Abstract
Dams play a significant role in altering the spatial pattern of temperature in rivers and contribute to thermal pollution, which greatly affects the river aquatic ecosystems. Understanding the temporal and spatial variation of thermal pollution caused by dams is important to prevent or mitigate its harmful effect. Assessments based on in-situ measurements are often limited in practice because of the inaccessibility of water temperature records and the scarcity of gauges along rivers. By contrast, thermal infrared remote sensing provides an alternative approach to monitor thermal pollution downstream of dams in large rivers, because it can cover a large area and observe the same zone repeatedly. In this study, Landsat Enhanced Thematic Mapper Plus (ETM+) thermal infrared imagery were applied to assess the thermal pollution caused by two dams, the Geheyan Dam and the Gaobazhou Dam, located on the Qingjiang River, a tributary of the Yangtze River downstream of the Three Gorges Reservoir in Central China. The spatial and temporal characteristics of thermal pollution were analyzed with water temperatures estimated from 54 cloud-free Landsat ETM+ scenes acquired in the period from 2000 to 2014. The results show that water temperatures downstream of both dams are much cooler than those upstream of both dams in summer, and the water temperature remains stable along the river in winter, showing evident characteristic of the thermal pollution caused by dams. The area affected by the Geheyan Dam reaches beyond 20 km along the downstream river, and that affected by the Gaobazhou Dam extends beyond the point where the Qingjiang River enters the Yangtze River. Considering the long time series and global coverage of Landsat ETM+ imagery, the proposed technique in the current study provides a promising method for globally monitoring the thermal pollution caused by dams in large rivers.
Highlights
Water temperature is an important physical property of rivers because it has significant effects on many economic and ecological aspects [1,2,3,4]
By analyzing the spatial and temporal pattern of water temperatures estimated by Landsat ETM+ thermal infrared images, it is shown that both Geheyan and Gaobazhou Dams have a significant effect on river temperature
We proposed a method to monitor thermal pollution below dams using long time series Landsat ETM+ thermal infrared imagery
Summary
Water temperature is an important physical property of rivers because it has significant effects on many economic and ecological aspects [1,2,3,4]. Water temperature affects water quality, such as dissolved oxygen and suspended sediment concentration. It is one of the most critical parameters that controls the overall health of aquatic ecosystems in rivers, and has considerable influence on the growth rate and spatial distribution of aquatic organisms. River water temperature is affected by many factors, such as atmospheric conditions, topography and stream discharge [2]. The change of natural conditions, such as global climate change, affects the pattern of river water temperature [6]. River water temperature is greatly affected by human activities, such as riparian land cover change and effluent point discharges from power stations [2]
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