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Nahe Zöblitz in Sachsen wurden am Rande ehemaliger Serpentinsteinbrüche auf Schotterflächen die Pflanzenarten erfaßt. Ansprüche, Vergesellschaftung und Gefährdung der seltenen Serpentinfarne Asplenium adulterinum, A. cuneifolium und A. x poscharskyanum und weiterer gefährdeter Arten werden kurz dargestellt.
Am Südabfall des aus Basalt bestehenden Bauersberges in der montanen Langen Rhön wird der Extremstandort "Silikatfels-Blockmeer" floristisch-vegetationskundlich analysiert. Er zeigt aufgrund seiner Azonalitat überregional ein Vegetationsmosaik mit typischem Verteilungsmuster und bietet aufgrund seiner Isoliertheit ein Refugialpotential für Eiszeitrelikte sowie ein Evolutionspotential für Endemismen. Flechten-Gemeinschaften im zentralen, offenen Blockmeer sind im Untersuchungsgebiet nach dem Mikromosaik angeordnet: das Lecideetum lithophilae auf den horizontalen, das Lecanoretum sordidae auf den vertikalen Blockflächen, das Lecideetum lucidae auf den regenabgewandten Block-Unterseiten. Die Moos-Gemeinschaften, die üppig erst in den luftfeuchteren Blockmeer-Randbereichen gedeihen, sind v.a. nach dem Makromosaik angeordnet: Das Grimmietum ovatae im zentralen, offenen Blockmeer, das Andreaeetum petrophilae mehr randlich, das Rhacomitrietum lanuginosi am deutlich luftfeuchteren Hangfuß, das Grimmietum hartmanii und das Isothecietum myuri in den stark beschatteten Randbereichen und auf Blöcken im geschlossenen Wald. Gefäßpflanzen-Gesellschaften wachsen bis auf das Asplenietum septentrionalis erst in Randbereichen oder besetzen als „Gehölzinseln" (Sambuco-Salicion- und Hasel-Gebüsche, Querco-Tilietum platyphylli) feinerdereiche Mulden im Blockmeer. Besonnte Säume werden von der Hieracium murorum-Gesellschaft, beschattete vom Epilobio-Geranietum robertiani (z.T. mit Cynoglossum germanicum) eingenommen. Am sonnigen Trauf wächst in Anklängen das Betulo-Quercetum petraeae, die angrenzende, zonale Waldgesellschaft ist das Galio-Fagetum (montane Dentaria bulbifera-Höhenform).
In der vorliegenden Arbeit wurde erstmals die Interaktion von A. baumannii mit humanem Plasminogen untersucht. Mit dem Translations-Elongationsfaktor TufAb, dem äußeren Membranprotein OmpW sowie dem Lipoprotein p41 konnten insgesamt drei Plasminogen-bindende Proteine von A. baumannii identifiziert werden. Außerdem wurde ein grundlegender Beitrag zur funktionellen Charakterisierung von TufAb sowie p41 von A. baumannii erbracht.
Es konnte nachgewiesen werden, dass gereinigtes TufAb humanes Plasminogen bindet und diese Interaktion teilweise durch Lysin-Reste vermittelt und von der Ionenstärke beeinflusst ist. An TufAb-gebundenes Plasminogen war für den Plasminogen-Aktivator u-PA zugänglich und konnte zu Plasmin aktiviert werden, welches das chromogene Substrat S-2251, das physiologische Substrat Fibrinogen und die zentrale Komplementkomponente C3b proteolytisch spaltete. Schließlich konnte TufAb als „Moonlighting“-Protein auf der Zelloberfläche von A. baumannii identifiziert werden.
Für das Lipoprotein p41 konnte ebenfalls gezeigt werden, dass dieses an Plasminogen bindet. Die Bindung von Plasminogen an p41 erfolgte ebenfalls über Lysin-Reste, zeigte sich allerdings von der Ionenstärke unbeeinflusst. Im Fall von p41 konnte mit Hilfe von C-terminal verkürzten p41-Konstrukten gezeigt werden, dass C-terminale Lysin-Reste an der Bindung von Plasminogen beteiligt sind. Weitere Versuche mit p41-Proteinen, bei welchen vier C-terminale Lysin-Reste durch Alanin-Reste substituiert wurden, ergaben, dass die beiden Lysin-Reste K368 und K369 essentiell für die Bindung von Plasminogen an p41 sind. Zudem konnte gezeigt werden, dass sowohl Kringle-Domäne 1 als auch Kringle-Domäne 4 von Plasminogen bei der Interaktion mit p41 involviert sind. An p41 gebundenes Plasminogen ließ sich durch u-PA zu Plasmin aktivieren, welches Fibrinogen sowie die zentrale Komplementkomponente C3b degradierte. p41 ist außerdem in der Lage, die Komplementkomponenten C3, C3b und C5 zu binden und den alternativen Weg zu inhibieren. Zudem ergaben Untersuchungen im Rahmen dieser Arbeit erste Hinweise darauf, dass zumindest die Plasminogen-bindende Region auf der Zelloberfläche von A. baumannii lokalisiert ist.
Die Inaktivierung des p41-kodierenden Gens führte zu einer signifikanten Abnahme im Überleben von A. baumannii-Zellen in der Gegenwart von NHS. Zudem zeigte die Mutante Δp41 einen Defekt in der Plasmin-abhängigen Transmigration durch einen Endothelzell-Monolayer. Beide Versuche untermauern die physiologische Relevanz für die Interaktion von A. baumannii mit Plasminogen.
Die vorliegende Arbeit befasst sich mit Rostseggenhalden im mittleren Abschnitt des bayerisch-tiroler Nordalpenraumes um Tegernsee, Karwendel und Sonnwendgebirge. Die Bestände werden dem Caricetum ferrugineae zugeordnet und als eigene, durch Astrantia bavarica und Aposeris foetida differenzierte geographische Rasse gegen die bereits bekannten Rostseggenhalden des Nordalpenraums abgegrenzt. In diesem Gebiet - dem nordalpinen Teilareal der Sippe - weist Astrantia bavarica eine ausschließliche Bindung an das Caricetum ferrugineae auf und kann auf Grund dieses hohen Treuegrades als regionale Charakterart der Assoziation gewertet werden. Morphologische und chorologische Indizien deuten darauf hin, daß die Bayerische Sterndolde eine relativ alte Sippe ist und zumindest der nordalpine Arealteil einen ausgesprochenen Reliktcharakter besitzt. Zusammen mit der hohen Gesellschaftstreue der Art lässt dies den Schluss zu, daß das Caricetum ferrugineae hier als Überdauerungsgesellschaft von Astrantia bavarica für die Zeit der pleistozänen Vereisungen in Betracht gezogen werden muss.
Die vorliegende Arbeit behandelt die Vegetationsverhältnisse der Halbtrockenrasen im Bereich des oberfränkischen Muschelkalkes. Nach einer Einführung in die naturräumlich-standörtlichen Gegebenheiten des Arbeitsgebietes und einem Abriss der Nutzungsgeschichte der ehemaligen Schafhutungen werden kennzeichnende Pflanzengesellschaften der Halbtrockenrasen sowie deren Folge- und Kontaktgesellschaften vegetationskundlich beschrieben. Die Verteilung der Gesellschaften im Arbeitsgebiet wird in Karten dokumentiert. Gründe für das bemerkenswerte Verbreitungsmuster werden diskutiert.
Das von Ilijanic (1968) aus NO-Kroatien beschriebene, eine submediterran-subkontinentale Verbreitungstendenz zeigende Gentiano pneumonanthis-Molinietum litoralis kommt auch in Süd-Mähren und in der Südwest-Slowakei vor. Die untersuchten Molinia arundinacea ssp. litoralis-Bestände liegen im Bereich der Dyje (Thaya)-Aue und der unteren Morava (March)-Aue. Die Assoziation kommt auf flußfernen Stellen vor, wo die Überschwemmungen auf den Bestand indirekt wirken, in Form von gestautem, schlickfreiem Grundwasser. Der Boden besteht oben meistens aus leicht austrocknenden Substraten (Sand, sandiger Lehm). Der Gehalt an organischer Substanz ist niedrig, die Bodenreaktion sauer; die pH(H20)-Werte haben von oben nach unten steigende Tendenz. Der relativ große Unterschied zwischen pH(H20) und pH(KCl) zeigt das schwache Sättigungsvermögen des Bodens mit austauschbaren Kationen. Mit Ca2+ und Mg2+ ist der Boden mäßig versorgt, der Gehalt an aufnehmbaren NPK ist relativ niedrig, Al3+ fehlt. Entsprechend der Lage des Gentiano-Molinietum litoralis im Relief lassen sich drei Subassoziationen unterscheiden: G.-M. caricetosum acutiformis subass. nova, G.-M. cnidietosum dubii Bal.-Tul. 1987 und G.-M. holoschoenetosum romani subass. nova. Das Entwicklungsoptimum der Assoziation, die als Vikariante des Cirsio tuberosi-Molinietum (litoralis) Oberd. et Philippi ex Görs 1974 anzusehen ist, fällt in die Sommermonate. In dieser Zeit erreicht Molinia arundinacea ssp. litoralis eine Höhe von bis zu 230 cm. Das Erscheinen ihrer ersten Sprosse im Frühjahr kann durch niedrige Temperaturen gehemmt werden.
