The present study consisted of analyzing the spatial and temporal variability of the rainfall series in the Diarha watershed between 1921 and 2014, using the Nicholson indices, the stationarity tests and the Thiessen polygons method for spatial analysis, to quantify surface water supplies and to determine the impact of this rainfall variability on the hydrology of the basin. The results show that the rainfall series are not stationary. They show breaks between 1965 and 1979 (with 1967 as the year of rupture for 6 of the 10 stations in the basin). From this break-up period (1967) to the present day, average annual rainfall decreased by 10.5%. On a monthly basis, it appears that precipitation decreased significantly for almost every month between the two periods. On a daily basis, the analysis of the daily rainfall fractions reveals a tendency to decrease the average annual rainfall over 40 mm (which are considered to be the heavy rains) from years of rupture. At the spatial scale, the variability of annual precipitation is marked by a translation of isohyets towards the South from the decades 1971-1980 and 1981-1990. During this period, the decline in rainfall resulted in a shift of the isohyets towards the south in the less rainy zone in the north (in the South Sudanian domain); while the latter are tightening in the "strong" precipitation zones which are located in the South (in the Guinean climate domain) and in the Center-east of the basin. On the other hand, a slight trend of rainfall recovery is noted during the decades 1991-2000 and 2001-2010. At the same time, the flows of the Diarha vary from one year to another according to the precipitated water slides on the basin and the ETP. To this must be added the influence of pedology and geology (the river flowing over the Proterozoic and Paleozoic formations of the Birrimian basement), but also of the high topography of the basin, in this case the relief and its slope system. All these factors combine in space and time to allow for high values of basin runoff.
Published in | Hydrology (Volume 5, Issue 4) |
DOI | 10.11648/j.hyd.20170504.11 |
Page(s) | 41-57 |
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
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Copyright © The Author(s), 2017. Published by Science Publishing Group |
Diarha, Rainfall, Rupture, Variability, Water Supplies, Watershed
[1] | DE MARSILY G. (2006): Inland waters. Institute of France, Academy of Science, 356 pages. |
[2] | PATUREL JE, SERVAT E., DELATTRE MO, AND LUBE-NIEL H., (1998): Analysis of long-term rainfall series in non-Sahelian western and central Africa in a context of climatic variability, Hydrological Sciences Hydrological Sciences, 43 (6) December 1998, pp. 937-946. |
[3] | DACOSTA H., KONATÉ Y. K., AND MALOU R. (2002): The spatial and temporal variability of precipitation in Senegal over a century; FRIEND 2002; Regional Hydrology: Briging the Gap Between Research and Practice (proceedings of the fourth international FRIEND conference held at Cape Town, South Africa, March (2002), IAHS Publ., 274, pp. 449-506. |
[4] | SOW A. A (2006): Hydrology of South-East Senegal and its Guineo-Malian borders: the basins of Gambia and Falémé. Ph.D. thesis in Humanities, Department of Geography, UCAD, 1232 pages, 457 figures, 661 tables and annexes. |
[5] | KONATÉ L., (1998): Lowlands in the river system of the Gambia River: (Cartography, Hydrological regimes, agricultural valorization and typology). PhD of Geography, UCAD-ORSTOM, 207 pages. |
[6] | OLIVRY J. C., (1983): Evaluation of hydrological and meteorological data available on the Gambia River basin (collection, quality, interpretation); Preliminary Report, ORSTOM-OMVG, 94 pages. |
[7] | ALBERGEL J., LAMAGAT J. P., BOUCHEZ J. M., AND DECROIX L. (1990): Hydrological Monograph of the River Gambia; ORSTOM-OMVG, 256 pages. |
