Advanced search
Publication Cover
Cogent Engineering Volume 8, 2021 - Issue 1
Submit an article Journal homepage
2,061
Views
2
CrossRef citations to date
0
Altmetric
CIVIL & ENVIRONMENTAL ENGINEERING

Overview of hydrological and climatic studies in Africa: The case of Ghana

Boateng Ampadu1 Faculty of Earth and Environmental Science, Dept of Environmental Science, C.K. Tedam University of Technology and Applied Science (CKT-UTAS), Navrongo, GhanaCorrespondence[email protected]
View further author information
|
Hamidi Abdul Aziz2 School of Civil Engineering, Universiti Sains Malaysia - Kampus Kejuruteraan Seri Ampangan, Nibong Tebal, Penang, MalaysiaView further author information
(Reviewing editor)
Article: 1914288 | Received 17 Aug 2020, Accepted 04 Apr 2021, Published online: 03 May 2021

References

  • Abbam, T., Johnson, F. A., Dash, J., & Padmadas, S. S. (2018). Spatiotemporal variations in rainfall and temperature in Ghana over the twentieth century, 1900–2014. Earth and Space Science, 5(4), 120–17. https://doi.org/10.1002/2017EA000327
  • Abbot, M. B., Bathurst, J. C., Cunge, J. A., O’Connell, P. E., & Rasmussen, J. (1986a). An introduction to the European hydrological system-systeme hydrologique European “SHE”, 1: History and philosophy of a physically-based distributed modelling system. Journal of Hydrology, 87(1–2), 45–59. https://doi.org/10.1016/0022-1694(86)90114-9
  • Abbot, M. B., Bathurst, J. C., Cunge, J. A., O’Connell, P. E., & Rasmussen, J. (1986b). An introduction to the European hydrological system-systeme hydrologique european “SHE”, 2: Structure of a physically-based distributed modelling system. Journal of Hydrology, 87(1–2), 61–77. https://doi.org/10.1016/0022-1694(86)90115-0
  • Acheampong, P. K. (1982). Rainfall anomaly along the coast of Ghana-Its nature and causes. Geographical Annaler, 64A(3–4), 199–211.
  • Acheampong, P. K. (1988). Water balance analysis for Ghana. Geography, 73(2), 125–131.
  • Adiku, S. G. K., Dayananda, P. W. A., Rose, C. W., & Dowuona, G. N. N. (1997). An analysis of the within-season rainfall characteristics and simulation of the daily rainfall in two savannah zones in Ghana. Agricultural and Forest Meteorology, 86(1–2), 51–62. https://doi.org/10.1016/S0168-1923(96)02414-8
  • Adiku, S. G. K., & Stone, R. C. (1995). Using the Southern oscillation index for improving rainfall prediction and agricultural water management in Ghana. Agricultural Water Management, 29(1), 85–100. https://doi.org/10.1016/0378-3774(95)01181-1
  • Adomako, T., & Ampadu, B. (2015). The impact of agricultural practices on environmental sustainability in Ghana: A review. Journal of Sustainable Development, 8(8), 71–85. https://doi.org/10.5539/jsd.v8n8p70
  • Ahenkorah, Y., Amatekpor, J. K., Dowuona, G. N. N., & Yentumi, S. D. (1994). Soil and water resources of Ghana: Their conservation, management and constraints to their utilization for sustainable development (pp. 131). United Nations University/Institute of natural Resources for Africa.
  • Aka, A. A., Servat, E., Paturel, J. E., & Koume, B. (1996). Analysis of the temporal variability of runoff in ivory coast: Statistical approach and phenomena characterisation. Hydrological Sciences Journal, 41(6), 959–970. https://doi.org/10.1080/02626669609491561
  • Almer, C., Laurent-Lucchetti, J., & Oechslin, M. (2017). Water scarcity and rioting: Disaggregated evidence from Sub-Saharan Africa. Journal of Environmental Economics and Management, 86, 193–209. https://doi.org/10.1016/j.jeem.2017.06.002
  • Amekudzi., L. K., Yamba, E. I., Preko, K., Asare, E. O., Aryee, J., Baidu, M., & Codjoe, S. N. A. (2015). Variabilities in rainfall onset, cessation and length of rainy season for the various agro-ecological zones of Ghana. Climate, 3(2), 416–434. https://doi.org/10.3390/cli3020416
  • Amisigo, A. A. (2005). Modelling riverflow in the volta basin of West Africa: A data-driven framework (Ecology and Development Series, No. 34), pp 175. Cuvillier Verlag
  • Amisigo, B. A., McCluskey, A., & Swanson, R. (2015). Modeling impact of climate change on water resources and agriculture demand in the volta basin and other basin systems in Ghana. Sustainability, 7(6), 6957–6975. https://doi.org/10.3390/su7066957
  • Ampadu, B. (2007). Simulating rainfall and riverflow dynamics in Ghana [An Unpublished PhD Thesis]. Lancaster University.
