96 resultados para Harsh habitat
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Pós-graduação em Ciências Biológicas (Zoologia) - IBRC
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Freshwater copepods were sampled in the La Plata River basin to identify the processes that affect beta diversity and to determine the main factors influencing their geographical distribution and patterns of endemism. Beta diversity patterns exhibited strong dissimilarity between locations; the turnover process was predominant and indicated a replacement of species along the basin. Redundancy analysis indicated the presence of two large sets of species separated geographically by a boundary zone, with several associated variables. Northern species were associated with water transparency and temperature, mean air temperature, mean air temperature during winter and minimum air temperature of coldest month, indicating that these species are not tolerant to low temperatures and are abundant in reservoirs that are common in the upper stretch of the Paraná River basin. Southern species were related with amplitude of air temperature, turbidity, total phosphorus and total suspended matter, indicating that these species are polythermic and have adapted to live in river stretches. From 20 environmental variables analyzed in our study, partial least squares analysis indicated four variables with increased retention of effects on copepod abundance: air temperature, minimum temperature of coldest month, turbidity and transparency. Because almost all of the species found in this study occurred across a wide range of habitat types, the cause of the separation between river and reservoir species could be considered to be more anthropogenic than natural, and it primarily affected species abundance. For certain members of the northern group of copepod species, distribution was dependent on high temperatures, whereas the distribution of the southern group indicated that the species were polythermic.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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A fragmentação e a perda de habitat promovem a perda de biodiversidade, sendo que esses efeitos podem interferir nas comunidades presentes em paisagens antropizadas. Dentre as conseqüências destacamos processos ecológicos chave, como a herbivoria, dispersão de sementes, fluxo gênico e predação/consumo de recursos alimentares. Entender como as espécies respondem às alterações na paisagem é essencial para promover medidas eficazes de conservação e manejo da paisagem e, consequentemente, manutenção da biodiversidade e serviços ecossistêmicos associados. Sabe-se que predadores de topo e meso predadores exercem papel fundamental sobre diversos aspectos relacionados à cascata trófica. Considerando que a paisagem pode alterar a persistência e manutenção de populações de predadores, entender com se dá o efeito da fragmentação sobre tais organismos pode aumentar o entendimento de como se dá o uso e distribuição de recursos nos níveis imediatamente abaixo dos predadores. Todavia, pouca informação temos disponíveis sobre as consequências da alteração da paisagem sobre o consumo de recursos alimentares em geral. A jaguatirica (Leopardus pardalis) é um bom modelo para estudos dessa natureza uma vez que é carnívoro e pode interferir nas demais guildas da cadeia trófica, além da literatura apontar a espécie como sendo bastante sensível a alterações em seu habitat. O estudo tem como objetivo avaliar se a estrutura da paisagem em múltiplas escalas influencia o hábito alimentar da espécie. 43 Fezes de jaguatirica de oito fragmentos de Mata Atlântica Semidecidual foram coletadas na Região Metropolitana de Campinas, São Paulo. A dieta foi caracterizada segundo a porcentagem de fezes com o determinado item alimentar (pelos, penas, escamas, sementes, carrapatos etc). 93,02% das amostras continham pelos; 55,81% penas, 20,93% escamas de répteis Esperava-se que em fragmentos em paisagem mais degradados a dieta das...
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Amphibian populations worldwide have been suffering declines generated by habitat degradation, loss, fragmentation and habitat split. With habitat loss and fragmentation in the landscape comes habitat split, which is the separation between the adult anuran habitat and breeding sites, forcing individuals to move through matrix during breeding seasons. Thus, habitat split increases the chance of extinction of amphibians with aquatic larval development and acts as a filter in the selection of species having great influence on species richness and community structure. The use of functional diversity allows us to consider the identity and characteristics of each species to understand the effects of fragmentation processes. The objective of this study was to estimate the effects of habitat split, as well as habitat loss in the landscape, on amphibians functional diversity (FD) and species richness (S). We selected 26 landscapes from a database with anuran surveys of Brazilian Atlantic Forest. For each landscape we calculated DF, S and landscape metrics at multiple scales. To calculate the DF we considered traits that influenced species use and persistence in the landscape. We refined maps of forest remnants and water bodies for metrics calculation. To relate DF and S (response variables) to landscape variables (explanatory variables), we used a model selection approach, fitting generalized linear models (GLMS) and making your selection with AICc. We compared the effect of model absence and models with habitat split, habitat amount and habitat connectivity effects, as well as their interaction. The most plausible models for S were the sum and interaction between habitat split in 7.5 km scale. For anurans with terrestrial development, habitat amount was the only plausible explanatory variable, in the 5 km scale. For anurans with aquatic larvae habitat amount in larger scales and the addition of habitat amount and habitat split were plausible...