[8] | MICHEL P. (1973): The basins of the rivers Senegal and the Gambia: Geomorphological study; Volume 1, Memory ORSTOM-Paris, 810 pages. |
[9] | MOHANTY P. K., PANIGRAHI D. AND ACHARYA M. (2014) MissRF: A Visual Basic Application in MS Excel to find out Missing Rainfall Data and Related Analysis. Intelligent Information Management, 6,844. Http://dx.doi.org/10.4236/iim.2014.64006. |
[10] | SERVAT E., PATUREL J. E, LUBE-NIEL H., KOUAME B., TRAVAGLIO M. and MARIEU B., (1999): Various aspects of the variability of rainfall in non-Sahelian western and central Africa; Journal of Water Science / Journal of Water Science, Vol. 12, No. 2, pp. 363-387. http://id.scholar.org/iderudit/ 705356ar. |
[11] | HUBERT, P. & CARBONNEL, J. P. (1987). Statistical approach to the aridification of West africa. 1. Hydrol. 95,165-183. |
[12] | SNIDJERS T. A. B. (1986): Interstation correlations and non stationarity of Burkina Faso rainfall. Journal of climate and applied meteorology. Flight. 25 pp. 534-531. |
[13] | MUSY A AND MEYLAN P. (1987): Modeling of a non-stationary process. Application to rainfall in semi-arid zones. I. A. H. S. Publ. No. 168, 1987 - pp 287-299. |
[14] | WMO 2000: Twenty years of progress and achievement of the WMO tropical cyclone programme (1980-1999). |
[15] | BUISHAND T. A., (1982): Some methods for testing the homogeneity of rainfall records, Journal of Hydrology, Vol. 58, pp. 11-27. |
[16] | PETTIT A. N., (1979). A non-parametric approach to the change-point problem, Applied Statistics, vol. 28, No. 2, p. 126-135. |
[17] | DEMARREE, G. (1990). An indication of climatic change as seen from the rainfall data of a Mauritanian station. Theoret. Appl. Climatol. 42, 139-147. |
[18] | LEE A. F. S. & HEGHINIAN S. A., (1977): A shift of the mean level in a sequence of independent normal random variables - a Bayesian approach. Technometrics, Vol. 19, No. 4, p. 503-506. |
[19] | LUBES-NIEL, H., MASSON, M., PATUREL, J. E. & SERVAT, E. (1997) Climatic variability and statistics. Study by simulation of the power and the robustness of some tests used to check the homogeneity of chronicles. URI: id.erudit.org/iderudit/705313ar; |
[20] | WMO - WMO (2000): Detecting trends and other changes in hydrological data. In: Kundzewiccz ZW; Robson A. eds. World Climate Program Data and Monitoring. WCDMP-45, WMO / TD No. 1013, Geneva. |
[21] | KOUASSI E. A, YEI MARIE S. O. YAO B. K. AMANI M. K., NAGNIN. S. JEAN B. Hydro geochemical and microbiological characterization of water resources of a Technical Landfill Center (CET) in Côte d'Ivoire: case of the CET of Kossihouen in the District of Abidjan (Côte d'Ivoire). http://indexmedicus.afro.who.int |
[22] | METTIN J. L (1994): Calculation of the precipitated water slide on the Ubangui watershed in Mongoumba (1972-1992). Master's thesis, University of Bangui, 135 p. |
[23] | SARR J., (2007): The basins of the Tararé watershed (Central West Groundnut Basin): Mapping - Potential - spatial strategies for sustainable development; Ph.D. thesis in Geography, UCAD, 331 pages, 38 maps, 18 photos, 39 figures and 29 paintings. |
[24] | ROCHE M. (1963): Surface Hydrology, ORSTOM and Gauthier- VILLARS, Editeur-Paris 1963, 439 p. |
[25] | PERREAULT L., BERNIER L, BOBÉE B, PARENT E. Bayesian change-point analysis in hydrometeorological time series. Part 1. The normal model revisited. Journal of Hydrology, 2000. |
[26] | ALBERGEL J. (1986) - Assessment of rainfall in Sudanese-Sahelian Africa example from Burkina Faso. In: CIEH Symposium on the Revision of Hydrological Standards following the Impacts of Drought (Ouagadougou), 19 p. |