Under certain conditions, secondary organic aerosol (SOA) particles can exist in the atmosphere in an amorphous solid or semi-solid state. To determine their relevance to processes such as ice nucleation or chemistry occurring within particles requires knowledge of the temperature and relative humidity (RH) range for SOA to exist in these states. In the CLOUD experiment at CERN, we deployed a new in-situ optical method to detect the viscosity of α-pinene SOA particles and measured their transition from the amorphous viscous to liquid state. The method is based on the depolarising properties of laboratory-produced non-spherical SOA particles and their transformation to non-depolarising spherical liquid particles during deliquescence. We found that particles formed and grown in the chamber developed an asymmetric shape through coagulation. A transition to spherical shape was observed as the RH was increased to between 35 % at −10 ◦C and 80 % at −38 ◦C, confirming previous calculations of the viscosity transition conditions. Consequently, α-pinene SOA particles exist in a viscous state over a wide range of ambient conditions, including the cirrus region of the free troposphere. This has implications for the physical, chemical and ice-nucleation properties of SOA and SOA-coated particles in the atmosphere.
The Shared Task on Source and Target Extraction from Political Speeches (STEPS) first ran in 2014 and is organized by the Interest Group on German Sentiment Analysis (IGGSA). This volume presents the proceedings of the workshop of the second iteration of the shared task. The workshop was held at KONVENS 2016 at Ruhr-University Bochum on September 22, 2016.
As in the first edition of the shared task the main focus of STEPS was on fine-grained sentiment analysis and offered a full task as well as two subtasks for the extraction Subjective Expressions and/or their respective Sources and Targets.
In order to make the task more accessible, the annotation schema was revised for this year’s edition and an adjudicated gold standard was used for the evaluation. In contrast to the pilot task, this iteration provided training data for the participants, opening the Shared Task for systems based on machine learning approaches.
The gold standard1 as well as the evaluation tool2 have been made publicly available to the research community via the STEPS’ website.
We would like to thank the GSCL for their financial support in annotating the 2014 test data, which were available as training data in this iteration. A special thanks also goes to Stephanie Köser for her support on preparing and carrying out the annotation of this year’s test data. Finally, we would like to thank all the participants for their contributions and discussions at the workshop.
Tunesien hat bislang als einziges Land des Arabischen Frühlings einen demokratischen Weg eingeschlagen.
Gleichzeitig hat der „Islamische Staat“ (IS) nirgendwo so großen Zulauf wie hier, kommt die größte Gruppe ausländischer Jihadisten des IS aus Tunesien. Fast vier Jahren nach dem Sturz des autokratischen Herrschers Zine el-Abidine Ben Ali schaffte das kleine nordafrikanische Land mit freien Wahlen den letzten Schritt zur Demokratie. Der „Arabische Frühling“ begann mit der Selbstverbrennung des Gemüsehändlers Mohamed Bouazizi am 17. Dezember 2010 nach einem Streit mit einer Polizistin in Sidi Bouzid. Dies war der Auftakt für landesweite Unruhen und Aufstände. Es waren vorwiegend schlechte Lebensbedingungen sowie die Arbeits- und Perspektivlosigkeit der Jugend, die die Menschen auf die Straße trieben, aber auch die Monopolisierung von Reichtümern durch die Präsidentenfamilie. Im Januar 2011 wurde der Präsident Zine el-Abidine Ben Ali zum Rücktritt gezwungen, woraufhin er fluchtartig das Land verließ.
Im Zuge des Arabischen Frühlings 2011 konnte sich der sogenannte „Islamische Staat“ (IS) zu einer erfolgreichen und gefährlichen islamistischen Organisation im Nahen Osten entwickeln. Der IS nutze die politisch instabile Lage in den arabischen Ländern, um an Macht und Einfluss zu gewinnen und schaffte es, mehrere syrische Regionen unter seine Kontrolle zu bringen. Da die eroberten Regionen in Syrien und Irak direkt oder unmittelbar entlang der türkischen Grenze verlaufen, gerieten auch Abschnitte der türkisch-syrischen Grenze unter die Kontrolle des IS. Die Eroberungen unter anderem ar-Raqqas in Syrien bis einschließlich Falludschas, Kerküks und Diyales im Norden Iraks spiegeln den Erfolg des IS wider. Dieser Erfolg wirkt attraktiv für viele jihadistische Sympathisanten weltweit, weshalb die Gruppe in kurzer Zeit rasant wuchs und noch wächst. Dem International Centre for the Study of Radicalisation and Political Violence (ICSR) zufolge fanden im November 2014 allein aus Europa rund 4.300 Männer und Frauen den Weg zum IS.1 Die meisten von ihnen reisten über das Nachbarland Türkei ein. Jihadisten aus Deutschland nehmen beispielsweise den Bus, die Fähre oder das Flugzeug nach Istanbul. Auf Bus- und Fährfahrten werden die Fahrgäste in den Durchfahrtsländern des Schengener Abkommens nicht und außerhalb des Schengen-Raums kaum kontrolliert. In der 14-Millionen-Metropole Istanbul angekommen, fahren sie mit öffentlichen Verkehrsmitteln weiter quer durch die Türkei in den Südosten des Landes.
Die Reisenden werden an ausgewählte Grenzbereiche gebracht, die kaum kontrolliert werden können.2 Die 900 km lange Grenze ermöglicht ihnen eine problemlose Überquerung nach Syrien. Staatspräsident Recep Tayyip Erdoğan weist darauf hin, dass eine lückenlose Überwachung einer Grenze in dieser Länge nicht zu gewährleisten sei. Allerdings wurde von Repräsentanten europäischer Länder, der USA und aus den Reihen der türkischen Opposition wiederholt der Verdacht geäußert, dass die türkische Regierung mit dem IS kooperiere. Dies aufgreifend stehen im Fokus dieses Artikels folgenden Fragen: Worauf basieren diese Behauptungen und wie geht die türkische Regierung damit um?
Das Königreich Marokko ist eine konstitutionelle Monarchie mit absolutistischen Zügen, in der der König Mohammed VI. weitreichende Machtbefugnisse hat und auf verschiedenen Ebenen die wichtigste Entscheidungsinstanz darstellt. Er ist nicht nur politisches Oberhaupt und Oberbefehlshaber der Streitkräfte, sondern als „Befehlshaber der Gläubigen“ (ʿamir al-mouminine) auch die höchste religiöse Autorität des Landes. Das Königshaus erfährt einen großen Zuspruch von Seiten der Bevölkerung und legitimiert seine nunmehr seit dem 18. Jahrhundert währende Regentschaft durch seine scherifische Abstammung und den identitätsstiftenden Charakter Sultans Mohammed V. im Unabhängigkeitskampf. Während Hassan II., der Vorgänger des jetzigen Königs, für seine Divide-etimpera- Politik und zahlreiche Menschenrechtsverletzungen bekannt war, wird sein Nachfolger Mohammed VI. für seine Reformpolitik und Modernisierungsbestrebungen international geachtet. Der Monarch reagierte auf die Protestbewegung des „Arabischen Frühlings“, Mouvement du 20. Février umsichtig mit Neuwahlen und einer umfassenden Verfassungsreform im Jahre 2011.
Über Jahrzehnte hinweg nahm man für Marokko an, dass Bewegungen des politischen Islam hier keine Zukunft hätten. In der Tat existieren in Marokko einige Besonderheiten, die der Entwicklung eines extremen Islamismus entgegenwirken könnten. Zum einen wegen der religiösen Legitimation des Königs, was häufig als „marokkanischer Exzeptionalismus“1 bezeichnet wird, zum anderen weil die Zivilgesellschaft, namentlich die säkularen Frauenrechtsorganisationen, einen starken Gegenpol bildet und letztlich, weil der immer noch stark verbreitete Volksislam (Marabutismus) mit seiner Heiligenverehrung und anderen traditionellen Besonderheiten, konträr zur islamistischen
Doktrin steht.
Transit ins Paradies: IS-Rekruten und das Problem ideologischer Terrorismusbekämpfung in Malaysia
(2015)
Nachdem der 26-jährige Ahmad Tarmimi Maliki im Mai 2014 ein mit einer Tonne Sprengstoff beladenes Fahrzeug in ein irakisches Militärgebäude steuerte und 25 Soldaten einer Elite-Einheit mit in den Tod riss, wurde er in den einschlägigen sozialen Netzwerken Südostasiens von tausenden IS-Sympathisanten als „Märtyrer“ gefeiert. Der Fabrikarbeiter aus Selangor wurde zum ersten malaysischen Selbstmordattentäter des „Islamischen Staats“ (IS/ISIS). Im November tötete der aus Kelantan stammende Ahmad Affendi Abdul Manaff bei einem ähnlichen Anschlag 50 Soldaten in Homs. Mindestens drei weitere Malayiser starben 2014 in Syrien und Irak.