  • Ampadu, B., Chappell, N. A., & Kasei, R. A. (2013b). Rainfall-riverflow modelling approaches: Making a choice of Data-based Mechanistic (DBM) modelling approach for data limited catchments: A review. Canadian Journal of Pure and Applied Sciences, 7(3), 2571–2580.
  • Ampadu, B., Chappell, N. A., & Tych, W. (2013a). Data-based mechanistic modelling of rainfall to riverflow of large nested tropical rainforest catchments in Ghana. Canadian Journal of Pure and Applied Sciences, 7(2), 2195–2201.
  • Ampadu, B., Chappell, N. A. and Tych, W. (2015). Data Based Mechanistic modelling optimal utilisation of raingauge data for rainfall-riverflow modelling of sparsely gauged tropical basin in Ghana. Journal of Mathematical Theory and Modelling,5(8), 29–49.
  • Ampadu, B., Sackey, I., & Cudjoe, E. (2019). Rainfall distribution in the Upper East Region of Ghana, 1976 – 2016. Ghana Journal of Science, Technology and Development, 6(2), 45–59. https://doi.org/10.47881/168.967x
  • Ampofo, S., Ampadu, B., Biyogue, D. N., & Kusibu, M. M. (2020). Modeling soil water balance of an agricultural watershed in the Guinea Savannah Agro-ecological Zone; a case of the Tono irrigation dam watershed. Ghana Journal of Science, Technology and Development, 7(1), 69–81. https://doi.org/10.47881/223.967x
  • Amu-Mensah, F. K., Amu-Mensah, M. A., Akrong, M. O., Darko, H., & Addico, G. (2019). Hydrology of the major water sources of Lake Bosomtwe in Ghana. West African Journal of Applied Ecology, (WAJAE), 27(1), 42–51.
  • Ankomah, Y. O., & Forson, M. A. (1998). Assessing surface water resources of the south-western and coastal basin systems of Ghana. Hydrological Sciences Journal, 43(5), 733–740. https://doi.org/10.1080/02626669809492169
  • Antonopoulus, V. Z., Papamichail, D. M., & Mitsiou, K. A. (2001). Statistical and trend analysis of water quality and quantity data for the Strymon River in Greece. Hydrology and Earth Systems Sciences, 5(4), 679–691. https://doi.org/10.5194/hess-5-679-2001
  • Asante, F. A., & Amuakwa-Mensah, F. (2015). Climate change and variability in Ghana: Stocktaking. Climate, 3(1), 78–101. https://doi.org/10.3390/clic3010078
  • Baah-Wiredu, K. (2006). The budget statement and economic policy of the Government of Ghana for the 2007 financial year (pp. 462). Ghana of Ghana (GoG).
  • Bagamsah, T. T. (2005). The impact of bushfire on carbon and nutrient stacks as well as albedo in the savanna of northern Ghana (Ecology and Development Series No. 25), pp 156. Cuvillier Verlag.
  • Bates, D. A. (1962a). Geology. In J. B. Willis (Ed.), Agricultural and land use in Ghana (pp. 51–61). Oxford University Press.
  • Bates, D. A. (1962b). Rural water supplies. In J. B. Willis (Ed.), Agricultural and land use in Ghana (pp. 62–76). Oxford University Press.
  • Beck, M. B. (1991). Forecasting environmental change. Journal of Forecasting, 10(1–2), 3–19. https://doi.org/10.1002/for.3980100103
  • Beck, M. B., & Young, P. C. (1975). A dynamic model for DO-BOD relationships in a non-tidal stream. Water Resources Research, 9(9), 769–776. https://doi.org/10.1016/0043-1354(75)90028-7
  • Bekoe, E. O. (2005). Application of a hydrological model in a data-poor tropical West African catchment: A case study of the densu basin of Ghana. Institute of water and environment [Unpublished PhD Thesis]. Cranfield University at Silsoe, 228.
  • Berger, T., Park, S., Vescori, F., Vlek, P. L. G., & van de Giessen, N. (2002). Sustainable water use under changing land use, rainfall reliability and water demands in the Volta basin (Glowa Volta). IHDP Newsletter, 6, 14–15.
  • Beven, K. (1989). Changing ideas in hydrology - The case of physically-based models. Journal of Hydrology, 105(4), 157–172. https://doi.org/10.1016/0022-1694(89)90101-7
  • Beven, K., Calver, A., & Morris, E. M. (1987). The institute of hydrology distributed model. (Institute of Hydrology Report, 98).
  • Beven, K. J. (2001). Rainfall-runoff modelling: The primer (pp. 360). Wiley.
  • Biney, C. A. (2012). Integrated water resources management for sustainable use: The case of the volta basin in West Africa. FAO Nature and Faune, 27(1), 19–21.
  • Boafo, J. (2013). The impact of deforestation on forest livelihoods in Ghana. Backgrounder, 49, 1–7.
  • Boateng, E. A. (1966). A geography of Ghana (2nd ed., pp. 212). Cambridge University Press.
  • Bruijnzeel, L. A. (1990). Hydrology of moist tropical forests and effects of conversion: A state of knowledge review (pp. 224). UNESCO.
