mapping applying Ordinary Kriging. Secondary information tested is a natural area indicator, which is a combination of topographic features and weather conditions. Cross validation shows that secondary information only marginally improves the final mapping, indicating that a one-day accumulation time is possibly too short.
Development of a Bioaerosol single particle detector (BIO IN) for the Fast Ice Nucleus CHamber FINCH
(2010)
In this work we present the setup and first tests of our new BIO IN detector. This detector was constructed to classify atmospheric ice nuclei (IN) for their biological content. It is designed to be coupled to the Fast Ice Nucleus CHamber FINCH. If one particle acts as an ice nucleus, it will be at least partly covered with ice at the end of the development section of the FINCH chamber. The device combines an auto-fluorescence detector and a circular depolarization detector for simultaneous detection of biological material and discrimination between water droplets, ice crystals and non activated large aerosol particles. The excitation of biological material with UV light and analysis of auto-fluorescence is a common principle used for flow cytometry, fluorescence microscopy, spectroscopy and imaging. The detection of auto-fluorescence of airborne single particles demands some more experimental effort. However, expensive commercial sensors are available for special purposes, e.g. size distribution measurements. But these sensors will not fit the specifications needed for the FINCH IN counter (e.g. high sample flow of up 10 LPM). The newly developed -low cost- BIO IN sensor uses a single high-power UV LED for the electronic excitation instead of much more expensive UV lasers. Other key advantages of the new sensor are the low weight, compact size, and the little effect on the aerosol sample, which allows it to be coupled with other instruments for further analysis. The instrument will be flown on one of the first missions of the new German research aircraft "HALO" (High Altitude and LOng range).
Processes occurring in the tropical upper troposphere (UT), the Tropical Transition Layer (TTL), and the lower stratosphere (LS) are of importance for the global climate, for stratospheric dynamics and air chemistry, and for their influence on the global distribution of water vapour, trace gases and aerosols. In this contribution we present aerosol and trace gas (in-situ) measurements from the tropical UT/LS over Southern Brazil, Northern Australia, and West Africa. The instruments were operated on board of the Russian high altitude research aircraft M-55 "Geophysica" and the DLR Falcon-20 during the campaigns TROCCINOX (Araçatuba, Brazil, February 2005), SCOUT-O3 (Darwin, Australia, December 2005), and SCOUT-AMMA (Ouagadougou, Burkina Faso, August 2006). The data cover submicron particle number densities and volatility from the COndensation PArticle counting System (COPAS), as well as relevant trace gases like N2O, ozone, and CO. We use these trace gas measurements to place the aerosol data into a broader atmospheric context. Also a juxtaposition of the submicron particle data with previous measurements over Costa Rica and other tropical locations between 1999 and 2007 (NASA DC-8 and NASA WB-57F) is provided. The submicron particle number densities, as a function of altitude, were found to be remarkably constant in the tropical UT/LS altitude band for the two decades after 1987. Thus, a parameterisation suitable for models can be extracted from these measurements. Compared to the average levels in the period between 1987 and 2007 a slight increase of particle abundances was found for 2005/2006 at altitudes with potential temperatures, theta, above 430 K. The origins of this increase are unknown except for increases measured during SCOUT-AMMA. Here the eruption of the Soufrière Hills volcano in the Caribbean caused elevated particle mixing ratios. The vertical profiles from Northern hemispheric mid-latitudes between 1999 and 2006 also are compact enough to derive a parameterisation. The tropical profiles all show a broad maximum of particle mixing ratios (between theta ~ 340 K and 390 K) which extends from below the TTL to above the thermal tropopause. Thus these particles are a "reservoir" for vertical transport into the stratosphere. The ratio of non-volatile particle number density to total particle number density was also measured by COPAS. The vertical profiles of this ratio have a maximum of 50% above 370 K over Australia and West Africa and a pronounced minimum directly below. Without detailed chemical composition measurements a reason for the increase of non-volatile particle fractions cannot yet be given. However, half of the particles from the tropical "reservoir" contain compounds other than sulphuric acid and water. Correlations of the measured aerosol mixing ratios with N2O and ozone exhibit compact relationships for the tropical data from SCOUT-AMMA, TROCCINOX, and SCOUT-O3. Correlations with CO are more scattered probably because of the connection to different pollution source regions. We provide additional data from the long distance transfer flights to the campaign sites in Brazil, Australia, and West-Africa. These were executed during a time window of 17 months within a period of relative volcanic quiescence. Thus the data represent a "snapshot picture" documenting the status of a significant part of the global UT/LS fine aerosol at low concentration levels 15 years after the last major (i.e., the 1991 Mount Pinatubo) eruption. The corresponding latitudinal distributions of the measured particle number densities are presented in this paper to provide data of the UT/LS background aerosol for modelling purposes.
Pollen-based climate reconstructions were performed on two high-resolution pollen marines cores from the Alboran and Aegean Seas in order to unravel the climatic variability in the coastal settings of the Mediterranean region between 15 000 and 4000 years BP (the Lateglacial, and early to mid-Holocene). The quantitative climate reconstructions for the Alboran and Aegean Sea records focus mainly on the reconstruction of the seasonality changes (temperatures and precipitation), a crucial parameter in the Mediterranean region. This study is based on a multi-method approach comprising 3 methods: the Modern Analogues Technique (MAT), the recent Non-Metric Multidimensional Scaling/Generalized Additive Model method (NMDS/GAM) and Partial Least Squares regression (PLS). The climate signal inferred from this comparative approach confirms that cold and dry conditions prevailed in the Mediterranean region during the Oldest and Younger Dryas periods, while temperate conditions prevailed during the Bølling/Allerød and the Holocene. Our records suggest a West/East gradient of decreasing precipitation across the Mediterranean region during the cooler Late-glacial and early Holocene periods, similar to present-day conditions. Winter precipitation was highest during warm intervals and lowest during cooling phases. Several short-lived cool intervals (i.e. Older Dryas, another oscillation after this one (GI-1c2), Gerzensee/Preboreal Oscillations, 8.2 ka event, Bond events) connected to the North Atlantic climate system are documented in the Alboran and Aegean Sea records indicating that the climate oscillations associated with the successive steps of the deglaciation in the North Atlantic area occurred in both the western and eastern Mediterranean regions. This observation confirms the presence of strong climatic linkages between the North Atlantic and Mediterranean regions.
Abrupt climate changes of the last deglaciation detected in a Western Mediterranean forest record
(2010)
Abrupt changes in Western Mediterranean climate during the last deglaciation (20 to 6 cal ka BP) are detected in marine core MD95-2043 (Alboran Sea) through the investigation of high-resolution pollen data and pollen-based climate reconstructions by the modern analogue technique (MAT) for annual precipitation (Pann) and mean temperatures of the coldest and warmest months (MTCO and MTWA). Changes in temperate Mediterranean forest development and composition and MAT reconstructions indicate major climatic shifts with parallel temperature and precipitation changes at the onsets of Heinrich stadial 1 (equivalent to the Oldest Dryas), the Bölling-Allerød (BA), and the Younger Dryas (YD). Multi-centennial-scale oscillations in forest development occurred throughout the BA, YD, and early Holocene. Shifts in vegetation composition and (Pann reconstructions indicate that forest declines occurred during dry, and generally cool, episodes centred at 14.0, 13.3, 12.9, 11.8, 10.7, 10.1, 9.2, 8.3 and 7.4 cal ka BP. The forest record also suggests multiple, low-amplitude Preboreal (PB) climate oscillations, and a marked increase in moisture availability for forest development at the end of the PB at 10.6 cal ka BP. Dry atmospheric conditions in the Western Mediterranean occurred in phase with Lateglacial events of high-latitude cooling including GI-1d (Older Dryas), GI-1b (Intra-Allerød Cold Period) and GS-1 (YD), and during Holocene events associated with high-latitude cooling, meltwater pulses and N. Atlantic ice-rafting. A possible climatic mechanism for the recurrence of dry intervals and an opposed regional precipitation pattern with respect to Western-central Europe relates to the dynamics of the westerlies and the prevalence of atmospheric blocking highs. Comparison of radiocarbon and ice-core ages for well-defined climatic transitions in the forest record suggests possible enhancement of marine reservoir ages in the Alboran Sea by 200 years (surface water age 600 years) during the Lateglacial.
Im Wiehengebirge und dem gesamten westlichen Niedersachsen-Becken zeichnen sich die Oxford- und Kimmeridge-Sedimente durch einen starken Fazieswechsel aus. Das gilt sowohl für die im Anstehenden ca. 120 m mächtige Abfolge als auch für die Ausbildung der einzelnen Horizonte im Becken. Auffällig sind vor allem im Kimmeridge-Profil Fazieswiederholungen einzelner Bänke, aber auch von Gesteinsfolgen mit charakteristischen Faziesverknüpfungen. In einem Modell werden die sedimentologischen Zusammenhänge dieser Sequenzen aufgezeigt und beschrieben als Stadien vollständiger Zyklotheme mit der Ingression, Stagnation und Regression des Meeres sowie schließlich der Bodenbildung im trockengefallenen Becken.