Dieser Aufsatz skizziert die Beteiligung malaysischer Staatsbürger am Bürgerkrieg in Syrien/Irak und erläutert, inwiefern die Ausgestaltung des malaysischen Staatsislams einer effektiven Deradikalisierung auf ideologischer Ebene entgegensteht.
Im Juni 2014 wird im Libanon der 19jährige Araby Ibrahim verhaftet. Er wird verdächtigt, für den Islamischen Staat (IS) in Syrien gekämpft zu haben. Der gebürtige Libanese besitzt einen dänischen Pass und soll von Kopenhagen aus über die Türkei nach Syrien gereist sein.
Angesichts der hohen Anzahl von nach Syrien und in den Irak reisenden Jihadisten aus Europa erscheint seine Geschichte fast trivial, gebe es nicht folgende Informationen:
Ibrahims Cousin, Munzer al-Hassan, der einen schwedischen Pass besitzt, scheint der Drahtzieher des Anschlages auf das Duroy Hotel in Beirut am 14. Juni 2014 zu sein. Zwei andere Cousins sollen einen Angriff auf einen Armeeposten in Syrien durchgeführt haben und dabei ums Leben gekommen sein. Beide besaßen die schwedische Staatsbürgerschaft. Ein Onkel Ibrahims wurde 2006 in Deutschland verhaftet, da er in die gescheiterten Anschläge auf zwei Regionalzüge in Nordrhein-Westfalen involviert war. Ibrahims Vater ist laut libanesischen Behörden ein bekannter Schleuser für Jihadisten von Europa in den Nahen Osten. Ibrahim selbst wurde während seiner Kämpfeinsätze in Syrien von einer gegnerischen Extremistengruppe gefangen genommen, jedoch wieder frei gelassen, da sein Vater bei dieser Gruppe bestens bekannt war. Es heißt, die gesamte Familie stehe auf Seiten des IS.1
Das Beispiel der Familie aus Tripoli verweist auf die transnationalen Verflechtungen des globalen Jihads. Gerade solche Familienbande machen es Libanesen in anderen Ländern leicht, die „Schlachtfelder“ des Nahen und Mittleren Ostens zu erreichen. Es kommen z.B. über 60% der nach Syrien und in den Irak gereisten Jihadisten aus Australien ursprünglich aus dem Libanon.2 Aus dem Libanon selbst sollen derzeit etwa 900 Libanesen in Syrien und im Irak auf Seiten islamistischer Extremisten kämpfen.3
Der vorliegende Beitrag gibt einen kurzen Überblick über die wichtigsten Wendepunkte in der zwölf-jährigen Geschichte der Gruppe „Islamischer Staat“ (IS) im Irak. Die andauernden Konflikte in Syrien und Irak haben, neben ihren unmittelbaren humanitären Folgen für die Zivilbevölkerung, auch Auswirkungen auf die globale Ideologie des Dschihadismus und beeinflussen somit indirekt auch andere regionale Konflikte.
Von 2003 bis 2014 war der IS eine von vielen regionalen Gruppen weltweit, die unter der nominellen Führung von al-Qaida am globalen Dschihad teilnahmen. Heute setzt der IS eigene Machtansprüche in Syrien und Irak in direkter Konfrontation mit dem syrischen Ableger der Al-Qaida(Jabhat An-Nusra) durch. Infolge dieser Auseinandersetzung gab Ayman az-Zawahiri im Februar 2014 öffentlich bekannt, dass al-Qaida den IS aus ihrer Organisation ausschließt.
Nicht zuletzt durch diesen Ausschluss war der IS unter der Führung von Abu Bakr al-Baghdadi genötigt den eigenen Führungsanspruch in der Region durch die Ausrufung eines Kalifates nachdrücklich geltend zu machen.
Dies war allerdings keine spontane Entscheidung, denn die Errichtung eines Kalifats war ein Plan, den Baghdadis Gruppe seit vielen Jahren mit großem Aufwand verfolgte.
Durch das Zerwürfnis zwischen dem IS und der afghanisch-pakistanischen al-Qaida teilt sich die globale dschihadistische Bewegung nun in zwei Einflussreiche Einheiten.
Salafismus ist eine totalitäre Variante des Islam, die im Gegensatz zu Demokratie, den Menschenrechten und der Idee der Geschlechtergerechtigkeit steht. Er verbindet eine in die Vergangenheit projizierte Utopie mit modernen Elementen der Pop-Kultur und ist in vielen Ländern – u.a. in Deutschland - die am schnellsten wachsende Jugendbewegung.
Jihadismus ist die gewalttätige Spielart des Salafismus. Vereinfacht lässt sich sagen, dass alle Jihadisten Salafisten sind, aber nur wenige Salafisten jemals Jihadisten werden.
Afghanistans ehemalige Mudschahedin haben es geschafft: Kritik an „heiligen Kriegern“, wie sie sich nun nennen, ist gleichzeitig Kritik am Islam, und das ist brandgefährlich in ihrem Land. Manch ein Kriegsverbrecher nutzt das Islam- Argument, um sich über das staatliche Gesetz zu stellen und damit unangreifbar zu machen. Säkulare Gruppierungen, die in der urbanen Bevölkerung weiter bestehen, würden es heute nicht mehr wagen, sich öffentlich so zu bezeichnen. In Regierung, Justiz und Gesellschaft ist der Druck, sich zum Islam zu bekennen, groß. Eine zuweilen absurd anmutende Konkurrenz darüber, wer am ‚islamischten‘ ist, führt zu immensem Druck auf Medien und Zivilgesellschaft, insbesondere auf Frauenrechtsgruppen, sich innerhalb des Islams zu positionieren und sich abzugrenzen von ‚unislamischen‘ Werten. Seit einigen Jahren dreht sich beispielsweise eine erhitzte gesellschaftliche Debatte um ein Gewaltschutzgesetz für Frauen, begleitet von einer medialen und religiösen Kampagne gegen Frauenschutzhäuser:
im Kern wird beiden vorgeworfen, antiislamisch zu sein. Frauenrechtsgruppen sehen sich gezwungen, juristisch und religiös zu begründen, dass das Gesetz keine Anteile aufweist, die dem Islam widersprechen.
Der hohe Rat der Ulema, 2002 von der Regierung eingesetzt und bezahlt, stellt die größte und einflussreichste religiöse Struktur in Afghanistan dar: er besteht aus 3000 Ulema und Mullas1 (davon ¾ Sunniten und ¼ Schiiten); viele sind gleichzeitig auch Richter, politische Berater, Lehrer oder Imame. Die meisten von ihnen gehören einer der Mudschahedin-Gruppierungen an. Auf nationaler Ebene berät der Rat die Regierung in religiösen Fragen, unterstützt zumeist ihre Entscheidungen und gewährt ihr so eine religiöse Legitimation; auf lokaler Ebene positionieren sich die Ulema und Mullas allerdings oft regierungskritisch und anti-westlich. In der gesellschaftlichen Debatte über Frauenrechte äußerten sie sich 2012 extrem konservativ, indem sie erklärten, Frauen seien weniger wert als Männer, sollten nicht ohne mahram (männlichen Verwandten) verreisen und bei Arbeit, Bildung und Freizeit den Kontakt zu Männern vermeiden. Ihre monatlichen Erklärungen auf nationaler Ebene sowie ihre Ansprachen in lokalen Moscheen haben großen Einfluss auf die gesellschaftliche Verhandlung von Normen. 2 Auch Saudi-Arabien versucht wachsenden Einfluss auf die religiöse Ausbildung in Afghanistan auszuüben, so z.B. durch den Bau und Betrieb eines religiösen Schulungszentrums in Kabul.3 Pakistanische religiöse Gelehrte sehen den Kampf der afghanischen Taliban gegen die westliche Intervention als berechtigt an, und erklären USA und NATO als allein verantwortlich für jegliche zivilen Opfer.
Under certain conditions, secondary organic aerosol (SOA) particles can exist in the atmosphere in an amorphous solid or semi-solid state. To determine their relevance to processes such as ice nucleation or chemistry occurring within particles requires knowledge of the temperature and relative humidity (RH) range for SOA to exist in these states. In the Cosmics Leaving Outdoor Droplets (CLOUD) experiment at The European Organisation for Nuclear Research (CERN), we deployed a new in situ optical method to detect the viscous state of α-pinene SOA particles and measured their transition from the amorphous highly viscous state to states of lower viscosity. The method is based on the depolarising properties of laboratory-produced non-spherical SOA particles and their transformation to non-depolarising spherical particles at relative humidities near the deliquescence point. We found that particles formed and grown in the chamber developed an asymmetric shape through coagulation. A transition to a spherical shape was observed as the RH was increased to between 35 % at −10 °C and 80 % at −38 °C, confirming previous calculations of the viscosity-transition conditions. Consequently, α-pinene SOA particles exist in a viscous state over a wide range of ambient conditions, including the cirrus region of the free troposphere. This has implications for the physical, chemical, and ice-nucleation properties of SOA and SOA-coated particles in the atmosphere.
There are strong indications that particles containing secondary organic aerosol (SOA) exhibit amorphous solid or semi-solid phase states in the atmosphere. This may facilitate deposition ice nucleation and thus influence cirrus cloud properties. However, experimental ice nucleation studies of biogenic SOA are scarce. Here, we investigated the ice nucleation ability of viscous SOA particles.
