Spatial and temporal variability of total suspended solids in the Seine basin

We analyze the TSS distribution over the whole Seine basin (67 500 km^sup 2^, stream order 8) from: 1. a set of 236 stations sampled quaterly to bimonthly from the french national water quality monitoring network over the 1971-1997 period, 2. four stations sampled daily over 3 and 4 years located on...

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Bibliographic Details
Published in:Hydrobiologia 1999-09, Vol.410 (9), p.295-306
Main Authors: MEYBECK, M, IDLAFKIH, Z, FAUCHON, N, ANDRCASSIAN, V
Format: Article
Language:English
Subjects:
Creeks & streams
Earth sciences
Earth, ocean, space
Environmental Sciences
Eutrophication
Exact sciences and technology
Flood stages
France, Paris
France, Seine R
Hydrology
Hydrology. Hydrogeology
Lithology
Marine and continental quaternary
Population density
Rainfall distribution
River mouth
River networks
Rivers
Seasonal variations
Stream order
Streams
Surficial geology
Total suspended solids
Water monitoring
Water quality management
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Summary:We analyze the TSS distribution over the whole Seine basin (67 500 km^sup 2^, stream order 8) from: 1. a set of 236 stations sampled quaterly to bimonthly from the french national water quality monitoring network over the 1971-1997 period, 2. four stations sampled daily over 3 and 4 years located on stream orders 1, 5, 6 and 8, 3. a weekly survey of the exceptional 1994/95 high water stage at 4 stations upstream and downstream of Greater Paris (10 M. people). Due to very low relief and even rainfall distribution over the year, the Seine and its river network from order 3 to 8, are characterized by very low TSS: 79% of medians (C50%) are between 8 and 32 mg l^sup -1^ and maximum TSS barely reach 300 mg l^sup -1^. Due to similar relief distributions, runoff patterns and geology in all sub-basins, major tributaries have near-identical long-term TSS regimes and seasonal variations during the 1994/95 flood stage. Second order TSS variations are linked to lithology: streams draining argillaceous and marl terrains are up to 3 and 4 times more turbid than those draining limestones and chalks. Basin size was also tested: the TSS range (quantiles C1% to C99%) decreases from order 1 to 8, and quantiles levels C10% to C75% double from order 3 to 8. Human impacts on TSS levels are quite limited: Greater Paris influence on longitudinal profiles is not observed; in periurban streams, where population density reach 1000 p km^sup -2^, TSS levels are twice those observed in rural conditions (40 p km^sup -2^): C75% are 32 ± 12 and 17.5 ± 9 mg l^sup -1^, respectively. In orders 6 to 8, the lower TSS quantiles (C10% and C25%) are higher than in orders 3 - 5, this can be attributed to eutrophication and/or to an important fluvial traffic. No significant trend was observed on the TSS distributions at the river mouth from 1971 to 1997. Comparison with a previous daily survey in 1863-1866 showed present marked decrease of average TSS and TSS yearly range attributed mostly to locks.[PUBLICATION ABSTRACT]
ISSN:0018-8158
1573-5117
DOI:10.1023/A:1003712032230