Die Entwicklungsgeschichte des zentralen Osnabrücker Berglandes in der Juraund Kreide-Zeit ist bisher nicht geklärt. Haack (1925) nahm an, dass dieses Gebiet zur Zeit des späten Mesozoikums ein Untiefenbereich war: Die „Nordwestfälisch-Lippische-Schwelle“. Demgegenüber war nach Baldschuhn & Kockel (1999) dieser Raum Teil eines bedeutenden Graben- Beckens, in dem die Präperm-Oberfläche der Ibbenbüren-Struktur bis zu 8000 m abgesenkt war. Einen Klärungsbeitrag zu dieser grundsätzlichen Frage sollten zwei Bohrungen liefern. Sie durchteuften im November 2000 und März 2002 im westlichen Wiehengebirge die Schichtenfolge vom tiefen Mittleren Kimmeridge bis zum Mittel-Bathonium. Die fazielle und mikropaläontologische Auswertung der Bohrergebnisse ermöglichte eine gesicherte Korrelation der im Wiehengebirge ausgegliederten Sediment-Komplexemit den Log-Ausschlägen der Bohrungen. Durch die Berücksichtigung weiterer Bohrungen imKalkrieser Berg und Gehn konnte eine zweifelsfreie Übereinstimmung dieser Logs mit denen der weiter nördlich gelegenen Bohrungen erreicht werden. Insbesondere im Raum Icker Egge – Kalkrieser Berg ist sowohl für die Dogger- als auch für die Malm-Schichtenfolge eine deutliche Zunahme der Mächtigkeit und der Marinität in S-N-Richtung bis nördlich des Kalkrieser Berges zu erkennen. Diese Faziesveränderung wird durch einen Untiefenbereich nur wenig südlich des Wiehengebirges erklärt.
Depositionsmessungen imRiesenbeckerOsning (nordwestlicher TeutoburgerWald) führen in den Messjahren 1988 und 1998 zum Ergebnis eines Ammonium-betonten chemischen Klimas. Der Depositionstyp wird für 1998 über die Berechnung der Gesamtsäuredeposition exakt quantifiziert: Der Ammonium-Anteil an der Säurebelastung beträgt im Freilandniederschlag 71%, im Waldniederschlag 87%. Das so typisierte chemische Klima fügt sich ein in einen „Gülle-belt“, der sich von der niederländischen Grenze im Raum Kleve über das Münsterland nach Nordosten bis in das südlicheWeser-Ems-Gebiet Niedersachsens erstreckt.Das Ammonium-Nitrat-Verhältnis seiner Messstationen liegt durchweg über dem Indikator für den Einfluss der Massentierhaltung (NH4-N/NO3-N M 1,5). Die Gesamtstickstoffbelastung überschreitet deutlich den kritischen Depositionsgrenzwert für Nadelwälder. Langfristig führt dies zu einer Ökosystemdrift hin zu nitrophilen Waldgesellschaften, im ursprünglich oligotrophen Riesenbecker Osning angezeigt durch die invasive Einbürgerung eines stickstoffbedürftigen Bioindikators der Krautschicht, dem Kletternden Lerchensporn (Ceratocapnos claviculata).
Als abschließende Glieder regressiver Sedimentationsphasen treten im westlichen Wiehengebirge innerhalb oberjurassischer Sand-, Mergel- und Tonstein-Wechselfolgen "Bröckeltonsteine" auf, die sich durch große Mächtigkeit (bis über 10 m), homogene schluffig-tonige Textur, auffallend grobpolyedrische Struktur, glänzende, mit etwa 20°–40° Grad geneigte Gleitflächen ("Slickensides") und domartige, einander randlich durchschneidende Aufwölbungs-Strukturen von 1,5 - 3 m horizontaler Ausdehnung auszeichnen. Die in semiariden bis subhumiden Überflutungs- Landschaften gebildeten Sedimente wurden synsedimentär durch Peloturbation beeinflusst. Dies erklärt die teilweise extrem große Mächtigkeit der vertischen Merkmale. Mikromorphologisch zeigt das Material deutlich ausgeprägte Bioturbations-Merkmale sowie Stress-Kutane. Erhöhte Temperaturen durch die Aktivität eines Plutons in der Kreide-Zeit scheinen eine Smektit-zu-Illit-Umwandlung und eine diagenetische Kornvergrößerung bewirkt zu haben. Im Verlauf der synsedimentären Bodenbildung kam es zu einer deutlichen Kompaktierung, sodass Groß-Dinosaurier über die Flächen hinweg schreiten konnten, ohne tiefer als etwa 5 cm einzusinken. Im Quartär dürfte es zu teilweise intensiver Eisen-Umverteilung, zum Eindringen von Ton in Spalten sowie zur Freilegung der bereits im Jura präformierten Polyeder ("Bröckel") gekommen sein.
An interior delta in the lower course of the Ntem River near the sub-prefecture Ma’an was identified after interpretation of satellite images, topographical maps of SW Cameroon and geological as well as hydrological references and a reconnaissance fieldtrip to the study area. Here neotectonic processes have initiated the establishment of a ‘sediment trap’ (step fault), which in combination with environmental changes strongly generated the fluvial morphology. It transitionally led to temporary lacustrine and palustrine conditions in parts of this river section. Inside the interior delta an anastomosing multi-branched river system has developed, which contains ‘stillwater locations', periodically inundated sections, islands and rapids. Following geomorphological, physiogeographical and sedimentological research approaches, the alluvial plain has been prospected and studied extensively. 91 hand-corings, including three NE–SW transects, were carried out on river benches, levees, cut-off and periodical branches, islands as well as terraces throughout the entire alluvial plain and have unveiled multi-layered, sandy to clayey alluvia reaching up to 440 cm depth. At many locations, fossil organic horizons and palaeosurfaces were discovered, containing valuable palaeoenvironmental proxy data. At these sites, through additional detailed stratigraphical analysis (close-meshed hand-coring and exposure digging) a comprehensive insight into the stratification (lamination) of the alluvia could be gained, clarifying processes and conditions that prevailed in the catchment area during the period of their deposition. 32 Radiocarbon data of macro-rests (leafs, wood), charcoal and organic sediment sampled from these horizons provided ages between 48.230 ± 6.411 and 217 ± 46 years BP (not calibrated). This constitutes the importance of the alluvia as an additional, innovative palaeoarchive for proxy data contributing to the reconstruction of palaeoenvironment and palaeoclimate in western Equatorial Africa. The further examination of the alluvia will not only provide additional information on the dynamics of vegetation, climate and hydrology (esp. fluvial morphology) in SW Cameroon since the ‘First Millennium BC Crisis’ (around 3.000 years BP), the main focus of the DFG-research project, but also on conditions prevailing since the Late Pleistocene, during the Last Glacial Maximum (~18.000 years BP), the Younger Dryas impact (~11.000 years BP) and the ‘Humid African Period’ (~9.000–6.000 years BP). Delta13C-values (–31,4 to –26,4‰) evidence that at the particular drilling sites rain forest has prevailed during the corresponding time period (rain forest refuge theory). The sampled macrorests all indicate rain forest dominated ecosystems, which were able to persist in fluvial habitats, even during arid periods.
Until now, the NW Indian Ocean was sparsely covered with coral proxy records, and records from the Maldives Archipelago do not exist. The first such coral proxy record from the central Maldives is presented in this study. It originates from a massive Porites lutea (Quoy and Gaimard, 1833) colony that was sampled March 2007 in the lagoon of Rasdhoo Atoll (4°N/ 73°W), which is located in the central Maldives. The record spans a period of 90 yrs and reaches back to 1917 AD with monthly to bimonthly resolution. This study investigates temporal variations of the skeletal stable oxygen (delta18O) and carbon (delta13C) isotopes, the strontium-to-calcium (Sr/Ca), and the annual extension-rates, and their relationship to historical climate variations 1917-2007. Annual extension-rates show an increase over the 20th century, and are correlated with instrumental sea surface temperatures (SST). The interannual variation of the extension-rates within 2.5-4 years is driven by the El Niño-Southern Oscillation (ENSO). The amount of skeletal extension during the summer months is triggered by variations in the strength of the SW monsoon. Interannual and decadal variability in monsoon current activity (18-19 yrs) and rainfall over India are an expression of the summer monsoon strength. This is the reason why a statistical link between coral extension-rates and precipitation over India can be established. This implies that annual extension-rates in corals can be used as a new proxy for Indian monsoon variability on decadal resolution. The delta18O record exhibits the 20th century warming trend that is influenced by the effect of monsoon-induced cooling. delta18O also reveals interannual ENSO triggered variability, which is due to ENSO-forced variations in SST and sea surface salinity (SSS). A decadal variation at 12-14 yrs cannot be linked to SST variations in the NW Indian Ocean, but with decadal variations of SSS. They could be caused by ENSO- forced variations of the monsoon currents during the mature phase of ENSO teleconnections in the Indian Ocean in boreal winter. The Sr/Ca record does not indicate a significant warming, in spite of the observed SST rise at the sampling site. Changes in seawater Sr/Ca cannot be excluded. Nevertheless, interannual ENSO forcing is still evident. Evidence for the Pacific Decadal Oscillation (PDO) is found during 1917-1955. Afterwards, the Sr/Ca data indicate the disappearance of PDO forcing. By the combination of Sr/Ca and delta18O it is possible to detect ~80% of historical El Niño and La Niña events at the sample site. This study confirms the notion that interannual to multi-decadal climate fluctuations in the Pacific play a crucial role for climate variability in the Indian Ocean.
