Add to ORKGRunoff generation and dynamics is an important issue in watershed and water resource management, but the mechanism in large scale is unclear and site-dependent. For this reason, spatial variations of delta D and delta O-18 of river water and their sources within large-area of the Heishui Valley of the upper Yangtze River in western China were investigated during the wet season. A total 117 river water samples were collected at 13 sampling sites located at the junction of the principal river course and its tributaries. The results showed no spatial variations of either delta D or delta O-18 values existed among tributary sampling sites A, B, E, F, H and I during the wet season, and significantly spatial variation occurred between tributary s...
Stable isotopic compositions (delta O-18 and delta D) in water samples collected from Parbati River ...
Understanding the runoff characteristics and interaction processes between the mainstream and its tr...
The stable isotope technique of oxygen and hydrogen (δ18O and δ2H) and deuterium excess (d...
Runoff generation and dynamics is an important issue in watershed and water resource management, but...
Spatial variations of delta D and delta O-18 among seven tributaries and their water sources were in...
The primary objective of this study was to quantify the contribution of glacial melt to total runoff...
The integrated use of isotopic and hydrochemical tracers is an effective way to investigate hydrolog...
Interactions between the Yangtze River and Poyang Lake are undergoing rapid changes due to intensive...
The flow regime and biogeochemical cycles are greatly affected by river damming and drought, especia...
Topography-climate-vegetation-runoff relationships are important issues in hydrological studies. In ...
Surface water and groundwater interaction variations in time and space are crucial for effective wat...
In recharge areas, the Heihe River flow was separated into components of ice-snowmelt and precipitat...
Poyang Lake, whose hydrological characteristics are impacted by the operation of the Three Gorges Da...
Understanding runoff generation and dynamics is the basis for water resource management, while water...
This study investigates precipitation, snow, groundwater, glaciers and frozen soil in different land...
Stable isotopic compositions (delta O-18 and delta D) in water samples collected from Parbati River ...
Understanding the runoff characteristics and interaction processes between the mainstream and its tr...
The stable isotope technique of oxygen and hydrogen (δ18O and δ2H) and deuterium excess (d...
Runoff generation and dynamics is an important issue in watershed and water resource management, but...
Spatial variations of delta D and delta O-18 among seven tributaries and their water sources were in...
The primary objective of this study was to quantify the contribution of glacial melt to total runoff...
The integrated use of isotopic and hydrochemical tracers is an effective way to investigate hydrolog...
Interactions between the Yangtze River and Poyang Lake are undergoing rapid changes due to intensive...
The flow regime and biogeochemical cycles are greatly affected by river damming and drought, especia...
Topography-climate-vegetation-runoff relationships are important issues in hydrological studies. In ...
Surface water and groundwater interaction variations in time and space are crucial for effective wat...
In recharge areas, the Heihe River flow was separated into components of ice-snowmelt and precipitat...
Poyang Lake, whose hydrological characteristics are impacted by the operation of the Three Gorges Da...
Understanding runoff generation and dynamics is the basis for water resource management, while water...
This study investigates precipitation, snow, groundwater, glaciers and frozen soil in different land...
Stable isotopic compositions (delta O-18 and delta D) in water samples collected from Parbati River ...
Understanding the runoff characteristics and interaction processes between the mainstream and its tr...
The stable isotope technique of oxygen and hydrogen (δ18O and δ2H) and deuterium excess (d...