Noticed monitoring of groundwater resilience to local weather variability in sub-Saharan Africa
Braune, E. & Xu, Y. The position of groundwater in sub-Saharan Africa. Floor Water 48, 229-238 (2010).
Villholth, Okay. G. Groundwater Irrigation for Smallholder Farmers in Sub-Saharan Africa – a synthesis of present data to information sustainable outcomes. Int. Water 38, 369-391 (2013).
Maxwell, R.M. & Kollet, S.J. Interdependence of groundwater dynamics and energy-soil suggestions underneath local weather change. Nat. Geosci. 1, 665-669 (2008).
Jiménez Cisneros, B.E. et al. in Local weather Change 2014: Impacts, Adaptation and Vulnerability. Half A: World and sectoral facets. Contribution of Working Group II to the Fifth Evaluation Report of the Intergovernmental Panel on Local weather Change (eds Area, BC et al.) 229-269 (Cambridge Univ Press, 2014) .
Taylor, R. G. et al. Groundwater and local weather change. Nat. Clim. Chang. three, 322-329 (2013).
MacDonald, A.M., Bonsor, H.C., Dochartaigh, B.E. Ó. & Taylor, R. G. Quantitative Maps of Groundwater Sources in Africa. About. Res. Lett. 7, 024009 (2012).
Vouillamoz, J.-M., Lawson, F., Yalo, N. and Descloitres, M. Groundwater in laborious rocks of Benin: regional capability for storage and buffer storage within the face of modifications. J. Hydrol. 520, 379-386 (2015).
Altchenko, Y. & Villholth, Okay. Mapping the potential for irrigation from renewable groundwater in Africa – a quantitative hydrological strategy. Hydrol. Earth Syst. Sci. 19, 1055-1067 (2015).
Cuthbert, M. O. et al. World patterns and dynamics of climate-groundwater interactions. Nat. Clim. Chang. 9, 137-141 (2019).
Chung, I.-M., Sophocleous, M.A., Mitiku, D.B. and Kim, N.W. Estimation of groundwater recharge in humid and semi-arid areas of Africa. Geosci. J. 20, 731-74 (2016).
Taylor, R. G. et al. Proof of dependence of groundwater assets on excessive rainfall in East Africa. Nat. Clim. Chang. three, 374-379 (2013).
Sood, A. & Smakhtin, V. World Hydrological Fashions: A Evaluate. Hydrol. Sci. J. 60, 549-565 (2015).
Koirala, S. et al. World distribution of spatial covariation groundwater – vegetation. Geophysics Res. Lett. 44, 4134-41 (2017).
Cuthbert, M. et al. Modeling the position of groundwater hydro-refuges within the evolution and dispersion of hominids in East Africa. Nat. Widespread. eight, 15696 (2017).
Favreau, G. et al. Clearing, climatic variability and the rise of water assets within the semi-arid south-west of Niger: assessment. Wat. Resour. Res. 45, W00A16 (2009).
Healy, R. W. Estimation of groundwater recharge (Cambridge Univ Press, 2010).
Scanlon, B.R. et al. World synthesis of groundwater recharge in semi-arid and arid areas. Hydrol. Course of 20, 3335-3370 (2006).
De Vries, J. J. and Simmers, I. Groundwater recharge: overview of processes and challenges. Hydrogéol. J. 10, 5-17 (2002).
E. E. Climatic controls on diffuse groundwater recharge in semi-arid environments within the southwestern United States. Wat. Resour. Res. 41, WO4012 (2005).
Konikow, L. F. & Leake, S. A. Depletion and seize: re-examination of "supply of water from wells". Groundwater 52, 100-111 (2014).
Hirmas, D.R. et al. Local weather – induced modifications in soil macroporosity on the continental scale can intensify the water cycle. Nature 561, 100-103 (2018).
Rowell, D. P. Simulation of OHS teleconnections in Africa: what’s the state-of-the-art? J. Clim. 26, 5397-55418 (2013).
Dillon, P. et al. Refill of Managed Aquifers: Rediscover Nature as Superior Expertise. Sci of water. Technol. 62, 2338-2345 (2010).
Collins, M. et al. in Local weather Change 2013: The Fundamentals of Bodily Science. Contribution of Working Group I to the Fifth Evaluation Report of the Intergovernmental Panel on Local weather Change (eds Stocker, TF et al.) 1029-1136 (Cambridge Univ Press, 2013) .
Zomer, R.J., Trabucco, A., Bossio, D.A. and Verchot, L. V. Local weather change mitigation: spatial evaluation of afforestation and reforestation as a part of a clear growth mechanism. Agric. Ecosystem. About. 126, 67-80 (2008).
Bloomfield, J. & Marchant, B. Drought evaluation of groundwater primarily based on the standardized strategy of the precipitation index. Hydrol. Earth Syst. Sci. 17, 4769-4787 (2013).
