Artículo de publicación ISIA high proportion of plant species is predicted to be threatened with extinction in the near future. However, the threat status of only a small number has been evaluated compared with key animal groups, rendering the magnitude and nature of the risks plants face unclear. Here we report the results of a global species assessment for the largest plant taxon evaluated to date under the International Union for Conservation of Nature (IUCN) Red List Categories and Criteria, the iconic Cactaceae (cacti). We show that cacti are among the most threatened taxonomic groups assessed to date, with 31% of the 1,478 evaluated species threatened, demonstrating the high anthropogenic pressures on biodiversity in arid lands. The distribution of threatened species and the predominant threatening processes and drivers are different to those described for other taxa. The most significant threat processes comprise land conversion to agriculture and aquaculture, collection as biological resources, and residential and commercial development. The dominant drivers of extinction risk are the unscrupulous collection of live plants and seeds for horticultural trade and private ornamental collections, smallholder livestock ranching and smallholder annual agriculture. Our findings demonstrate that global species assessments are readily achievable for major groups of plants with relatively moderate resources, and highlight different conservation priorities and actions to those derived from species assessments of key animal groupsConsejo Nacional de Ciencia y Tecnologia
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The disposition of [3H]zeranol has been studied in the female Wistar rat, New Zealand rabbit, beagle dog, rhesus monkey and man. The blood elimination half-life of total radioactivity in rabbit was 26 h, monkey 18 h and man 22 h. In all species studied the drug was absorbed, oxidized and/or conjugated, and was extensively excreted via the bile in all species except rabbit and man, in which urinary excretion predominated. Blood total radioactivity in man probably consisted entirely of conjugates of zeranol and/or its metabolites. Urinary metabolites in all species included conjugates (beta-glucuronides and/or sulphates) of zeranol and the major metabolite zearalanone. A more polar minor metabolite was isolated from human urine and was shown to be hydroxy-zeranol. Taleranol (7 beta-zearalanol, the lower-melting diastereoisomer), a probable metabolite of zeranol (7 alpha-zearalanol, the higher-melting diastereoisomer) in animals and in man, was shown to be a urinary metabolite in a female New Zealand white rabbit which had received [3H]zeranol (8 mg/kg per day) for seven days. A reverse isotope dilution method was developed for the quantification of both diastereoisomers of zearalanol, and also zearalanone, in urine.
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