Abstract
The Oligocene Afar mantle plume resulted in the eruption of a large volume of basaltic magma, including major sequences of rhyolitic ignimbrites, in a short span of time across Ethiopia. In order to assess the impact of these magmatic processes on the crust and to investigate the general crustal configuration beneath the Ethiopian plateau, northern part of the Main Ethiopian Rift and the Afar depression, analysis and modeling of the gravity field have been conducted. The Bouguer gravity map is dominated by long-wavelength anomalies that primarily arise from the isostatic compensation of the topography. Consequently, anomalies within the crust/upper mantle are masked and quantitative interpretation becomes difficult. The long-wavelength anomalies are approximated using admittance technique and subsequently removed from the Bouguer anomalies to obtain the residual isostatic anomalies. The residual map contains both short- and intermediate-wavelength anomalies related to geologic and tectonic features. The long-wavelength regional isostatic field is used to map the crust-mantle interface and the results are in good agreement with those determined by other geophysical methods. Seismic constrained gravity inversion was performed on the isostatic residual field and series of three-dimensional models have been constructed for the structures of the crust and upper mantle beneath the uplifted and rifted flood basalt province of northern Ethiopia. The inversion results have shown that the NW plateau has thick crust that rests on normal lithospheric mantle. Afar, On the other hand, is marked by thin stretched crust resting on a low-density upper mantle indicating a hotter thermal regime and partial melt. No lithospheric mantle is observed beneath Afar. The models further indicate the presence of an extensive sub-crustal thick (~12 km on average) and high-density (~3.06 gm/cc) mafic accreted igneous layer of fractionated cumulate (magmatic underplating) beneath the NW plateau. The study suggests that the underplate was fundamental to the accretion process and may have played a role in compensating most of the plateau uplift and in localizing stresses.
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References
Abebe, T., Mazzarini, F., Innocenti, F., and Manetti, P. (1998), The Yerer–Tullu Wellel volcano-tectonic lineament: a transtensional structure in central Ethiopia and the associated magmatic activity, Journal of African Earth Sciences 26, 135–150.
Asfaw, L.M. (1992), Constraining the African pole of rotation, Tectonophysics 209, 55–63.
Ayalew, D., Barbey, P., Marty, B., Reisberg, L., Yirgu, G., and Pik, R. (2002), Source, genesis And timing of giant ignimbrite deposits associated with Ethiopian continental flood Basalts, Geochimica et Cosmochimica Acta 66, 1429–1448.
Ayalew, D., Yirgu, G. (2003), Crustal contribution to the genesis of Ethiopian plateau rhyolitic ignimbrites: basalt and rhyolite geochemical provinciality. Journal of the Geological Society of London 160, 47–56.
Ayalew, D., and Gibson, A. (2009), Head-to-tail transition of the Afar mantle plume: Geochemical evidence from a Miocene bimodal basalt–rhyolite succession in the Ethiopian Large Igneous Province, Lithos 112 (3–4), 461–476.
Ayele, A., Stuart, G., and Kendall, J. (2004). Insights into rifting from shearwave splitting: an example from Ethiopia, Geophysical Journal International 157, 354–362.
Ayele, A., Jacques, E., Kassim, M., Kidane, T., Omar, A., Tait, S., Nercessian, A., de Chabalier, J.B., and King, G. (2007), The volcano-seismic crisis in Afar, Ethiopia, starting September 2005, Earth Planet. Sci. Lett. 255, 177–187.
Banks, R., Parker, R., and Huestis, S. (1977), Isostatic compensation on a continental scale: local versus regional mechanisms, Geophys. J. R. Astron. Soc. 51, 431–452.
Barton, P.J. (1986), The relationship between seismic velocity and density in the continental crust - a useful constraint?, Geophys. J. R. Astron. Soc. 87, 195–208.