The SOA particles were produced from the ozone initiated oxidation of α-pinene in an aerosol chamber at temperatures in the range from −38 to −10 ◦C at 5–15 % relative humidity with respect to water to ensure their formation in a highly viscous phase state, i.e. semi-solid or glassy. The ice nucleation ability of SOA particles with different sizes was investigated with a new continuous flow diffusion chamber. For the first time, we observed heterogeneous ice nucleation of viscous α-pinene SOA in the deposition mode for ice saturation ratios between 1.3 and 1.4 significantly below the homogeneous freezing limit. The maximum frozen fractions found at temperatures between −36.5 and −38.3 °C ranged from 6 to 20 % and did not depend on the particle surface area. Global modelling of monoterpene SOA particles suggests that viscous biogenic SOA particles are indeed present in regions where cirrus cloud formation takes place. Hence, they could make up an important contribution to the global ice nuclei (IN) budget.
There are strong indications that particles containing secondary organic aerosol (SOA) exhibit amorphous solid or semi-solid phase states in the atmosphere. This may facilitate heterogeneous ice nucleation and thus influence cloud properties. However, experimental ice nucleation studies of biogenic SOA are scarce. Here, we investigated the ice nucleation ability of viscous SOA particles.
The SOA particles were produced from the ozone initiated oxidation of α-pinene in an aerosol chamber at temperatures in the range from −38 to −10 °C at 5–15 % relative humidity with respect to water to ensure their formation in a highly viscous phase state, i.e. semi-solid or glassy. The ice nucleation ability of SOA particles with different sizes was investigated with a new continuous flow diffusion chamber. For the first time, we observed heterogeneous ice nucleation of viscous α-pinene SOA for ice saturation ratios between 1.3 and 1.4 significantly below the homogeneous freezing limit. The maximum frozen fractions found at temperatures between −39.0 and −37.2 °C ranged from 6 to 20 % and did not depend on the particle surface area. Global modelling of monoterpene SOA particles suggests that viscous biogenic SOA particles are indeed present in regions where cirrus cloud formation takes place. Hence, they could make up an important contribution to the global ice nucleating particle budget.
Cloud microphysical processes involving the ice phase in tropospheric clouds are among the major uncertainties in cloud formation, weather and General Circulation Models (GCMs). The simultaneous detection of aerosol particles, liquid droplets, and ice crystals, especially in the small cloud-particle size range below 50 µm, remains challenging in mixed phase, often unstable ice-water phase environments. The Cloud Aerosol Spectrometer with Polarisation (CASPOL) is an airborne instrument that has the ability to detect such small cloud particles and measure their effects on the backscatter polarisation state. Here we operate the versatile Cosmics-Leaving- OUtdoor-Droplets (CLOUD) chamber facility at the European Organisation for Nuclear Research (CERN) to produce controlled mixed phase and other clouds by adiabatic expansions in an ultraclean environment, and use the CASPOL to discriminate between different aerosols, water and ice particles. In this paper, optical property measurements of mixed phase clouds and viscous Secondary Organic Aerosol (SOA) are presented. We report observations of significant liquid – viscous SOA particle polarisation transitions under dry conditions using CASPOL. Cluster analysis techniques were subsequently used to classify different types of particles according to their polarisation ratios during phase transition. A classification map is presented for water droplets, organic aerosol (e.g., SOA and oxalic acid), crystalline substances such as ammonium sulphate, and volcanic ash. Finally, we discuss the benefits and limitations of this classi- fication approach for atmospherically relevant concentration and mixtures with respect to the CLOUD 8–9 campaigns and its potential contribution to Tropical Troposphere Layer (TTL) analysis.
Cloud microphysical processes involving the ice phase in tropospheric clouds are among the major uncertainties in cloud formation, weather, and general circulation models. The detection of aerosol particles, liquid droplets, and ice crystals, especially in the small cloud particle-size range below 50 μm, remains challenging in mixed phase, often unstable environments. The Cloud Aerosol Spectrometer with Polarization (CASPOL) is an airborne instrument that has the ability to detect such small cloud particles and measure the variability in polarization state of their backscattered light. Here we operate the versatile Cosmics Leaving OUtdoor Droplets (CLOUD) chamber facility at the European Organization for Nuclear Research (CERN) to produce controlled mixed phase and other clouds by adiabatic expansions in an ultraclean environment, and use the CASPOL to discriminate between different aerosols, water, and ice particles. In this paper, optical property measurements of mixed-phase clouds and viscous secondary organic aerosol (SOA) are presented. We report observations of significant liquid–viscous SOA particle polarization transitions under dry conditions using CASPOL. Cluster analysis techniques were subsequently used to classify different types of particles according to their polarization ratios during phase transition. A classification map is presented for water droplets, organic aerosol (e.g., SOA and oxalic acid), crystalline substances such as ammonium sulfate, and volcanic ash. Finally, we discuss the benefits and limitations of this classification approach for atmospherically relevant concentrations and mixtures with respect to the CLOUD 8–9 campaigns and its potential contribution to tropical troposphere layer analysis.
The CARIBIC (Civil Aircraft for the Regular Investigation of the Atmosphere Based on an Instrument Container) passenger aircraft observatory performed in situ measurements at 10–12 km altitude in the South Asian summer monsoon anticyclone between June and September 2008. These measurements enable us to investigate this atmospheric region (which so far has mostly been observed from satellites) using the broad suite of trace gases and aerosol particles measured by CARIBIC. Elevated levels of a variety of atmospheric pollutants (e.g. carbon monoxide, total reactive nitrogen oxides, aerosol particles, and several volatile organic compounds) were recorded. The measurements provide detailed information about the chemical composition of air in different parts of the monsoon anticyclone, particularly of ozone precursors. While covering a range of 3500 km inside the monsoon anticyclone, CARIBIC observations show remarkable consistency, i.e. with distinct latitudinal patterns of trace gases during the entire monsoon period.
Using the CARIBIC trace gas and aerosol particle measurements in combination with the Lagrangian particle dispersion model FLEXPART, we investigated the characteristics of monsoon outflow and the chemical evolution of air masses during transport. The trajectory calculations indicate that these air masses originated mainly from South Asia and mainland Southeast Asia. Estimated photochemical ages of the air were found to agree well with transport times from a source region east of 90–95° E. The photochemical ages of the air in the southern part of the monsoon anticyclone were systematically younger (less than 7 days) and the air masses were mostly in an ozone-forming chemical mode. In its northern part the air masses were older (up to 13 days) and had unclear ozone formation or destruction potential. Based on analysis of forward trajectories, several receptor regions were identified. In addition to predominantly westward transport, we found evidence for efficient transport (within 10 days) to the Pacific and North America, particularly during June and September, and also of cross-tropopause exchange, which was strongest during June and July. Westward transport to Africa and further to the Mediterranean was the main pathway during July.
The CARIBIC (Civil Aircraft for the Regular Investigation of the Atmosphere Based on an Instrument Container) passenger aircraft observatory performed in situ measurements at 10–12 km altitude in the South Asian summer monsoon anticyclone between June and September 2008. These measurements enable us to investigate this atmospheric region, which so far has mostly been observed from satellites, using the broad suite of trace gases and aerosols measured by CARIBIC. Elevated levels of a range of atmospheric pollutants were recorded e.g. carbon monoxide, total reactive nitrogen oxides, aerosol particles and several volatile organic compounds. The measurements provide detailed information about the chemical composition of air in different parts of the monsoon anticyclone, particularly of ozone precursors. While covering a range of 3500 km inside the monsoon anticyclone, CARIBIC observations show remarkable consistency, i.e. with regular latitudinal patterns of trace gases during the entire monsoon period. Trajectory calculations indicate that these air masses originated mainly from South Asia and Mainland Southeast Asia.
Using the CARIBIC trace gas and aerosol measurements in combination with the Lagrangian particle dispersion model FLEXPART we investigated the characteristics of monsoon outflow and the chemical evolution of air masses during transport. Estimated photochemical ages of the air were found to agree well with transport times from a source region east of 95 ° E. The photochemical ages of the air in the southern part of the monsoon anticyclone were consistently younger (less than 7 days) and the air masses mostly in an ozone forming chemical regime. In its northern part the air masses were older (up to 13 days) and had unclear ozone formation or destruction potential. Based on analysis of forward trajectories several receptor regions were identified. In addition to predominantly westward transport, we found evidence for efficient transport (within 10 days) to the Pacific and North America, particularly during June and September, and also of cross-tropopause exchange, which was strongest during June and July. Westward transport to Africa and further to the Mediterranean was the main pathway during July.
The first concerted multi-model intercomparison of halogenated very short-lived substances (VSLS) has been performed, within the framework of the ongoing Atmospheric Tracer Transport Model Intercomparison Project (TransCom). Eleven global models or model variants participated, simulating the major natural bromine VSLS, bromoform (CHBr3) and dibromomethane (CH2Br2), over a 20-year period (1993-2012). The overarching goal of TransCom-VSLS was to provide a reconciled model estimate of the stratospheric source gas injection (SGI) of bromine from these gases, to constrain the current measurement-derived range, and to investigate inter-model differences
due to emissions and transport processes. Models ran with standardised idealised chemistry, to isolate differences due to transport, and we investigated the sensitivity of results to a range of VSLS emission inventories. Models were tested in their ability to reproduce the observed seasonal and spatial distribution of VSLS at the surface, using measurements from NOAA’s long-term global monitoring network, and in the tropical troposphere, using recent aircraft measurements - including high altitude observations from the NASA Global Hawk platform.
