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In the last few years, we have been increasingly experiencing a discursive and practical use of the existing democratic structures as an instrument of anti-immigration anxiety and sentiment, from electoral support to right-wing populist parties to anti-immigrant, xenophobic, and/or racist mobilizations in and beyond the Western world. This article argues that the origins and political histories that the concepts of demos and democracy stand on provide a firm ground to resist the attempts at their current nativist/nationalist closure. Contesting the attempts to reduce the concepts of democracy and demos to strictly limited or ethnically defined populations, the article develops a political argument that relates democracy and migration, which have been represented as opposite poles within the current political map defined by the populist surge.
Abstract
In recent years, feedforward neural networks (NNs) have been successfully applied to reconstruct global plasmasphere dynamics in the equatorial plane. These neural network‐based models capture the large‐scale dynamics of the plasmasphere, such as plume formation and erosion of the plasmasphere on the nightside. However, their performance depends strongly on the availability of training data. When the data coverage is limited or non‐existent, as occurs during geomagnetic storms, the performance of NNs significantly decreases, as networks inherently cannot learn from the limited number of examples. This limitation can be overcome by employing physics‐based modeling during strong geomagnetic storms. Physics‐based models show a stable performance during periods of disturbed geomagnetic activity if they are correctly initialized and configured. In this study, we illustrate how to combine the neural network‐ and physics‐based models of the plasmasphere in an optimal way by using data assimilation. The proposed approach utilizes advantages of both neural network‐ and physics‐based modeling and produces global plasma density reconstructions for both quiet and disturbed geomagnetic activity, including extreme geomagnetic storms. We validate the models quantitatively by comparing their output to the in‐situ density measurements from RBSP‐A for an 18‐month out‐of‐sample period from June 30, 2016 to January 01, 2018 and computing performance metrics. To validate the global density reconstructions qualitatively, we compare them to the IMAGE EUV images of the He+ particle distribution in the Earth's plasmasphere for a number of events in the past, including the Halloween storm in 2003.
Woody plants provide natural archives of climatic variation which can be investigated by applying dendroclimatological methods. Such studies are limited in Southern Africa but have great potential of improving our understanding of past climates and plant functional adaptations in the region. This study therefore investigated the responsiveness of Dichrostachys cinerea to seasonal variations in temperature and rainfall at two sites in central Namibia, Waterberg and Kuzikus. Dichrostachys cinerea is one of the encroacher species thriving well in Namibia. A moving correlation and response function analysis were used to test its responsiveness to seasonal climatic variations over time. Dichrostachys cinerea growth rings showed relationships to late summer warming, lasting up to half of the rainy season. The results also revealed that past temperatures had been fluctuating and their influence on growth rings had been intensifying over the years, but to varying extents between the two sites. Temperature was a more important determinant of ring growth at the drier site (Kuzikus), while rainfall was more important at the wetter site (Waterberg). Growth ring responsiveness to rainfall was not immediate but showed a rather lagged pattern. We conclude that D. cinerea differentially responds to variations in rainfall and temperature across short climatic gradients. This study showed that the species, due to its somewhat wide ecological amplitude, has great potential for dendroclimatological studies in tropical regions.
Although cosmic-ray neutron sensing (CRNS) is probably the most promising noninvasive proximal soil moisture measurement technique at the field scale, its application for hydrological simulations remains underexplored in the literature so far. This study assessed the use of CRNS to inversely calibrate soil hydraulic parameters at the intermediate field scale to simulate the groundwater recharge rates at a daily timescale. The study was conducted for two contrasting hydrological years at the Guaraira experimental basin, Brazil, a 5.84-km(2), a tropical wet and rather flat landscape covered by secondary Atlantic forest. As a consequence of the low altitude and proximity to the equator low neutron count rates could be expected, reducing the precision of CRNS while constituting unexplored and challenging conditions for CRNS applications. Inverse calibration for groundwater recharge rates was used based on CRNS or point-scale soil moisture data. The CRNS-derived retention curve and saturated hydraulic conductivity were consistent with the literature and locally performed slug tests. Simulated groundwater recharge rates ranged from 60 to 470 mm yr(-1), corresponding to 5 and 29% of rainfall, and correlated well with estimates based on water table fluctuations. In contrast, the estimated results based on inversive point-scale datasets were not in alignment with measured water table fluctuations. The better performance of CRNS-based estimations of field-scale hydrological variables, especially groundwater recharge, demonstrated its clear advantages over traditional invasive point-scale techniques. Finally, the study proved the ability of CRNS as practicable in low altitude, tropical wet areas, thus encouraging its adoption for water resources monitoring and management.
