RESUMO -O insucesso da maioria das iniciativas de restauração de florestas naturalmente biodiversas como a Mata Atlântica desencadeou um movimento intenso de discussão sobre a ciência e prática da restauração ecológica no Estado de São Paulo. Isso convergiu na construção participativa de uma resolução estadual de caráter técnico e orientador para restauração, a qual tem sido revisada e atualizada periodicamente em workshops que reúnem mais de 200 profissionais em cada evento. Essa resolução objetivou potencializar o estabelecimento de florestas biologicamente viáveis e com riqueza de espécies vegetais condizente com a dos ecossistemas de referência, a fim de garantir a persistência das florestas restauradas e proteger a biodiversidade nativa. As contribuições dessa resolução para o aperfeiçoamento e estímulo das ações de restauração são hoje evidentes. Entre 2003 e 2008, período de discussão dessa resolução, a produção de mudas de espécies arbustivas e arbóreas nativas no Estado cresceu de 13.000.000 (55 viveiros) para 33.000.000 (114 viveiros) por ano, e o número médio de espécies produzidas nos viveiros também aumentou de 30 para mais de 80, refletindo o crescimento das ações de restauração. Do ponto de vista deste estudo, esse instrumento legal tem servido como mecanismo legítimo de política pública ambiental e de proteção dos interesses coletivos da sociedade. Particularmente, ele guia e orienta a maior parte dos investimentos em restauração ecológica e aumenta as perspectivas de maximização dos benefícios para a sociedade, que podem e devem ser obtidos com a restauração, incluindo a persistência da biodiversidade nas paisagens antrópicas tropicais.Palavras-chave: Resolução SMA-08, Ecossistema de referência e Política pública ambiental. LEGAL INSTRUMENTS CAN ENHANCE HIGH-DIVERSITY TROPICAL FOREST RESTORATION
Around the world, there is growing desire and momentum for ecological restoration to happen faster, with better quality, and in more extensive areas. The question we ask is how can laws and governmental regulations best contribute to effective, successful, and broad-scale restoration? In the state of São Paulo, Brazil, there is a legal instrument (SMA 08-2008) whose aim is to increase the effectiveness of tropical forest restoration projects in particular. It establishes, among other things, requirements regarding the minimum number of native tree species to be reached within a given period of time in restoration projects and the precise proportion of functional groups or threatened species to be included when reforestation with native species is used as a restoration technique. There are, however, two differing perspectives among Brazilian restoration ecologists on the appropriateness of such detailed legal rules. For some, the rules help increase the chances that mandatory projects of ecological restoration will succeed. For the other group, there is no single way to achieve effective ecosystem restoration, and the existing science and know-how are far from sufficient to establish standardized technical and methodological norms or to justify that such norms be imposed. Both points of view are discussed here, aiming to help those developing new legislation and improving existing laws about ecological restoration. The precedents established in São Paulo, and at the federal level in Brazil, and the ongoing debate about those laws are worth considering and possibly applying elsewhere.
This study focuses the inter-relationships among the men, the use, and the intraspecific cassava diversity, under the perspective of this crop evolutionary dynamics. The origin, the use and the current local management of varieties with high and low cyanogenic potential are important questions around cassava domestication. We collected 169 local varieties identified as ''sweet'' or ''bitter'' cassava by traditional farmers from Atlantic Forest and Amazon (Medium Negro River Basin), Brazil. Using a population genetics and an ethnobotany approach, the diversity and the genetic structure of cassava were evaluated. We found a total of 115 vernacular names, and in the Atlantic Forest sample the average genetic diversity (H S = 0.654) was higher for the sweet varieties than for bitter ones (0.582). The genetic differentiation coefficient (R ST ), used to estimate the diversity among groups, was 0.057 (P < 0.001), indicating that the divergence between the two groups is low. We obtained a low correlation between the morphological and genetic distances, and the congruence was high when the ethnoclassification and the genetic structure were considered. We discuss the adaptive advantages of the sweet varieties use, the current socio-economic changes in bitter varieties use, and the ecological history of these variety groups.
Mortality and recruitment rates were obtained for tree species over a 5.6 year period in a 1-ha fragment of secondary montane rain forest in Southeastern Brazil. All plants with a diameter at breast height (dbh) > or = 8 cm were sampled in 1989-1990 and 1995. There was an increase from 90 to 96 species, and 669 ind./ha to 749 ind./ha over the period. The mortality rate of 1.67%/yr was similar to findings for other forests, while recruitment of 3.46%/yr was the highest rate reported. Both mortality and recruitment were significantly higher in the smaller dbh classes. Recruitment was higher among rare species, and the relatively slow-growing species had significantly higher mortality rates. Differences between species dynamics were marked. Species with high values of lambda were mainly early successional and understorey trees but some understorey species also suffered a marked population decline. The classification system of species in response to light which divides understorey species into "partial shade-bearers" and "shade-bearers" groups showed to be the most suitable to the obtained results. The results suggest that this forest is undergoing a process of recovery from past disturbance.
Dipteryx alata is a native fruit tree species of the cerrado (Brazilian savanna) that has great economic potential because of its multiple uses. Knowledge of how the genetic variability of this species is organized within and among populations would be useful for genetic conservation and breeding programs. We used nine simple sequence repeat (SSR) primers developed for Dipteryx odorata to evaluate the genetic structure of three populations of D. alata located in central Brazil based on a leaf sample analysis from 101 adults. The outcrossing rate was evaluated using 300 open-pollinated offspring from 25 seed-trees. Pollen dispersal was measured by parentage analysis. We used spatial genetic structure (SGS) to test the minimal distance for harvesting seeds in conservation and breeding programs. Our data indicate that the populations studied had a high degree of genetic diversity and population structure, as suggested by the high level of divergence among populations . The estimated outcrossing rate suggested a mixed mating system, and the intrapopulation fixation index was influenced by SGS. We conclude that seed harvesting for genetic conservation and breeding programs requires a minimum distance between trees of 196 m to avoid collecting seeds from related seed-trees.
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