Die Studie zur holozänen und pleistozänen Umweltgeschichte Süd-Kameruns betrachtet den Aussagewert alluvialer Ablagerungen der Flüsse Boumba, Dja, Nyong, Ntem und Sanaga für die Paläoumweltforschung. Die zugrundeliegende Forschungsarbeit fand im Rahmen des ReSaKo-Projektes, als Teil der interdisziplinären DFG-Forschergruppe 510 (“Ökologischer Wandel und kulturelle Umbrüche in West- und Zentralafrika”) statt, welches die zeitliche und räumliche Korrelation zwischen Klimawandel, Landnutzungsstrategien und kulturellen Innovationen während der “First Millennium BC Crisis” untersucht hat. Hierfür wurde der ökologisch sensitive Bereich des tropischen bis äquatorialen, immergrünen bis halb-immergrünen Guineisch-Kongolesischen Regenwaldes und dessen Übergangszone zur Savanne im Süden Kameruns ausgewählt. Als Hauptziele galten dabei zum einen der Nachweis und die Interpretation umweltgeschichtlich verwertbarer Alluvionen in einer diesbezüglich bisher unerforschten Region und zum anderen die Korrelation der Befunde mit bereits vorliegenden terrestrischen und hemi-pelagischen Paläoumweltarchiven zur weiteren Rekonstruktion der Paläoumweltbedingungen im westlichen (monsunalen) Äquatorialafrika. Nach der Identifizierung geeigneter Arbeitsgebiete entlang verzweigter, mäandrierender und verflochtener bis anastomosierender Flussabschnitte mittels Fernerkundung von Satellitenbildszenen (LANDSAT ETM+ und ASTER), wurden unter Verwendung physiogeographischer und geomorphologischer Arbeitsmethoden ausgedehnte Feldarbeiten während der Trockenzeiten der Jahre 2005-2008 durchgeführt. Zahlreiche Bohrarbeiten (161 Handbohrungen bis 550 cm Tiefe) zur Sedimentprobennahme (1093 Proben) innerhalb der Alluvial- und Auenbereiche der fluvialen Systeme lieferten einen umfassenden Einblick in die Stratigraphie und fluvial-morphologische als auch paläoökologische und –hydrologische Entwicklung der verschiedenen fluvialen Ökosysteme. Die mehrschichtigen, sandigen bis tonigen Alluvionen enthalten Paläooberflächen (z. B. Gyttjen, reliktische Sümpfe, fossile organische Lagen/Horizonte), die hervorragende zusätzliche Proxydaten-Archive für die Rekonstruierung umweltgeschichtlicher Bedingungen darstellen. Bohrtransekte und die Interpretation von Korngrößensequenzen (Verfeinerung, Vergröberung) und Paläooberflächen aus solchen alluvialen Sedimentarchiven stellen ein wichtiges, diagnostisches Instrument bei der Rekonstruktion paläoökologischer und paläohydrologischer Bedingungen und Veränderungen dar und belegen zeitweise einsetzende Austrocknung und Bodenbildung in den Auen sowie die Entstehung von Sümpfen, Mudden, Altarmen und Altwasserseen. Dies zeugt eindeutig von einer modifizierten Dynamik der fluvialen Systeme als Reaktion auf endogene Steuer-größen und (fluss-)interner Variabilität (equilibrium). Eine Vielzahl (76) von 14C (AMS)-Datierungen an organischem Sediment und Makroresten aus diesen Alluvionen lieferten spätpleistozäne bis rezente Alter (~48 – 0,2 ka BP). Die dazugehörigen δ13C-Werte (-35.5 bis -18.0 ‰) belegen für den Großteil der Untersuchungsstandorte (außer Oberläufe des Nyong und Sanaga) den Fortbestand von C3-Spezies dominierter Galleriewald-Ökosysteme entlang der Flusssysteme (“fluviale Regenwaldrefugien”) trotz einiger klimatischer Veränderungen/Aridisierungen (z. B. Letztes Glaziales Maximum um etwa 20.000 BP). Trotz der bestehenden Schwierigkeiten bei der Interpretation tropischer Sedimentarchive (z. B. Hiatusproblematik) und fluvialer Archive im Allgemeinen, unterstützen weitere sedimentologische und pedologische Analysen (bodenchemische und -physikalische Laboranalysen: Korngrößen, Kohlenstoff [Ctot], Stickstoff [N], Eisengehalt [Feo und Fed], pH, Munsell-Farben und C/N) und ausgewählte 14C (AMS)-Datierungen und δ13C-Bestimmungen diesen Beitrag zur hypothetischen Rekonstruktion der umweltgeschichtlichen und paläohydrologischen Entwicklung des Untersuchungsraumes. Die Interpretation des Alluvialarchivs liefert zusätzlich fundierte Informationen hinsichtlich der komplexen Zusammenhänge zwischen Klima, Ozean, fluvialen und ökologischen Systemen und anthropogener Einflussnahme in einem regional weitestgehend unerforschten Gebiet mit hoch-sensitiven tropischen Ökosystemen. Die Ergebnisse zeigen eine hohe Korrelation mit früheren Paläoumweltstudien, die über Untersuchungen an weiteren terrestrischen (lakustrin und palustrin) und hemi-pelagischen Archiven dieser Region gewonnen werden konnten. Sie bekräftigen Milanković- bis sub-Milanković-skalige Fluktuationen (bes. Präzession-Zyklus) der Intensität des westafrikanischen Monsuns und daraus resultierende klimatische, hydrologische und ökologische Modifikationen im Untersuchungsgebiet, was wiederum weitreichende Telekonnektionen und Reorganisationen impliziert. Insgesamt können im Liegenden grobkörnige, sandige sedimentäre Einheiten, welche turbulente fluvial-morphologische Bedingungen und geöffnete Landschaftsstrukturen während des Spätpleistozäns (48-30 ka BP) vermuten lassen, von fein-sandigen LGM-zeitlichen (22-16 ka BP) und mächtigen schluffigen bis tonigen, holozänen Sedimenteinheiten im Hangenden unterschieden werden, welche eher stabilisierte und saisonale Umweltverhältnisse widerspiegeln. Größere Um- und Verlagerungen innerhalb der Alluvialbereiche (v. a. Gerinnebettverlagerungen, Versumpfung) konnten für den Übergang vom Pleistozän zum Holozän (14-10 ka BP) nachgewiesen werden. Weitere einschneidende Veränderungen traten im Spätholozän auf (um 4, 2 und 0,8 ka BP), wahrscheinlich begünstigt durch die einsetzende Sesshaftwerdung Bantu sprechender Volksgruppen im tropischen Regenwald Zentralafrikas und die Einführung der Metallurgie um 3 ka BP. Die Informationen über regionale umweltgeschichtliche Oszillationen und Variationen im Prozess- und Landschaftsgefüge sind in den alluvialen Sedimenten gut dokumentiert und erhalten geblieben und ergänzen somit frühere Ergebnisse (z. B. ECOFIT Programm) zur spätquartären Umweltgeschichte des vom Monsun geprägten westlichen Äquatorialafrikas. Die Ergebnisse bestätigen vor allem die Bedeutung und Anwendbarkeit tropischer (afrikanischer) alluvialer Sedimente für die Paläoumweltforschung und belegen zudem, dass neben (neo-)tektonischen Impulsen das Klima die tragende Rolle in der Gestaltung der Landschaft und der Dynamik, sowie der Entwicklung der Flusseinzugsgebiete gespielt hat.
Global-scale information on natural river flows and anthropogenic river flow alterations is required to identify areas where aqueous ecosystems are expected to be strongly degraded. Such information can support the identification of environmental flow guidelines and a sustainable water management that balances the water demands of humans and ecosystems. This study presents the first global assessment of the anthropogenic alteration of river flow regimes, in particular of flow variability, by water withdrawals and dams/reservoirs. Six ecologically relevant flow indicators were quantified using an improved version of the global water model WaterGAP. WaterGAP simulated, with a spatial resolution of 0.5 degree, river discharge as affected by human water withdrawals and dams around the year 2000, as well as naturalized discharge without this type of human interference. Compared to naturalized conditions, long-term average global discharge into oceans and internal sinks has decreased by 2.7% due to water withdrawals, and by 0.8% due to dams. Mainly due to irrigation, long-term average river discharge and statistical low flow Q90 (monthly river discharge that is exceeded in 9 out of 10 months) have decreased by more than 10% on one sixth and one quarter of the global land area (excluding Antarctica and Greenland), respectively. Q90 has increased significantly on only 5% of the land area, downstream of reservoirs. Due to both water withdrawals and reservoirs, seasonal flow amplitude has decreased significantly on one sixth of the land area, while interannual variability has increased on one quarter of the land area mainly due to irrigation. It has decreased on only 8% of the land area, in areas downstream of reservoirs where consumptive water use is low. The impact of reservoirs is likely underestimated by our study as small reservoirs are not taken into account. Areas most affected by anthropogenic river flow alterations are the Western and Central USA, Mexico, the western coast of South America, the Mediterranean rim, Southern Africa, the semi-arid and arid countries of the Near East and Western Asia, Pakistan and India, Northern China and the Australian Murray-Darling Basin, as well as some Arctic rivers. Due to a large number of uncertainties related e.g. to the estimation of water use and reservoir operation rules, the analysis is expected to provide only first estimates of river flow alterations that should be refined in the future.
