Abstract
Igarapés are Amazonian streams that are extremely susceptible to environmental changes. Due to the rapidly occurring riparian land use changes, and the several impacts these may have on fish assemblages, it is highly valuable to describe and understand the current relationships between these assemblages and the local environmental conditions, especially in barely know areas. In this research, we studied the taxonomic composition and fish assemblage attributes variation in three streams with different riparian conservation conditions: forest, intermediate and pasture. Samplings were performed every two months from October 2011 to September 2012, in three 1st order streams in the Machado River Basin, Rondônia. Fish were collected using trawls (seine net with a mesh size of 2 mm) and dip nets (2 mm mesh) along the entire stretch; the obtained samples were preserved and identified per site type. A total of 2 141 fish specimens belonging to 59 species, 17 families and five orders were recorded. Unlike the intermediate and pasture streams, the forest stream showed a high richness and low abundance. The forested stream exhibited the highest diversity and evenness value, and had low dominance, unlike the other streams. The variance partitioning and partial Redundancy Analysis (pRDA) indicated that assemblage composition was significantly explained by the environmental variables such as: depth, water velocity, pteridophytes and grasses, but not by spatial predictors. The non-metric multidimensional scaling (NMDS) analysis showed that intermediate and pasture streams separated from the forested stream. We concluded that both, the stream environmental variables and fish assemblage attributes were influenced by the different conservation status and land cover. Given the influence of regional processes, which have a pervasive role in local fish assemblages, land use at the watershed scale is important, especially to explain the higher richness and diversity found in forested streams.
Highlights
Tropical rainforest streams are nutrientpoor streams with a dense forest cover that prevents light from reaching the water surface (Walker, 1995)
non-metric multidimensional scaling (NMDS) and partial Redundancy Analysis (pRDA) seems to support the importance of forest to improve environmental complexity and species diversity/composition corroborating with previous studies (i.e. Galuch, 2007; Teresa & Casatii, 2010; Cruz et al, 2013; Santos, Ferreira, & Esteves, 2015; Casatti et al, 2015), confirming the initial hypothesis of this study in other regions and ecosystems
The greatest richness, diversity and evenness values were observed in the forested stream
Summary
Tropical rainforest streams are nutrientpoor streams with a dense forest cover that prevents light from reaching the water surface (Walker, 1995) Their biological and physicochemical features are greatly influenced by the surrounding vegetation (Mendonça, Magnusson, & Zuanon, 2005). In the Brazilian Amazon, one of the major causes of deforestation is the logging and burning of tropical forest, to produce pastures for livestock This mechanism initially enriches the soil surface with cations from the burned plant biomass, which is transferred to the soil in the form of ashes (Ferreira, Cyrino, DuarteNeto, & Martinelli, 2012). This process is commonly observed in the Machado River basin where land use resulted in extensive cattle farming, which is one of the main economic activities in the Rondônia state (Costa, 2014)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
