6. Peces amazónicos y cambio climático

Con el 15% de todos los peces de agua dulce descritos en el mundo, la cuenca amazónica es el sistema de agua dulce más biodiverso del planeta. Hoy en día, los factores principales de degradación de los ecosistemas de agua dulce en la región amazónica son la rápida expansión de las infraestructuras y actividades económicas. Estas perturbaciones provocan importantes efectos negativos en las comunidades de peces y podrían verse amplificados por los impactos del cambio climático. Las pérdidas de hábitat originados por el cambio climático no deberían tener efectos sobre las tasas de extinción de la especies. Sin embargo, el estrés térmico y la limitación de oxígeno podrían provocar extinciones locales de ciertas especies y producir cambios progresivos en la estructura y composición de las comunidades actuales de peces. Las especies tolerantes al aumento de temperatura, como el Paiche, se expandirán mientras que las especies sensibles a este aumento se reducirán. Cabe destacar que hoy en día las acciones de conservación deben enfocarse en la reducción de los efectos de las amenazas antropogénicas en curso.Avec 15% de tous les poissons d'eau douce décrits dans le monde, le bassin amazonien est le système d'eau douce présentant la plus grande biodiversité de la planète. Aujourd'hui, les principaux facteurs de dégradation des écosystèmes d'eau douce dans la région amazonienne sont l'expansion rapide des infrastructures et les activités économiques. Ces perturbations provoquent d'importants effets négatifs sur les communautés de poissons et pourraient être amplifiés par les impacts du changement climatique. La perte d'habitat due au changement climatique ne devrait avoir aucun effet sur les taux d'extinction des espèces. Cependant, le stress lié à la température et la limitation de l'oxygène pourraient provoquer l'extinction locale de certaines espèces et produire des changements progressifs dans la structure et la composition des communautés actuelles de poissons. Les populations d'espèces tolérantes à l'augmentation de température, comme le Paiche, augmenteront, tandis que les populations d'espèces sensibles à cette augmentation diminueront. Il est important de noter que, à l'heure actuelle, les actions de conservation doivent se concentrer sur la réduction des effets des menaces anthropiques en cours.With 15% of all described freshwater fish in the world, the Amazon basin is the most biodiverse freshwater System of the planet. Nowadays, the main factors of degradation of freshwater ecosystems in the Amazon region are the rapid expansion of infrastructure and economic activities. These disturbances cause negative effects on fish communities and could be amplified by the impacts of climate change. Loss of habitat due to climate change should have no effect on rates of species extinction. However, thermal stress and oxygen limitation could cause local extinctions of certain species and produce Progressive changes in the structure and composition of existing fish communities. Tolerant species to temperature increase -as the Paiche- should expand, while sensitive species should be reduced. It is noteworthy that conservation actions should focus on reducing the effects of anthropogenic threats in progress

Aguas del Iténez o Guaporé

Bolivia y Brasil comparten una de las cuencas más atractivas y preservadas de la te-giuri amazônica: la cuenca del rio llénez o Guaporé, que escurre tanto sobre el lecho rocoso del Escudo Precámbrico Brasilefto como sobre las Hanuras del Beni. Estas influencias hacen que la cuenca del iténez tenga una elevada heterogeneidad de habitats, una fauna acuálica peculiar y un alto valor de conservation. Este patrimo­nio binacional posée un potencial importante para la conservación de la diversidad regional y cl dcsar rollo sostcniblc participativo de las comunidades locales. El libro contiene un resumen del conotimìento de la cuenca y sus recursos, generado en los últimos 10 anos por un equipo de investigadores bolivianos, brasilefios y de otras nacionalidades. Se presenta una descripeión del medio fisico, así como resultados relevantes sobre la biodiversidad acuática, con énfasis en algas, peces, reptiles y mamíferos. El aporte más notable del libro, adernas de la descripeión ecológica del ecosistema, son las lecciones aprendidas que surgieron de experiências locales sobre la élaboration participativa de herramientas para la gestion de los recursos hidrobiológicos.A Bolívia e o Brasil compartilham uma das bacias hidrográficas mais atrativas e preservadas da região amazônica: a bacia do Rio Iténez ou Guaporé. A combinação das influências do escudo pré-cambriano brasileiro e da planícies do Beni é uma das razões pela qual existem na região elevada heterogeneidade de habitats, fauna aquática peculiar e alto grau valor dc conservação. Eslc patrimônio binacional possui potencial significativo para a conservação da diversidade regional e desenvolvimento sustentável participativo das comunidades locais. O livro contém um resumo do conhecimento da bacia e seus recursos, gerado nos últimos dez anos por uma equipe de pesquisadores bolivianos, brasileiros e de outras nacionalidades. Apresentamos uma descrição do meio físico, bem como resultados relevantes da biodiversidade aquática, com ênfase em algas, peixes, répteis e mamíferos. A contribuição mais notável do livro, além da descrição ecológica do ecossistema, é a descrição das lições aprendidas que surgiram a partir de experiências locais sobre elaboração participativa de ferramentas para a gestão dos recursos aquáticos presentes nesta bacia

Genetic structure in the Amazonian catfish Brachyplatystoma rousseauxii : influence of life history strategies

