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Chain of custody control of ipe timber (Handroanthus sp.) from the Amazon rainforest, using DNA fingerprinting /Venancio, Bárbara Rocha January 2017 (has links)
Orientador: Alexandre Magno Sebbenn / Resumo: A presente dissertação de mestrado é composta por uma seção introdutória, seguida de uma revisão da literatura a qual antecede os três capítulos subsequentes. O primeiro capítulo aborda um conjunto de revisões de conhecimentos científicos contemporâneos sobre os efeitos da exploração madeireira em florestas tropicais e as práticas madeireiras utilizadas no Brasil, quais têm se demonstrado insuficientes para garantir a sustentabilidade tanto na produção genética quanto na produção madeireira. O segundo capítulo é um “primer note” descrevendo a identificação de 402 loci putativos (polimorfismos de nucleotídeo único – SNPs, inserções / deleções - INDELs) para Ipe (Handroanthus sp.), destinado à estudos de genética de populações, filogeografia e DNA fingerprinting. O último capítulo discute a viabilidade de DNA fingerprinting para espécies do gênero Handroanthus. Esse traz a análise da diversidade genética, diferenciação genética de populações de Handroanthus sp., bem como entre os países de origem das amostras, análises de auto atribuição de genótipos e testes de atribuição de madeira ao local de origem. / Mestre
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Chain of custody control of ipe timber (Handroanthus sp.) from the Amazon rainforest, using DNA fingerprinting / Controle da cadeia de custódia de madeira de ipê (Handroanthus sp.) da Amazônia utilizando DNA fingerprintingVenancio, Bárbara Rocha [UNESP] 20 April 2017 (has links)
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Previous issue date: 2017-04-20 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A presente dissertação de mestrado é composta por uma seção introdutória, seguida de uma revisão da literatura a qual antecede os três capítulos subsequentes. O primeiro capítulo aborda um conjunto de revisões de conhecimentos científicos contemporâneos sobre os efeitos da exploração madeireira em florestas tropicais e as práticas madeireiras utilizadas no Brasil, quais têm se demonstrado insuficientes para garantir a sustentabilidade tanto na produção genética quanto na produção madeireira. O segundo capítulo é um “primer note” descrevendo a identificação de 402 loci putativos (polimorfismos de nucleotídeo único – SNPs, inserções / deleções - INDELs) para Ipe (Handroanthus sp.), destinado à estudos de genética de populações, filogeografia e DNA fingerprinting. O último capítulo discute a viabilidade de DNA fingerprinting para espécies do gênero Handroanthus. Esse traz a análise da diversidade genética, diferenciação genética de populações de Handroanthus sp., bem como entre os países de origem das amostras, análises de auto atribuição de genótipos e testes de atribuição de madeira ao local de origem. / The present master dissertation is composed by an introductory section, followed by a review of literature, which prefaces the three subsequent chapters. The first chapter of this dissertation is a review assembly contemporary scientific knowledge about the effects of the forest logging in tropical rainforests and the actual logging practices used in Brazil, which seems insufficient to ensure sustainability in both genetic and timber production aspects. The second chapter is a primer note describing the identification of 402 putative loci (single nucleotide polymorphisms –SNPs; and insertion/deletions- INDELs) for Ipe (Handroanthus sp.), intended to help population genetics, phylogeography and DNA fingerprinting studies. The last chapter discuss the feasibility of DNA fingerprinting for Handroanthus species. It brings genetic diversity analysis, genetic differentiation of Handroanthus sp. sample-populations, as well as among countries, self-assignment and timber assignment tests analysis.
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Comparative phylogeography of widespread tree species from the Congo BasinVanden Abeele, Samuel 20 December 2019 (has links) (PDF)
The aim of this PhD study was to gain new insights into the evolutionary history of the Central African rainforests, which are among the most complex and diverse ecosystems on earth. Even today, many questions regarding the underlying dynamics and evolutionary processes shaping that remarkable diversity remain unanswered, since relatively few studies have focused on the vast tropical forests growing in the Congo Basin. Therefore, we applied various molecular approaches to study the levels of genetic diversity and patterns of differentiation within and between population of the tropical tree species Scorodophloeus zenkeri, Staudtia kamerunensis and Prioria balsamifera. In Chapter 2, we conducted a phylogeographic study on the widespread tropical tree Scorodophloeus zenkeri to assess the impact of past forest fragmentation in Central African lowland forests. By applying Bayesian clustering methods, we revealed six intraspecific genetic clusters within the species. The observed genetic discontinuities most likely result from forest fragmentation during the glacial periods of the Pleistocene. Populations in Lower Guinea appeared differentiated from those in Congolia, and both bioregions harboured distinct genetic clusters.In Chapter 3, we developed 16 highly polymorphic microsatellite primers (SSRs) for Staudtia kamerunensis, a timber species for which species-specific genetic markers were lacking. By validating the developed markers in three populations, we demonstrated their usefulness to study gene flow, population structure and spatial distribution of genetic diversity in S. kamerunensis.In Chapter 4, we applied the newly developed SSRs, two nuclear gene markers and a chloroplast marker to search for evolutionary lineages in Staudtia kamerunensis, a species with a complex taxonomical history. Our analyses reveal multiple genetic discontinuities among populations throughout Central Africa, probably resulting from ancient rainforest fragmentation during cold and dry periods in the Pliocene and/or Pleistocene. However, the clear genetic disjunction observed between northern and southern populations in Lower Guinea could correspond to a genetic break between the kamerunensis and gabonensis varieties described in Staudtia kamerunensis.In Chapter 5, we developed two new sets of microsatellite primers (SSRs); 16 primer pairs for Prioria balsamifera and 15 primer pairs for Prioria oxyphylla. Validation of the primers in two populations of each species, as well as the cross-amplification tests, demonstrated the usefulness of the SSRs to study gene flow and spatial genetic structure in African Prioria species, which is needed to prevent genetic erosion and to set up proper conservation guidelines.In Chapter 6, the 16 newly developed microsatellite loci were amplified in individuals of P. balsamifera from Gabon and the Democratic Republic of the Congo, to assess the levels of genetic diversity and intraspecific differentiation. Our analyses show that the genetic diversity in P. balsamifera populations is relatively low, so efforts should be made to prevent further depletion of the gene pool. Bayesian clustering analyses revealed multiple genetic discontinuities throughout the Congo Basin, probably caused by ancient forest fragmentation. The inferred intraspecific clusters show a parapatric distribution, so they can potentially be used to determine the origin of individuals at a regional scale. Additionally, various genetic assignment methods show that the SSR dataset generated in this study can be used as a reference database for Gabon and DR Congo. The general discussion allows us to show similarities in the genetic structures of species that can be interpreted in terms of forest cover history in Central Africa. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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