  • Calver, A. & Wood, W. L. (1995). The Institute of Hydrology Distributed Model. In: V. P, Singh (Ed.), Computer models of watershed hydrology.Highlands Ranch: Water Resources Publications,595–626.
  • Chappell, N. A., Tych, W., Yusop, Z., Rahim, N. A., & Kasran, B. (2004a). Spatial significant effects of selective tropical forestry on water, nutrient and sediment flows: A modelling supported review. In M. Bonell & L. A. Brujinzeel (Eds.), Forest, water and people in the humid tropics (pp. 513–533).
  • Chappell, N. A., Bidin, K., Sherlock, M. D., & Lancaster, J. W. (2004b). Parsimonious spatial representation of tropical soils within dynamic rainfall- runoff models. In M. Bonell & L. A. Brujinzeel (Eds.), Forest, water and people in the humid tropics (pp. 756–769).
  • Chappell, N. A. (2005). Modelling tropical forest watersheds: Setting realistic goals. ETFRN News, 45, 25–28.
  • Chappell, N. A., Sherlock, M., Bidin, K., Macdonald, R., Najman, Y., & Bidin, K. (2007). Runoff processes in South East Asia: Role of soil, regolith and rock type. In H. Sawada, M. Araki, N. A. Chappell, J. V. LaFrankie, & A. Shimizu (Eds.), Forest environments in the Mekong River Basin (pp. 3–23). Springer Velag.
  • Chappell, N. A., Bidin, K., & Tych, W. (2001). Modelling rainfall and canopy controls on net precipitation beneath selective-logged tropical forest. Plant Ecology, 153(1/2), 215–229. https://doi.org/10.1023/A:1017532411978
  • Chappell, N. A., & Bonell, M. (2005). Uncertainties in the hydrology of tropical reforestation: Beyond ‘ from the mountain to the tap’. ETFRN News, 45, 8–11.
  • Chappell, N. A., Franks, S. W., & Larenus, J. (1998). Multi-scale permeability estimation for a tropical catchment. Hydrological Processes, 12(9), 1507–1523. https://doi.org/10.1002/(SICI)1099-1085(199807)12:9<1507::AID-HYP653>3.0.CO;2-J
  • Chappell, N. A., McKenna, P., Bidin, K., Douglas, I., Walsh, A. R. P. D., Newbery, D. M., Clutton–Brock, T. H., & Prance, G. T. (1999). Parsimonious modelling of water and suspended sediment flux from nested catchments affected by selective tropical forestry. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences, 35(4), 1831–1846. https://doi.org/10.1098/rstb.1999.0525
  • Chappell, N. A., Tych, W., Chotai, A., Bidin, K., Sinun, W., & Chiew, T. H. (2006). BARUMODEL: Combined data based mechanistic models of runoff response in a managed rainforest catchment. Forest Ecology and Management, 224(1–2), 58–80. https://doi.org/10.1016/j.foreco.2005.12.008
  • Chipeta, M. E. (2012). If Africa is to develop its agriculture, should it follow the recommendations of the World Commission on Dams? FAO Nature and Faune, 27(1), 22–25.
  • Chitonge, H. (2020). Urbanisation and the water challenge in Africa: Mapping out orders of water scarcity. African Studies, 79(2), 192–211. https://doi.org/10.1080/00020184.2020.1793662
  • Clarke, R. T. (1973). A review of some mathematical models used in hydrology, with observations on their calibration and use. Journal of Hydrology, 19(1), 1–20. https://doi.org/10.1016/0022-1694(73)90089-9
  • Cosgrove, W. J., & Rijsberman, F. R. (2000). Making water everybody’s business (pp. 108). Earth Scan Publications Ltd.
  • Darko, D., Adjei, K. A., Appiah-Adjei, E. K., Odai, S. N., Obuobie, E., & Asmah, R. (2019b). Simulation of climate characteristics and extremes of the volta basin using CCLM and RCA regional climate models. Theoretical and Applied Climatology, 134(1–2), 741–763. https://doi.org/10.1007/s00704-018-2485-6
  • Darko, D., Adjei, K. A., Odai, S. N., Obuobie, E., Asmah, R., & Trolle, D. (2019a). Recent climate trends for the volta basin in West Africa. Weather, 74 (S1), S13–S22. Royal Meteorological Society. https://doi.org/10.1002/wea.3303
  • Dickson, K. B., & Benneh, G. (1988). A new geography of Ghana (pp. 170). Longman.
  • Douglas, I., Bidin, K., Balamurugan, G., Chappell, N. A., Walsh, R. P. D., Greer, T., & Sinun, W. (1999). The role of extreme events in the impacts of selective tropical forestry on erosion during harvesting and recovery phases at Danum Valley, Sabah. Philosophical Transactions of the Royal Society London, B 354(1391), 1749–1761. https://doi.org/10.1098/rstb.1999.0518
  • Douglas, I., Newbery, D. M., Clutton–Brock, T. H., & Prance, G. T. (1999). Hydrological investigations of forest disturbance and land cover impacts in South-East Asia: A review. Philosophical Transactions of the Royal Society B, 354, 1725–1738. https://doi.org/10.1098/rstb.1999.0516
  • Douglas, I., Spencer, T., Greer, T., Bidin, K., Sinun, W., & Meng, W. M. (1992). The impact of selective commercial logging on stream hydrology, chemistry and sediment loads in the Ulu Segama rain forest, Sabah, Malaysia. Philosophical Transactions of the Royal Society London B, 335, 397–406.