The ENVISAT validation programme for the atmospheric instruments MIPAS, SCIAMACHY and GOMOS is based on a number of balloon-borne, aircraft, satellite and ground-based correlative measurements. In particular the activities of validation scientists were coordinated by ESA within the ENVISAT Stratospheric Aircraft and Balloon Campaign or ESABC. As part of a series of similar papers on other species [this issue] and in parallel to the contribution of the individual validation teams, the present paper provides a synthesis of comparisons performed between MIPAS CH4 and N2O profiles produced by the current ESA operational software (Instrument Processing Facility version 4.61 or IPF v4.61, full resolution MIPAS data covering the period 9 July 2002 to 26 March 2004) and correlative measurements obtained from balloon and aircraft experiments as well as from satellite sensors or from ground-based instruments. In the middle stratosphere, no significant bias is observed between MIPAS and correlative measurements, and MIPAS is providing a very consistent and global picture of the distribution of CH4 and N2O in this region. In average, the MIPAS CH4 values show a small positive bias in the lower stratosphere of about 5%. A similar situation is observed for N2O with a positive bias of 4%. In the lower stratosphere/upper troposphere (UT/LS) the individual used MIPAS data version 4.61 still exhibits some unphysical oscillations in individual CH4 and N2O profiles caused by the processing algorithm (with almost no regularization). Taking these problems into account, the MIPAS CH4 and N2O profiles are behaving as expected from the internal error estimation of IPF v4.61 and the estimated errors of the correlative measurements.
NASAs Stardust Mission ist die erste Mission, die - nach den Apollo Missionen zum Mond - Material von einem extraterrestrischen Körper erfolgreich für die Untersuchung auf der Erde, zurückgebracht hat. Desweiteren konnten erfolgreich Proben von einem Interstellaren Partikelstrom aufgesammelt werden, der das Sonnensystem derzeit passiert. Die Mission erlaubt einen Einblick in die Beschaffenheit der Kometenpartikel, die Rolle von Kometen im Sonnensystem sowie den Eintrag von Staub in die Zodiakalwolke. Desweiteren erlaubt die Analyse der Kometenpartikel den direkten Vergleich zu bereits untersuchten Meteoriten und Interplanetaren Staub Partikeln (IDPs) die auf der Erde bzw. deren Stratosphäre gesammelt wurden. Stardust ist die vierte ”Discovery” Mission und wurde am 7. Februar 1999 gestartet. Während des Fluges zum Kometen 81P/Wild 2 wurde ein interstellarer Partikelstrom beprobt und der Asteroid Annefrank passiert. Nach fünf Jahren kam es zum Zusammentreffen mit dem Kometen 81P/Wild 2 und über fünf Minuten, wurden Proben mit einer Auffangvorrichtung eingesammelt. Es dauerte weitere zwei Jahre bis die Stardust Sonde die Proben erfolgreich zur Erde zurückgebracht hat und zur Untersuchung freigegeben wurden. Interstellare und kometare Partikel wurden mit einer tennisschlägerartigen Auffangvorrichtung eingefangen, die aus einer Vielzahl von Aerogel Zellen aufgebaut ist. Das für die Stardust Mission verwendete Aerogel besteht aus SiO2 dessen dendritische Struktur zu 99,8 % aus Luft (Poren) besteht. Dadurch erscheint es nahezu transparent, was die optische Suche mit Mikroskopen nach den Einschlagsspuren der Körner vereinfacht. Die jeweiligen Partikel wurden auf unterschiedlichen Seiten der Vorrichtung eingefangen, da unterschiedliche Eigenschaften des Aerogels notwendig waren und um sie später voneinander unterscheiden zu können. Die Seite, in der die Kometenpartikel eingefangen wurde, musste Körner mit unterschiedlichen Grössen, Morphologien und niedrigeren Geschwindigkeiten abbremsen, während auf der interstellaren Seite die Körner von wesentlich höheren Geschwindigkeiten abgebremst werden mussten. Die Aerogelzellen haben ein variierendes Dichteprofil: an der Oberfläche ist die Dichte geringer (5 mg/ml) und erhöht sich mit der Tiefe auf 30-50 mg/ml. Dieses Dichteprofil ist notwendig, da beim Einschlag der Körner auf das Auffangmedium ein hoher Druck entsteht, der umso geringer ist, je niedriger die Dichte im Moment des Auftreffens ist. Die Aerogelzellen für die Kometenpartikel haben drei Lagen mit unterschiedlichen Dichten, die Zellen für die interstellaren Körner haben zwei unterschiedliche Dichten (Tsou et al., 2003)....
The Late Tertiary to Quaternary evolution of the Ntem interior delta in SW Cameroon shall be modelled. A step fault was formed along neotectonically remobilized Precambrian structures. Uncalibrated 14C-datations in this ‘sediment trap’ show Pleistocene to Holocene ages. Both within and below the interior delta pebbles and clasts which are cemented in an iron and manganese matrix were found. These ‘fanglomerates’ are used to discuss different processes of the younger evolution also concerning climatic fluctuations in the study area.
New industries are recognized as new impetus to national wealth. At the same time, they are increasingly becoming geographically concentrated in some well defined areas. But current studies on the emergence of industrial clusters tend to analyze favorable driving factors. This dissertation takes the example of a Chinese endogenous industrial cluster, the traditional Chinese medicine (TCM) cluster at Tonghua, a small peripheral city in Northeastern China, to contribute to the theoretical understanding of the emergence of industrial cluster as a co-evolutionary process of organizations, institutions and firms, or, to put it more broadly, as economic evolution embedded in complex socio-economic contexts. The recent advance in evolutionary and co-evolutionary economics which considers the economy and economic landscape as dynamic process instead of equilibrium can be regarded as a part of broader and more intellectual turn of quest for history in social sciences. Although the principle of "history matters" is widely acknowledged, it tends to be reduced to a quite simple concept of "path dependence". However, path dependence cannot offer space for new path creation, except from an external shock. Accordingly, the role of human conscious action or Schumpeterian innovation should be added to path analysis through the concept of path creation. Furthermore, and more importantly, history should be understood as context, and historical context can be explored through the understanding of multi-paths and interaction among them over time. So path inter-dependence (co-evolution between paths) would be useful to better understand the complexity of real history. Since the industrial cluster is composed of interconnected firms and is also subject to changes in institution and technology, I will focus on the multi-way causal relationship between firm, institution and technology. The theorizing is not entirely new, but most of the theoretical and empirical discussions are at the national or industrial level, not regional or local one. A competitive cluster can be regarded as a co-evolutionary hotspot in which multiple populations actively interact and are interconnected. Co-evolution itself is a dynamic and evolutionary process. So I will adopt a dynamic and evolutionary view to examine co-evolutionary degree or co-evolutionary effects in the Tonghua pharmaceutical cluster through time. After a brief introduction which deals with the national institutional changes that are highly associated with new venture creation, entrepreneurship, and innovation, with registrations on drug and healthcare system, and with changes in market demand of China’s pharmaceutical industry and geographical distribution, I will collect evidences from three aspects based upon field survey and second hand data, i.e., the history of the enterprises, the origin of entrepreneurship, and the knowledge of evolution, linking their respective generative relationships through the genealogical method. In this volume, the evolution of the Tonghua pharmaceutical firm organization, the formation of local entrepreneurship, historical accumulation of knowledge, and particular knowledge of transfer among generations of firms will be discussed, then I will probe into co-adaption and co-evolution between local formal and informal institutions and organizations in Tonghua’s TCM industry. In addition, I will try to understand the co-evolutionary process at different geographical levels (namely, national and local). In summary, my main findings include the following several points. Firstly, in the course of the emergence of Tonghua’s pharmaceutical industry, local social networks and the traditional alliance between enterprises and government have played important roles. Secondly, the most important factor that influences the evolution of endogenous industrial clusters such as the Tonghua pharmaceutical industry in transitional countries is not the change in technology, but the change in fundamental national institutions. Thirdly, the success of the Tonghua pharmaceutical industry can be ascribed to the creation of multiple paths largely based on initial conditions, which implies that economic policy should have historical consciousness, namely, new economic innovation should make full use of both historical legacies and existing assets. Finally, it is co-adaption and co-selection of firm organization, institution, and technology that have jointly made Tonghua’s pharmaceutical industry become highly competitive, which means that whether one region can grasp new opportunities partially depends on its capabilities to coordinate a varity of development agents.
