Population Models with Diffusion and Constant Yield Harvesting

In this paper we discuss reaction-diffusion equations arising in population dynamics with constant yield harvesting in one dimension. We focus on the mathematical models of the logistic growth, the strong Allee effect, and the weak Allee effect and their influence on the existence of positive steady states as well as global bifurcation diagrams. We analyze the equations using the quadrature method and the method of sub-super solutions

Desenvolvimento p\uf3s-embrion\ue1rio do intestino anterior de Dermatobia hominis (Linnaeus Jr.) (Diptera, Cuterebridae)

Foregut in D. hominis (Linnaeus Jr., 1781) as the majority of the larval Diptera somatic tissue, is made up of polytenic cells, and grows at the expenses of the polytenization of its nuclei followed by the increase in size of each cell. The oesophagus, of ectodermic origem, is interiorly covered by a chitinous squamous epithelium that rests upon a very thin basal lamina. This sheet is surrounded by thick muscle bundles. The oesophagus intussuscepts the midgut forming the cardia. The cardia, with three epithelial layers: two internal ones, of ectodermal origin and one external of endodermic origin. At the anterior portion of the cardia, between these two types of epithelium, there is a cluster of small, non polytenic cells, forming the imaginal disk of the foregut. Metamoiphosis begins at the end of the larval period with signs of nuclear degeneration of all the polytenic cells, as well as the increase in number of the imaginal disk ones. The oesophagic portion intussuscepted into the cardia, everts; its cells suffer apoptosis and are replaced by the new cells growing from the imaginal disk. The external layer cells also degenerate and are pinched off into the lumen of the very anterior portion of the midgut. The newly formed oesophagus intussuscepts de novo to form the two internal layers of the adult cardia. At the same time the midgut regenerative cells grow anteriorly to form the new external layer of the adult cardia

Erradicação ou manejo integrado das miíases neotropicais das Américas? Eradication or integrated managment of neotropical myiases of the Americas?

A erradicação da bicheira, Cochliomyia hominivorax dos EUA, da América Central e do Norte da África tornou-se uma realidade criando e liberando machos estéreis. Por que nos não decidimos também erradicar este inseto da América do Sul? Antes de tomar uma atitude corajosa, nós discutiremos neste trabalho as razões científicas, ecológicas e econômicas. O berne, Dermatobia hominis não tem sido erradicado de nenhum pais, devido a que não dispomos de técnicas para sua criação massal em dietas artificiais. Estão faltando também estudos sobre a dispersão, comportamento sexual e sítios de agregação dos adultos no campo. Devido a que as miíases continuarão sendo controladas basicamente com inseticidas, recomendações para manejar a resistência aos inseticidas e estudos sobre métodos alternativos são discutidos visando um Manejo Integrado do berne e da bicheira com fundamentos ecológicos.<br>The eradication of the screwworm, Cochliomyia hominivorax, from USA, Central America and the North of Africa has been achieved by rearing and releasing sterile males. Why we do not decide to eradicate this insect from the southamerican countries too? In this paper the scientific, ecological and economic reasons before taking such a courageous decision are discussed. The human botfly, Dermatobia hominis, has not been eradicated from any country, because there is so far no technique available for mass production in artificial diets. Studies on dispersion, sexual behavior and aggregation sites of the adults in the field are also not known. Why the neotropical myiases will continue to be treated basically with chemicals, recommendations for insecticide resistance management and studies on alternative methods are discussed trying to apply in the future an ecologically based pest management of the screwworm and the human botfly