The models generally capture the seasonal cycle of surface CHBr3 and CH2Br2 well, with a strong model measurement correlation (r ≥0.7) and a low sensitivity to the choice of emission inventory, at most sites. In a given model, the absolute model-measurement agreement is highly sensitive to the choice of emissions and inter-model differences are also apparent, even when using the same inventory, highlighting the challenges faced in evaluating such inventories at the global scale. Across the ensemble, most consistency is found within the tropics where most of the models (8 out of 11) achieve optimal agreement to surface CHBr3 observations using the lowest of the three CHBr3 emission inventories tested (similarly, 8 out of 11 models for CH2Br2). In general, the models are able to reproduce well observations of CHBr3 and CH2Br2 obtained in the tropical tropopause layer (TTL) at various locations throughout the Pacific. Zonal variability in VSLS loading in the TTL is generally consistent among models, with CHBr3 (and to a lesser extent CH2Br2) most elevated over the tropical West Pacific during boreal winter. The models also indicate the Asian Monsoon during boreal summer to be an important pathway for VSLS reaching the stratosphere, though the strength of this signal varies considerably among models.
We derive an ensemble climatological mean estimate of the stratospheric bromine SGI from CHBr3 and CH2Br2 of 2.0 (1.2-2.5) ppt, ∼57% larger than the best estimate from the most re- cent World Meteorological Organization (WMO) Ozone Assessment Report. We find no evidence for a long-term, transport-driven trend in the stratospheric SGI of bromine over the simulation period. However, transport-driven inter-annual variability in the annual mean bromine SGI is of the order of a ±5%, with SGI exhibiting a strong positive correlation with ENSO in the East Pacific
Given an Abelian semi-group (A, +), an A-valued curvature measure is a valuation with values in A-valued measures. If A = R, complete classifications of Hausdorff-continuous translation-invariant SO(n)-invariant valuations and curvature measures were obtained by Hadwiger and Schneider, respectively. More recently, characterisation results have been achieved for curvature measures with values in A = Sym^p R^n and A = Sym^2 Λ^q R^n for p, q ≥ 1 with varying assumptions as for their invariance properties.
In the present work, we classify all smooth translation-invariant SO(n)-covariant curvature measures with values in any SO(n)-representation in terms of certain differential forms on the sphere bundle S R^n and describe their behaviour under the globalisation map. The latter result also yields a similar classification of all continuous SO(n)-module-valued SO(n)-covariant valuations. Furthermore, a decomposition of the space of smooth translation-
invariant scalar-valued curvature measures as an SO(n)-module is obtained. As a corollary, we construct explicit bases of continuous translation-invariant scalar-valued valuations and smooth translation-invariant scalar-valued curvature measures.
Xenia von Sankt-Petersburg (Ksenija Peterburgskaja) ist eine der bedeutendsten weiblichen Heiligen in der gesamten Orthodoxie. Ihr ungewöhnliches Leben entfaltete sich im 18. Jh. in der damaligen russischen Hauptstadt Sankt-Petersburg, zu deren heiligen Patronin sie später erwählt wurde. Doch erst in den vierziger Jahre des 19. Jahrhunderts wurden die ersten Zeugnisse über ihren Lebensweg und ihr religiöses Wirken schriftlich festgehalten. Um das Jahr 1912 entstand schliesslich eine Heiligenvita Xenias; sie wurde auf Grundlage bestehender Textfragmente und dem überlieferter Erzählungen aufgezeichnet. Im Jahr 1978 wurde Xenia zunächst von der Russisch-Orthodoxen Kirche im Ausland und dann im Jahr 1988 von dem Heiligen Synod (pomestnyj sobor) der Russisch-Orthodoxen Kirche des Moskauer Patriarchats offiziell heilig gesprochen.
Die Kanonisierung bestätigte aber nur eine seit fast zweihundert Jahren bestehende Volksverehrung. Ihrem hagiographischen Typus nach wurde Xenia als jurodivaja kategorisiert. Dieses russische Wort bedeutet in etwa eine Selige, ein Tolle, eine Wahnsinnige; sinngemäss eine heilige Närrin, die um Christi Willen vor der Augen der Öffentlichkeit einen Irrgang vorspielt, bewusst ein provokatives als deviant geltendes Verhalten an den Tag legt und sich dadurch den geltenden gesellschaftlichen Konventionen radikal verweigert.
The first concerted multi-model intercomparison of halogenated very short-lived substances (VSLS) has been performed, within the framework of the ongoing Atmospheric Tracer Transport Model Intercomparison Project (TransCom). Eleven global models or model variants participated (nine chemical transport models and two chemistry–climate models) by simulating the major natural bromine VSLS, bromoform (CHBr3) and dibromomethane (CH2Br2), over a 20-year period (1993–2012). Except for three model simulations, all others were driven offline by (or nudged to) reanalysed meteorology. The overarching goal of TransCom-VSLS was to provide a reconciled model estimate of the stratospheric source gas injection (SGI) of bromine from these gases, to constrain the current measurement-derived range, and to investigate inter-model differences due to emissions and transport processes. Models ran with standardised idealised chemistry, to isolate differences due to transport, and we investigated the sensitivity of results to a range of VSLS emission inventories. Models were tested in their ability to reproduce the observed seasonal and spatial distribution of VSLS at the surface, using measurements from NOAA's long-term global monitoring network, and in the tropical troposphere, using recent aircraft measurements – including high-altitude observations from the NASA Global Hawk platform.
The models generally capture the observed seasonal cycle of surface CHBr3 and CH2Br2 well, with a strong model–measurement correlation (r ≥ 0.7) at most sites. In a given model, the absolute model–measurement agreement at the surface is highly sensitive to the choice of emissions. Large inter-model differences are apparent when using the same emission inventory, highlighting the challenges faced in evaluating such inventories at the global scale. Across the ensemble, most consistency is found within the tropics where most of the models (8 out of 11) achieve best agreement to surface CHBr3 observations using the lowest of the three CHBr3 emission inventories tested (similarly, 8 out of 11 models for CH2Br2). In general, the models reproduce observations of CHBr3 and CH2Br2 obtained in the tropical tropopause layer (TTL) at various locations throughout the Pacific well. Zonal variability in VSLS loading in the TTL is generally consistent among models, with CHBr3 (and to a lesser extent CH2Br2) most elevated over the tropical western Pacific during boreal winter. The models also indicate the Asian monsoon during boreal summer to be an important pathway for VSLS reaching the stratosphere, though the strength of this signal varies considerably among models.
We derive an ensemble climatological mean estimate of the stratospheric bromine SGI from CHBr3 and CH2Br2 of 2.0 (1.2–2.5) ppt, ∼ 57 % larger than the best estimate from the most recent World Meteorological Organization (WMO) Ozone Assessment Report. We find no evidence for a long-term, transport-driven trend in the stratospheric SGI of bromine over the simulation period. The transport-driven interannual variability in the annual mean bromine SGI is of the order of ±5 %, with SGI exhibiting a strong positive correlation with the El Niño–Southern Oscillation (ENSO) in the eastern Pacific. Overall, our results do not show systematic differences between models specific to the choice of reanalysis meteorology, rather clear differences are seen related to differences in the implementation of transport processes in the models.
Interleukin (IL)-22 is a STAT3-activating cytokine displaying characteristic AU-rich elements (ARE) in the 3'-untranslated region (3'-UTR) of its mRNA. This architecture suggests gene regulation by modulation of mRNA stability. Since related cytokines undergo post-transcriptional regulation by ARE-binding tristetraprolin (TTP), the role of this destabilizing protein in IL-22 production was investigated. Herein, we demonstrate that TTP-deficient mice display augmented serum IL-22. Likewise, IL-22 mRNA was enhanced in TTP-deficient splenocytes and isolated primary T cells. A pivotal role for TTP is underscored by an extended IL-22 mRNA half-life detectable in TTP-deficient T cells. Luciferase-reporter assays performed in human Jurkat T cells proved the destabilizing potential of the human IL-22-3'-UTR. Furthermore, overexpression of TTP in HEK293 cells substantially decreased luciferase activity directed by the IL-22-3'-UTR. Transcript destabilization by TTP was nullified upon cellular activation by TPA/A23187, an effect dependent on MEK1/2 activity. Accordingly, IL-22 mRNA half-life as determined in TPA/A23187-stimulated Jurkat T cells decreased under the influence of the MEK1/2 inhibitor U0126. Altogether, data indicate that TTP directly controls IL-22 production, a process counteracted by MEK1/2. The TTP-dependent regulatory pathway described herein likely contributes to the role of IL-22 in inflammation and cancer and may evolve as novel target for pharmacological IL-22 modulation.