Trace elemental concentrations of bivalve shells content a wealthy of environmental and climatic information of the past, and therefore the studies of trace elemental distributions in bivalve shells gained increasing interest lately. However, after more than half century of research, most of the trace elemental variations are still not well understood and trace elemental proxies are far from being routinely applicable. This dissertation focuses on a better understanding of the trace elemental chemistry of Arctica islandica shells from Iceland, and paving the way for the application of the trace elemental proxies to reconstruct the environmental and climatic changes. Traits of trace elemental concentrations on A. islandica shells were explored and evaluated. Then based the geochemical traits of the shells, four non-environmental/climatic controlling is indentified. (1) Trace elemental concentrations of bivalve shells are effected by early diagenesis by the leach or exchange of elemental ions, especially in shell tip part, even with the protection of periostrucum; (2) The analytical methods also affect the results of trace elemental concentrations, especially for the element, such as Mg, which is highly enriched in organic matrices; (3) Shell organic matrices are found play a dominating role on the concentration of trace elements on A. islandica shells. Most trace elements only occurred in insoluble organic matrices (IOM), although others are only found in the carbonate fraction. IOM of A. islandica shells is significantly enriched in Mg, while Li and Na are more deplete in IOM, but enriched in shell carbonate. Ba is more or less even contented in IOM and shell carbonate. The concentrations of certain elements vary between primary layer and secondary layer; (4) The vital /physiological controlling on trace elemental distributions of bivalve shells is also confirmed. Six elemental (B, Na, Mg, Mn, Sr, and Ba) concentrations show significant correlation (exponential functions) with ontogenetic age and shell grow rates (logarithmic equations). It is worthy to remark that B, Mg, Sr and Ba concentrations are negatively correlated with shell growth rate, positive with ontogenetic age, while the concentrations of Na and Mn show the opposite trends. At last, all the controlling described above can be taken into account and corrected to extract the environmental and climatic signal by a kind of standardization. The derived six exponential functions of the high correlations between six trace elemental concentrations and ontogenetic year are applied to make the standardization of these element-Ca ratios. The gotten standardized indices are compared with the variations of environmental and climatic parameters in this region, and many correlations are found. Standardized indices of Sr/Ca ratios are strongly related to the sun spot number, autumn NAO, autumn Europe surface air temperature (SAT) and Arctic sea surface temperature anomaly (TA), and those of Mg/Ca ratios are strongly associated with Arctic TA, Europe SAT and Solar variation (irradiance). The variations of autumn Europe SAT demonstrated more similarity with standardized indices of B/Ca than other parameters. Except for the SAT index of Arctic, the standardized indices of Na/Ca showed no distinct relation to temperature. European precipitation and the Arctic sea level pressure index compared well the Na/Ca ratios of the shells, and so did the autumn NAO. Standardized indices of Mn/Ca were correlated with the number of hurricanes in the North Atlantic, Northern Europe SAT and sun spot number.
Si espongono i risultati delle ricerche, riguardo agli scavi alla stratigrafia, la sedimentologia e alla industria litica, nel giacimento di Montemiletto (AV). Si tratta di una frattura beante il cui riempimento è probabilmente avvenuto in un breve arco di tempo e comprende tre momenti principali di sedimentazione: sedimenti fini (argille) nella parte più bassa, grossolani (sabbie) nella parte mediana e ancora fini (limi) in quella alta. L'industria litica, raccolta in tutti i livelli, e omogenea nell'intera serie, è riferita ad un Musteriano a denticolati, caratterizzato da una scarsa varietà di tipi; in genere su scheggia piatta; di tecnica debolmente levallois.
Stadtpolitik greift immer häufiger auf »best practices« aus anderen Städten zurück und nutzt sie als Blaupausen für ihre Entwicklungskonzepte. Doch was geschieht, wenn globalisierte Politikmodelle auf lokale Gegebenheiten heruntergebrochen werden? Neue Fragestellungen für die Humangeografie – die Frankfurter Wissenschaftler erforschen dies an konkreten Beispielen für die Mainmetropole.
Nach dem aktuellen Stand der Klimaforschung, der vor allem im jüngsten Bericht des ‘Intergovernmental Panel on Climate Change’ (IPCC) zusammengefaßt ist, liegt es nahe, von einem menschlichen Einfluß auf das globale Klima zu sprechen.Wenn es nicht gelingt, die bestehenden Wirtschafts- und Lebensweisen zu ändern, droht mit großer Wahrscheinlichkeit eine globale Klimaänderung in einem Ausmaß und in einer Geschwindigkeit, wie sie in den letzten 10.000 Jahren (im jüngeren Quartär) niemals aufgetreten ist. Um die deshalb zum Schutz des Klimasystems notwendigen Emissionsreduktionen zu bestimmen, wendet der Beirat das bereits 1995 in der Stellungnahme zur ersten Vertragsstaatenkonferenz genutzte Konzept der „Toleranzfenster“ erneut an. Dabei wird der für die kommenden 200 Jahre noch verbleibende Handlungsspielraum durch die normative Vorgabe von auf keinen Fall hinnehmbaren ökologischen, ökonomischen und sozialen „Leitplanken“ der Klimaentwicklung und der Klimapolitik ermittelt. Die Summe der Leitplanken definiert das „Toleranzfenster“ im Klimaschutz. Der Beirat geht davon aus, daß entsprechend dem „Berliner Mandat“ von 1995 und den in der Klimarahmenkonvention niedergelegten völkerrechtlichen Grundsätzen zunächst nur die in Anlage I aufgeführten Staaten (Industrieländer) durch konkrete Reduktionsziele in die Pflicht genommen werden. Für die Verteilung von Pflichten zwischen den einzelnen Ländern empfiehlt der Beirat den sogenannten „Pro-Kopf-Ansatz“ als grundsätzliches Kriterium, wobei in einer Übergangsphase andere Ansätze vorübergehend zum Einsatz kommen können. Daraus ergibt sich notwendigerweise ein stark verengter Handlungsspielraum für die Industrieländer. Der Beirat kommt zu dem Ergebnis, daß sein 1995 in der Stellungnahme zur ersten Vertragsstaatenkonferenz vorgeschlagenes Emissionsprofil („WBGUSzenario“) nur dann als mit den ökologischen, ökonomischen, sozialen und völkerrechtlichen Leitplanken verträglich ist, wenn es sich nicht nur auf Kohlendioxid bezieht, sondern auch die anderen wichtigen Treibhausgase wie Methan und Distickstoffoxid berücksichtigt.
Der Beirat gibt ein globales CO2-Reduktionsziel an, das in einem „Invers-Szenario“ auf der Grundlage mathematisch-physikalischer Modelle berechnet wurde. Aus der Analyse der ökologisch und ökonomisch vermutlich noch tragbaren Belastungen durch Klimaänderungen wird zunächst ein „Toleranzfenster“ für die zulässigen Klimaentwicklungen festgelegt. Ökologische Grenzen ergeben sich dabei aus der Maximaltemperatur und den Temperaturgradienten, an die sich die Biosphäre noch anpassen kann. Ökonomische Grenzen sind durch die für die Weltwirtschaft gerade noch zumutbaren Klimafolgekosten bestimmt. Die Hauptergebnisse des Szenarios sind: • Die anthropogenen CO2-Emissionen müssen langfristig, d.h. über mehrere Jahrhunderte, nahezu auf Null reduziert werden. Dabei läßt das Klimasystem allerdings beträchtliche Freiheiten zu, was die Gestaltung des Emissionsprofils anbetrifft. • Die Fortsetzung der gegenwärtigen Emissionspraxis (Business as Usual) würde uns zwar noch ca. 25 Jahre Zeit geben, dann aber innerhalb weniger Jahre einen solch drastischen Minderungszwang erfordern, daß kaum Strukturen und Technologien vorstellbar sind, die diese Minderung erbringen könnten. • Deshalb erscheint dem Beirat ein Emissionsprofil umsetzbar und sinnvoll, bei dem die globalen CO2-Emissionen, nach einer Übergangszeit von etwa 5 Jahren, über mehr als 150 Jahre um jährlich knapp 1% reduziert werden. • Dadurch kommen vor allem auf die Industrieländer mittelfristig große Reduktionspflichten zu. Der Beirat regt an, die aus der Selbstverpflichtung Deutschlands zur Minderung der CO2-Emissionen entstehenden Maßnahmen konsequent zu verwirklichen. International sind Vereinbarungen abzuschließen, die über das Jahr 2000 hinausreichen.