[27] | KHODJA H., LUBES-NIEL H., SABATIER R., MASSON J.-M., SERVAT E., and PATUREL J.-E., (1998): Spatio-temporal analysis of pluviometric data in West Africa, Kuwait, Research of a rupture on average, An interesting alternative: the permutation tests, Revue de statistique applied, volume 46, n° 1, pp 95-110. |
[28] | KHOUALDIA W., DJEDDAR Y. AND HAMMAR Y. (2014): Characterization of climatic variability: case of the Medjerda watershed (Algerian Northeast). Rev. Sci. Technol., Synthesis 29: 6-23 (2014). |
[29] | DAO A., et al. (2010): Climatic Variability and Hydrological Response of the Kolondièba Transboundary Watershed in southern Mali, European Journal of Scientific Research; ISSN 1450-216X Vol, 43 No. 4, pp. 435-444. http:// www.eurojournals.com/ejsr.htm |
[30] | LEBEL T. and ALI A. (2009) - Recent trends in the central and western Sahel rainfall regime (1990-2007). Journal of Hydrology, vol. 375, p. 52-64. |
[31] | DACOSTA H., (1989): Precipitation and flow on the Casamance basin, PhD thesis, UCAD, Department of Geography, 277 pages. |
[32] | MUSY A. (1998): Applied Hydrology, HGA Bucharest, 368 p |
[33] | VAUCHEL P. (2000): Hydraccess, software for importing, storing and processing IRD database. |
[34] | BERTON S. (1988): Flood control in lowlands, small and micro-dams in West Africa; GREF, CF, ACCT 475 pages. |
[35] | KLEMES V. (1975): Application of hydrology to the management of water resources: (At the planning and design level); WMO - No. 356 - Geneva - Switzerland, 121 pages. |
[36] | BODIAN A, DACOSTA H AND DEZETTER A. (2011). Spatio-temporal characterization of the rainfall regime of the Upper Senegal River basin in a context of climatic variability. Physio-Géo, Volume 5 | -1, 107-124. |
[37] | LE BARBÉ L., LEBEL T. and TAPSOBA D. (2002) . Rainfall variability in West Africa during the years 1950-90. Journal of Climate, vol. 15, p. 187-202. |
[38] | LO H. M (1984) - The Gambia basin upstream of Gouloumbou. Contribution to hydrology and river dynamics in the African tropical humid environment. Doct. of the 3rd cycle Univ. Nancy II, 396 p. 55 fig. 10 cards + 38 pictures. |
[39] | BALLO A. - 1984 - Modalities of river flow in the tropical African wetland. The example of the basins of Niger and Bani - Doct. Of the 3rd cycle - Univ. Nancy II - 176 p. - 33 fig. |
APA Style
Ibrahima Thiaw. (2017). Rainfall Variability and Water Supplies in the Diarha Watershed (Tributary of Gambia River). Hydrology, 5(4), 41-57. https://doi.org/10.11648/j.hyd.20170504.11
ACS Style
Ibrahima Thiaw. Rainfall Variability and Water Supplies in the Diarha Watershed (Tributary of Gambia River). Hydrology. 2017, 5(4), 41-57. doi: 10.11648/j.hyd.20170504.11
AMA Style
Ibrahima Thiaw. Rainfall Variability and Water Supplies in the Diarha Watershed (Tributary of Gambia River). Hydrology. 2017;5(4):41-57. doi: 10.11648/j.hyd.20170504.11
@article{10.11648/j.hyd.20170504.11, author = {Ibrahima Thiaw}, title = {Rainfall Variability and Water Supplies in the Diarha Watershed (Tributary of Gambia River)}, journal = {Hydrology}, volume = {5}, number = {4}, pages = {41-57}, doi = {10.11648/j.hyd.20170504.11}, url = {https://doi.org/10.11648/j.hyd.20170504.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.hyd.20170504.11}, abstract = {The present study consisted of analyzing the spatial and temporal variability of the rainfall series in the Diarha watershed between 1921 and 2014, using the Nicholson indices, the stationarity tests and the Thiessen polygons method for spatial analysis, to quantify surface water supplies and to determine the impact of this rainfall variability on the hydrology of the basin. The results show that the rainfall series are not stationary. They show breaks between 1965 and 1979 (with 1967 as the year of rupture for 6 of the 10 stations in the basin). From this break-up period (1967) to the present day, average annual rainfall decreased by 10.5%. On a monthly basis, it appears that precipitation