  • Environmental Protection Agency. (2010). National greenhouse gas inventory report for 1990 – 2006. (Vol. 1, pp 90). October 2011.
  • Environmental Protection Agency. (2019, February). Ghana’s fourth national greenhouse gas inventory report. pp 318.
  • FAO. (1981). Arid zone hydrology. FAO Irrigation and drainage paper, (vol. 37, p. 96).
  • FAO. (2005a). Irrigation in Africa in figures-Aquastat survey. (FAO Water reports), pp 649.
  • FAO. (2005b). Irrigation in Africa in figures-Aquastat survey (Country profile- Ghana) (FAO Water reports, 29), pp 89.
  • Frederick, K. D. (1993). Balancing water demands with supplies: The role of management in a world of increasing scarcity. World Bank Technical Paper Number, 189, 72.
  • Freeze, R. A., & Harlan, R. L. (1969). Blueprint for a physically-based, digitally- simulated hydrologic response model. Journal of Hydrology, 9(3), 237–258. https://doi.org/10.1016/0022-1694(69)90020-1
  • Giles, J. (2005). Solving Africa’s Climate-data problem. Nature, 435, 863.
  • Giles, J. (2006). Meteorologists pour into West Africa. Nature, 442(7102), 496. https://doi.org/10.1038/442496a
  • GSS. (2013). Ghana statistical services, national accounts statistics for provisional gross domestic product, Accra, Ghana. http://www.stasghana.gov.gh
  • Guug, S., Abdul-Ganiyu, S., & Kasei, R., . A. (2020). Application of SWAT hydrological model for assessing water availability at the Sherigu catchment of Ghana and Southern Burkina Faso. HydroResearch, 3, 124–133. https://doi.org/10.1016/j.hydres.2020.10.002
  • Gyau-Boakye, P. (2001). Environmental impacts of the Akosombo dam and effects of climate change on the lake levels. Environment, Development and Sustainability, 3(1), 17–29. https://doi.org/10.1023/A:1011402116047
  • Gyau-Boakye, P., & Tumbulto, J. W. (2000). The Volta Lake and declining rainfall and streamflows in the Volta River Basin. Environment, Development and Sustainability, 2(1), 1–10. https://doi.org/10.1023/A:1010020328225
  • Hulme, M. (1992). Rainfall changes in Africa: 1931-1960 to 1961-1990. International Journal of Climatology, 12(7), 685–699. https://doi.org/10.1002/joc.3370120703
  • Issahaku, A., Campion, B. B., & Edziyie, R. (2016). Rainfall and temperature changes and variability in the Upper East Region of Ghana. Earth and Space Science, 3(8), 284–294. https://doi.org/10.1002/2016EA000161.
  • Kankam-Yeboah, K., Obuobie, E., Amisigo, B., & Opoku-Ankomah, Y. (2013). Impact of climate change on streamflow in selected river basins in Ghana. Hydrological Sciences Journal, 58(4), 773–788. https://doi.org/10.1080/02626667.2013.782101
  • Kasei, R. A., Amissigo, B., & Ampadu, B. (2014b). Climate downscaling over densu basin and nexus on hydrology in Ghana, Using RegCM4. In J. Yang (Ed.), Basins methods of formation, ongoing developments and emerging challenges (pp. 134–146). Nova Science Publishers.
  • Kasei, R. A., Amissigo, B., & Ampadu, B. (2014a). The Nexus of changing climate and impacts on rainfed water supply and fresh water availability for densu basin and parts of Accra - Ghana, West Africa. Journal of Environment and Earth Science, 4(20), 84–96.
  • Kasei, R. A., Ampadu, B., & Sapanbil, G. S. (2013). Relationship between rainfall- runoff on the White Volta River at Pwalugu of the Volta Basin in Ghana. Journal of Environment and Earth Science, 3(11), 92–99.
  • Koranteng, K. A., & Pezennec, O. (1998). Variability and trends in some environmental time series along the Ivorian and the Ghanaian Coasts. In M. A. Durand, et al (Ed.), Global versus local changes in upwelling systems (pp. 167–177). Orstrom editions.
  • Koranteng, K. A., & Mcglade, J. M. (2001). Climatic trends in continental shelf waters off Ghana and in the Gulf of Guinea, 1963-1992. Oceanologica Acta, 24(2), 187–198. https://doi.org/10.1016/S0399-1784(01)01140-9
  • Kranjac-Berisavljevic, G. (1999). Recent climatic trends in northern interior savannah zone of Ghana. In International Hydrological Programme, Proceedings of the International conference on Integrated Drought Management, (pp. 157–165). Lessons for Sub - Saharan Africa, 20–22 September, 1999. Pretoria South Africa, IHP-V/ Technical Documents in Hydrology, No. 35, UNESCO.
