Title of article
Determination of the residence time of suspended particles in the turbidity maximum of the Loire estuary by 7Be analysis
Author/Authors
Philippe Ciffroy، نويسنده , , Jean-Louis Reyss، نويسنده , , Françoise Siclet، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
16
From page
553
To page
568
Abstract
The aim of the present work was to evaluate the half life of suspended particles in the Loire estuarine turbidity maximum by
analysis of 7Be budgets. The methodology was based on in situ sampling and further measurements aiming at quantifying 7Be sources
(atmospheric deposition and river inputs) and 7Be stock in the water column of the turbidity maximum. 7Be river inputs were
determined by monthly 7Be measurements performed upstream of the estuary. 7Be atmospheric deposition was estimated by using
an empirical relation between 7Be deposition and rainfall. 7Be in particles of the estuarine turbidity maximum was measured at eight
different dates corresponding to different tidal and hydrological conditions. 7Be sources and stocks thus determined have been compared
to a mathematical model. Results allow to quantify the standard half life of suspended particles in the Loire estuarine turbidity
maximum and show that it depends on the season (6–10 months in summer and about 0.7 month during flood periods).
Furthermore, a rather good linear correlation was observed between the standard half life of particles and the sum of flow rates
in the Loire river during 60 days before each sampling date. The kinetic evolution of the mass of particles within the turbidity maximum
could be estimated by this method and appeared to be consistent with previous studies. Moreover, the method proposed in
this study could presumably be used for estimating 60Co concentrations in the estuarine turbidity maximum.
Keywords
Beryllium , Loire estuary , Suspended particulate matter , residence time
Journal title
Estuarine, Coastal and Shelf Science
Serial Year
2003
Journal title
Estuarine, Coastal and Shelf Science
Record number
952641
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