Schneider, U., Becker, A., Finger, P., Meyer-Christoffer, A. and Ziese, M. GPCC Full Month-to-month Product Model, 2018 Model at 1.zero °: Month-to-month Land Floor Precipitation from rain gauges constructed on the GTS – historic and historic information. World Precipitation Climatology Heart https://opendata.dwd.de/climate_environment/GPCC/html/fulldata-monthly_v2018_doi_download.html (2018).
Funk, C. et al. Local weather dangers associated to infrared precipitation with stations – a brand new environmental document for excessive monitoring. Sci. Knowledge 2, 150066 (2015).
Smith, T.M., Reynolds, R.W., Peterson, T.C. and Lawrimore, J. Enhancements in NOAA (1880-2006) Evaluation of the Floor Temperature of the Earth and the Merged Ocean. J. Clim. 21, 2283-22296 (2008).
Saji, N., B. Goswami, Vinayachandran, P. & Yamagata, T. A dipole mode within the tropical Indian Ocean. Nature 401, 360-363 (1999).
Janowiak, J. E. A examine of interannual rainfall variability in Africa. J. Clim. 1, 240-255 (1988).
Ropelewski, C.F. & Halpert, M. S. World and regional precipitation patterns related to El Niño / Southern Oscillation. Mon Weath. Rev. 115, 1606-1626 (1987).
Shannon, L., Boyd, A., Brundrit, G. and Taunton-Clark, J. On the existence of an El Niño-like phenomenon within the Benguela system. J. Mar. Res. 44, 495-520 (1986).
Cause, C.J. & Sensible, S. Warming within the tropical Southeast Atlantic and related rainfall anomalies over southern Africa. Entrance. About. Sci. three, 24 (2015).
Rouault, M., Florenchie, P., Fauchereau, N. & Cause, C. J. Sizzling occasions southeast of the tropical Atlantic and rainfall in southern Africa. Geophysics Res. Lett. 30, 8009 (2003).
Thiaw, West Africa: the Sahel floods in 2012. Bull. Bitter. Meteor. Soc. 94, S164 to S165 (2013).
Cornforth, R. J. West of the West Africa Monsoon 2012. Climate 68, 256-263 (2013).
Healy, R. W. & Cook dinner, P. G. Use of groundwater ranges to estimate recharge. Hydrogéol. J. 10, 91-109 (2002).
Crosbie, R.S., Binning, P. and Kalma, J.D.A chronological strategy to infer groundwater recharge utilizing the groundwater fluctuation methodology. Wat. Resour. Res. 41, WO1008 (2005).
Cuthbert, M. An improved time collection strategy for estimating groundwater recharge from groundwater degree fluctuations. Wat. Resour. Res. 46, WO9515 (2010).
Cuthbert, M. et al. Perceive and quantify the focused and oblique groundwater recharge of ephemeral streams with the assistance of fluctuations within the water desk. Wat. Resour. Res. 52, 827-840 (2016).
Cuthbert, Mr. Straight is considering the recession of groundwater. Wat. Resour. Res. 50, 2407-2424 (2014).
Xu, Y. & Beckman, H. E. Estimation of groundwater recharge in arid and semi-arid southern Africa. Hydrogéol. J. 27, 929-943 (2019).
Taylor, R., Tindimugaya, C., J. Barker, D. Macdonald and D. Kulabako, R. Convergent radial tracing of viral transport and solute in saprolite gneiss. Floor Water 48, 284-294 (2010).
Kotchoni, D.V. et al. Relationship between rainfall and groundwater recharge in a seasonally moist Benin: comparative evaluation of long-term hydrographs of sedimentary and crystalline aquifers. Hydrogéol. J. 27, 447-457 (2019).
Cuthbert, M., Mackay, R., and Nimmo, J. To determine a hyperlink between soil moisture steadiness and source-sensitive fashions for estimating diffuse and preferential elements of groundwater recharge. Hydrol. Earth Syst. Sci. 17, 1003-1019 (2013).
Eilers, V., Carter, R.C. and Rushton, Okay. R. A single layer water funds mannequin for estimating deep drainage (potential recharge): an software to cropland within the semi-arid northeastern Nigeria. Geoderma 140, 119-131 (2007).
Hargreaves, G.H. and Samani, Z. A. Evapotranspiration from reference tradition from temperature. Appl. Eng. Agric. 1, 96-99 (1985).
Beven, Okay. & Germann, P. Macropores and the movement of water in soils revisited. Wat. Resour. Res. 49, 3071-3092 (2013).
Wheater, H., Sorooshian, S. and Sharma, Okay. D. Hydrological Modeling in Arid and Semi-Arid Zones (Cambridge Univ Press, 2007).
Seddon, D. Local weather controls and groundwater recharge processes in a semi-arid tropical setting
: Testimonies from the Makutapora Basin, Tanzania. PhD Thesis, College Faculty London (2019).
Massuel, S. et al. Built-in modeling of floor water and groundwater within the context of accelerating water reserves in a Sahel regional aquifer. Hydrol. Sci. J. 56, 1242-1264 (2011).