Studies on the mutualism of spruce bark-sucking lachnids and red wood ants

Für die Ernährung der Waldbiozönose spielt der Honigtau, das Exkret phloemsaugender Homopteren, eine wesentliche ernährungsphysiologische Rolle (ZÖBELEIN 1954a, b, WELLENSTEIN 1952). Insbesonders stehen Ameisen mit zahlreichen Spezies von Aphiden und Cocciden in mehr oder weniger enger trophobiotischer Beziehung, denn sie decken ihren Kohlenhydratbedarf fast ausschließlich durch den Honigtau ab (WELLENSTEIN 1952, BUCKLEY 1987; HÖLLDOBLER & WILSON 1990). Die Sesshaftigkeit und der Aufbau großer volkstarker Kolonien bei den forstlich bedeutsamen Waldameisen (Formica s.str.) in den gemäßigten Breiten ist wesentlich auf die trophobiotische Nutzung quantitativ besonders starker Honigtauerzeuger, wie etwa die Lachniden und Lecanien, zurückzuführen (GÖßWALD 1990). An der Fichte (Picea abies) leben 5 Lachnidenarten (Cinara spec.) und 2 Lecanienarten (Physokermes spec.), deren Beziehung zu Ameisen unterschiedlich stark ist (KLOFT et al. 1985). Die vorliegende Freilandstudie befasst sich mit der saisonalen Entwicklung von 2 koexistierenden Fichtenlachnidenarten – der obligatorisch myrmekophilen Cinara piceicola (CHOLODKOVSKY) und der fakultativ myrmekophilen Cinara pruinosa (HARTIG) – in Abhängigkeit des Besuches der Kleinen Roten Waldameise Formica polyctena FÖRSTER. Inwieweit eine interspezifische Konkurrenz der beiden Cinara-Arten um den Mutualisten F. polyctena vorherrscht, ist ebenso Gegenstand der Untersuchung.During April to October 2004 the prefered sucking-sites and seasonal abundances (number of aphid colonies, number of individuals per aphid colony) of two spruce bark-sucking aphid species (Cinara spec.) were investigated. The intensity of ant attendance by the red wood ant Formica polyctena FÖRSTER also was registrated in at least one day of a month-decade (expressed as the quotient of the number of ants visiting an aphid colony and the number of aphids per colony). The presence of ant workers had a strong effect on the fitness of the obligatly myrmecophilous species Cinara piceicola (CHOLODKOVSKY) – measured by the sum of aphid colonies in a month-decade and by the mean of the survival time in days within the weeks of ant exclusion. With exception of the second decade of May and June, where the mean number of aphids per colony differs significantly between the two myrmecophilous Cinara species, no difference could be found in ant attendance

Global Change: Challenges for Regional Water Resources

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Water Balance Changes and Responses of Ecosystems and Society in the Berlin-Brandenburg Region – a Review

The climate change debate has increased the need for knowledge on both long- and short-term regional environmental changes. In general, these changes may often be a product of multiple causes, which complicates the separation of single driving forces. In this review we focus on current water budget changes in Germany’s capital region, Berlin-Brandenburg, over the last 30 years. Available studies from a variety of disciplines (e.g. hydrology, water engineering, landscape ecology, nature conservation) were analysed in order to (1) identify both local and regional hydrological changes, (2) reveal their potential causes, and (3) discuss responses of ecosystems and society. These studies show that the Berlin-Brandenburg region is widely characterised by decreasing groundwater recharge, leading to decreasing groundwater and lake levels as well as decreasing fluvial discharge. These trends result both from complex, regional human impacts (e.g. long-term effects of hydro-melioration and changes in forest composition) and more general climate warming. The observed and assumed (future) changes of the regional water balance have been creating, and will continue to create, multifaceted impacts on existing ecosystems and society (e.g. wetland drying, decrease of biodiversity, decrease of productivity of grasslands and forests, increasing conflicts of interests). Several efforts to respond to the regional water deficit problem have already been undertaken, comprising for instance land-use optimisation, wetland restoration measures and the reestablishment of mixed deciduous forests. In general, however, the reviewed regional material on this topic reveals that the number and complexity of empirical studies are still poor. Thus, for both the identification and the explanation of current water balance changes and their effects, as well as for development and implementation of adaptive strategies, further multidisciplinary research efforts at different scales, including interregional comparisons, are required. Furthermore, both the observation of hydrological changes and the evaluation of adaptive and mitigative responses require at least continuous or, even better, extended monitoring efforts