The crude oil constituents benzene, toluene, ethylbenzene, and the three xylene isomers (BTEX) are the dominating groundwater contaminants originating from surface spill accidents by oil production facilities and with gasoline and jet fuel. Thereby BTEX posing a threat to the world´s scarce drinking water resources due to their water solubility and toxicity. An active remediation cleanup involving a BTEX event proves not only to be very expensive but almost impossible when it comes to the complete removal of contaminants from the subsurface. A favoured and common practice is combining an active remediation process focussing on the source of contamination coupled together with the monitoring of the residual contamination in the subsurface (monitored natural attenuation; MNA). MNA include all naturally occuring biological, chemical and physical processes in the subsurface. The general goal of this work was to improve the knowledge of biodegradation of aromatic hydrocarbons under anaerobic conditions in groundwater. For this groundwater and soil at the former military underground storage tank (UST) site Schäferhof – Süd near Nienburg/Weser (Niedersachsen, Germany) were sampled and analysed. The investigations were done in collaboration of the Umweltbundesamt, the universitys of Frankfurt and Bremen and the alphacon GmbH Ganderkesee. To investigate the extent of groundwater contamination, the terminal electron acceptor processes (TEAPs) and the metabolites of BTEX degradation in groundwater, six observation wells were sampled at regular intervals between January 2002 and September 2004. The wells were positioned in order to cover the upstream, the source area and the downstream of the presumed contamination source. Additionally, vertical sediment profiles were sampled and investigated with respect to spreading and concentration of BTEX in the subsurface. A large residual contamination involving BTEX is present in soil and groundwater at the studied locality. Maximum BTEX concentration values of 17 mg/kg were recorded in analysing sediment in the unsaturated zone. In the capillary fringe, values of 450 mg/kg were recorded (October 2004) and in the saturated zone maximum values of 6.7 mg/kg BTEX were detected. The groundwater samples indicate increasing BTEX concentrations in the groundwater flow direction (from 532 µg/l up to 3300 µg/l (mean values)). Biodegradation of aromatic hydrocarbons under anaerobic conditions in the sub surface at contaminated sites is characterised by generation of metabolites. From the monoaromatic hydrocarbons BTEX metabolites such as benzoic acid (BA) and the methylated homologs and C1-and C2-benzyl-succinic acids (BSA) are generated as intermediates. A solid-phase extraction method based on octadecyl-bonded silica sorbent has been developed to concentrate such metabolite compounds from water samples followed by derivatization and gas chromatography/mass spectrometry (GC/MS) of the extracts. The recovery rate range between 75 and 97%. The method detection limit was 0.8 µg/l. Organic acids were identified as metabolic by-products of biodegradation. Benzoic acid, C1-, C2- and C3-benzoic acid were determined in all contaminated wells with considerable concentrations. Furthermore, the depletion of the dominant terminal electron acceptors (TEAs) oxygen, nitrate, and sulphate and the production of dissolved ferrous iron and methane in groundwater indicate biological mediated processes in the plume evidently proving the occurrence of NA. A large overlap of different redox zones at the studied part of the plume has been observed. A important finding in this study is the strong influence of groundwater level fluctuations on the BTEX concentration in groundwater. A very dry summer in 2003 was recorded during the monitoring period, resulting on site in a drop of the groundwater level to 1.7 m and a concomitant increase of BTEX concentrations from 240 µg/l to 1300 µg/l. The groundwater level fluctuations, natural degradation and retention processes essentially influence BTEX concentrations in the groundwater. Groundwater level fluctuations have by far a stronger influence than the influence of biological degradation. Increasing BTEX concentrations are hence not a consequence of limited biological degradation. Another part of the study was to observe the isotopic fractionation of the electron acceptor Fe(III), due to biologically mediated reduction of Fe(III) to the watersoluble Fe(II) at the site and first field data are presented. Both groundwater and sediment samples were analysed with respect to their Fe isotopic compositions using high mass resolution Multi Collector-Inductively Coupled Plasma-Mass Spectrometry (MC-ICP-MS). The delta56Fe -values of groundwater samples taken from observation wells located downstream of the source area were isotopically lighter than delta56Fe -values obtained from groundwater in the uncontaminated well. The Fe isotopic composition of most parts of the sediment profile was similar to the Fe isotopic composition of uncontaminated groundwater. Thus, a significant iron isotope fractionation can be observed between sediment and groundwater downstream of the BTEX contamination.
Durch die vorliegende Arbeit wird die Genese von Nyong- und Ntem-Einzugsgebiet seit der Öffnung des Südatlantiks unter Berücksichtigung neotektonischer Vorgänge nachgezeichnet. Die Ergebnisse unterstützen die Identifikation geeigneter Sedimentfallen als Proxydatenarchive zur Paläoumweltrekonstruktion. Mithilfe von Fernerkundung und Geländearbeit wird der Formenschatz in den Einzugsgebieten hinsichtlich ihrer Morphogenese untersucht. Vier Formengesellschaften werden unterschieden: (1) Rumpfflächen und Inselberge, (2) ‚demi-oranges’ und ‚bas-fonds’, (3) anastomosierender Flusslauf und (4) Rumpfstufe mit Inselgebirge und Kerbtälern. Sie werden morphodynamisch-genetisch interpretiert. (1) Ein Pisolithhorizont unter einer hillwash-Decke wird als Ferricretresiduum einer Paläooberfläche gedeutet und als Ergebnis der Pedimentierung gewertet. Die Morphogenese eines Inselbergs ergänzt die Diskussion zur Einrumpfung. Die Entwicklung zweier Altarme zeigt einen dritten Prozess, der vermutlich LGM-zeitlich die Region veränderte. Die Kuppe eines Inselbergs gibt ein ehemaliges Flächenniveau wieder. Durch die rückschreitende Verlagerung einer Stufe wurde er herauspräpariert. (2) In den oberen Einzugsgebieten liegen zwischen polykonvexen Hügeln breite Auen. Es wird angenommen, dass sich der Formenschatz durch Lateralerosion nach einer initialen Eintiefung gebildet hat. Flussanzapfungen reduzieren das obere Einzugsgebiet des Nyong. Eine Klassifikation in drei Klassen ist anhand der Überformung der Anzapfungen möglich: Die erste ist durch eine Talwasserscheide und Anzapfungsknie definiert. Bei der zweiten ist das Erscheinungsbild überprägt, die Orientierung zum ehemaligen Vorfluter ist jedoch eindeutig zu erkennen. Die dritte Klasse lässt nur noch aufgrund der Flussbettphysiognomie eine Anzapfung vermuten. (3) Im Ntem-Binnendelta wurden weitflächig Schotter und Gesteinsbruchstücke abgelagert und durch Mangan- und Eisenoxid zu einem Fanglomerat ausgehärtet. Das Gewässernetz bildet die geologischen Strukturen ab. Es wird angenommen, dass sich das Binnendelta primär durch eine gestaffelte Abschiebung entlang E-W verlaufender Brüche gebildet hat. Die Sedimentfallen wurden vom Ntem mit spätpleistozänen bis holozänen Sedimenten verfüllt. Ein ursprünglich flächenhaft ausgebildetes Ferricret wurde durch E-W verlaufende Brüche unterteilt. (4) Unterhalb des Binnendeltas überwindet der Ntem in einem Kerbtal entlang einer NNE-SSW-Struktur mit zwei linearen Störungen die Rumpfstufe. Es erinnert an einen Graben mit zwei Transformstörungen. Entlang des Tals wurden weitflächig Gesteinsbruchstücke und Schotter abgelagert, die zu einem Fanglomerat aushärteten. Gesteinsschnitte geben verschiedene Prozesse wieder, die die Bildung des Kerbtals als Graben belegen. Ergänzend wird eine Lineamentanalyse durchgeführt. Es werden vier Cluster herausgearbeitet, die die linearen Einheiten primär der panafrikanischen Orogenese zuordnen. Archaische Strukturen konnten nicht eindeutig zugewiesen werden. In der Synthese wird versucht, die Einzelergebnisse auf die Fläche zu extrapolieren. Die Arbeit bietet einen breiten Einblick in die tropische Geomorphologie mit der genetischen Diskussion unterschiedlicher Formengesellschaften. Es werden primär die strukturellen Richtungen N-S, E-W und NE-SW hervorgehoben, entlang derer eine neotektonische Remobilisation stattfand. Hebungen, die sich seit dem Miozän verstärkt haben, sind Auslöser für geomorphologische Modifikationen und Extensionsbrüche. Die Nähe zur aktiven Cameroon Volcanic Line und die Kompression des Kongokratons durch Riftprozesse lösen die tektonischen Ereignisse aus. Die wiederholte tektonische Erneuerung durch Hebungen des zentralafrikanischen Hinterlands führte zu einer Umgestaltung des Drainagenetzes.
In 1998 the German Universities of Kassel and Giessen organised a workshop on water and solute transport in large drainage basins. The workshop focused on analysing and summarising the state of research, existing problems and perspectives in this research area. It was the second of a series of annual workshops since 1997 that became an important discussion forum for the German-speaking research community in the field of hydrological modelling. Now the 11th Workshop on Large-scale Hydrological Modelling referred to the same questions as posed in 1998 in order to evaluate the developments and advances of the last ten years. Based on keynote presentations, the workshop focused on discussion in working groups where also posters were presented. This volume of "Advances in Geosciences" comprises seven papers referring to the poster contributions. At the end of the volume, an overview paper summarises the outcome of the workshop presentations and discussions (Doll et al.). ...
