7 research outputs found
La Pirámide de la Información Revisitada: Enriqueciendo el Modelo Desde la Ciencia Cognitiva
Full text linkL'Ă©nonciation scripturale, l'exemple de Roland Barthes
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University of TorontoLa thèse décrit des stratégies de persuasion effectuées par l'énonciation scripturale. Celle-ci dénote le "faire" du langage écrit, faire qui comprend notamment la construction stratégique des éléments de la situation discursive (la scénographie): le temps, l'espace, la personne, et la transtextualité. Les correspondances de ces derniers éléments aux catégories établies par la rhétorique ancienne et par la rhétorique moderne sont discutées. L'exposé théorique se poursuit et se complète dans les analyses textuelles. Les passages analysés viennent tous de l'oeuvre de Roland Barthes. Ce choix vient de l'intention d'offrir une meilleure appréciation des procédés traditionnels de la persuasion dans la pratique scripturale de Barthes, procédes qui ont été quelque peu négliges en faveur de l'attention prêtée aux aspects innovateurs de cette pratique.Ph.D
Drought stress leads to systemic induced susceptibility to a nectrotrophic fungus associated with mountain pine beetle in Pinus banksiana seedlings
No full textTabanids: Neglected subjects of research, but important vectors of disease agents!
No full text© 2014 Elsevier B.V. Tabanids are nuisance pests for people and livestock because of their painful and irritating bite, persistent biting behavior, and blood ingestion. About 4400 tabanid species have been described; they are seasonally present in all kinds of landscapes, latitudes, and altitudes. High populations have a significant economic impact on outdoor activities, tourism, and livestock production. Tabanids are also vectors of animal disease agents, including viruses, bacteria and parasites. However, tabanids have received little attention in comparison with other hematophagous Diptera. Here, we highlight the many direct and indirect impacts of tabanids and provide a brief summary of tabanid morphology, biology, and life cycle. Impacts include pathogen transmission, parasite transportation (Dermatobia hominis), biological transmission (Loa loa), and mechanical transmission of viruses, such as equine infectious anemia virus, protozoa, such as Trypanosoma evansi and Besnotia besnoiti, and bacteria, such as Bacillus anthracis and Anaplasma marginale. We discuss parameters of mechanical transmission and its mathematical modeling. Control methods for tabanid populations are also summarized; these include trapping, the use of insecticides, repellents, and livestock protection. Lastly recommendations are provided for the direction of future research
