Canonical general relativity: Matter fields in a general linear frame

Building on the results of previous work, we demonstrate how matter fields are incorporated into the general linear frame approach to general relativity. When considering the Maxwell one-form field, we find that the system that leads naturally to canonical vierbein general relativity has the extrinsic curvature of the Cauchy surface represented by gravitational as well as non-gravitational degrees of freedom. Nevertheless the metric compatibility conditions are undisturbed, and this apparent derivative-coupling is seen to be an effect of working with (possibly orthonormal) linear frames. The formalism is adapted to consider a Dirac Fermion, where we find that a milder form of this apparent derivative-coupling appears.Comment: 13 pages; uses AMS-latex style file

Shark Declines in the Mediterranean Sea

Summarizes a study of population and biomass trends of large sharks in the Mediterranean, and highlights the risk of some species becoming extinct as a result of unintended capture in fishing gear, targeted shark fishing, and human population pressure

Long-Term Change in a Meso-Predator Community in Response to Prolonged and Heterogeneous Human Impact

Sharks and rays' abundance can decline considerably with fishing. Community changes, however, are more complex because of species interactions, and variable vulnerability and exposure to fishing. We evaluated long-term changes in the elasmobranch community of the Adriatic Sea, a heavily exploited Mediterranean basin where top-predators have been strongly depleted historically, and fishing developed unevenly between the western and eastern side. Combining and standardizing catch data from five trawl surveys from 1948 -- 2005, we estimated abundance trends and explained community changes using life histories, fish-market and effort data, and historical information. We identified a highly depleted elasmobranch community. Since 1948, catch rates have declined by .94% and 11 species ceased to be detected. The exploitation history and spatial gradients in fishing pressure explained most patterns in abundance and diversity, including the absence of strong compensatory increases. Ecological corridors and large-scale protected areas emerged as potential management options for elasmobranch conservation

Die Meeresfischerei der Zukunft

Der Klimawandel wird alle Aspekte des Lebens im Meer beeinflussen, von grundlegenden biologischen Prozessen, wie dem Überleben und Wachstum einzelner Lebewesen, bis zur Verbreitung und Häufigkeit von Arten und der Organisation mariner Nahrungsnetze. Diese Veränderungen beeinflussen die Struktur und Funktion des Ökosystems Meer und damit auch die Fischbestände und Fischereien. Viele Fischer müssen sich anpassen, wo und was sie fischen und wie reichhaltig, groß und wertvoll die gefischten Arten und der Gesamtfang sind. Viele Arten werden ihre Verbreitung polwärts verschieben, in größere Tiefen oder weiter in den offenen Ozean. Einige polare und tropische Arten werden möglicherweise aussterben. All dies wird zu einer Umstrukturierung der Lebensgemeinschaften führen mit schwer vorhersagbaren Folgen. Basierend auf verfügbaren Klimaprojektionen wird erwartet, dass die globale Fischproduktion und Fangmenge zurückgehen wird, allerdings mit großen regionalen Unterschieden, wie der Zunahme in hohen und Abnahme in niedrigen Breiten. Ein Großteil künftiger Veränderungen wird allerdings von der Entwicklung der Fischerei selbst und anderer menschlicher Einflüsse abhängen. Eine Reduzierung des Fischereidrucks sowie nachhaltiges Fischerei- und Ozeanmanagement werden nötig sein, um Fisch und Fischerei in Zukunft zu erhalten. Dabei kann der Schutz der biologischen Vielfalt im Meer als Versicherung in Zeiten des Wandels dienen

Digital Film Listings (DIGIFIL):Final Report

Final report of the Digifil project (CLARIAH, 2018) that aimed at automatically extracting, digitizing and publishing film screening data from the weekly films listings published in historical newspapers

Predator decline leads to decreased stability in a coastal fish community

Fisheries exploitation has caused widespread declines in marine predators. Theory predicts that predator depletion will destabilise lower trophic levels, making natural communities more vulnerable to environmental perturbations. However, empirical evidence has been limited. Using a community matrix model, we empirically assessed trends in the stability of a multispecies coastal fish community over the course of predator depletion. Three indices of community stability (resistance, resilience and reactivity) revealed significantly decreasing stability concurrent with declining predator abundance. The trophically downgraded community exhibited weaker top-down control, leading to predator-release processes in lower trophic levels and increased susceptibility to perturbation. At the community level, our results suggest that high predator abundance acts as a stabilising force to the naturally stochastic and highly autocorrelated dynamics in low trophic species. These findings have important implications for the conservation and management of predators in marine ecosystems and provide empirical support for the theory of predatory control