Large-scale hydrological modelling has become increasingly wide-spread during the last decade. An annual workshop series on large-scale hydrological modelling has provided, since 1997, a forum to the German-speaking community for discussing recent developments and achievements in this research area. In this paper we present the findings from the 2007 workshop which focused on advances and visions in large-scale hydrological modelling. We identify the state of the art, difficulties and research perspectives with respect to the themes "sensitivity of model results", "integrated modelling" and "coupling of processes in hydrosphere, atmosphere and biosphere". Some achievements in large-scale hydrological modelling during the last ten years are presented together with a selection of remaining challenges for the future.
The geodynamic processes and the chemical and thermal evolution of the mantle beneath the Kaapvaal craton (South Africa) was investigated with further regard to diamond formation. For this, 31 coarse-grained peridotites and 21 individual subcalcic garnets from heavy mineral concentrates (HMC) from the Finsch mine were studied for their major and trace element compositions, Lu-Hf and Sm-Nd isotope composition. Furthermore, processes in the Earth’s mantle that follow kimberlite sampling and propagation were studied in polymict peridotite breccia from Kimberley mines. Inter mineral equilibrium of the peridotites was tested by comparing the results from different, independent thermometers. These, well equilibrated peridotites stem from a restricted pressure of 5 to 6.5 GPa (depth ~160-200 km) and a temperature range of 1050-1250°C, following the 40 mW/m2 conductive geotherm. The majority of the samples display a well developed anti-correlation of oxygen fugacity with pressure, which is in contrast to the sheared and oxidised, younger kimberlite erupted peridotites from Kimberley. All analysed samples have homogeneous trace element mineral chemistry. Variations in trace elements among Finsch peridotites reflect their complex nature and the intricate development of the subcratonic mantle. The 3.6 Ga is the oldest crustal age recorded in the Kaapvaal craton, and is confirmed by the Lu-Hf model age of a highly radiogenic subcalcic garnet in this study. Therefore, this age probably represents the oldest depletion (partial melting event) of the subcratonic mantle beneath the Kaapvaal craton. Both, subcalcic garnets and Finsch peridotites yield Lu-Hf isochron ages of around 2.5 Ga, which probably represent the last depletion event of the Kaapvaal craton. Several older (than 2.5 Ga) depletions were also necessary to explain higher isochron initials of the both isochrones. The Cr# and HREE concentrations and ratios of the Finsch subcalcic garnets and peridotites indicate that partial melting of the Kaapvaal craton happened at different depths. One group of subcalcic garnets (group-1) experienced depletion at high pressure in the garnet stability field and another one (group-2) at low pressures in the spinel or plagioclase stability field. Major and trace elements indicate that up to 50%, of the melt was remover from the primitive (primer) mantle in at least two melting events. Thus, first continental crust was created early (> 2.5 Ga) from high degrees of partial melting of the lithospheric mantle. According to the Sm-Nd isotope signatures at least two metasomatic events took place significantly after 2.5 Ga. As monitored by group-1 subcalcic garnets, the first enrichment was produced by a fluid and occurred at around 1.3 Ga. The second metasomatic event was much later at 500-300 Ma ago and has changed both Nd and Hf isotopic compositions of group-2 subcalcic garnet as well as some Finsch peridotites. During partial melting any carbon species will be dissolved in the melt and removed from the residue. Therefore, any diamond growth before the last depletion (~2.5 Ga) would have been probably completely removed from the lithospheric mantle. Consequently, carbon was apparently reintroduced into the system, i.e. during Metasomatism, and triggered the growth of diamonds. The Sm-Nd isotope systematics of the subcalcic garnets of this study indicates that enrichment occurred at ~1.3 Ga or later, which implies non-Archean, late diamond growth in Finsch. Fertilisation of the subcontinental craton associated with the percolation of group-2 (~120 Ma) or even younger (~90 Ma) group-1 kimberlites and their precursors are not observed in Finsch peridotites, but are well presented in mantle xenoliths from Kimberley. Therefore, these younger events were studied on specific mantle xenoliths, polymict breccia from Kimberley. A polymict peridotite found at the Boshof road dump, Kimberley, represents a mechanical mixture of upper mantle clasts and minerals (opx, cpx, garnet and olivine) of different lithologies, cemented by fine-grained olivine and minute amounts of interstitial ilmenite, phlogopite and sulphide. According to Ni in garnet thermometry, single porphyroclastic garnets were sampled and mixed during ascent in a 100 km stratigraphic column, starting from ~250 km until ~120 km. During this ascent, melt has reacted with the porphyroclasts and at theirrims neoblastic minerals were formed, i.e. neoblastic opx around opx porphyroclast, neoblastic garnet around garnet porphyroclast, and neoblastic opx around cpx porphyroclast. Analyses of those neoblastic minerals indicate that volatile-rich, kimberlite-like melt was the agent that collected the mantle minerals and amalgamated this xenolith. Several complex processes were responsible for the formation of the polymict breccia. They comprise melt degassing at high pressures that probably created “explosive” Brecciation of the cratonic roots (~250 km), propagation of the melt that collected different porphyroclasts on a way and amalgamation at around 120 km. The whole process of “explosive” brecciation, turbulent transport and mixing of mantle porphyroclasts and melt, porphyroclast dissolution and neoblast precipitation happened very fast and was part of the kimberlite formation. Therefore, the here studied sample probably represents one frozen part (with variable mantle clasts) of the kimberlitic magma precursor, with kimberlite eruption at ~90 Ma years ago in Kimberley.
The seasonality of transport and mixing of air into the lowermost stratosphere (LMS) is studied using distributions of mean age of air and a mass balance approach, based on in-situ observations of SF6 and CO2 during the SPURT (Spurenstofftransport in der Tropopausenregion, trace gas transport in the tropopause region) aircraft campaigns. Combining the information of the mean age of air and the water vapour distributions we demonstrate that the tropospheric air transported into the LMS above the extratropical tropopause layer (ExTL) originates predominantly from the tropical tropopause layer (TTL). The concept of our mass balance is based on simultaneous measurements of the two passive tracers and the assumption that transport into the LMS can be described by age spectra which are superposition of two different modes. Based on this concept we conclude that the stratospheric influence on LMS composition is strongest in April with extreme values of the tropospheric fractions (alpha1) below 20% and that the strongest tropospheric signatures are found in October with alpha1 greater than 80%. Beyond the fractions, our mass balance concept allows us to calculate the associated transit times for transport of tropospheric air from the tropics into the LMS. The shortest transit times (<0.3 years) are derived for the summer, continuously increasing up to 0.8 years by the end of spring. These findings suggest that strong quasi-horizontal mixing across the weak subtropical jet from summer to mid of autumn and the considerably shorter residual transport time-scales within the lower branch of the Brewer-Dobson circulation in summer than in winter dominates the tropospheric influence in the LMS until the beginning of next year's summer.
Sur les îles du Grand Océan
(1832)
Volatile organic compounds (VOCs) were analyzed in air and snow samples at the Jungfraujoch high alpine research station in Switzerland as part of CLACE 5 (CLoud and Aerosol Characterization Experiment) during February/March 2006. The fluxes of individual compounds in ambient air were calculated from gas phase concentrations and wind speed. The highest concentrations and flux values were observed for the aromatic hydrocarbons benzene (14.3 μg.m−2 s−1), 1,3,5-trimethylbenzene (5.27 μg.m−2 s−1), toluene (4.40 μg.m−2 −1), and the aliphatic hydrocarbons i-butane (7.87 μg.m−2 s−1), i-pentane (3.61 μg.m−2 s−1) and n-butane (3.23 μg.m−2 s−1). The measured concentrations and fluxes were used to calculate the efficiency of removal of VOCs by snow, which is defined as difference between the initial and final concentration/flux values of compounds before and after wet deposition. The removal efficiency was calculated at −24°C (−13.7°C) and ranged from 37% (35%) for o-xylene to 93% (63%) for i-pentane. The distribution coefficients of VOCs between the air and snow phases were derived from published poly-parameter linear free energy relationship (pp-LFER) data, and compared with distribution coefficients obtained from the simultaneous measurements of VOC concentrations in air and snow at Jungfraujoch. The coefficients calculated from pp-LFER exceeded those values measured in the present study, which indicates more efficient snow scavenging of the VOCs investigated than suggested by theoretical predictions.
