Inicio  /  Water  /  Vol: 8 Par: 5 (2016)  /  Artículo
ARTÍCULO
TITULO

Historical Trends in Mean and Extreme Runoff and Streamflow Based on Observations and Climate Models

Behzad Asadieh    
Nir Y. Krakauer and Balázs M. Fekete    

Resumen

To understand changes in global mean and extreme streamflow volumes over recent decades, we statistically analyzed runoff and streamflow simulated by the WBM-plus hydrological model using either observational-based meteorological inputs from WATCH Forcing Data (WFD), or bias-corrected inputs from five global climate models (GCMs) provided by the Inter-Sectoral Impact Model Intercomparison Project (ISI-MIP). Results show that the bias-corrected GCM inputs yield very good agreement with the observation-based inputs in average magnitude of runoff and streamflow. On global average, the observation-based simulated mean runoff and streamflow both decreased about 1.3% from 1971 to 2001. However, GCM-based simulations yield increasing trends over that period, with an inter-model global average of 1% for mean runoff and 0.9% for mean streamflow. In the GCM-based simulations, relative changes in extreme runoff and extreme streamflow (annual maximum daily values and annual-maximum seven-day streamflow) are slightly greater than those of mean runoff and streamflow, in terms of global and continental averages. Observation-based simulations show increasing trend in mean runoff and streamflow for about one-half of the land areas and decreasing trend for the other half. However, mean and extreme runoff and streamflow based on the GCMs show increasing trend for approximately two-thirds of the global land area and decreasing trend for the other one-third. Further work is needed to understand why GCM simulations appear to indicate trends in streamflow that are more positive than those suggested by climate observations, even where, as in ISI-MIP, bias correction has been applied so that their streamflow climatology is realistic.

 Artículos similares

       
 
André M. Claro, André Fonseca, Helder Fraga and João A. Santos    
The susceptibility to precipitation extreme events (PEEs) and aridity in the Iberian Peninsula (IP) were assessed over a long historical period (1950?2022). Eight extreme precipitation and two aridity indices were calculated. Furthermore, two newly devel... ver más
Revista: Water

 
Andreas N. Angelakis, Andrea G. Capodaglio, Cees W. Passchier, Mohammad Valipour, Jens Krasilnikoff, Vasileios A. Tzanakakis, Gül Sürmelihindi, Alper Baba, Rohitashw Kumar, Benoît Haut, Maria G. Roubelakis, Zhang Min and Nicholas Dercas    
Contaminated water and poor sanitation are associated with disease transmission. Absent, inadequate, or improperly managed water resources and sanitation systems expose individuals to preventable health risks. Billions of people lack access to these basi... ver más
Revista: Water

 
Ning Mao, Ye Zhu, Junyue Wang, Xin Shen, Jun Hou and Lingzhan Miao    
(1) Background: The increasing complexity of marine organism habitats and the impact of climate change on the marine environment have garnered global attention towards the adaptive evolution of marine organisms. However, there still remains a lack of und... ver más
Revista: Water

 
Imad Janbain, Abderrahim Jardani, Julien Deloffre and Nicolas Massei    
Water quality monitoring is essential for managing water resources and ensuring human and environmental health. However, obtaining reliable data can be challenging and costly, especially in complex systems such as estuaries. To address this problem, we p... ver más
Revista: Water

 
Giuseppe Marco Tina and Claudio Francesco Nicolosi    
The increasing presence of non-programmable renewable energy plants increases the intermittency of the electricity supply and thus threatens the adequacy of a power system. Hydropower can solve this problem due to its flexibility. This paper applies stat... ver más
Revista: Applied Sciences