NLP4CMC III : 3rd workshop on natural language processing for computer-mediated communication
(2016)
The present paper reports the first results of the compilation and annotation of a blog corpus for German. The main aim of the project is the representation of the blog discourse structure and relations between its elements (blog posts, comments) and participants (bloggers, commentators). The data included in the corpus were manually collected from the scientific blog portal SciLogs. The feature catalogue for the corpus annotation includes three types of information which is directly or indirectly provided in the blog or can be construed by means of statistical analysis or computational tools. At this point, only directly available information (e.g., title of the blog post, name of the blogger etc.) has been annotated. We believe, our blog corpus can be of interest for the general study of blog structure or related research questions as well as for the development of NLP methods and techniques (e.g. for authorship detection).
Already today modern driver assistance systems contribute more and more to make individual mobility in road traffic safer and more comfortable. For this purpose, modern vehicles are equipped with a multitude of sensors and actuators which perceive, interpret and react to the environment of the vehicle. In order to reach the next set of goals along this path, for example to be able to assist the driver in increasingly complex situations or to reach a higher degree of autonomy of driver assistance systems, a detailed understanding of the vehicle environment and especially of other moving traffic participants is necessary.
It is known that motion information plays a key role for human object recognition [Spelke, 1990]. However, full 3D motion information is mostly not taken into account for Stereo Vision-based object segmentation in literature. In this thesis, novel approaches for motion-based object segmentation of stereo image sequences are proposed from which a generic environmental model is derived that contributes to a more precise analysis and understanding of the respective traffic scene. The aim of the environmental model is to yield a minimal scene description in terms of a few moving objects and stationary background such as houses, crash barriers or parking vehicles. A minimal scene description aggregates as much information as possible and it is characterized by its stability, precision and efficiency.
Instead of dense stereo and optical flow information, the proposed object segmentation builds on the so-called Stixel World, an efficient superpixel-like representation of space-time stereo data. As it turns out this step substantially increases stability of the segmentation and it reduces the computational time by several orders of magnitude, thus enabling real-time automotive use in the first place. Besides the efficient, real-time capable optimization, the object segmentation has to be able to cope with significant noise which is due to the measurement principle of the used stereo camera system. For that reason, in order to obtain an optimal solution under the given extreme conditions, the segmentation task is formulated as a Bayesian optimization problem which allows to incorporate regularizing prior knowledge and redundancies into the object segmentation.
Object segmentation as it is discussed here means unsupervised segmentation since typically the number of objects in the scene and their individual object parameters are not known in advance. This information has to be estimated from the input data as well.
For inference, two approaches with their individual pros and cons are proposed, evaluated and compared. The first approach is based on dynamic programming. The key advantage of this approach is the possibility to take into account non-local priors such as shape or object size information which is impossible or which is prohibitively expensive with more local, conventional graph optimization approaches such as graphcut or belief propagation.
In the first instance, the Dynamic Programming approach is limited to one-dimensional data structures, in this case to the first Stixel row. A possible extension to capture multiple Stixel rows is discussed at the end of this thesis.
Further novel contributions include a special outlier concept to handle gross stereo errors associated with so-called stereo tear-off edges. Additionally, object-object interactions are taken into account by explicitly modeling object occlusions. These extensions prove to be dramatic improvements in practice.
This first approach is compared with a second approach that is based on an alternating optimization of the Stixel segmentation and of the relevant object parameters in an expectation maximization (EM) sense. The labeling step is performed by means of the _−expansion graphcut algorithm, the parameter estimation step is done via one-dimensional sampling and multidimensional gradient descent. By using the Stixel World and due to an efficient implementation, one step of the optimization only takes about one millisecond on a standard single CPU core. To the knowledge of the author, at the time of development there was no faster global optimization in a demonstrator car.
For both approaches, various testing scenarios have been carefully selected and allow to examine the proposed methods thoroughly under different real-world conditions with limited groundtruth at hand. As an additional innovative application, the first approach was successfully implemented in a demonstrator car that drove the so-called Bertha Benz Memorial Route from Mannheim to Pforzheim autonomously in real traffic.
At the end of this thesis, the limits of the proposed systems are discussed and a prospect on possible future work is given.
BACKGROUND: Microvascular ischemia is one of the hallmarks of hypertrophic cardiomyopathy (HCM) and has been associated with poor outcome. However, myocardial fibrosis, seen on cardiovascular magnetic resonance (CMR) as late gadolinium enhancement (LGE), can be responsible for rest perfusion defects in up to 30% of patients with HCM, potentially leading to an overestimation of the ischemic burden. We investigated the effect of left ventricle (LV) scar on the total LV ischemic burden using novel high-resolution perfusion analysis techniques in conjunction with LGE quantification.
METHODS: 30 patients with HCM and unobstructed epicardial coronary arteries underwent CMR with Fermi constrained quantitative perfusion analysis on segmental and high-resolution data. The latter were corrected for the presence of fibrosis on a pixel-by-pixel basis.
RESULTS: High-resolution quantification proved more sensitive for the detection of microvascular ischemia in comparison to segmental analysis. Areas of LGE were associated with significant reduction of myocardial perfusion reserve (MPR) leading to an overestimation of the total ischemic burden on non-corrected perfusion maps. Using a threshold MPR of 1.5, the presence of LGE caused an overestimation of the ischemic burden of 28%. The ischemic burden was more severe in patients with fibrosis, also after correction of the perfusion maps, in keeping with more severe disease in this subgroup.
CONCLUSIONS: LGE is an important confounder in the assessment of the ischemic burden in patients with HCM. High-resolution quantitative analysis with LGE correction enables the independent evaluation of microvascular ischemia and fibrosis and should be used when evaluating patients with HCM.
Does an increase in competition increase or decrease bank stability? I exploit how the state-specific process of interstate banking deregulation lowered barriers to entry into urban banking markets and find that greater competition significantly increases bank stability. This result is robust to the inclusion of additional fixed effects and other influences, such as merger and acquisitions or diversification. Moreover, I find that greater competition reduces banks' nonperforming loans and increases bank profitability. These findings suggest that competition increases stability as it improves bank profitability and asset quality.
Returns to experience for U.S. workers have changed over the post-war period. This paper argues that a simple model goes a long way towards replicating these changes. The model features three well-known ingredients: (i) an aggregate production function with constant skill-biased technical change; (ii) cohort qualities that vary with average years of schooling; and crucially (iii) time-invariant age-efficiency profiles. The model quantitatively accounts for changes in longitudinal and cross-sectional returns to experience, as well as the differential evolution of the college wage premium for young and old workers.
We reconsider the role for human capital in accounting for cross-country income differences. Our contribution is to bring to bear new data on the pre- and post- migration labor market experiences of immigrants to the U.S. Immigrants from poor countries experience wage gains that are only 40 percent of the GDP per worker gap, which implies that “country" accounts for 40 percent of income differences, while human capital accounts for 60 percent. Our approach handles selection by comparing the wage of the same individual in two different countries. We also provide evidence on and a correction for skill transfer.
We examine the impact of house prices on labour supply decisions using UK micro data. We combine household survey data with local level house price measures and controls for local labour demand. Our micro data also allows us to control for individual level income expectations. We find significant house price effects on labour supply, consistent with leisure being a normal good. Labour supply responses to house prices are concentrated among young married female owners and older owners. This finding suggests house prices affect the decisions of marginal workers in the economy. Our estimates imply house prices are economically important for the participation decisions for these workers.
We study money creation and destruction in today’s monetary architecture and examine the impact of monetary policy and capital regulation in a general equilibrium setting. There are two types of money created and destructed: bank deposits, when banks grant loans to firms or to other banks and central bank money, when the central bank grants loans to private banks. We show that equilibria yield the first-best level of money creation and lending when prices are flexible, regardless of the monetary policy or capital regulation. When prices are rigid, we identify the circumstances in which money creation is excessive or breaks down and the ones in which an adequate combination of monetary policy and capital regulation can restore efficiency.
The dramatic shift from traditional pension plans to participant-directed 401(k) plans has increased the decision-making responsibility of individual investors for their own retirement planning. With this shift comes increasing evidence that investors are making poor decisions in choosing how much to save for retirement and in selecting among their investment options. Studies question the value of efforts to improve these decisions through regulatory reforms or investor education.
This article posits that deficiencies in workplace retirement savings cannot be adequately addressed until the reasons for poor investment decisions are better understood. We report the results of an exploratory study that asked subjects to complete a simulated retirement investment task and collected information about their financial knowledge and preferences. The study enabled us to measure financial literacy and evaluate its relationship to retirement investment decision-making. In line with existing research, we found a strong relationship between financial literacy and successful retirement investing. Our results suggest, however, that the relevant understanding in this context is not about math so much as it is a basic knowledge of the relative costs and benefits of the major investment categories. Finally, we present results suggesting that financial literacy is separate from investment preferences — specifically, that tolerance for risk is a separate and highly predictive variable in estimating retirement planning success.
Our research suggests that individual employees are likely to lack the skills necessary to support the current regulatory model of participant-directed retirement investing. The structure and regulation of retirement plans ought to take this fact seriously. We explore the potential for investor education and professional advice, respectively, to overcome the limitations of individualized choice.
