This paper quantitatively analyzed the evolution of human–water relationships in the Heihe River basin of northern China over the past 2000 years by reconstructing the catchment water balance by partitioning precipitation into evapotranspiration and runoff. The results provided the basis for investigating the impacts of societies on hydrological systems. Based on transition theory and the rates of changes of the population, human water consumption and the area of natural oases, the evolution of human–water relationships can be divided into four stages: predevelopment (206 BC–AD 1368), take-off (AD 1368–1949), acceleration (AD 1949–2000), and the start of a rebalancing between human and ecological needs (post AD 2000). Our analysis of the ev...
Study region: Upper Yangtze River Basin, China. Study focus: The intensification of climate change a...
Study region: The catchment above Bengbu in the Huaihe River Basin, China Study focus: In the Anthro...
With the growth of population and economy, water demand has increased significantly in all the over ...
Abstract. This paper quantitatively analyzed the evolution of human–water relationships in the Heihe...
There is limited quantitative understanding of interactions between human and environmental systems ...
There are increasing concerns on the impact of population growth on sustainable use of water resourc...
Watersheds are coupled with human-water systems where human, and water resources interact and coevol...
[1] Many observations and studies have shown that water resources amount in the Hai River Basin decr...
Introduction: Arid area is an important base for human settlement, however, long and drastic human a...
When deciding on and creating their own settlement environment, humans’ relationships with water res...
Human activities and climate simultaneously affect water cycling and provision. Here, we study the i...
Climate change and human activities have together altered the river hydrological regime and conseque...
Stream flow plays a crucial role in the environment, society, and the economy, and identifying the c...
The Tarim River, the longest dryland river in an extremely arid region of China, has undergone ever-...
Natural ecosystems in the region of the lower Tarim river in northwestern China, strongly deteriorat...
Study region: Upper Yangtze River Basin, China. Study focus: The intensification of climate change a...
Study region: The catchment above Bengbu in the Huaihe River Basin, China Study focus: In the Anthro...
With the growth of population and economy, water demand has increased significantly in all the over ...
Abstract. This paper quantitatively analyzed the evolution of human–water relationships in the Heihe...
There is limited quantitative understanding of interactions between human and environmental systems ...
There are increasing concerns on the impact of population growth on sustainable use of water resourc...
Watersheds are coupled with human-water systems where human, and water resources interact and coevol...
[1] Many observations and studies have shown that water resources amount in the Hai River Basin decr...
Introduction: Arid area is an important base for human settlement, however, long and drastic human a...
When deciding on and creating their own settlement environment, humans’ relationships with water res...
Human activities and climate simultaneously affect water cycling and provision. Here, we study the i...
Climate change and human activities have together altered the river hydrological regime and conseque...
Stream flow plays a crucial role in the environment, society, and the economy, and identifying the c...
The Tarim River, the longest dryland river in an extremely arid region of China, has undergone ever-...
Natural ecosystems in the region of the lower Tarim river in northwestern China, strongly deteriorat...
Study region: Upper Yangtze River Basin, China. Study focus: The intensification of climate change a...
Study region: The catchment above Bengbu in the Huaihe River Basin, China Study focus: In the Anthro...
With the growth of population and economy, water demand has increased significantly in all the over ...