Community-Based Management of Amazonian Biodiversity Assets

The Amazon is the largest forest system on Earth, supporting a variety of indigenous societies, small farmers, extractivists, and artisanal fishers with different cultures and relations with wildlife. However, the Brazilian Amazon has lost more than 436, 000 km2 of forest in the last 30 years, and Protected Areas may not be enough to ensure the conservation of biodiversity and cultural heritage. On the other hand, formal alliances with rural inhabitants can decentralize resource management, strengthen full-time surveillance systems, reduce overall costs, and boost conservation effectiveness. Here, we provide an assessment of the two largest community-based management (CBM) programs in the Brazilian Amazon, which are inducing strong social and ecological benefits at a large scale. First, we show the benefits from CBM of giant arapaima, which has promoted an impressive stock recovery of the world’s largest freshwater scaled fish (Arapaima spp.), generating income and other benefits for rural livelihoods in Amazonian floodplains. Second, we show that CBM of freshwater turtles (Podocnemis spp.) has also promoted the population recovery of overexploited turtles, contributing to the maintenance of important cultural values. We also identified a set of social and institutional principles, and the intrinsic values of natural resources, which can help develop successful CBM programs. Finally, we discuss how these principles can strengthen existing initiatives and/or inspire new ones. Reconciling biodiversity conservation and local aspirations for rural development is an urgent socioecological demand in Amazonia. Raising the profile of successful initiatives can be a powerful strategy to disseminate a message of hope and action to local and international agencies that can support the scaling up of these successful models

Intraspecific genetic diversity of Drechslera tritici-repentis as detected by random amplified polymorphic DNA analysis

The phytopathogenic fungus Drechslera tritici-repentis causes tan spot, an important disease of wheat in the southern Brazilian state of Rio Grande do Sul. Twelve D. tritici-repentis isolates were obtained from wheat seeds from different locations in the state. Their colony morphology on potato dextrose agar and polymorphisms in genomic DNA by the random amplified polymorphic DNA (RAPD) method were investigated. For the RAPD method, 23 primers were tested of which nine were selected for use in the study of D. tritici-repentis polymorphisms. The degree of similarity between isolates was calculated using a simple matching coefficient and dendrograms constructed by the unweighted pair-group method with arithmetical averages (UPGMA). The morphological and RAPD analyses showed intraspecific polymorphisms within the isolates, but it was not possible to establish a relationship between these polymorphisms and the geographical regions from where the host seeds were collected