decreased significantly for almost every month between the two periods. On a daily basis, the analysis of the daily rainfall fractions reveals a tendency to decrease the average annual rainfall over 40 mm (which are considered to be the heavy rains) from years of rupture. At the spatial scale, the variability of annual precipitation is marked by a translation of isohyets towards the South from the decades 1971-1980 and 1981-1990. During this period, the decline in rainfall resulted in a shift of the isohyets towards the south in the less rainy zone in the north (in the South Sudanian domain); while the latter are tightening in the "strong" precipitation zones which are located in the South (in the Guinean climate domain) and in the Center-east of the basin. On the other hand, a slight trend of rainfall recovery is noted during the decades 1991-2000 and 2001-2010. At the same time, the flows of the Diarha vary from one year to another according to the precipitated water slides on the basin and the ETP. To this must be added the influence of pedology and geology (the river flowing over the Proterozoic and Paleozoic formations of the Birrimian basement), but also of the high topography of the basin, in this case the relief and its slope system. All these factors combine in space and time to allow for high values of basin runoff.}, year = {2017} }
TY - JOUR T1 - Rainfall Variability and Water Supplies in the Diarha Watershed (Tributary of Gambia River) AU - Ibrahima Thiaw Y1 - 2017/10/13 PY - 2017 N1 - https://doi.org/10.11648/j.hyd.20170504.11 DO - 10.11648/j.hyd.20170504.11 T2 - Hydrology JF - Hydrology JO - Hydrology SP - 41 EP - 57 PB - Science Publishing Group SN - 2330-7617 UR - https://doi.org/10.11648/j.hyd.20170504.11 AB - The present study consisted of analyzing the spatial and temporal variability of the rainfall series in the Diarha watershed between 1921 and 2014, using the Nicholson indices, the stationarity tests and the Thiessen polygons method for spatial analysis, to quantify surface water supplies and to determine the impact of this rainfall variability on the hydrology of the basin. The results show that the rainfall series are not stationary. They show breaks between 1965 and 1979 (with 1967 as the year of rupture for 6 of the 10 stations in the basin). From this break-up period (1967) to the present day, average annual rainfall decreased by 10.5%. On a monthly basis, it appears that precipitation decreased significantly for almost every month between the two periods. On a daily basis, the analysis of the daily rainfall fractions reveals a tendency to decrease the average annual rainfall over 40 mm (which are considered to be the heavy rains) from years of rupture. At the spatial scale, the variability of annual precipitation is marked by a translation of isohyets towards the South from the decades 1971-1980 and 1981-1990. During this period, the decline in rainfall resulted in a shift of the isohyets towards the south in the less rainy zone in the north (in the South Sudanian domain); while the latter are tightening in the "strong" precipitation zones which are located in the South (in the Guinean climate domain) and in the Center-east of the basin. On the other hand, a slight trend of rainfall recovery is noted during the decades 1991-2000 and 2001-2010. At the same time, the flows of the Diarha vary from one year to another according to the precipitated water slides on the basin and the ETP. To this must be added the influence of pedology and geology (the river flowing over the Proterozoic and Paleozoic formations of the Birrimian basement), but also of the high topography of the basin, in this case the relief and its slope system. All these factors combine in space and time to allow for high values of basin runoff. VL - 5 IS - 4 ER -