Time Asymptotics and Entanglement Generation of Clifford Quantum Cellular Automata

We consider Clifford Quantum Cellular Automata (CQCAs) and their time evolution. CQCAs are an especially simple type of Quantum Cellular Automata, yet they show complex asymptotics and can even be a basic ingredient for universal quantum computation. In this work we study the time evolution of different classes of CQCAs. We distinguish between periodic CQCAs, fractal CQCAs and CQCAs with gliders. We then identify invariant states and study convergence properties of classes of states, like quasifree and stabilizer states. Finally we consider the generation of entanglement analytically and numerically for stabilizer and quasifree states.Comment: published version; edited some proofs (esp. for Lemma 4.9) and corrected typo

Development of barium boron aluminosilicate glass sealants using a sol–gel route for solid oxide fuel cell applications

A key problem in the fabrication of planar solid oxide fuel cells is the sealing of the metallic interconnect to the ceramic electrolyte. The sealing material must be gas-tight, stable in different atmospheres at high temperature, chemically compatible with the other cell components and resistant to thermal stresses. Glass–ceramic sealants are good candidates because of their high mechanical properties and the possibility to use a wide range of chemical compositions to control some physical properties like viscosity or coefficient of thermal expansion (CTE). In this work, glass sealants were synthesized using a sol–gel route, which generally allows to obtain both homogeneity at a nanoscale and reduction of the processing temperature. The studied glasses were based on the system BaO–B2O3–Al2O3–SiO2 with varying amounts of CaO and MgO additions. Dilatometry, differential thermal analysis and hot-stage microscopy were the techniques used to determine optimal thermal treatment for sealing operation (880 °C with a dwell time of 10 h). The thermomechanical properties of the sealants were improved after sealing by a thermal treatment transferring the sealant into a favourable partially polycrystalline state. Gas-tightness tests performed after joining and 100 h ageing treatment at 800 °C under air of steel-sealant-steel assemblies highlighted that 4 of the selected glass chemical compositions remained impermeable. Joining degradations, crystalline phases evolution and CTE of these glasses were analysed. Electrical resistivities were larger than 105 Ω cm at 700 °C. On the basis of these results, four glasses were identified as promising candidates for this application

How to extract and analyze pollen from internal organs and exoskeletons of fossil insects

This protocol explains how to extract pollen from fossil insects with subsequent descriptions of pollen treatment. We also describe how to document morphological and ultrastructural features with light-microscopy and electron microscopy. It enables a taxonomic assignment of pollen that can be used to interpret flower-insect interactions, foraging and feeding behavior of insects, and the paleoenvironment. The protocol is limited by the state of the fossil, the presence/absence of pollen on fossil specimens, and the availability of extant pollen for comparison. For complete details on the use and execution of this protocol, please refer to Wappler et al. (2015), Ulrich and Grímsson (2020), and Wedmann et al. (2021)

Additive manufacturing (3D printing). TAB-Fokus

Industrial additive manufacturing technologies enable the production of highly complex components and openup new options for customised series production. Both in Germany and worldwide, most industries are still at an early stage of tapping the manifold application potentials of additive manufacturing. Compared to other countries worldwide, Germany’s strength lies primarily on the side of developers, whereas the user side rather shows some deficiencies. This is why the major challenge for the years to come is to broaden the industrial user base in Germany. Overcoming non-technical barriers that often impede the introduction of additive manufacturing technologies represents a key factor in this respect – particularly for small and medium-sized companies. So far, with regard to the existing funding activities which are mainly focusing on technological development goals, only little consideration is given to non-technical fields of innovation. In order to optimally interlink the innovation process with society’s needs, research on economic and social issues associated with additive manufacturing should be strengthened

PhoenixD Magazine - News from the German Cluster of Excellence on Optics and Photonics

News from the German Cluster of Excellence PhoenixD on Optics and Photonics at Leibniz University Hannover with reports, interviews, portraits and the PhoenixD chronicle. Scientific topics are integrated optics, optics production, optical materials and others.DFG - Deutsche Forschungsgemeinschaft/Exzellenzstrategie des Bundes und der Länder/EXC 2122, Projekt-ID 390833453/E

