3 resultados para Patologia vegetal
em Aquatic Commons
Resumo:
Este artículo tiene por finalidad mostrar cómo un grupo de investigación dedicado a la etnobotánica resolvió el problema de conservar, ordenar y organizar una colección de material que no reúne las condiciones para ser incorporada en un herbario. Al mismo tiempo, se hace una breve revisión de varios tópicos y referencias sobre los distintos tipos de colecciones que realiza un etnobotánico y se sugieren ideas de cómo proceder con ellas. En apretada síntesis, el material documental que abarca la investigación etnobotánica compromete varios tipos de elementos, todos ellos habitualmente obtenidos in situ: a) material de herbario, b) órganos vegetales, trozos, fragmentos, material semielaborado (fibras, cordeles, etc.), c) material elaborado (artesanías, artefactos u objetos que conforman la cultura material), d) piezas complejas (tejidos, vestimentas, embarcaciones, mobiliario, adornos ceremoniales, etc. ), e) material de descarte o accesorio (tapones, tizones, envoltorios, parasoles, elementos de sostén o apoyo momentáneo, utensilios efímeros, etc.).
Resumo:
Studies on development of H. longifilis (Curvier and Valenciennes, 1840) were conducted at a temperature of 25EC ( 1Ec) in aquaria tanks continuous development were monitored with the use of wild Heerbrugy photomacroscope and length of yolk and larva were monitored using Stereo Olympus microscope with ocular micrometer. The division into animal and vegetal poles was observed 22 minutes after activation. The first cleavage occurred 65 minutes after activation while the second division which was perpendicular to the first line of division occurred 74 minutes after activation. This was quickly followed by the third and fourth cleavage at 80th and 82nd minutes after activation respectively. Morular stage was reached at 4 hours 20 minutes with formation of optic bud at 14 hours 35 minutes. (DBO) Developing embryo hatched after 27 hours of activation at a mean length of 6.63 and mean yolk length of 2.17. Yolk size decrease at an average rate of 38.5 % till the 5th day of total absorption. Growth of larvae proceeded faster in tail-anus region than in anus-snout portion of the body. The rate of yolk absorption and larva development (survival) as monitored in this work gives important information in Research and development programme for H. longifilis larva - an important aspect of Research development and implementation of appropriate technologies in small scale fisheries
Resumo:
Remote mapping were realised from December 1986 to September 1989 to describe the seasonal evolution of macrophytes colonizing the surface waters of the eastern sector of the Ebrié lagoon. The vegetal cover of this sector and associated lagoons is essentially composed of Eichhornia crassipes (water hyacinth). Its expansion is favored by the decrease in the salinity of the lagoon waters which is due to rain falls. Its migration through the lagoon environment is ensured by the overflow of the Comoé river. The opening of the Bassam inlet induced its temporary disappearence from the newly created estuarian zone.