Directors have traditionally been elected by a plurality of the votes cast. This means that in uncontested elections, a candidate who receives even a single vote is elected. Proponents of “shareholder democracy” have advocated a shift to a majority voting rule in which a candidate must receive a majority of the votes cast to be elected. Over the past decade, they have been successful, and the shift to majority voting has been one of the most popular and successful governance reforms.
Yet critics are skeptical as to whether majority voting improves board accountability. Tellingly, directors of companies with majority voting rarely fail to receive majority approval – even more rarely than directors of companies with plurality voting. Even when such directors fail to receive majority approval, they are unlikely to be forced to leave the board. This poses a puzzle: why do firms switch to majority voting and what effect does the switch have, if any, on director behavior?
We empirically examine the adoption and impact of a majority voting rule using a sample of uncontested director elections from 2007 to 2013. We test and find partial support for four hypotheses that could explain why directors of majority voting firms so rarely fail to receive majority support: selection; deterrence/accountability; electioneering by firms; and restraint by shareholders.
Our results further suggest that the reasons for and effects of adopting majority voting may differ between early and later adopters. We find that early adopters of majority voting were more shareholder-responsive than other firms even before they adopted majority voting. These firms seem to have adopted majority voting voluntarily, and the adoption of majority voting has made little difference in their responsiveness to shareholders responsiveness going forward. By contrast, for late adopters, we find no evidence that they were more shareholder-responsive than other firms before they adopted majority voting, but strong evidence that they became more responsive after adopting majority voting.
Differences between early and late adopters can have important implications for understanding the spread of corporate governance reforms and evaluating their effects on firms. Reform advocates, rather than targeting the firms that, by their measures, are most in need of reform, instead seem to have targeted the firms that are already most responsive. They may then have used the widespread adoption of majority voting to create pressure on the nonadopting firms. Empirical studies of the effects of governance changes thus need to be sensitive to the possibility that early adopters and late adopters of reforms differ from each other and that the reforms may have different effects on these two groups of firms.
The article discusses the methodology adopted for a cross-linguistic synchronic and diachronic corpus study on indefinites. The study covered five indefinite expressions, each in a different language. The main goal of the study was to verify the distribution of these indefinites synchronically and to attest their historical development. The methodology we used is a form of functional labeling which combines both context (syntax) and meaning (semantics) using as a starting point Haspelmath’s (1997) functional map. In the article we identify Haspelmath’s functions with logico-semantic interpretations and propose a binary branching decision tree assigning each instance of an indefinite exactly one function in the map.
Event studies have become increasingly important in securities fraud litigation after the Supreme Court’s decision in Halliburton II. Litigants have used event study methodology, which empirically analyzes the relationship between the disclosure of corporate information and the issuer’s stock price, to provide evidence in the evaluation of key elements of federal securities fraud, including materiality, reliance, causation, and damages. As the use of event studies grows and they increasingly serve a gatekeeping function in determining whether litigation will proceed beyond a preliminary stage, it will be critical for courts to use them correctly.
This Article explores an array of considerations related to the use of event studies in securities fraud litigation. It starts by describing the basic function of the event study: to determine whether a highly unusual price movement has occurred and the traditional statistical approach to making that determination. The Article goes on to identify special features of securities fraud litigation that distinguish litigation from the scholarly context in which event studies were developed. The Article highlights the fact that the standard approach can lead to the wrong conclusion and describes the adjustments necessary to address the litigation context. We use the example of six dates in the Halliburton litigation to illustrate these points.
Finally, the Article highlights the limitations of event studies – what they can and cannot prove – and explains how those limitations relate to the legal issues for which they are introduced. These limitations bear upon important normative questions about the role event studies should play in securities fraud litigation.
Cells perform a wide range of functions such as signalling, transportation, immunoprotection and metabolism. Unravelling the molecular mechanism behind those processes will provide a platform for more targeted and rational drug design. This is achieved by discerning the structural and functional aspects of the biological macromolecules involved. This thesis discusses about the biophysical characterization of protein structures and the biological importance of protein dynamics. Membrane receptors and enzymes which are ubiquitously present in our biological systems and regulate wide variety of functions are excellent choice for such study. From a pharmaceutical point of view, receptor and enzymes are exceptionally important drug targets as they represent the major share (receptor, 30% and enzymes, 47%) of all marketed drugs. Therefore, apart from biological insights, the detailed study of receptors and enzymes will provide the basis for new pharmaceutical applications. Most information about receptor activation and enzyme activity come from the structural and functional analysis of target members of the above mentioned systems.
In “Chapter 1 – General Introduction” the readers are introduced to the world of proteins with special focus on G-protein coupled receptors (GPCRs) and methyltransferases. The first part of this chapter discusses about GPCRs with emphasis on their classification, structural features and functions. GPCRs are the most abundant membrane receptors present in mammalian cells, accounting for almost 15% of all membrane proteins. The GPCR superfamily consists of ~800 members and can be subdivided into six classes (A-F). Class A containing rhodopsin, peptide hormones, olfactory GPCRs, is the most abundant with a large share of 85% of GPCR protein family. GPCRs share a common architecture of 7 transmembrane a-helices, with different ligand binding sites. Although a variety of ligands ranging from subatomic particles (a photon) to large proteins can activate a GPCR, their mechanism of signal transduction is almost similar. There are two major signal transduction pathways identified for GPCRs: the cAMP pathway and the phosphatidylinositol pathway. The therapeutic relevance of GPCRs has also been pointed out here since a large share (30%) of modern marketed drugs target GPCRs.
In the second part of this chapter, the structural and functional characterizations of methyltransferases (MTs) are discussed in detail. Several important biological processes in cells e.g. drug metabolism, gene transcription, epigenetic regulations are modulated by methylation of targets ranging from small biomolecules to large proteins. MTs are the proteins which catalyze this methylation reaction and transfer the methyl group to an acceptor molecule through SN2 like nucleophilic substitution reaction. The MTs can be classified on the basis of the substrate atoms they methylate: O (54% of all MTs), N (23%), C (18%), S (3%) and other acceptors (such as halides; 2%). They can also be categorized into five different classes (Class I-V) depending upon distinctive structural features facilitating substrate binding or catalytic activity. Rossmann fold and SET (acronym acquired from the Drosophila Su(var)3-9 and 'Enhancer of zeste' proteins) domain are the two characteristic structural motifs commonly found in MTs. Similar to GPCRs, MTs dysfunction has been shown to be involved in various diseases including neuropsychiatric diseases and cancer. Therefore they are also interesting targets for drug development. The final part of this chapter discusses the importance of structural biology in gathering information related to structure and conformational dynamics of proteins. The two prominent biophysical techniques used in structural biology, X-ray crystallography and NMR, are discussed with focus on their advantages and limitation. The importance of NMR spectroscopic techniques to investigate different dynamic processes of protein at atomic resolution under physiological conditions is also discussed. Real time NMR spectroscopy required for the analysis of slow protein dynamic processes (protein folding, enzyme catalysis, domain rearrangement) has been explained in detail.
The second part of the thesis (Chapters 3-4), which is the cumulative part, comprises the original publications grouped into 2 chapters according to their topic:
• NMR-spectroscopic characterization of the transiently populated photointermediates of bovine rhodopsin and it’s interaction with arrestin (Chapter 3)
• Structural and biophysical characterization of PaMTH1, a putative SAM dependent O-methyltransferase from filamentous fungi Podospora anserina (Chapter 4)
Each chapter is initiated by a detailed introduction to the topic, providing the framework for the following papers. The personal contribution of this thesis’ author to each publication is stated in the introduction to the respective article.
In dieser Arbeit wurden die Strukturen von drei Membranproteinen mittels Einzelpartikel-Kryo‑Elektronenmikroskopie (Kryo‑EM) gelöst. Bei den Membranproteinen handelt es sich um den humanen TRP-Kanal Polycystin‑2, den sekundär-aktiven Transporter BetP aus Corynebacterium glutamicum und den Rotor-Ring der N‑Typ ATPase aus Burkholderia pseudomallei.
Kanäle sind Membranproteine, die Ionen durch eine Pore über die Membran diffundieren lassen. Durch einen präzisen, kanalabhängigen Regulationsmechanismus wird die Pore nur bei Bedarf geöffnet. TRP (transient receptor potential) Kanäle sind anhand von DNA-Sequenzvergleichen identifiziert worden und kommen ausschließlich in Eukaryonten vor. In dieser Arbeit lag der Fokus auf der Strukturbestimmung des humanen TRP Kanals Polycystin‑2 (PC‑2). PC‑2 wurde in einer Studie entdeckt, in der Patienten mit der autosomal dominanten Erbkrankheit „polyzystische Nierenerkrankung“ untersucht wurden. Patienten mit dieser Krankheit tragen eine Mutation in einem der beiden Gene PKD1 oder PKD2, welche für die Proteine Polycystin‑1 und ‑2 kodieren. In dieser Arbeit wurden verschiedene Deletionsmutanten von PC‑2 hergestellt und in das Genom menschlicher HEK293 GnTI‑ Zellen inseriert. Die Zellen, die PC‑2 bzw. die Deletionskonstrukte am stärksten synthetisierten, wurden isoliert und für die rekombinante Proteinherstellung verwendet. Die Expression von PC‑2 führte zu der Entstehung von kristalloidem endoplasmatischem Retikulum. Mutationsstudien in dieser Arbeit zeigen, dass diese morphologische Veränderung durch die Akkumulation von Membranproteinen, die mit sich selbst interagieren, begünstigt wird. Weiter ist es in dieser Arbeit gelungen, PC‑2 zu reinigen und die Struktur des Proteins mit Hilfe von Einzelpartikel Kryo-EM mit einer Auflösung von 4.6 Å zu bestimmen. Die Membrandomäne von PC‑2 ist sehr ähnlich zu den bekannten TRP Kanal Strukturen. Ein Vergleich der PC‑2 Struktur mit dem offenen und geschlossenen TRPV1 Kanal legt nahe, dass PC‑2 in seiner offenen Konformation gelöst wurde.
