کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
6413140 | 1629936 | 2014 | 11 صفحه PDF | دانلود رایگان |
- The method estimates the average in-stream residence time of water across catchments.
- The method works across a range of flows and from gauging data.
- For an 818Â km2 catchment the in-stream residence time at 50% exceedence flow is 13.8Â h.
- In-stream residence time was controlled by average slope and rainfall of a basin.
- For the UK, the discharge-weighted in-stream residence time was 26.7Â h for the median flow.
SummaryThis study develops a method for estimating the average in-stream residence time of water in a river channel and across large catchments, i.e. the time between water entering a river and reaching a downstream monitoring point. The methodology uses river flow gauging data to integrate Manning's equation along a length of channel for different percentile flows. The method was developed and tested for the River Tees in northern England and then applied across the United Kingdom (UK).(i)The study developed methods to predict channel width and main channel length from catchment area.(ii)For an 818Â km2 catchment with a channel length of 79Â km, the in-stream residence time at the 50% exceedence flow was 13.8Â h.(iii)The method was applied to nine UK river basins and the results showed that in-stream residence time was related to the average slope of a basin and its average annual rainfall.(iv)For the UK as a whole, the discharge-weighted in-stream residence time was 26.7Â h for the median flow. At median flow, 50% of the discharge-weighted in-stream residence time was due to only 6 out of the 323 catchments considered.(v)Since only a few large rivers dominate the in-stream residence time, these rivers will dominate key biogeochemical processes controlling export at the national scale.(vi)The implications of the results for biogeochemistry, especially the turnover of carbon in rivers, are discussed.
Journal: Journal of Hydrology - Volume 512, 6 May 2014, Pages 274-284