the amazon Basin is an unquestionable biodiversity hotspot, containing the highest freshwater biodiversity on earth and facing off a recent increase in anthropogenic threats. The current knowledge on the spatial distribution of the freshwater fish species is greatly deficient in this basin, preventing a comprehensive understanding of this hyper-diverse ecosystem as a whole. Filling this gap was the priority of a transnational collaborative project, i.e. the AmazonFish project -https://www.amazon-fish.com/. Relying on the outputs of this project, we provide the most complete fish species distribution records covering the whole Amazon drainage. The database, including 2,406 validated freshwater native fish species, 232,936 georeferenced records, results from an extensive survey of species distribution including 590 different sources (e.g. published articles, grey literature, online biodiversity databases and scientific collections from museums and universities worldwide) and field expeditions conducted during the project. This database, delivered at both georeferenced localities (21,500 localities) and sub-drainages grains (144 units), represents a highly valuable source of information for further studies on freshwater fish biodiversity, biogeography and conservation.Scientific Data | (2020) 7:96 | https://doi.collections from Peru 25,26 and by initiating sampling campaigns in detected gaps in Colombia, Peru and Brazil. All these spatial gaps in the database will also be prioritized in future updates through literature and web-based sources checking. Researchers holding fish distribution data from any of the current gaps or under-sampled areas (Fig. 2) and that wish to share these data are welcome to join the project. This information will be included with the complete source, after validation, in the next update of the database.
Genetic relationships and variation in meristic counts, body shape and colour were examined in a large sample of Symphysodon collected from several locations in floodplain habitats along the length of the Amazon River. Surprisingly, mitochondrial DNA indicates no difference between the two historically described species, Symphysodon discus and Symphysodon aequifasciatus, but shows that non-clinal variation exists with a distinct lineage found in the western Amazon. This lineage is consistent with a colour form that is distinct from other Symphysodon lineages. This form has a parapatric distribution and is recognized as a distinct species, Symphysodon tarzoo. Adaptation to floodwater habitats supports genetic cohesion across a large range preventing fine scale regional diversification of the genus. Possible explanations for the unusual set of distributions for genetic and colour characters relate to the history of the Amazon basin and the probable division of lowland species when submerged geologic arches influence surface topology.
Combined effects of climate change and deforestation have altered precipitation patterns in the Amazon. This has led to changes in the frequency of extreme events of flood and drought in recent decades and in the magnitude of the annual flood pulse, a phenomenon that influences virtually all aspects of river-floodplain ecosystem dynamics. Analysis of long-term data revealed abrupt and synchronous changes in hydrology and fish assemblage structure of a floodplain lake near the confluence of Amazon and Negro rivers. After an intense drought in 2005, the assemblage assumed a different and fairly persistent taxonomic composition and functional structure. Declines in abundance after 2005 were more pronounced for species of all sizes having equilibrium life history strategy, large species with periodic life history strategy, and for all trophic levels except primary consumers. Our results suggest that the extreme drought triggered changes in the fish assemblage and subsequent anomalous hydrological conditions have hampered assemblage recovery. These findings stress the need to account for climatic-driven hydrological changes in conservation efforts addressing aquatic biodiversity and fishery resources in the central Amazon.
RESUMOAs enchentes anuais dos rios na Amazônia alagam extensas áreas de floresta conhecidas como várzeas ou igapós. Estas áreas têm papel importante na vida dos peixes da região, pois são fontes de alimento e de abrigo. Acreditamos que o desmatamento destas áreas ocasiona prejuízos à ictiofauna principalmente pela diminuição da quantidade e diversidade de alimento disponível. O estudo da relação entre a quantidade de floresta e a dieta de Parauchenipterus galeatus (Auchenipteridae, Siluriformes), Mylossoma duriventre (Characidae, Characiformes) e Triportheus elongatus (Characidae, Characiformes) permitiu registrar pela primeira vez a influência direta da floresta alagada na ecologia alimentar de peixes na Amazônia Central. PALAVRAS-CHAVEAmazônia, peixes, alimentação, floresta alagada, lagos, desmatamento.Effects of flooded forest in the diet of three fish species in floodplain lakes of the Central Amazonia, Brazil. ABSTRACT The annual flooding of the rivers in the Amazonia extends over large forest areas known as várzeas (floodplain) or igapós (flooded forest). These areas play an important role in the life
Composição, Distribuição E Aspectos Ecológicos Da Ictiofauna De Um Trecho Do Rio Trombetas, Na Área De Influência Da Futura Uhe Cachoeira Porteira, Estado Do Pará, Brasil
