Au Norm Import in the European Promotion of Regional Integration in Africa

The relation between the African Union (AU) and the European Union (EU) is the most institutionalised interregional relationship in the world. The EU, being a crucial external agent in African regional integration, exports open regionalism as a political norm through different mechanisms to the AU. Based on a qualitative research design with a constructivist theoretical viewpoint that regards regional organisations as interdependent political authorities, the dissertation examines the AU's receptivity to the EU's attempted norm diffusion and explores genuine AU norm import of European promoted regional integration. A document analysis of official EU and AU declarations and legislation in combination with primary data collected via semi-structured interviews with officials at the United Nations Economic Commission for Africa offers further insights into the African perspective on regional integration. Out of a variety of EU norm export channels, the study identifies capacity-building in the form of technical and financial assistance as most influential in promoting African regional integration processes. While coercion and political dialogue respectively lead to AU resistance and decoupling alias theatre regionalism, capacity-building and positive conditionality result in institutional incorporation and policy changes. A choice-oriented approach traces this genuine norm import in response to civilian norm diffusion mechanisms back to the external agency of the EU, despite major constraints like the United Kingdom's withdrawal from the EU and alternative interregional options within the alliance of emerging market economies. Yet, the limited traceable AU institutional and policy reforms reveal the agency of the AU. Norm import cannot be taken for granted; it only occurs when sufficient incentives are offered to the receiving side. Political dialogue is inspirational, but needs to be supplemented with financial and technical assistance to yield genuine norm import. These findings contribute to a better understanding of prospective EU-AU relations and can be used by policy-makers to adjust interregional negotiations like the on-going post-Cotonou consultations

Sol-gel yesterday, today and tomorrow

7000 years ago, the Assyrians made a multicomponent oxide glass. In the 19th century, silica glass was produced from the melt. The origin of the sol-gel process, which almost led to silica glass, stems from the same time, but soon after fell into oblivion. The first sol-gel patent in 1939 demonstrates the formation of SiO2 and TiO2 layers, and in 1953 the first layers were introduced into the market. The further industrial development of the sol-gel dip-coating process led to the present products like the blue car rear-view mirror, the antireflex coatings Mirogard® and the sun-shielding coatings IROX®. It was demonstrated in 1968 that it is possible to make glasses, glass ceramics and ceramics in a well-defined way from multicomponent alkoxides without going through the melt. The first example was the borosilicate glass Duran. After the first publication [1] and an incubation period of several years, a world-wide sol-gel development began, which still lasts, and which is probably best characterized by the slogan "better ceramics through chemistry". Besides thin layers - which probably still are the major sol-gel product - powders, fibres and objects like hollow spheres, plates, rods and tubes were developed. Often the development started with silica glass and then continued with multicomponent oxides. New products are the non-reflecting shop-window glazing Amiran® and the contrast-enhancing screens Conturan® for computer displays. The development of organically modified silicates was stimulated by the rich chemistry which is so typical for sol-gel processes. The future of the sol-gel process is characterized by the manifold chemical possibilities, like PLTZ (Pb-La-Ti-Zr oxides) for optoelectronics, PbTiO3 for piezoelectrics, NASICON (Na3Zr2Si2PO12, e.g. as a superionic conductor) or V2O5 because of its electrical conductivity, and Sb2S3 because of its photosensitivity. Enormous efforts are made for oxidic superconductors (fibres, layers). Furthermore, there ist the combination of inorganic and organic materials with a multitude of applications in photochromics, electrochromics, non-linear optics and much more

Environmental toxicity, redox signaling and lung inflammation:the role of glutathione

Glutathione (γ-glutamyl-cysteinyl-glycine, GSH) is the most abundant intracellular antioxidant thiol and is central to redox defense during oxidative stress. GSH metabolism is tightly regulated and has been implicated in redox signaling and also in protection against environmental oxidant-mediated injury. Changes in the ratio of the reduced and disulfide form (GSH/GSSG) can affect signaling pathways that participate in a broad array of physiological responses from cell proliferation, autophagy and apoptosis to gene expression that involve H(2)O(2) as a second messenger. Oxidative stress due to oxidant/antioxidant imbalance and also due to environmental oxidants is an important component during inflammation and respiratory diseases such as chronic obstructive pulmonary disease, idiopathic pulmonary fibrosis, acute respiratory distress syndrome, and asthma. It is known to activate multiple stress kinase pathways and redox sensitive transcription factors such as Nrf2, NF-κB and AP-1, which differentially regulate the genes for pro-inflammatory cytokines as well as the protective antioxidant genes. Understanding the regulatory mechanisms for the induction of antioxidants, such as GSH, versus pro-inflammatory mediators at sites of oxidant-directed injuries may allow for the development of novel therapies which will allow pharmacological manipulation GSH synthesis during inflammation and oxidative injury. This article features the current knowledge about the role of GSH in redox signaling, GSH biosynthesis and particularly the regulation of transcription factor Nrf2 by GSH and downstream signaling during oxidative stress and inflammation in various pulmonary diseases. We also discussed the current therapeutic clinical trials using GSH and other thiol compounds, such as N-acetyl-L-cysteine, fudosteine, carbocysteine, erdosteine in environment-induced airways disease

Changes of biomarkers with oral exposure to benzo(a)pyrene, phenanthrene and pyrene in rats

Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous environmental contaminants present in air and food. Among PAHs, benzo(a)pyrene(BaP), phenanthrene (PH) and pyrene (PY) are considered to be important for their toxicity or abundance. To investigate the changes of biomarkers after PAH exposure, rats were treated with BaP (150 µg/kg) alone or with PH (4,300 µg/kg) and PY (2,700 µg/kg) (BPP group) by oral gavage once per day for 30 days. 7-ethoxyresorufin-O-deethylase activity in liver microsomal fraction was increased in only BaP groups. The highest concentration (34.5 ng/g) of BaP, was found in muscle of rats treated with BaP alone at 20 days of treatment; it was 23.6 ng/g in BPP treated rats at 30 days of treatment. The highest PH concentration was 47.1 ng/g in muscle and 118.8 ng/g in fat, and for PY it was 29.7 ng/g in muscle and 219.9 ng/g in fat, in BPP groups. In urine, 114-161 ng/ml 3-OH-PH was found, while PH was 41-69 ng/ml during treatment. 201-263 ng/ml 1-OH-PY was found, while PH was 9-17 ng/ml in urine. The level of PY, PH and their metabolites in urine was rapidly decreased after withdrawal of treatment. This study suggest that 1-OH-PY in urine is a sensitive biomarker for PAHs; it was the most highly detected marker among the three PAHs and their metabolites evaluated during the exposure period and for 14 days after withdrawal

Potent Phototoxicity of Marine Bunker Oil to Translucent Herring Embryos after Prolonged Weathering

Pacific herring embryos (Clupea pallasi) spawned three months following the Cosco Busan bunker oil spill in San Francisco Bay showed high rates of late embryonic mortality in the intertidal zone at oiled sites. Dead embryos developed to the hatching stage (e.g. fully pigmented eyes) before suffering extensive tissue deterioration. In contrast, embryos incubated subtidally at oiled sites showed evidence of sublethal oil exposure (petroleum-induced cardiac toxicity) with very low rates of mortality. These field findings suggested an enhancement of oil toxicity through an interaction between oil and another environmental stressor in the intertidal zone, such as higher levels of sunlight-derived ultraviolet (UV) radiation. We tested this hypothesis by exposing herring embryos to both trace levels of weathered Cosco Busan bunker oil and sunlight, with and without protection from UV radiation. Cosco Busan oil and UV co-exposure were both necessary and sufficient to induce an acutely lethal necrotic syndrome in hatching stage embryos that closely mimicked the condition of dead embryos sampled from oiled sites. Tissue levels of known phototoxic polycyclic aromatic compounds were too low to explain the observed degree of phototoxicity, indicating the presence of other unidentified or unmeasured phototoxic compounds derived from bunker oil. These findings provide a parsimonious explanation for the unexpectedly high losses of intertidal herring spawn following the Cosco Busan spill. The chemical composition and associated toxicity of bunker oils should be more thoroughly evaluated to better understand and anticipate the ecological impacts of vessel-derived spills associated with an expanding global transportation network

Teratogenicity of depleted uranium aerosols: A review from an epidemiological perspective

BACKGROUND: Depleted uranium is being used increasingly often as a component of munitions in military conflicts. Military personnel, civilians and the DU munitions producers are being exposed to the DU aerosols that are generated. METHODS: We reviewed toxicological data on both natural and depleted uranium. We included peer reviewed studies and gray literature on birth malformations due to natural and depleted uranium. Our approach was to assess the "weight of evidence" with respect to teratogenicity of depleted uranium. RESULTS: Animal studies firmly support the possibility that DU is a teratogen. While the detailed pathways by which environmental DU can be internalized and reach reproductive cells are not yet fully elucidated, again, the evidence supports plausibility. To date, human epidemiological data include case examples, disease registry records, a case-control study and prospective longitudinal studies. DISCUSSION: The two most significant challenges to establishing a causal pathway between (human) parental DU exposure and the birth of offspring with defects are: i) distinguishing the role of DU from that of exposure to other potential teratogens; ii) documentation on the individual level of extent of parental DU exposure. Studies that use biomarkers, none yet reported, can help address the latter challenge. Thoughtful triangulation of the results of multiple studies (epidemiological and other) of DU teratogenicity contributes to disentangling the roles of various potentially teratogenic parental exposures. This paper is just such an endeavor. CONCLUSION: In aggregate the human epidemiological evidence is consistent with increased risk of birth defects in offspring of persons exposed to DU

Simple Dip-Coating Process for the Synthesis of Small Diameter Single-Walled Carbon Nanotubes—Effect of Catalyst Composition and Catalyst Particle Size on Chirality and Diameter

We report on a dip-coating method to prepare catalyst particles (mixture of iron and cobalt) with a controlled diameter distribution on silicon wafer substrates by changing the solution's concentration and withdrawal velocity. The size and distribution of the prepared catalyst particles were analyzed by atomic force microscopy. Carbon nanotubes were grown by chemical vapor deposition on the substrates with the prepared catalyst particles. By decreasing the catalyst particle size to below 10 nm, the growth of carbon nanotubes can be tuned from few-walled carbon nanotubes, with homogeneous diameter, to highly pure single-walled carbon nanotubes. Analysis of the Raman radial breathing modes, using three different Raman excitation wavelengths (488, 633, and 785 nm), showed a relatively broad diameter distribution (0.8-1.4 nm) of single-walled carbon nanotubes with different chiralities. However, by changing the composition of the catalyst particles while maintaining the growth parameters, the chiralities of single-walled carbon nanotubes were reduced to mainly four different types, (12, 1), (12, 0), (8, 5), and (7, 5), accounting for about 70% of all nanotubes.</p