29,714 research outputs found
Sustainability and welfare of Podolian cattle
The aim of the present study was to evaluate the sustainability and welfare of extensively farmed Podolian cattle. A trained interviewer visited 50 farms and filled in a checklist which included four cards corresponding to the following animal categories: calves, replacements, feeders and adults. The analysis of the farming system showed that animals were able to express their main behavioural patterns. In addition, recorded animal-related variables indicated that Podolian cattle could benefit from high standards of welfare. Sustainability of the Podolian farming system in terms of human edible returns was evaluated for two production systems producing 10-month-old calves (10 month) and 18-month-old young bulls (18 month), respectively. Edible returns for humans were low when all animal intakes were considered for both production systems. However, if returns were computed using not only the amount of food used by the animals but also consumable by humans, yields were much higher for 18-month systems [103% crude protein (CP) and 37.1% gross energy (GE)] and so high that they could not be computed for 10-month systems. These results indicate either a low degree of competition (18-month system) or no competition (10-month system) between humans and Podolian cattle. Perceptions of sustainability and welfare of Podolian cattle may promote a favourable positioning of products in premium-price markets and help preserving this breed and the related traditional farming system
Inorganic separator for a high temperature silver-zinc battery
Electrode design, inorganic separators, and performance tests of multiplate five ampere-hour silver-zinc battery cel
Topological jamming of spontaneously knotted polyelectrolyte chains driven through a nanopore
The advent of solid state nanodevices allows for interrogating the
physico-chemical properties of a polyelectrolyte chain by electrophoretically
driving it through a nanopore. Salient dynamical aspects of the translocation
process have been recently characterized by theoretical and computational
studies of model polymer chains free from self-entanglement. However,
sufficiently long equilibrated chains are necessarily knotted. The impact of
such topological "defects" on the translocation process is largely unexplored,
and is addressed in this study. By using Brownian dynamics simulations on a
coarse-grained polyelectrolyte model we show that knots, despite being trapped
at the pore entrance, do not "per se" cause the translocation process to jam.
Rather, knots introduce an effective friction that increases with the applied
force, and practically halts the translocation above a threshold force. The
predicted dynamical crossover, which is experimentally verifiable, is of
relevance in applicative contexts, such as DNA nanopore sequencing.Comment: 6 pages; 7 figure
LOCATION DETERMINANTS OF FDI: A LITERATURE REVIEW
The development of economic activity and the rise in foreign direct investment (FDI) in recent decades has prompted a great deal of research into the phenomenon of multinational companies. A vast amount of empirical literature on FDI catalogues a long list of determinants that try to explain direct investment by multinational companies in a particular location, but it is noticeable that the results are not always consensual. This article provides a review of the theoretical approaches to and empirical studies on FDI in an attempt to single out the most robust factors for explaining the geographic distribution of FDI flows worldwide. It also suggests paths for future research in this area.FDI, determinants of FDI, literature review
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