  • Kunstmann, H., & Jung, G. (2005). Impact of regional climate change on water availability in the Volta basin of West Africa. IAHS Publication, 295, 1–11.
  • Kuntsman, H., & Jung, G. (2003). Investigation of feedback mechanisms between soil moisture, land use and precipitation in West Africa (IAHS Publication No. 280), pp. 149–159
  • Lacombe, G., McCartney, M. and Forkuor, G. (2012). Drying Climate in Ghana over the Period 1960-2005: Evidence from the Resampling-Based Mann-Kendall Test at Local and Regional Levels. Hydrological Sciences Journal,57, 1594–1609. http://dx.doi.org/10.1080/02626667.2012.728291
  • Leavesley, G. H. (1994). Modelling the effects of climate change on water resources. Climate Change, 28(1–2), 159–177. https://doi.org/10.1007/BF01094105
  • LeBarbe, L., Lebel, T., & Tapsoba, D. (2002). Rainfall variability in West Africa during the years 1950-1990. Journal of Climate, 15(2), 187–202. https://doi.org/10.1175/1520-0442(2002)015<0187:RVIWAD>2.0.CO;2
  • Lebel, T., Redelsperger, J. L., & Thorncroft, C. (2005). The international plan for AMMA (pp. 103).
  • Lees, M. J. (2000). Data-based mechanistic modelling and forecasting of hydrological systems. Journal of Hydroinformatics, 2(1), 15–34. https://doi.org/10.2166/hydro.2000.0003
  • Legesse, D., Vallet-Coulomb, C., & Gasse, F. (2003). Hydrological response of a catchment to climate and land used changes in Tropical Africa: Case study South Central Ethiopia. Journal of Hydrology, 275(1–2), 67–85. https://doi.org/10.1016/S0022-1694(03)00019-2
  • Logah, F. Y., Obuobie, T., Ofori, D., & Yeboah-Kankam, K. (2013). Analysis of rainfall variability in Ghana. International Journal of Latest Research in Engineering and Computing (IJLREC), 1(1), 1–8.
  • Mahe, G., Lienou, G., Descroix, L., Bamba, F., Paturel, J. E., Laraque, A., Meddi, M., Habaieb, H., Adeaga, O., Dielin, C., & Kotti, F. C. (2013). The rivers of Africa: Witness of climate change and human impact on the environment. Hydrological Processes, 27(15), 2105–2114. https://doi.org/10.1002/hyp.9813
  • McGranahan, G. (2002). Demand-side water strategies and the urban poor (Poverty, Inequality and Environment Series (PIE) No. 4), pp 67.
  • McSweeney, C., New, M., & Lizcano, G. (2010). UNDP climate change country Priles, Ghana. [Online]. Retrieved July 10, 2020, from http://www.countryprofiles.geog.ox.ac.uk
  • Mwakalila, S., Campling, P., Feyen, J., Wyseure, G. & Beven, K. (2001). Application of data-based mechanistic modelling (DBM) approach for predicting runoff generation in semi-arid regions. Hydrological Processes,15, 2281–2295.
  • Niasse, M., Afouda, A., & Amandi, A. (2004). Reducing West Africa’s vulnerability to climate impacts on water resources, wetlands and desertification. Elements for a regional strategy for preparedness and adaptation (pp. 66). IUCN.
  • Nicholson, S. E. (1979). Revised rainfall series for the West African sub tropics. Monthly Weather Review, 1071, 620–623. https://doi.org/10.1175/1520-0493(1979)107<0620:rrsftw>2.0.CO;2
  • Nicholson, S. E. (1980). The nature of rainfall fluctuations in subtropical West Africa. Monthly Weather Review, 108(4), 473–487. https://doi.org/10.1175/1520-0493(1980)108<0473:TNORFI>2.0.CO;2
  • Nicholson, S. E. (1981). Rainfall and atmospheric circulation during drought periods and wetter years in West Africa. Monthly Weather Review, 109(10), 2191–2208. https://doi.org/10.1175/1520-0493(1981)109<2191:RAACDD>2.0.CO;2
  • Nicholson, S. E. (1989). Long term changes in African rainfall. Weather, 44(2), 47–56. https://doi.org/10.1002/j.1477-8696.1989.tb06977.x
  • Nicholson, S. E. (1993). An overview of African rainfall fluctuations of the last decade. Journal of Climate, 6(7), 1463–1466. https://doi.org/10.1175/1520-0442(1993)006<1463:AOOARF>2.0.CO;2
  • Nicholson, S. E., Funk, C., & Fink, H. K. (2018). Rainfall over the African continent from the 19th through the 21st century. Global and Planetary Change, 165, 114–127. https://doi.org/10.1016/j.gloplacha.2017.12.014
  • Nicholson, S. E., Some, B., & Kone, B. (2000). An analysis of recent rainfall conditions in West Africa, including the rainy seasons of the 1997 El Nino and the 1998 La Nina. Journal of Climate, 13(14), 2628–2640. https://doi.org/10.1175/1520-0442(2000)013<2628:AAORRC>2.0.CO;2
  • Nkrumah, F., Klutse, A. B., Adukpo, D. C., Owusu, K., Quagraine, K. A., Owusu, A., & Gutowski, W. (2014). Rainfall variability over Ghana: Model versus rain gauge observation. International Journal of Geosciences, 5(7), 673–683. https://doi.org/10.4236/ijg.2014.57060
  • Nyarko, B. K. (2002). Application of the rational model in GIS for flood risk assessment in Accra, Ghana. Journal of Spatial Hydrology, 2(1), 1–14.
