Abstract
ABSTRACT Stream insects use in different ways the stream habitats which affect patterns of species occurrence on stream. The nestedness is one of these patterns being an ecological mechanism that generates beta diversity. In this study, we verify the effects of temporal environmental variations on nestedness patterns of Chironomidae assemblages on subtropical streams. We collected chironomid larvae during winter and summer during three years (2010, 2011 and 2012) in Brazilian Subtropical low-order streams (Erechim, state of Rio Grande do Sul, Brazil). We measured environmental variables in each stream. To assess if assemblages will show nested patterns intra- and interannual we used a NODF metric. We observed nestedness only in one year, this pattern was due to variation of limnological factors, which are directly associated with climatic conditions (precipitation and water temperature) and agricultural management (e.g. dissolved oxygen and nutrients). Climatological events affect Chironomidae community through the time. The variations on precipitation values could be one of the mainly factors that influence nestedness for this community. Finally, studies on nesting on time scales should consider inter-annual comparisons, as climatic variations are more evident.
Highlights
Stream insects use in different ways the stream habitats which affect patterns of species occurrence on stream
The excess of rain caused by El Niño in the southern hemisphere can affect the abundance of stream insects, on the other hand, the drought provoked by El Niña decrease drastically the water flow causing an increase of some stream invertebrates (Garcia et al, 2003; Garcia & Suárez, 2007; Carone et al, 2009)
We observed the influence of the temporal scale in the Chironomidae assemblages, demonstrating that time is a crucial factor in the structuring of aquatic communities
Summary
Stream insects use in different ways the stream habitats which affect patterns of species occurrence on stream. Variations in precipitation can generate variations in the assemblages of aquatic ecosystems (Bispo et al, 2006) These variations result in a decrease in the abundance of organisms and, in the species richness due to the drift caused by the flow increase in rivers and streams (Restello et al, 2014; Peralta & Martin, 2015). Drought periods compared to rainy seasons, generate greater stability for habitats and, for aquatic communities (Peralta & Martin, 2015) This is because the effects caused by high precipitation drastically alter the streambed heterogeneity, which has a direct effect on benthic assemblages. The main factor that can cause a nested pattern on benthic assemblages can be the habitat characteristic (Milesi & Melo, 2014; Cerini et al, 2020) or Iheringia, Série Zoologia, 111: e2021005
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