The Dorado or Plateado (Gilded catfish) Brachyplatystoma rousseauxii (Pimelodidae, Siluriformes) is a commercially valuable migratory catfish performing the largest migration in freshwaters: from the Amazonian headwaters in the Andean foothills (breeding area) to the Amazon estuary (nursery area). In spite of its importance to inform management and conservation efforts, the genetic variability of this species has only recently begun to be studied. The aim of the present work was to determine the population genetic structure of B. rousseauxii in two regions: the Upper Madera Basin (five locations in the Bolivian Amazon) and the Western Amazon Basin (one regional sample from the Uyucali-Napo-Maraon-Amazon basin, Peru). Length polymorphism at nine microsatellite loci (284 individuals) was used to determine genetic variability and to identify the most probable panmictic units (using a Bayesian approach), after a significant departure from Hardy-Weinberg equilibrium was observed in the overall dataset (Western Amazon + Upper Madera). Bayesian analyses revealed at least three clusters in admixture in the five locations sampled in the Bolivian Amazon, whereas only two of these clusters were observed in the Western Amazon. Considering the migratory behaviour of B. rousseauxii, different life history strategies, including homing, are proposed to explain the cluster distribution. Our results are discussed in the light of the numerous threats to the species survival in the Madera basin, in particular dam and reservoir construction

Characterisation of Zea mays L. plastidial transglutaminase: interactions with thylakoid membrane proteins

Chloroplast transglutaminase (chlTGase) activity is considered to play a significant role in response to a light stimulus and photo-adaptation of plants, but its precise function in the chloroplast is unclear. The characterisation, at the proteomic level, of the chlTGase interaction with thylakoid proteins and demonstration of its association with photosystem II (PSII) protein complexes was accomplished with experiments using maize thylakoid protein extracts. By means of a specific antibody designed against the C-terminal sequence of the maize TGase gene product, different chlTGase forms were immunodetected in thylakoid membrane extracts from three different stages of maize chloroplast differentiation. These bands co-localised with those of lhcb 1, 2 and 3 antenna proteins. The most significant, a 58 kDa form present in mature chloroplasts, was characterised using biochemical and proteomic approaches. Sequential fractionation of thylakoid proteins from light-induced mature chloroplasts showed that the 58 kDa form was associated with the thylakoid membrane, behaving as a soluble or peripheral membrane protein. Two-dimensional gel electrophoresis discriminated, for the first time, the 58-kDa band in two different forms, probably corresponding to the two different TGase cDNAs previously cloned. Electrophoretic separation of thylakoid proteins in native gels, followed by LC-MS mass spectrometry identification of protein complexes indicated that maize chlTGase forms part of a specific PSII protein complex, which includes LHCII, ATPase and pSbS proteins. The results are discussed in relation to the interaction between these proteins and the suggested role of the enzyme in thylakoid membrane organisation and photoprotection.The authors thank the Fundação Para a Ciência e a Tecnologia do Ministério da Ciência, Tecnologia e Ensino Superior (FCT-MCTES, Lisboa, Portugal) for financial support in the form of grants (SFRH/BPD/20783/2004 to Alexandre Campos, SFRH/BPD/17522/2004 to Andre M. Almeida and SFRH/BD/29799/2006 to Catarina Franco), and equipment acquisition within the framework of the National Re-equipment Program National Network Mass Spectrometry (REDE/1504/REM/2005). We also thank Luz Valero (Peptide Sequencing Service, University Pompeu Fabra, Barcelona, Spain) for peptide sequencing. This work was supported by the research projects BFI 2003-03318, BFU2006-15115-CO2-01/BMC and the Cooperation Agreements GRICES-CSIC (Portugal–Spain) 2005PT0023 and 2007PT0028.Peer reviewe

DNA Metabarcoding of Amazonian Ichthyoplankton Swarms

International audienceTropical rainforests harbor extraordinary biodiversity. The Amazon basin is thought to hold 30% of all river fish species in the world. Information about the ecology, reproduction, and recruitment of most species is still lacking, thus hampering fisheries management and successful conservation strategies. One of the key understudied issues in the study of population dynamics is recruitment. Fish larval ecology in tropical biomes is still in its infancy owing to identification difficulties. Molecular techniques are very promising tools for the identification of larvae at the species level. However, one of their limits is obtaining individual sequences with large samples of larvae. To facilitate this task, we developed a new method based on the massive parallel sequencing capability of next generation sequencing (NGS) coupled with hybridization capture. We focused on the mitochondrial marker cytochrome oxidase I (COI). The results obtained using the new method were compared with individual larval sequencing. We validated the ability of the method to identify Amazonian catfish larvae at the species level and to estimate the relative abundance of species in batches of larvae. Finally, we applied the method and provided evidence for strong temporal variation in reproductive activity of catfish species in the Ucayalí River in the Peruvian Amazon. This new time and cost effective method enables the acquisition of large datasets, paving the way for a finer understanding of reproductive dynamics and recruitment patterns of tropical fish species, with major implications for fisheries management and conservation

Population genetic structure of Cichla pleiozona (Perciformes: Cichlidae) in the Upper Madera basin (Bolivian Amazon) : sex-biased dispersal ?

This study investigates the population structure of the Tucunare (Cichla pleiozona) in the Bolivian Amazon (Upper Madera) by using nuclear (EPIC-PCR, 67 individuals) and mitochondria] (Control Region, 41 published and 76 new sequences) DNA analyses, in relation with ecological (water quality: muddy, clear and mix) and geographic factors. Our analyses of both markers showed the highest diversity in clear waters (Yata, Middle and Upper Itenez), and the existence of two populations in muddy waters (Secure and Ichilo) and one in mix waters (Manuripi). On the other hand, mitochondrial analyses identified three populations in clear waters where nuclear analyses identified a panmictic population. The highest diversity observed in the Yata-Itenez system suggests that an aquatic refuge occurred during the past in this area. The possible explanations for the observed discrepancy between nuclear and mitochondrial markers are discussed, and a sex-biased dispersal seems to be the most plausible hypothesis in the light of the available information and field observations