  • Obuobie, E., Kankam-Yeboah, K., Amisigo, B., Opoku-Ankomah, Y., & Ofori, D. (2012). Assessment of vulnerability of river basins in Ghana to water stress conditions under climate change. Journal of Water and Climate Change, 3(4), 276–286. https://doi.org/10.2166/wcc.2012.030
  • Ofori, D., Kankam-Yeboah, K., & Logah, F. Y. (2016). Climate change and river basin – Level management of water resources in Ghana. Journal of Ghana Science Association, 16(1), 93–108.
  • Ofori-Sarpong, E. (1982). Perspective of the drought of 1975-1977 in Ghana. Indonesia Journal of Geography, 12(44), 1–14.
  • Ofori-Sarpong, E. (1985). The nature of rainfall and soil moisture in the North Eastern part of Ghana during the 1975-1977 droughts. Geografiska Annaler, 67A(3–4), 177–187.
  • Ojo, O. (1987). Rainfall trends in West Africa, 1901-1985. In S. I. Solomon, M. Beran, & W. Hogg (Eds.), The influence of climate change and climatic variability on the hydrologic regime and water resources (pp. 37–43). IAHS Publication no. 168.
  • Ojo, O., Gbuyiro, S. O., & Okoloye, C. U. (2004). Implications of climatic variability and climate change for water resources availability and management in West Africa. GeoJournal, 61(2), 111–119. https://doi.org/10.1007/s10708-004-2863-8
  • Opoku-Ankomah, Y., & Amisigo, B. A. (1998). Rainfall and runoff variability in the south western river system of Ghana (IAHS Publication No. 252), pp. 307–414.
  • Opoku-Ankomah, Y., & Cordery, I. (1994). Atlantic sea surface temperatures and rainfall variability in Ghana. Journal of Climate, 7(4), 551–558. https://doi.org/10.1175/1520-0442(1994)007<0551:ASSTAR>2.0.CO;2
  • Opoku-Ankomah, Y., & Forson, M. A. (1998). Assessing surface water resources of the South-Western and Coastal basin systems of Ghana. Hydrological Sciences Journal, 43(5), 733–740.
  • Owusu, K., & Klutse, N. A. B. (2013). Simulation of the rainfall regime over Ghana from CORDEX. International Journal of Geosciences, 4(4), 785–791. https://doi.org/10.4236/ijg.2013.44072
  • Owusu, K., & Waylen, P. (2009). Trends in Spatio-temporal variability in annual rainfall in Ghana (1951–2000). Weather, 64(5), 115–120. https://doi.org/10.1002/wea.255
  • Owusu, P. A., Asumadu-Sarkodie, S., & Ameyo, P. (2016). A review of Ghana’s water resource management and the future prospect. Cogent Engineering, 3(1), 1–14. https://doi.org/10.1080/23311916.2016.1164275
  • Paturel, J. E., Servat, E., Kouame, B., Lubes, H., Ouedrago, M., & Masson, M. J. (1997). Climatic variability in humid Africa along the Gulf of Guinea part II: An integrated regional approach. Journal of Hydrology, 191(1–4), 16–36. https://doi.org/10.1016/S0022-1694(96)03069-7
  • Pechlivanidis, I. G., Jackson, B. M., Mcintyre, N. R., & Wheater, H. S. (2011). Catchment scale hydrological modelling: A review of model types, calibration approaches and uncertainty analysis methods in the context of recent developments in technology and applications. Global NEST Journal, 13(3), 193–214.
  • Redelsperger, J. L., Thorncroft, C. D., Diedhiou, A., Lebel, T., Parker, D. J., & Polcher, J. (2006). African monsoon multiplicity analysis: An international research project and field campaign. Bulletin of American Meteorological Society, 87(12), 1739–1746. https://doi.org/10.1175/BAMS-87-12-1739
  • Refsgaard, J. C., & Storm, B. (1995). MIKE SHE. In V. P. Singh (Ed.), Computer models of watershed hydrology (pp. 809–846). Water Resources Publications, Highlands Ranch.
  • Refsgaard, J. C. (1996). Terminology, modelling protocol and classification of hydrological model codes. In M. B. Abbott & J. C. Refsgaard Eds., Distributed hydrological modelling (pp. 17–40). Kluwer Academic Publishers. Chapter 2.