Mouse Mammary Tumor Virus Promoter-Containing Retroviral Promoter Conversion Vectors for Gene-Directed Enzyme Prodrug Therapy are Functional In Vitro and In Vivo

Gene directed-enzyme prodrug therapy (GDEPT) is an approach for sensitization of tumor cells to an enzymatically activated, otherwise nontoxic, prodrug. Cytochrome P450 2B1 (CYP2B1) metabolizes the prodrugs cyclophosphamide (CPA) and ifosfamide (IFA) to produce the cytotoxic substances phosphoramide mustard and isophosphoramide mustard as well as the byproduct acrolein. We have constructed a retroviral promoter conversion (ProCon) vector for breast cancer GDEPT. The vector allows expression of CYP2B1 from the mouse mammary tumor virus (MMTV) promoter known to be active in the mammary glands of transgenic animals. It is anticipated to be used for the generation of encapsulated viral vector producing cells which, when placed inside or close to a tumor, will act as suppliers of the therapeutic CYP2B1 protein as well as of the therapeutic vector itself. The generated vector was effectively packaged by virus producing cells and allowed the production of high levels of enzymatically active CYP2B1 in infected cells which sensitized them to killing upon treatment with both IFA and CPA. Determination of the respective IC50 values demonstrated that the effective IFA dose was reduced by sixteen folds. Infection efficiencies in vivo were determined using a reporter gene-bearing vector in a mammary cancer cell-derived xenograft tumor mouse model

Late Quaternary evolution of rivers, lakes and peatlands in northeast Germany reflecting past climatic and human impact – an overview

Die Kenntnis der regionalen Paläohydrologie ist eine wesentliche Grundlage für das Verständnis aktueller Umweltfragen, wie zum Beispiel nach den Gründen von hydrologischen Veränderungen, dem Einfluss von Landnutzungsstrategien und der Wirksamkeit von Renaturierungsvorhaben in Feuchtgebieten. Auch die Interpretation von Modellierungsergebnissen zu den künftigen Einflüssen des Klima- und Landnutzungswandels auf das Gewässersystem kann durch die Einbeziehung (prä-) historischer Analogien verbessert werden. Für das glazial geprägte nordostdeutsche Tiefland wurde eine Übersicht der vorliegenden paläohydrologischen Befunde für den Zeitraum der letzten etwa 20.000 Jahre erarbeitet. Die Entwicklung der Flüsse wurde mit Blick auf die Tal-/Auengenese und das Ablagerungsmilieu, die Veränderung des Tal- und Gerinneverlaufs sowie den Paläoabfluss bzw. das Paläohochwasser betrachtet. Wesentliche genetische Unterschiede bestehen zwischen Alt- (Elster- und Saalekaltzeit) und Jungmoränengebieten (Weichselkaltzeit) sowie zwischen hoch und tief gelegenen Tälern. Letztere sind stark durch Wasserspiegelveränderungen in der Nord- und Ostsee beeinflusst worden. Die Entwicklung der Seen wurde hinsichtlich der Seebildung, die überwiegend eine Folge der spätpleistozänen bis frühholozänen Toteistieftau-Dynamik ist, und der Veränderungen im Ablagerungsmilieu analysiert. Weiterhin standen Seespiegelveränderungen im Fokus, wobei sich hoch variable lokale Befunde mit einigen Übereinstimmungen zeigten. Der Überblick zur Moorentwicklung konzentrierte sich auf hydrogenetische Moorentwicklungsphasen und auf die langfristige Entwicklung des Grundwasserspiegels. Enge Beziehungen zwischen der Entwicklung der Flüsse, Seen und Moore bestanden insbesondere im Spätholozän durch komplexe Vermoorungsprozesse in den großen Flusstälern. Bis in das Spätholozän wurde die regionale Hydrologie überwiegend durch klimatische, geomorphologische und nicht-anthropogene biologische Faktoren gesteuert. Seit dem Spätmittelalter wurde in der Region das Gewässernetz und der Wasserkreislauf im starken Maß durch anthropogene Interventionen beeinflusst (z.B. Aufstau von Flüssen und Seen, Bau von Kanälen und Deichen, Moorkultivierung). In den letzten etwa 50 Jahren haben dann sogar die kurzfristigen anthropogenen Eingriffe, z.B. in Form von Abflussregulierung, Hydromelioration und künstlicher Seebildung, die Wirksamkeit langfristiger klimatischer und geomorphologischer Prozesse übertroffen.researc