A characterization of the ultra-fine aerosol particle counter COPAS (COndensation PArticle counting System) for operation on board the Russian high altitude research aircraft M-55 Geophysika is presented. The COPAS instrument consists of an aerosol inlet and two dual-channel continuous flow Condensation Particle Counters (CPCs) operated with the chlorofluorocarbon FC-43. It operates at pressures between 400 and 50 hPa for aerosol detection in the particle diameter (dp) range from 6 nm up to 1 micro m. The aerosol inlet, designed for the M-55, is characterized with respect to aspiration, transmission, and transport losses. The experimental characterization of counting efficiencies of three CPCs yields dp50 (50% detection particle diameter) of 6 nm, 11 nm, and 15 nm at temperature differences (DeltaT) between saturator and condenser of 17°C, 30°C, and 33°C, respectively. Non-volatile particles are quantified with a fourth CPC, with dp50=11 nm. It includes an aerosol heating line (250°C) to evaporate H2SO4-H2O particles of 11 nm<dp<200 nm at pressures between 70 and 300 hPa. An instrumental in-flight inter-comparison of the different COPAS CPCs yields correlation coefficients of 0.996 and 0.985. The particle emission index for the M-55 in the range of 1.4–8.4×10 16 kg -1 fuel burned has been estimated based on measurements of the Geophysika's own exhaust.
Medium range hydrological forecasts in mesoscale catchments are only possible with the use of hydrological models driven by meteorological forecasts, which in particular contribute quantitative precipitation forecasts (QPF). QPFs are accompanied by large uncertainties, especially for longer lead times, which are propagated within the hydrometeorological model system. To deal with this limitation of predictability, a probabilistic forecasting system is tested, which is based on a hydrological-meteorological ensemble prediction system. The meteorological component of the system is the operational limited-area ensemble prediction system COSMO-LEPS that downscales the global ECMWF ensemble to a horizontal resolution of 10 km, while the hydrological component is based on the semi-distributed hydrological model PREVAH with a spatial resolution of 500 m.
Earlier studies have mostly addressed the potential benefits of hydrometeorological ensemble systems in short case studies. Here we present an analysis of hydrological ensemble hindcasts for two years (2005 and 2006). It is shown that the ensemble covers the uncertainty during different weather situations with appropriate spread. The ensemble also shows advantages over a corresponding deterministic forecast, even under consideration of an artificial spread.
Paläozoische Notizen
(1907)
Unter diesem Titel sollen kleinere Beobachtungen an paläozoischen Fossilien beschrieben werden. Hauptsächlich werden es Stücke des Senckenbergischen Museums sein, jedoch sollen auch Exemplare anderer Sammlungen gelegentlich in Betracht gezogen werden. Die ersten vier der hier beschriebenen Versteinerungen stammen aus den Oberkoblenzschichten von Prüm in der Eifel, wo der Verfasser im Sommer 1905 größere Aufsammlungen machen konnte.
Aus der Venedigergruppe
(1865)
Die vorliegende Arbeit beschäftigt sich mit der geochemischen und isotopischen Analyse detritischer Zirkonminerale aus rezenten Sedimenten des weit verzweigten Orange- und Vaal River Flusssystems in Südafrika. Zirkone kristallisieren überwiegend aus krustalen Schmelzen und sind äußerst resistent gegenüber jeglicher Zerstörung und damit ein idealer Kandidat zur Rekonstruktion früherer Krustenbildungsprozesse der geologischen Erdgeschichte. Der kombinierte Ansatz der U-Pb Altersdatierung, der Hf Isotopie und der Spurenelementgeochemie mittels Laserablation und des Einsatzes induktiv-gekoppelter Sektorfeld- und Multikollektormassenspektrometer ermöglicht es die krustale Wachstums- und Entwicklungsgeschichte des südafrikanischen Kratons zu erfassen. Die mehr als 1200 U-Pb Analysen der Zirkone weisen 4 tektonische Hauptphasen des südafrikanischen Kontinents nach: 1. die Panafrikanische Orogenese (0.5-0.7 Ga), 2. das Namaqua-Natal Faltengürtelorogen (1.0-1.3 Ga), 3. die Kheis Orogenese (1.8-2.0 Ga) und 4. die westliche Kaapvaal-Kratonisierung (2.9-3.2 Ga). Allerdings zeigt sich, dass die 13 Probenlokationen überwiegend lokale bzw. regionale U-Pb Altersdaten ihrer umgebenden Herkunftsgebiete liefern. Die Hf Isotopie der Zirkone der verschiedenen tektonischen Hauptphasen Südafrikas stellen ihre differenzierte Akkretions- und Aufschmelzungsgeschichte dar. Die panafrikanischen Zirkone zeigen eine ausgeprägte Durchmischung von juvenilem und recyceltem Material. Die mesoproterozoischen (Namaquan) Zirkone entstanden aus juvenilem Magma während eines Inselbogen-Kontinent-Kollisionsereignisses. Die paläoproterozoischen und archaischen Zirkone sind Produkte von aufgeschmolzener prä-existierender kontinentaler Kruste oder vom Mantel abstammende Schmelzen, die durch kontinentale Kruste kontaminiert wurden. Die berechneten Hf Modellalter, so genannte „Mantelextraktionsalter" ergeben zwei Maxima, die zwei Stadien juvenilem Krustenwachstums einschließen, einmal vor 1.4 und 3.2 Ga. Dieses krustale Wachstum zeigt eine Übereinstimmung mit den progressiv episodischen Modellen von Nagler & Kramers (1998) sowie Condie (2000) mit Höhepunkten zwischen 3.0 und 2.0 Ga sowie den Studien von Wang et al. (2008) mit krustalen Wachstumsperioden von 1.6 bis 2.2 und 2.9 bis 3.4 Ga auf dem Nordamerikanischen Kontinent und auf dem Gondwana-Kontinent (Australien) von Hawkesworth & Kemp 2006) und implizieren wohl ein globales kontinentales Krustenwachstum. Die Abgrenzung und Wiedererkennung der Zirkone anhand der chemischen Zusammensetzung zu möglichen Muttergesteinen zeigen noch keine viel versprechenden Ergebnisse. Generell weisen die Zirkone eine magmatische granitoide Zusammensetzung kontinentalen Ursprungs auf. Eine Auffälligkeit stellen die erhöhten Spuren- und leichten Seltenenerdelemente in Zirkonen jeglicher Altersklassen dar. Nachfolgende Arbeiten müssen zeigen, wie und ob diese Anreicherungen Einfluss auf die chemische Zusammensetzung, die U-Pb Datierung und vor allem die Hf-Isotopie der Zirkone haben.
Samples of freshly fallen snow were collected at the high alpine research station Jungfraujoch (Switzerland) in February and March 2006 and 2007, during the Cloud and Aerosol Characterization Experiments (CLACE) 5 and 6. In this study a new technique has been developed and demonstrated for the measurement of organic acids in fresh snow. The melted snow samples were subjected to solid phase extraction and resulting solutions analysed for organic acids by HPLC-MS-TOF using negative electrospray ionization. A series of linear dicarboxylic acids from C5 to C13 and phthalic acid, were identified and quantified. In several samples the biogenic acid pinonic acid was also observed. In fresh snow the median concentration of the most abundant acid, adipic acid, was 0.69 micro g L -1 in 2006 and 0.70 micro g L -1 in 2007. Glutaric acid was the second most abundant dicarboxylic acid found with median values of 0.46 micro g L -1 in 2006 and 0.61 micro g L -1 in 2007, while the aromatic acid phthalic acid showed a median concentration of 0.34 micro g L -1 in 2006 and 0.45 micro g L -1 in 2007. The concentrations in the samples from various snowfall events varied significantly, and were found to be dependent on the back trajectory of the air mass arriving at Jungfraujoch. Air masses of marine origin showed the lowest concentrations of acids whereas the highest concentrations were measured when the air mass was strongly influenced by boundary layer air.
Current atmospheric models do not include secondary organic aerosol (SOA) production from gas-phase reactions of polycyclic aromatic hydrocarbons (PAHs). Recent studies have shown that primary semivolatile emissions, previously assumed to be inert, undergo oxidation in the gas phase, leading to SOA formation. This opens the possibility that low-volatility gas-phase precursors are a potentially large source of SOA. In this work, SOA formation from gas-phase photooxidation of naphthalene, 1-methylnaphthalene (1-MN), 2-methylnaphthalene (2-MN), and 1,2-dimethylnaphthalene (1,2-DMN) is studied in the Caltech dual 28-m3 chambers. Under high-NOx conditions and aerosol mass loadings between 10 and 40 microg m-3, the SOA yields (mass of SOA per mass of hydrocarbon reacted) ranged from 0.19 to 0.30 for naphthalene, 0.19 to 0.39 for 1-MN, 0.26 to 0.45 for 2-MN, and constant at 0.31 for 1,2-DMN. Under low-NOx conditions, the SOA yields were measured to be 0.73, 0.68, and 0.58, for naphthalene, 1-MN, and 2-MN, respectively. The SOA was observed to be semivolatile under high-NOx conditions and essentially nonvolatile under low-NOx conditions, owing to the higher fraction of ring-retaining products formed under low-NOx conditions. When applying these measured yields to estimate SOA formation from primary emissions of diesel engines and wood burning, PAHs are estimated to yield 3–5 times more SOA than light aromatic compounds. PAHs can also account for up to 54% of the total SOA from oxidation of diesel emissions, representing a potentially large source of urban SOA.