Redirigiendo al acceso original de articulo en 17 segundos...
Inicio  /  Water  /  Vol: 10 Par: 6 (2018)  /  Artículo
ARTÍCULO
TITULO

The Impacts of Climate Variability and Land Use Change on Streamflow in the Hailiutu River Basin

Guangwen Shao    
Yiqing Guan    
Danrong Zhang    
Baikui Yu and Jie Zhu    

Resumen

The Hailiutu River basin is a typical semi-arid wind sandy grass shoal watershed in northwest China. Climate and land use have changed significantly during the period 1970?2014. These changes are expected to impact hydrological processes in the basin. The Mann?Kendall (MK) test and sequential t-test analysis of the regime shift method were used to detect the trend and shifts of the hydrometeorological time series. Based on the analyzed results, seven scenarios were developed by combining different land use and/or climate situations. The Soil Water Assessment Tool (SWAT) model was applied to analyze the impacts of climate variability and land use change on the values of the hydrological components. The China Meteorological Assimilation Driving Datasets for the SWAT model (CMADS) was applied to enhance the spatial expressiveness of precipitation data in the study area during the period 2008?2014. Rather than solely using observed precipitation or CMADS precipitation, the precipitation values of CMADS and the observed precipitation values were combined to drive the SWAT model for better simulation results. From the trend analysis, the annual streamflow and wind speed showed a significant downward trend. No significant trend was found for the annual precipitation series; however, the temperature series showed upward trends. With the change point analysis, the whole study period was divided into three sub-periods (1970?1985, 1986?2000, and 2001?2014). The annual precipitation, mean wind speed, and average temperature values were 316 mm, 2.62 m/s, and 7.9 °C, respectively, for the sub-period 1970?1985, 272 mm, 2.58 m/s, and 8.4 °C, respectively, for the sub-period 1986?2000, and 391 mm, 2.2 m/s, and 9.35 °C, respectively, for the sub-period 2001?2014. The simulated mean annual streamflow was 35.09 mm/year during the period 1970?1985. Considering the impact of the climate variability, the simulated mean annual streamflow values were 32.94 mm/year (1986?2000) and 36.78 mm/year (2001?2014). Compared to the period 1970?1985, the simulated mean annual streamflow reduced by 2.15 mm/year for the period 1986?2000 and increased by 1.69 mm/year for the period 2001?2014. The main variations of land use from 1970 to 2014 were the increased area of shrub and grass land and decreased area of sandy land. In the simulation it was shown that these changes caused the mean annual streamflow to decrease by 0.23 mm/year and 0.68 mm/year during the periods 1986?2000 and 2001?2014, respectively. Thus, the impact of climate variability on the streamflow was more profound than that of land use change. Under the impact of coupled climate variability and land use change, the mean annual streamflow decreased by 2.45 mm/year during the period 1986?2000, and the contribution of this variation to the decrease in observed streamflow was 27.8%. For the period 2001?2014, the combined climate variability and land use change resulted in an increase of 0.84 mm/year in annual streamflow. The results obtained in this study could provide guidance for water resource management and planning in the Erdos plateau.

 Artículos similares

       
 
Andrea Momblanch, Ian P. Holman and Sanjay K. Jain    
Global change is expected to have a strong impact in the Himalayan region. The climatic and orographic conditions result in unique modelling challenges and requirements. This paper critically appraises recent hydrological modelling applications in Himala... ver más
Revista: Water

 
Haidong Ou, Shirong Cai, Wei Fan, Junliang Qiu, Xiaolin Mu, Tao Zhou, Xiankun Yang and Lorenzo Picco    
The Pearl River is one of China?s large rivers, the second-largest river and the fourth-longest river in China. Its unique geography, landform, and climate conditions create unique fluvial geomorphological processes. Affected by human activities and clim... ver más
Revista: Water

 
Leonardo Seabra Furtado, Raimundo Vitor Santos Pereira and Everaldo Barreiros de Souza    
This work contributes to the studies on landscape mapping induced by human pressure directly related to the urbanization process, whose approach is based on the concept of hemeroby adapted to the metropolitan area of Belém in the eastern Amazon. The mapp... ver más
Revista: Urban Science

 
Peiyue Li and Jianhua Wu    
This editorial introduces the Special Issue titled ?Water Resources and Sustainable Development,? underscoring the critical need for sustainable management of water resources in light of increasing demand, climate change impacts, and pollution. The issue... ver más
Revista: Water

 
Kaitano Dube    
Oceans play a vital role in socioeconomic and environmental development by supporting activities such as tourism, recreation, and food provision while providing important ecosystem services. However, concerns have been raised about the threat that climat... ver más