RESUMO -O presente trabalho apresenta os resultados de estudo sobre a ictiofauna (inventano, distribuição, aspectos ecológicos) da bacia do rio Trombetas, entre Oriximiná e o igarapé Caxipacoré, na área de influência da futura UHE Cachoeira Porteira. Foram realizadas seis expedições de coleta entre os anos de 1985 e 1988, sendo três no período de cheia e três na seca, em seis diferentes regiões. Os dados quantitativos foram obtidos utilizando-se uma bateria padronizada com onze malhadeiras, em pescarias de 24 horas. O esforço empregado com este aparelho por região e época foi de 1.544,97 m 2 /24 horas. Outros aparelhos e métodos também foram utilizados nas capturas de modo que o inventário fosse o mais completo possível. No total foram coletadas 342 espécies de peixes, pertencentes a 11 ordens e 43 famílias. Nas pescarias padronizadas foram capturados 10.806 exemplares, com 2.181.735 gramas, correspondendo a 228 espécies, de 9 ordens e 30 famílias. O rio Trombetas apresenta duas regiões distintas no seu curso, sendo a cachoeira Porteira, o ponto de divisão. A ictiofauna apresenta distribuição espacial relacionada com esta separação, cerca de um terço das espécies são exclusivas da região de jusante e outro terço ocorre apenas na região de montante. As cachoeiras e corredeiras são importantes barreiras à dispersão das espécies dentro do rio Trombetas, mas as condições ambientais gerais parecem também influenciar esta distribuição. Das espécies que tiveram a alimentaçãoanalisada a maioria dependia de alimentos de origem autóctone. As espécies piscívoras foram dominantes em biomassa na maioria das regiões e épocas. ABSTRACT -This work presents the results of a study on the fish fauna (inventory, distribution, ecological aspects) of the Rio Trombetas Basin, between Oriximiná and igarapé Caxipacoré, in the region where a future hydroelectric dam will be constructed. Collecting trips were made between 1985 and 1988, three in the dry season and three in the wet season, in six differents sites. The quantitative data were collected using a standardized set of eleven gillnets, with different mesh sizes, in 24 h fishing. The effort used with this set of nets was the same in all sites and periods (1,544.97 m 2 /24 h). Other fishing gear and techniques, such as castnets, long-line, piscicide, etc., were also used. 342 fish species belonging to 11 orders and 43 families were collected. In the standardized fisheries 10,806 specimens, with a total of 2,181,735 grams, corresponding lo 228 species, belonging to 9 orders and 30 families were collected. The Rio Trombetas shows two different regions in its course, Porteira waterfall being the dividing point. About one third of the species are found only in the region below this waterfall; another third are exclusively found on the region above. The waterfalls and rapids are important barriers to the dispertion of the fishes, but the environmental conditions, such as strong current, presence of rocks, etc, seems to be important as well. The majority of the species analised were feedi...
The characin fish fauna associated with floating meadows on the floodplain of the Rio Negro was studied at the beginning of the rising water period. Two microhabitats were identified in the meadows (Puspulum plus O r y x vegetation and pure Oryzu vegetation) and their influence on characin abundance tested. No significant difference in characin numbers was found between microhabitats. Three species accounted for 82% of chardcins captured: Hemigrummus levis, Metynnis cJ hypsuuchen and Moenkhausia lepiduru. Metynnis CJ hypsuuchen was more abundant in Paspalurn plus Oryzu vegetation than in the other microhabitat. A similar difference was not found for H . levis and M . lepidura. The diets of the three species were similar in the smaller size classes, consisting primarily of Cladocera. However, the diets differed in the larger size classes with M . cf. hypsauchen foraging mainly on filamentous algae, M . lepiduru on wild rice and H . levis on Cladocera. The diet shift is apparently an optimal foraging strategy, while the differences in microdistribution appear to be related to predation risk.
The abundance and distribution of ichthyoplankton and their relationships to current velocity, temperature, dissolved oxygen, pH and electrical conductivity of the water in the Anavilhanas Ecological Station, Negro River, Amazonas State, Brazil, were analyzed. Preferred microhabitats for spawning, dispersion and nursery were also verified. Sampling was undertaken during the falling water period of 2001 and the rising water period of 2002, in a section of 100 km subdivided into 5 subsections, with a total of 20 stations (5 beaches, 5 ravines, 5 channels, and 5 lake channels) at night and during the day at the surface and at the bottom. 647 eggs and 4,187 larvae were captured, belonging to 10 families and four orders: Characiformes (6), Siluriformes (2), Perciformes (1), and Clupeiformes (1). Engraulidae (55.39%), Pimelodidae (30.45%), Auchenipteridae (5.23%) and Sciaenidae (5.13%) were the dominant families. The hierarchical statistical model (ANOVA) with three factors (microhabitat, depth and period) was applied to the environmental variables and the larval abundance, showing greater abundances of sciaenids in the ravines and lower abundances of engraulids in the channels. The highest captures were obtained at lower temperature values, at the bottom during the day and at the surface at night, suggesting an active larval behavior. The presence of the four larval development stages in all subsection for pimelodids and sciaenids, and in three subsections for engraulids, indicates that the Anavilhanas Ecological Station is an important spawning and nursery area for species of these groups in the Negro River. Larvae abundance of all characiform families was extremely low (from 0.1 to 1.17%), suggesting that they do not spawn in this system.A abundância e distribuição do ictioplâncton e suas relações com a velocidade da corrente, temperatura, oxigênio dissolvido, pH e condutividade elétrica da água na Estação Ecológica Anavilhanas, rio Negro, Amazonas, Brasil, foram investigadas, bem como o uso de áreas e microhabitats preferenciais para desova, dispersão e criação. As coletas foram realizadas em dois perío-dos: vazante de 2001 e enchente de 2002, em um trecho de 100 km dividido em cinco subseções, e em cada um delas foram amostrados os microhabitats praia, barranco, canal e canal de lago, com um total de 20 pontos de coletas (cinco praias, cinco barrancos, cinco canais e cinco canais de lago). As coletas foram realizadas durante o dia e à noite na superfície e no fundo. 647 ovos e 4.187 larvas de peixes foram capturados, pertencentes a quatro ordens e dez famílias: Characiformes (6), Siluriformes (2), Perciformes (1) e Clupeiformes (1). As famílias dominantes foram Engraulidae (55,39%), Pimelodidae (30,45%), Auchenipteridae (5,23%) e Sciaenidae (5,13%). O modelo de estatística hierárquica (ANOVA) com três fatores (microhabitat, profundidade e período) foi aplicado às variáveis ambientais e às abundâncias de larvas, mostrando maior abundância de Sciaenidae nos barrancos e menor de Engraulidae nos canais. As maiores ca...
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