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Knowledge about the biogeographic affinities of the world’s tropical forests helps to better understand regional differences in forest structure, diversity, composition, and dynamics. Such understanding will enable anticipation of region-specific responses to global environmental change. Modern phylogenies, in combination with broad coverage of species inventory data, now allow for global biogeographic analyses that take species evolutionary distance into account. Here we present a classification of the world’s tropical forests based on their phylogenetic similarity. We identify five principal floristic regions and their floristic relationships: (i) Indo-Pacific, (ii) Subtropical, (iii) African, (iv) American, and (v) Dry forests. Our results do not support the traditional neo- versus paleotropical forest division but instead separate the combined American and African forests from their Indo-Pacific counterparts. We also find indications for the existence of a global dry forest region, with representatives in America, Africa, Madagascar, and India. Additionally, a northern-hemisphere Subtropical forest region was identified with representatives in Asia and America, providing support for a link between Asian and American northern-hemisphere forests.
Seven different instruments and measurement methods were used to examine the immersion freezing of bacterial ice nuclei from Snomax® (hereafter Snomax), a product containing ice active protein complexes from non-viable Pseudomonas syringae bacteria. The experimental conditions were kept as similar as possible for the different measurements. Of the participating instruments, some examined droplets which had been made from suspensions directly, and the others examined droplets activated on previously generated Snomax particles, with particle diameters of mostly a few hundred nanometers and up to a few micrometers in some cases. Data were obtained in the temperature range from −2 to −38 °C, and it was found that all ice active protein complexes were already activated above −12 °C. Droplets with different Snomax mass concentrations covering 10 orders of magnitude were examined. Some instruments had very short ice nucleation times down to below 1 s, while others had comparably slow cooling rates around 1 K min−1. Displaying data from the different instruments in terms of numbers of ice active protein complexes per dry mass of Snomax, nm, showed that within their uncertainty the data agree well with each other as well as to previously reported literature results. Two parameterizations were taken from literature for a direct comparison to our results, and these were a time dependent approach based on a contact angle distribution Niedermeier et al. (2014) and a modification of the parameterization presented in Hartmann et~al.~(2013) representing a time independent approach. The agreement between these and the measured data were good, i.e. they agreed within a temperature range of 0.6 K or equivalently a range in nm of a factor of 2. From the results presented herein, we propose that Snomax, at least when carefully shared and prepared, is a suitable material to test and compare different instruments for their accuracy of measuring immersion freezing.
Seven different instruments and measurement methods were used to examine the immersion freezing of bacterial ice nuclei from Snomax® (hereafter Snomax), a product containing ice-active protein complexes from non-viable Pseudomonas syringae bacteria. The experimental conditions were kept as similar as possible for the different measurements. Of the participating instruments, some examined droplets which had been made from suspensions directly, and the others examined droplets activated on previously generated Snomax particles, with particle diameters of mostly a few hundred nanometers and up to a few micrometers in some cases. Data were obtained in the temperature range from −2 to −38 °C, and it was found that all ice-active protein complexes were already activated above −12 °C. Droplets with different Snomax mass concentrations covering 10 orders of magnitude were examined. Some instruments had very short ice nucleation times down to below 1 s, while others had comparably slow cooling rates around 1 K min−1. Displaying data from the different instruments in terms of numbers of ice-active protein complexes per dry mass of Snomax, nm, showed that within their uncertainty, the data agree well with each other as well as to previously reported literature results. Two parameterizations were taken from literature for a direct comparison to our results, and these were a time-dependent approach based on a contact angle distribution (Niedermeier et al., 2014) and a modification of the parameterization presented in Hartmann et al. (2013) representing a time-independent approach. The agreement between these and the measured data were good; i.e., they agreed within a temperature range of 0.6 K or equivalently a range in nm of a factor of 2. From the results presented herein, we propose that Snomax, at least when carefully shared and prepared, is a suitable material to test and compare different instruments for their accuracy of measuring immersion freezing.
Background: Intestinal perforation or leakage increases morbidity and mortality of surgical and endoscopic interventions. We identified criteria for use of full-covered, extractable self-expanding metal stents (cSEMS) vs. "Over the scope"-clips (OTSC) for leak closure.
Methods: Patients who underwent endoscopic treatment for postoperative leakage, endoscopic perforation, or spontaneous rupture of the upper gastrointestinal tract between 2006 and 2013 were identified at four tertiary endoscopic centers. Technical success, outcome (e.g. duration of hospitalization, in-hospital mortality), and complications were assessed and analyzed with respect to etiology, size and location of leakage.
Results: Of 106 patients (male: 75 (71%), female: 31 (29%); age (mean ± SD): 62.5 ± 1.3 years, 72 (69%) were treated by cSEMS and 34 (31%) by OTSC. For cSEMS vs. OTSC, mean treatment duration was 41.1 vs. 25 days, p<0.001, leakage size 10 (1-50) vs. 5 (1-30) mm (median (range)), and complications were observed in 68% vs. 8.8%, p<0.001, respectively. Clinical success for primary interventional treatment was observed in 29/72 (40%) vs. 24/34 (70%, p = 0.006), and clinical success at the end of follow-up was 46/72 (64%) vs. 29/34 (85%) for patients treated by cSEMS vs. OTSC; p = 0.04.
Conclusion: OTSC is preferred in small-sized lesions and in perforation caused by endoscopic interventions, cSEMS in patients with concomitant local infection or abscess. cSEMS is associated with a higher frequency of complications. Therefore, OTSC might be preferred if technically feasible. Indication criteria for cSEMS vs. OTSC vary and might impede design of randomized studies.
