Reproductive dynamics of Leporinus obtusidens captured downstream from an important hydropower Station in Brazil

This study evaluated the reproductive dynamics and gonadal morphology of piaparas (Leporinus obtusidens) captured downstream from the Funil Hydroelectric Power Station. The 107 piaparas evaluated were captured monthly from Sep 2006 to Aug 2007. The data were stratified among the seasons to evaluate gonad maturation and the reproductive period was determined by assessing the gonadosomatic index, hepatosomatic index, abdominal fat index (AFI), weight:length ratio, condition factor and sexual proportion. The reproductive period lasted from winter to summer (Jul-Mar) in females and from spring to autumn (Sept-Jun) in males. AFI was high during and after the reproductive period in females and only during the reproductive period in males. The highest HIS values for males and females were obtained in spring and summer (Sept-Mar). The females observed did not spawn and showed follicular atresia. These characteristics suggest that L. obtusidens does not use the study area as a reproductive site and probably migrates for this purpose

Reciclagem de Precipitação na Bacia Amazônica: O Papel do Transporte de Umidade e da Evapotranspiração da Superfície

The objective of this study is to evaluate the distribution of water budget components and precipitation recycling in the Amazon basin addressing the physical mechanisms involved in the recycling process. In general, the Amazon basin acts as a sink for atmospheric moisture, receiving water vapor transported from the ocean and from precipitation recycled from evapotranspiration by the forest. At the regional scale, the Amazon basin is an important source of water vapor, contributing to precipitation in other remote locations of South America. Here we show, on average, 20% of precipitation in the Amazon basin is recycled, varying between 15% in the northern portion and 40% in the southern portion. Thus, approximately 20% of the total rainfall in the basin is derived from local evapotranspiration processes indicating that the local contribution to the total precipitation represents a significant contribution to the regional water budget and plays an important role in the Amazon hydrological cycle. However, the variability and changes in the climate system due to both natural and anthropogenic forcings (such as the increase in the concentration of greenhouse gases in the atmosphere and changes in land use and land cover – deforestation) can affect the precipitation recycling and regional hydrologic cycle. © 2017, Sociedade Brasileira de Meteorologia. All rights reserved