Schon wieder ist Benis Skateboard kaputt. Er braucht dringend ein neues – aber wer soll es bezahlen? Wie gut, dass es den Wettbewerb „Meine Welt in den Gärten der Welt“ gibt. Beni träumt vom Preisgeld und beschließt, ein Kunstwerk zum gerade entstehenden Jüdischen Garten zu schaffen. In Begleitung seiner vergesslichen Oma wird der Ausflug dorthin jedoch zu einer echten Herausforderung. Ständig geht Oma verloren!
Im vierten Band der beliebten Kinderbuch-Reihe um Beni und seine jüdische Familie zieht Beni los. Er muss sich an Bushaltestellen und im großen Park alleine orientieren und findet heraus, dass sich Pflanzen an keine Grenzen halten und auch Menschen gerne mal jemand anders sind.
Kalter Hund
(2021)
Zwischen Schulabbruch und erstem Sex, zwischen Berlin und Istanbul, zwischen religiöser Freundin und wilder Cousine sucht die 16-jährige Gülay ihren Weg. Sie verknallt sich in Hacke und erkennt zu spät, dass sein Rassismus nicht nur Fassade ist, sondern zu echter Gewalt führt. Wird Gülay vor Gericht gegen ihn aussagen? Sie muss eine Entscheidung treffen – allein, rasch und mit allen Konsequenzen.
Geodetic studies of crustal deformation using Global Navigation Satellite System (GNSS, earlier commonly referred to as Global Positioning System, GPS) measurements at CSIR-NGRI started in 1995 with the installation of a permanent GNSS station at CSIR-NGRI Hyderabad which later became an International GNSS Service (IGS) site. The CSIR-NGRI started expanding its GNSS networks after 2003 with more focussed studies through installation in the NE India, Himalayan arc, Andaman subduction zone, stable and failed rift regions of India plate. In each instance, these measurements helped in unravelling the geodynamics of the region and seismic hazard assessment, e.g., the discovery of a plate boundary fault in the Indo-Burmese wedge, rate and mode of strain accumulation and its spatial variation in the Garhwal-Kumaun and Kashmir region of the Himalayan arc, the influence of non-tectonic deformation on tectonic deformation in the Himalayan arc, nature of crustal deformation through earthquake cycle in the Andaman Sumatra subduction zone, and localised deformation in the intraplate region and across the paleo rift regions. Besides these, GNSS measurements initiated in the Antarctica region have helped in understanding the plate motion and influence of seasonal variations on deformation. Another important by-product of the GNSS observations is the capabilities of these observations in understanding the ionospheric variations due to earthquake processes and also due to solar eclipse. We summarize these outcomes in this article.
Aufklärung und Emanzipation stellten das deutschsprachige Judentum vor die Aufgabe, ein modernes jüdisches Selbstverständnis zu entwickeln, das den neuen gesellschaftlichen Anforderungen entsprach. Dabei war das Gebiet der Erziehung einer jener Bereiche, in denen die jüdische Modernisierung zuerst zum Tragen kam. Durch die Neukonzeption des jüdischen Lernens, die stark von transkulturellen Diskursen geprägt war, entstanden neue pädagogische Konzepte und neue Lehrbücher. Als Erziehungsmittel trugen diese einen wichtigen Teil zum Sozialisierungsprozess des sich transformierenden Judentums bei und sind somit zentrale Quellen für die in jener Zeit stattfindende Aushandlung eines neuen jüdischen Selbstverständnisses. Der Sammelband beleuchtet in Überblicksdarstellungen und Einzelstudien die vielfältigen Wechselbeziehungen zwischen pädagogischen, religiösen und gesellschaftlichen Entwicklungen dieser Zeit und konturiert damit die im Hintergrund der jüdischen Modernisierung stehenden Prozesse des Kulturtransfers genauer.
Mehr als eine Villa
(2021)
Kein Epilog
(2021)