Free Access
| Issue |
La Houille Blanche
Number 4, Août 2014
|
|
|---|---|---|
| Page(s) | 53 - 56 | |
| DOI | https://doi.org/10.1051/lhb/2014038 | |
| Published online | 12 September 2014 | |
- Di Baldassarre G., & Claps P. (2011) — A hydraulic study on the applicability of flood rating curves. Hydrol. Res. 42 : 10-19 [CrossRef] [Google Scholar]
- Ibbit R. P., & Pearson C. P. (1987) — Gauging frequency and detection of rating changes. J. Hydrol. Sci. 32 : 85-103 [Google Scholar]
- Kitandis P. K. (1984) — Effects of visitation frequency and instrument reliability on the accuracy of estimation of river discharges. J. Hydrol. Sci. 29 : 255-269 [CrossRef] [Google Scholar]
- Laizé C. L. R., Marsh T. J., & Morris D. G. (2008) — Catchment descriptors to optimize hydrometric networks. Water Manage. 161 : 117-125 [Google Scholar]
- Pearson C. P. (1998) — Changes in the New Zealand's national hydrometric network in the 1990s. J. Hydrol. (NZ). 37 : 1-17 [Google Scholar]
- Petersen-Øverleir A., Soot A., & Reitan T. (2009) — Bayesian rating curve inference as a streamflow data quality assessment tool. Water Resour. Manage. 23 : 1835-1842 [CrossRef] [Google Scholar]
- Reitan T., & Petersen-Øverleir A. (2009) — Bayesian methods for estimating multi-segment discharge rating curves Stoch. Environ. Res. Risk Assess. 23 : 627-642 [Google Scholar]
- Smakhtin V. U. (2001) — Low flow hydrology: a review. J. Hydrol. 240 : 147-186 [Google Scholar]
- Spence C., Saso P., & Rausch J. (2007) — Quantifying the impact of hydrometric network reductions on regional streamflow prediction in northern Canada. Can. Water Resour. J. 32 : 1-20 [CrossRef] [Google Scholar]
- Venetis C. (1970) — A note on the estimation of the parameters in logarithmic stage-discharge relationships with estimation of their error. Bull. Int. Assoc. Sci. Hydrol. 15 : 105-111 [CrossRef] [Google Scholar]