Der sekundär aktive Transporter BetP von C. glutamicum gehört zu der Familie der BCC- (betaine-carnitine-choline) Transporter und wird durch osmotischen Schock aktiviert. Nach seiner Aktivierung importiert BetP zwei Natriumionen und ein Glycinbetain Molekül. Durch die Akkumulierung von Glycinbetain in der Zelle steigt das osmotische Potential des Zytoplasmas, was den Wasserausstrom aus der Zelle stoppt. Viele Strukturen, die BetP in unterschiedlichen Stadien des Transportprozesses zeigen, konnten bereits mittels Röntgenkristallographie gelöst werden. Allerdings ist die N‑terminale Domäne für die Kristallisation entfernt worden und die C‑terminale Domäne, die komplett aufgelöst ist, ist an einem wichtigen Kristallkontakt beteiligt. Um strukturelle Informationen über die N‑ und C‑terminale Domäne ohne Kristallisationsartefakte zu erhalten, wurde in dieser Arbeit die Struktur von BetP mittels Einzelpartikel Kryo‑EM bestimmt. Die Struktur mit einer Auflösung von 6.8 Å zeigt BetP in einem zum Zytoplasma geöffneten Zustand. Der größte Unterschied zu allen Kristallstrukturen ist die Position der C‑terminalen α‑Helix, die um ~30° rotiert ist und dadurch deutlich enger am Protein zu liegen kommt. Da BetP in Abwesenheit von aktivierenden Stoffen analysiert wurde, wird vermutet, dass es sich bei der gelösten Struktur um den inaktiven Zustand von BetP handelt.
Rotierende ATPasen sind membrangebunden Enzymkomplexe, die bei der zellulären Energieumwandlung eine entscheidende Rolle einnehmen. Sie bestehen aus einem löslichen und einem membrangebundenen Teil. Während in dem löslichen Teil der zelluläre Energieträger Adenosintriphosphat (ATP) entweder synthetisiert oder hydrolysiert wird, baut der membrangebundene Teil entweder einen Ionengradienten auf oder nutzt die Energie eines existierenden Gradienten für die ATP Synthese. Ein wesentlicher Bestandteil des membrangebundenen Teils einer rotierenden ATPase ist der Rotor-Ring. Dieser transportiert Ionen über die Membran und rotiert dabei um seine eigene Achse. In dieser Arbeit wurde eine Studie fortgesetzt, die den Rotor-Ring der N‑Typ ATPase von B. pseudomallei mittels Kryo‑EM untersuchte und zeigte, dass der Rotor-Ring aus 17 identischen Untereinheiten aufgebaut ist. Damit hat die N‑Typ ATPase das größte Ionen-zu-ATP-Verhältnis aller bisher charakterisierten ATPasen. In dieser Arbeit wurde die c17 Stöchiometrie des N‑Typ ATPase Rotor-Rings bestätigt und die Struktur mittels Kryo‑EM bestimmt. Im besonderen Fokus lag dabei der Einfluss von Detergenzien auf die Strukturbestimmung. Es konnte gezeigt werden, dass die beiden Parameter Dichte und Mizellengröße der verwendeten Detergenzien ausschlaggebend für den Erfolg der Strukturbestimmung dieses sehr kleinen Membranproteins sind.
Magazin Oper Frankfurt
(2013)
A three-dimensional gridded climatology of carbon monoxide (CO) has been developed by trajectory mapping of global MOZAIC-IAGOS in situ measurements from commercial aircraft data. CO measurements made during aircraft ascent and descent, comprising nearly 41 200 profiles at 148 airports worldwide from December 2001 to December 2012, are used. Forward and backward trajectories are calculated from meteorological reanalysis data in order to map the CO measurements to other locations and so to fill in the spatial domain. This domain-filling technique employs 15 800 000 calculated trajectories to map otherwise sparse MOZAIC-IAGOS data into a quasi-global field. The resulting trajectory-mapped CO data set is archived monthly from 2001 to 2012 on a grid of 5° longitude × 5° latitude × 1 km altitude, from the surface to 14 km altitude.
The mapping product has been carefully evaluated, firstly by comparing maps constructed using only forward trajectories and using only backward trajectories. The two methods show similar global CO distribution patterns. The magnitude of their differences is most commonly 10 % or less and found to be less than 30 % for almost all cases. Secondly, the method has been validated by comparing profiles for individual airports with those produced by the mapping method when data from that site are excluded. While there are larger differences below 2 km, the two methods agree very well between 2 and 10 km with the magnitude of biases within 20 %. Finally, the mapping product is compared with global MOZAIC-IAGOS cruise-level data, which were not included in the trajectory-mapped data set, and with independent data from the NOAA aircraft flask sampling program. The trajectory-mapped MOZAIC-IAGOS CO values show generally good agreement with both independent data sets.
Maps are also compared with version 6 data from the Measurements Of Pollution In The Troposphere (MOPITT) satellite instrument. Both data sets clearly show major regional CO sources such as biomass burning in Central and southern Africa and anthropogenic emissions in eastern China. While the maps show similar features and patterns, and relative biases are small in the lowermost troposphere, we find differences of ∼ 20 % in CO volume mixing ratios between 500 and 300 hPa. These upper-tropospheric biases are not related to the mapping procedure, as almost identical differences are found with the original in situ MOZAIC-IAGOS data. The total CO trajectory-mapped MOZAIC-IAGOS column is also higher than the MOPITT CO total column by 12–16 %.
The data set shows the seasonal CO cycle over different latitude bands and altitude ranges as well as long-term trends over different latitude bands. We observe a decline in CO over the northern hemispheric extratropics and the tropics consistent with that reported by previous studies using other data sources.
We anticipate use of the trajectory-mapped MOZAIC-IAGOS CO data set as an a priori climatology for satellite retrieval and for air quality model validation and initialization.
A three-dimensional gridded climatology of carbon monoxide (CO) has been developed by trajectory mapping of global MOZAIC-IAGOS in situ measurements from commercial aircraft data. CO measurements made during aircraft ascent and descent, comprising nearly 41 200 profiles at 148 airports worldwide from December 2001 to December 2012 are used. Forward and backward trajectories are calculated from meteorological reanalysis data in order to map the CO measurements to other locations, and so to fill in the spatial domain. This domain-filling technique employs 15 800 000 calculated trajectories to map otherwise sparse MOZAIC-IAGOS data into a quasi-global field. The resulting trajectory-mapped CO dataset is archived monthly from 2001–2012 on a grid of 5° longitude × 5° latitude × 1 km altitude, from the surface to 14 km altitude.
The mapping product has been carefully evaluated, by comparing maps constructed using only forward trajectories and using only backward trajectories. The two methods show similar global CO distribution patterns. The magnitude of their differences is most commonly 10 % or less, and found to be less than 30 % for almost all cases. The trajectory-mapped CO dataset has also been validated by comparison profiles for individual airports with those produced by the mapping method when data from that site are excluded. While there are larger differences below 2 km, the two methods agree very well between 2 and 10 km with the magnitude of biases within 20 %.
Maps are also compared with Version 6 data from the Measurements Of Pollution In The Troposphere (MOPITT) satellite instrument. While agreement is good in the lowermost troposphere, the MOPITT CO profile shows negative biases of ∼ 20 % between 500 and 300 hPa. These upper troposphere biases are not related to the
mapping procedure, as almost identical differences are found with the original in situ MOZAIC-IAGOS data. The total CO trajectory-mapped MOZAIC-IAGOS climatology column agrees with the MOPITT CO total column within ±5 %, which is consistent with previous reports.
The maps clearly show major regional CO sources such as biomass burning in the central and southern Africa and anthropogenic emissions in eastern China. The dataset shows the seasonal CO cycle over different latitude bands and altitude ranges that are representative of the regions as well as long-term trends over latitude bands. We observe a decline in CO over the Northern Hemisphere extratropics and the tropics consistent with that reported by previous studies.
Similar maps have been made using the concurrent O3 measurements by MOZAICIAGOS, as the global variation of O3–CO correlations can be a useful tool for the evaluation of ozone sources and transport in chemical transport models. We anticipate use of the trajectory-mapped MOZAIC-IAGOS CO dataset as an a priori climatology for satellite retrieval, and for air quality model validation and initialization.