Geowissenschaften / Geographie
Refine
Year of publication
- 2017 (5) (remove)
Document Type
- Article (5)
Has Fulltext
- yes (5)
Is part of the Bibliography
- no (5) (remove)
Keywords
- Elterngeld (1)
- Familienpolitik (1)
- Geschlechterverhältnisse (1)
- Krise (1)
- Reproduktion (1)
- Soziale Ungleichheit (1)
- climate change (1)
- participatory methods (1)
- participatory process (1)
- risk management (1)
Institute
A recent CLOUD (Cosmics Leaving OUtdoor Droplets) chamber study showed that sulfuric acid and dimethylamine produce new aerosols very efficiently, and yield particle formation rates that are compatible with boundary layer observations. These previously published new particle formation (NPF) rates are re-analyzed in the present study with an advanced method. The results show that the NPF rates at 1.7 nm are more than a factor of 10 faster than previously published due to earlier approximations in correcting particle measurements made at larger detection threshold. The revised NPF rates agree almost perfectly with calculated rates from a kinetic aerosol model at different sizes (1.7 nm and 4.3 nm mobility diameter). In addition, modeled and measured size distributions show good agreement over a wide range (up to ca. 30 nm). Furthermore, the aerosol model is modified such that evaporation rates for some clusters can be taken into account; these evaporation rates were previously published from a flow tube study. Using this model, the findings from the present study and the flow tube experiment can be brought into good agreement. This confirms that nucleation proceeds at rates that are compatible with collision-controlled (a.k.a. kinetically-controlled) new particle formation for the conditions during the CLOUD7 experiment (278 K, 38% RH, sulfuric acid concentration between 1×106 and 3×107 cm-3 and dimethylamine mixing ratio of ~40 pptv). Finally, the simulation of atmospheric new particle formation reveals that even tiny mixing ratios of dimethylamine (0.1 pptv) yield NPF rates that could explain significant boundary layer particle formation. This highlights the need for improved speciation and quantification techniques for atmospheric gas-phase amine measurements.
Chlorine and bromine atoms can lead to catalytic destruction of ozone in the stratosphere. Therefore the use and production of ozone depleting substances (ODS) containing chlorine and bromine is regulated by the Montreal Protocol to protect the ozone layer. Equivalent Effective Stratospheric Chlorine (EESC) has been adapted as an appropriate metric to describe the combined effects of chlorine and bromine released from halocarbons on stratospheric ozone. Here we revisit the concept of calculating EESC. We derive a new formulation of EESC based on an advanced concept of ODS propagation into the stratosphere and reactive halogen release. A new transit time distribution is introduced in which the age spectrum for an inert tracer is weighted with the release function for inorganic halogen from the source gases. This distribution is termed the “release time distribution”. The improved formulation shows that EESC levels in the year 1980 for the mid latitude lower stratosphere were significantly lower than previously calculated. 1980 marks the year commonly defined as the onset of anthropogenic ozone depletion in the stratosphere. Assuming that the EESC value must return to the same level in order for ozone to fully recover, we show that it will take more than 10 years longer than currently assumed in this region of the stratosphere. Based on the improved formulation, EESC level at mid-latitudes will reach this landmark only in 2060. We also present a range of sensitivity studies to investigate the effect of changes and uncertainties in the fractional release factors and in the assumptions on the shape of the release time distributions. We conclude that, under the assumptions that all other atmospheric parameters like stratospheric dynamics and chemistry are unchanged, the recovery of mid latitude stratospheric ozone would be expected to be delayed by about a 10 years, in a similar way as EESC.
Der Beitrag analysiert Ungleichheitseffekte des 2007 eingeführten Elterngelds. Wir zeigen, dass die familienpolitische Einführung der Ressource Elterngeld die Einkommensungleichheiten der Produktions- bzw. Erwerbssphäre auf die Reproduktions- bzw. Familiensphäre übertragen hat. Das Elterngeld trägt damit aber zumindest bislang nicht (wie angedacht) zur Aufhebung der asymmetrischen Aufteilung von (entlohnter) Erwerbsarbeit und (nicht-entlohnter) Sorgearbeit zwischen Elternteilen bei. Stattdessen verdeutlicht unsere räumlich orientierte Untersuchung des Elterngeldbezugs ungleiche Muster in den Bewältigungsmöglichkeiten kinderbezogener Sorgearbeiten. Die an der ungleichen Geographie des Elterngelds deutlich werdende Ausdifferenzierung von Bearbeitungschancen von Elternschaft interpretieren wir als Ausdruck von sozialen Spaltungstendenzen auf dem Gebiet der Reproduktion, die von der familienpolitischen Einführung des Elterngelds forciert worden sind.
Mit spitzer Feder beschreibt Lucius Burckhardt in seinem Aufsatz "Wer plant die Planung?" die konfligierenden Rationalitäten der am Planungsprozess beteiligten Akteure. Dabei zeigt er auf, wie "das Kräfteparallelogramm zwischen der regierenden Beamtenschaft, der Bauspekulation, der Bürgerschaft und den durch die beschlossenen Maßnahmen betroffenen Leute" (S. 107) die "Übelstände der Stadt" häufig verschlimmbessert. Es fehle ein "strategisches Vorgehen", das "dem Systemcharakter der Stadt angemessen" (S. 113) wäre.
The Earth's future depends on how we manage the manifold risks of climate change (CC). It is state-of-the-art to assume that risk reduction requires participatory management involving a broad range of stakeholders and scientists. However, there is still little knowledge about the optimal design of participatory climate change risk management processes (PRMPs), in particular with respect to considering the multitude of substantial uncertainties that are relevant for PRMPs. To support the many local to regional PRMPs that are necessary for a successful global-scale reduction of CC risks, we present a roadmap for designing such transdisciplinary knowledge integration processes. The roadmap suggests ways in which uncertainties can be comprehensively addressed within a PRMP. We discuss the concept of CC risks and their management and propose an uncertainty framework that distinguishes epistemic, ontological, and linguistic uncertainty as well as ambiguity. Uncertainties relevant for CC risk management are identified. Communicative and modeling methods that support social learning as well as the development of risk management strategies are proposed for each of six phases of a PRMP. Finally, we recommend how to evaluate PRMPs as such evaluations and their publication are paramount for achieving a reduction of CC risks.