Artículos de revistas
Seasonal weather effects on hydrology drive the metabolism of non-forest lowland streams
Fecha
2013-05Registro en:
Leggieri, Leonardo Ramón; Feijoó, Claudia Silvina; Giorgi, Adonis David Nazareno; Ferreiro, Nicolas Andres; Acuña, Vicenç; Seasonal weather effects on hydrology drive the metabolism of non-forest lowland streams; Springer; Hydrobiologia; 716; 1; 5-2013; 47-58
0018-8158
Autor
Leggieri, Leonardo Ramón
Feijoó, Claudia Silvina
Giorgi, Adonis David Nazareno
Ferreiro, Nicolas Andres
Acuña, Vicenç
Resumen
Weather variations change stream hydrological conditions, affecting the stream function. A seasonal study in three well-conserved first-order Pampean streams was carried out to test the hypothesis that rainfalls are the main drivers of whole-stream metabolism, through their effects on hydrology. We estimated the stream metabolism and metabolic contribution of six relevant communities (angiosperms, macroalgae, seston, epiphyton, epipelon,and hyporheos) during late spring, summer, and winter and examined the relation between gross primary production (GPP) and photosynthetic active radiation (PAR). Our results showed that the decrease in available streambed light due to the dissolved organic carbon after rainfalls was the main factor related to the decrease in the ecosystem and community metabolisms. For instance, GPP oscillated from *10 gO2 m-2 d-1 in early spring (low flows) to *3 gO2 m-2 d-1 in summer (high flows). Ecosystem respiration (ER) was less sensitive than GPP to rainfalls due to the increase of hyporheic respiration. Rainfalls also caused a significant loss of downstream macroalgal biomass. At a day scale, the high PAR of late spring and summer saturated GPP during the afternoon, and the low temperature of winter mornings constrained GPP. Hence, the knowledge of weather changes is key to understanding the main hydrological drivers of stream function.