  • Refsgaard, J. C., Storm, B., & Refsgaard, A. (1995). Validation and applicability of distributed hydrological models (IAHS Publication no. 231), pp. 387–397.
  • Refsgaard, J. C., Thorsen, M., Jensen, J. B., Kleeschulte, S., & Hansen, S. (1999). Large scale modelling of groundwater contamination from Nitrate leaching. Journal of Hydrology, 221(3–4), 117–140. https://doi.org/10.1016/S0022-1694(99)00081-5
  • Sefton, C. E. M., & Howarth, S. M. (1998). Relationships between dynamic response characteristics and physical descriptors in England and Wales. Journal of Hydrology, 211(1–4), 1–16. https://doi.org/10.1016/S0022-1694(98)00163-2
  • Shaw, E. M., Beven, K. J., Chappell, N. A., & Lamb, R. (2011). Hydrology in practice (Fourth Edition ed., pp. 543). Taylor and Francis.
  • Solera-Garcia, M. A. (2009). Analysis of hydro-climatic interactions in SE Asia using Data- Based modelling [Unpublished PhD Thesis]. Department of Environmental Science. Lancaster University.
  • Solera-Garcia, M. A., Chappell, N. A., & Tych, W. (2006). Identification of the distribution of hydro-climatic cycles of field observations in South East Asia (IAHS Publication No 308), pp. 356–361.
  • Sonu, M. (1991). Management issues of irrigation in Africa (Faculty of Agriculture lecture paper). Kwame Nkrumah University of Science and Technology.
  • Stanturf., J. A., Warren, M. L., Charnley, S., Polasky, S. C., Goodrick, S. L., Armah, F., & Nyako, Y. A. (2011). Ghana climate change vulnerability and adaptation assessment (pp. 244). USAID/GHANA Publication.
  • Troch, P. A., Dijksma, R., Van-lanen, H. A. Y., & Van-loon, E. E. (2007). Towards improved observations and modelling of catchment-scale hydrological processes: Bridging the gap between local knowledge and global problem of ungauged catchments. (IAHS Publication No. 309), pp. 173–185.
  • Tsang, F. C. (1995). Advances in flood forecasting using radar rainfalls and time series analysis [Unpublished PhD Thesis]. Lancaster University.
  • Turner, B. F., Gardner, L. R., & Sharp, W. E. (1996). The hydrology of Lake Bosumtwi, a climate - sensitive lake in Ghana, West Africa. Journal of Hydrology, 183(3–4), 243–261. https://doi.org/10.1016/0022-1694(95)02982-6
  • Van de Giesen, N., Kunstmann, H., Jung, G., Liebe, J., Andreini, M., & Vlek, P. L. G. (2002). The GLOWA volta project: Integrated assessment of feedback mechanisms between climate, landuse and hydrology. In M. Beniston (Ed.), Climatic change. Implications for the hydrological cycle and water management, Advances in Global Research, (Vol. 10, pp. 151–170).
  • Van de Giessen, N., Andreini, M., Van Edig, A., & Vlek, P. L. G. (2001). Competition for water resources of the Volta basin (IAHS Publication 268, pp. 199–205.
  • Van Edig, A., Engel, S., & Laube, W. (2003). Ghana water institution in the process of reform. In S. Nuabert, et al. (Ed.), Reforming institutions for sustainable water management (pp. 31–50). German Development Institute.
  • Vigiak, O., Romanowicz, R. J., Van-loon, E. E., Sterk, G., & Beven, K. J. (2006). A disaggregating approach to describe overland flow occurrence within a catchment. Journal of Hydrology, 323(1–4), 22–40. https://doi.org/10.1016/j.jhydrol.2005.08.012
  • Vongtanaboon, S., & Chappell, N. (2004). DBM rainfall-runoff modelling of large rainforest catchments in Thailand. In R. C. Sidle, M. Tani, A. R. Nik, & T. A. Tadese (Eds.), Forests and water in warm humid Asia (pp. 252–255). Disaster Prevention Research Institute.
  • Vongtanaboon, S. (2004). Parsimonious modelling of the rainfall-runoff behaviour of large catchments in Thailand [Unpublished PhD Thesis]. Lancaster University.
  • Walker, H. O. (1962). Weather and climate. In J. B. Willis (Ed.), Agriculture and land use in Ghana (pp. 7–50). Oxford University Press.
  • Ward, R. C. and Robinson, M. (1990). Principles of Hydrology (Third Edition), UK: McGraw Hill.
  • WASCAL Cooperation Agreement Document. (2012). Agreement on the cooperation with regard to the creation of the West African Science Service Centre on Climate Change and Adapted Land Use (WASCAL). https://wascal.org/legal-documents/
  • Weston, M., & Steven, D. (2005). Climate proofing Africa: Climate and Africa’s development challenge, DFID/DEFRA (pp. 26).
  • Wheater, H. S., Jakeman, A. J., & Beven, K. J. (1993). Progress and directions in rainfall-runoff modelling. In A. J. Jakeman, M. B. Beck, & M. J. McAleer Eds., Modelling change in environmental systems (pp. 101–132). John Wiley. Chapter 5.