Voraussetzung für die Entwicklung von Schutzstrategien für den Pflanzenartenschutz ist die Kenntnis über die Verteilung der Zentren der Artenvielfalt im Raum. Je nach Einbürgerungsstatus und Gefährdungssituation kommt verschiedenen Artengruppen dabei eine unterschiedliche Bedeutung zu. In der vorliegenden Studie werden für die Gesamtfläche der Bundesländer Niedersachsen und Bremen die im Niedersächsischen Pflanzenarten-Erfassungsprogramm (1982–2003) auf Messtischblatt-Quadranten- Ebene erhobenen Verbreitungsdaten von Gefäßpflanzensippen unter Berücksichtigung der Gesamtflorenliste (1.819 Sippen), ihres Einbürgerungsstatus (1.509 Indigene, 160 Archäophyten, 145 etablierte Neophyten) und ihrer Gefährdungssituation (ungefährdete und gefährdete Arten; davon 643 Sippen mit Rote-Liste-Status 1, 2, 3, G oder R) ausgewertet. Auf Basis der Gesamtliste ergibt sich eine inhomogene Verteilung der Sippendichte im Gesamtuntersuchungsraum, wobei die standörtlich relativ homogene Küste sowie das Tiefland – mit Ausnahme der großen Stromtäler (Weser, Aller, Elbe) – relativ artenarm sind und das standörtlich sehr heterogene Hügel- und Bergland grundsätzlich die höchsten Sippendichten aufweist. Unter Berücksichtigung des Einbürgerungsstatus zeigen die Archäophyten jeweils die größten Überschneidungsbereiche zu den Indigenen und etablierten Neophyten. Die Verbreitungsmuster der großen Gruppe der Indigenen ähneln denen der Gesamtliste, während sich die Archäophyten auf den Bremer Küstenraum, das Weser-Aller-Flachland, die Börden und das südliche Weser-Leine-Bergland konzentrieren. Die Zentren der Sippenvielfalt der etablierten Neophyten liegen vor allem in städtischen Ballungsräumen und erscheinen oftmals sehr punktuell. Die Rote-Liste-Arten sind in der Mehrzahl indigen (91 %), 8 % von ihnen sind Archäo-, nur 1 % Neophyten. Ihre Diversitätszentren sind außerordentlich differenziert: An der Küste gehören nur die isoliert liegenden Nordsee- Inseln dazu, während im Tiefland das Wendland, die Lüneburger Heide und das Elbe-Weser-Dreieck großflächige Diversitätszentren aufweisen. Im Hügel- und Bergland finden sich vor allem im Raum Göttingen, dem Weserbergland und am Harzrand gut abgegrenzte Zentren der Rote-Liste-Artendiversität. Viele dieser bedrohten Sippen sind vermutlich Spezialisten, die an natürliche oder naturnahe Habitate angepasst und somit nur in den wenigen Landschaftsbereichen anzutreffen sind, die die entsprechenden Habitatbedingungen bieten.
Endothelial tip cells are essential for VEGF-induced angiogenesis, but underlying mechanisms are elusive. The Ena/VASP protein family, consisting of EVL, VASP, and Mena, plays a pivotal role in axon guidance. Given that axonal growth cones and endothelial tip cells share many common features, from the morphological to the molecular level, we investigated the role of Ena/VASP proteins in angiogenesis. EVL and VASP, but not Mena, are expressed in endothelial cells of the postnatal mouse retina. Global deletion of EVL (but not VASP) compromises the radial sprouting of the vascular plexus in mice. Similarly, endothelial-specific EVL deletion compromises the radial sprouting of the vascular plexus and reduces the endothelial tip cell density and filopodia formation. Gene sets involved in blood vessel development and angiogenesis are down-regulated in EVL-deficient P5-retinal endothelial cells. Consistently, EVL deletion impairs VEGF-induced endothelial cell proliferation and sprouting, and reduces the internalization and phosphorylation of VEGF receptor 2 and its downstream signaling via the MAPK/ERK pathway. Together, we show that endothelial EVL regulates sprouting angiogenesis via VEGF receptor-2 internalization and signaling.
Rezension zu Uwe Lindemann: Die Wüste. Terra incognita - Erlebnis - Symbol. Eine Genealogie der abendländischen Wüstenvorstellungen in der Literatur von der Antike bis zur Gegenwart. Heidelberg: (Universitätsverlag C. Winter) 2000. 450 Seiten.
Uwe Lindemann nimmt sich mit seiner Dissertation eines Themas an, das bislang in der literaturwissenschaftlichen Forschung keine detaillierte Beachtung fand. Er untersucht die Wüstenvorstellungen in der Literatur.
Die Stadt als Kosmopolis : interkulturelle Stadterfahrungen in der zeitgenössischen Literatur
(2001)
Die hier dargestellten Texte stellen eine sehr heterogene Auswahl dar. 'L'Emploi du Temps', oft unter den Aspekten einer Ästhetik des Nouveau Roman untersucht, György Konráds Romane, zwischen Essayistik und Autobiographie in ihrer Thematik z.T. durchaus redundant, und Calvinos experimenteller Text haben auf den ersten Blick kaum interkulturelle Fragestellungen zum Thema, während Patrick Chamoiseaus 'Texaco' oft zitiertes Beispiel für eine interkulturelle Schreibweise geworden ist. Auf den zweiten Blick zeigt sich jedoch, daß das Thema der Interkulturalität und die Auseinandersetzung mit der Stadt als Kosmopolis, in der das Fremde nicht mehr vorrangig zum Thema gemacht wird (etwa als explizit formuliertes 'international theme'), keineswegs an Bedeutung verloren hat, sondern vielmehr die Auseinandersetzung mit dem Problem der Alterität gerade in Zeiten kultureller Gleichzeitigkeit und Gleichräumlichkeit in den ästhetischen und literarischen Gestaltungs- und Reflexionsprozeß unmittelbar einfließt.
