RESUMEN
TiO2/Karaya composite was synthesized by the sol-gel method for the photoinactivation of pathogens. This is the first time that we have reported this composite for an antimicrobial approach. The structure, morphology, and optical properties were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive X-rays (EDS), Fourier transform infrared spectroscopy (FTIR), and diffuse reflectance, and the surface area was characterized by the BET method. The XRD and EDS results showed that the TiO2/Karaya composite was successfully stabilized by the crystal structure and pore diameter distribution, indicating a composite of mesoporous nature. Furthermore, antibacterial experiments showed that the TiO2/Karaya composite under light was able to photoinactivate bacteria. Therefore, the composite is a promising candidate for inhibiting the growth of bacteria.
RESUMEN
Functional biogeography may bridge a gap between field-based biodiversity information and satellite-based Earth system studies, thereby supporting conservation plans to protect more species and their contributions to ecosystem functioning. We used airborne laser-guided imaging spectroscopy with environmental modeling to derive large-scale, multivariate forest canopy functional trait maps of the Peruvian Andes-to-Amazon biodiversity hotspot. Seven mapped canopy traits revealed functional variation in a geospatial pattern explained by geology, topography, hydrology, and climate. Clustering of canopy traits yielded a map of forest beta functional diversity for land-use analysis. Up to 53% of each mapped, functionally distinct forest presents an opportunity for new conservation action. Mapping functional diversity advances our understanding of the biosphere to conserve more biodiversity in the face of land use and climate change.
Asunto(s)
Biodiversidad , Conservación de los Recursos Naturales , Bosques , Clima , Geología , Hidrología , Rayos Láser , Perú , Análisis Espectral/métodosRESUMEN
Entamoeba chattoni frequently occurs as an intestinal infection in non-human primates. It has been isolated from both wild and captive animals. Morphologically this amoeba resembles E. histolytica. E. histolytica has also been isolated from non-human primates on a number of occasions but these isolations have been from captive animals. In recent years identification of E. histolytica has been enhanced by the introduction of iso-enzyme electrophoresis methods. This technology has been widely applied to amoebae isolated from humans from many parts of the world. Limited work using iso-enzyme electrophoresis on non-human primates in captivity has confirmed the earlier parasitological studies mentioned above as both E. histolytica and E. chattoni were isolated; furthermore zymodeme (strain or species based on the characteristic iso-enzyme electrophoretic pattern) analysis demonstrated that these two organisms could be readily distinguished by this method. The importance of establishing whether E. histolytica occurs in wild primates as a true zoonosis was emphasised by these studies, particularly from the point of view of potential disease transmission. A study of baboons (Papio ursinus) in South African game reserves has been initiated and three surveys have been conducted in the Kruger National Park; these baboons are considered to live in isolation from humans. Of the 210 isolations attempted 65-75% yielded E. chattoni while E. histolytica were cultured from the faeces of 1-3% of the baboons. Although the prevalence rates varied in each of the 3 study locations both species of amoeba were found in baboons from all of them. All the E. histolytica isolated thus far have been non-pathogenic zymodemes.(ABSTRACT TRUNCATED AT 250 WORDS)