  • Whitehead, P. G., & Young, P. C. (1975). A recursive approach to time series analysis for multivariable systems. In G. C. Vansteenkiste (Ed.), Modelling and simulation of water resources systems (pp. 39–58).
  • WHO/UNICEF. (2000). Global water supply and sanitation assessment 2000 report, Geneva. pp.80.
  • Yeleliere, E., Cobbina, S. J., & Duwiejuah, A. B. (2018). Review of Ghana’s water resources: The quality and management with particular focus on freshwater resources. Applied Water Science, 8(93), 1–12. https://doi.org/10.1007/s13201-018-0736-4
  • Young, P. C. (1978). A general theory of modelling for badly defined dynamic system. In G. C. Vansteenkiste (Ed.), Modelling, identification and control in environmental systems (pp. 103–135).
  • Young, P. C. (1983). The validity and credibility of models for badly defined systems. In M. B. BecK & G. Van Straten (Eds.), Uncertainty and forecasting of water quality. Springer-Verlag.
  • Young, P. C. (1984). Recursive estimation and time series analysis (Vols. 69–98). Springer- Verlag.
  • Young, P. C. (1985). The instrumental variable method: A practical approach to identification and system parameter estimation. In H. A. Barker & P. C. Young (Eds.), Identification and system parameter estimation (pp. 1–16). Pergamon Oxford.
  • Young, P. C. (1986). Time series methods and recursive estimation in hydrological systems and analysis. In D. A. Kraijenhoff & D. J. Moll (Eds.), River flow modelling and forecasting (pp. 129–180). D. Reidal Publishing Company.
  • Young, P. C. (1991). Simplified refined instrumental variable (SRIV) estimation and true digital control. In Proceedings of the first European Control Conference, Grenoble, (pp 1295–1306).
  • Young, P. C. (1992). Parallel processes in hydrology and water quality: A unified time-series approach. Journal of Institution of Water and Environmental Management, 6(5), 598–612. https://doi.org/10.1111/j.1747-6593.1992.tb00796.x
  • Young, P. C., & Lees, M. J. (1993). The active mixing volume (AMV): A new concept in modelling environmental systems. In V. Barnett. & K. F. Turkman (Eds.), Statistics for the environment (pp. 3–44). John Wiley.
  • Young, P. C. (1993). Time variable and state dependant modelling of non-stationary and non-linear time series. In T. Subba Rao (Ed.), Developments in time series analysis (pp. 374–413). Chapman and Hall.
  • Young, P. C. (1998). Data-based mechanistic modelling of environmental, ecological, economic and engineering systems. Environmental Modelling and Software, 13(2), 105–122. https://doi.org/10.1016/S1364-8152(98)00011-5
  • Young, P. C. (2001). Data-based mechanistic modelling and validation of rainfall- flow process. In M. G. Anderson & P. D. Bates (Eds.), Model validation: Perspectives in hydrological science (pp. 117–161). J. Wiley.
  • Young, P. C. (2002). Advances in real-time flood forecasting. Philosophical Transactions of the Royal Society London A, 360(1796), 1433–1450. https://doi.org/10.1098/rsta.2002.1008
  • Young, P. C. (2003). Top-down and data-based mechanistic modelling of rainfall - flow dynamics at the catchment scale. Hydrological Processes, 17(11), 2195–2217. https://doi.org/10.1002/hyp.1328
  • Young, P. C. (2005). Rainfall - runoff modelling: Transfer function models. In M. G. Anderson (Ed.), Encyclopaedia of hydrological sciences (pp. 1985–2000). John Wily and Sons, Ltd.
  • Young, P. C. (2006). Updating algorithms in flood forecasting (Flood Risk Management Research Consortium (FRMRC) Research Report, UR5), pp 80.
  • Young, P. C., & Beven, K. J. (1991). Computation of the instantaneous unit hydrograph and identifiable component flows with application to two small upland catchments-Comments. Journal of Hydrology, 129(1–4), 389–396. https://doi.org/10.1016/0022-1694(91)90060-U
  • Young, P. C., & Beven, K. J. (1994). Data-based mechanistic modelling and the rainfall flow non-linearity. Environmetrics, 5(3), 335–363. https://doi.org/10.1002/env.3170050311
  • Young, P. C., Jakeman, A. J., & Post, D. A. (1997). Recent advances in the data- based modelling and analysis of hydrological systems. Water Science and Technology, 36(5), 99–116. https://doi.org/10.2166/wst.1997.0174
  • Young, P. C., & Minchin, P. (1991). Environmetric time-series analysis: Modelling natural systems from experimental time-series data. International Journal of Biological Macromolecules, 13(3), 190–201. https://doi.org/10.1016/0141-8130(91)90046-W
  • Young, P. C., Pedregal, D. J., & Tych, W. (1999). Dynamic harmonic regression. Journal of Forecasting, 18(6), 369–394. https://doi.org/10.1002/(SICI)1099-131X(199911)18:6<369::AID-FOR748>3.0.CO;2-K

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.