Bastow, I. D., Stuart, G. W., Kendall, J. M., and Ebinger, C. J. (2005), Upper mantle seismic structure in a region of incipient continental breakup: northern Ethiopian rift, Geophys. J. Int. 162, 479–493.
Bastow, I. D., Nyblade, A. A., Stuart, G. W., Rooney, T. O., and Benoit, M. H. (2008), Upper mantle seismic structure beneath the Ethiopian hotspot: Rifting at the edge of the African low velocity anomaly. Geochem. Geophys. Geosyst. 9, Q12022.
Bastow, I. D., Keir, D., and Daly, E. (2011), The Ethiopia Afar Geoscientific Lithospheric Experiment (EAGLE): Probing the transition from continental rifting to incipient sea floor spreading, in Volcanism and Devolution of the African Lithosphere (eds. Beccaluva, L., Bianchini, G., and M. Wilson, M.) Spec. Pap. Geol. Soc. Am., 478, 1–26.
Benoit, M.H., Nyblade, A.A., and VanDecar, J.C. (2006), Upper mantle P-wave speed variations beneath Ethiopia and the origin of the Afar hotspot, Geology 34, 329–332.
Berckhemer, H., Baier, B., Bartelson, H., Behle, A., Burkhardt, H., Gebrande, H., Makris, J., Menzel, H., Miller, H., and Vees, R. (1975), Deep seismic soundings in the Afar region and on the highland of Ethiopia, In Afar between continental and oceanic rifting (eds. Pilger. A., and Rosler. A.) Stuttgart, Schweizerbart, pp. 89–107.
Blakely, R. J. (1995), Potential theory in gravity and magnetic applications. Cambridge Univ. Press, Cambridge.
Casey, M., Ebinger, C.J., Keir, D., Gloaguen, R., and Mohamad, F. (2006), Strain accommodation in transitional rifts: extension by magma intrusion and faulting in Ethiopian rift magmatic segments, In The Afar Volcanic Province within the East African Rift System (eds. Yirgu G., Ebinger C.J., and Maguire P.K.H.) (Geological Society Special Publication 259), 143–163.
Chorowicz, J., Collet, B., Bonavia, F., Mohr, P., Parrot, J.F., and Korme, T. (1998), The Tana basin, Ethiopia: intra-plateau uplift, rifting and subsidence, Tectonophysics 295, 351–367.
Coffin, M.F., and Eldholm, O. (1994), Large igneous provinces: crustal structure, dimensions, and external consequences, Reviews of Geophysics 32, 1–36.
Corti, G. (2009), Continental rift evolution: from rift initiation to incipient break-up in the Main Ethiopian Rift, East Africa, Earth-Science Reviews 96, 1–53.
Corti, G., Bonini, M., Mazzarini, F., Boccaletti, M., Innocenti, F., Manetti, P., Mulugeta, G., Sokoutis, D. (2002). Magma-induced strain localization in centrifuge models of transfer zones, Tectonophysics 348, 205–218.
Corti, G., Bonini, M., Conticelli, S., Innocenti, F., Manetti, P., and Sokoutis, D. (2003), Analogue modelling of continental extension: a review focused on the relations between the patterns of deformation and the presence of magma. Earth-Science Reviews, 63, 169–247.
Cornwell, D.G., Mackenzie, G.D., England, R.W., Maguire, P.K.H., Asfaw, L.M., and Oluma, B. (2006), Northern Main Ethiopian Rift crustal structure from new high-precision gravity data, In The Afar Volcanic Province within the East African Rift System (eds. Yirgu G., Ebinger C.J., and Maguire P.K.H.) (Geological Society Special Publication 259). pp. 307–321.
Coulie, E., Quidelleur, X., Gillot, P.Y., Courtillot, V., Lefevre, J.C., and Chiesa, S. (2003), Comparative K-Ar and Ar/Ar dating of Ethiopian and Yemenite Oligocene volcanism: Implications for timing and duration of the Ethiopian traps, Earth Planet. Sci. Lett. 206, 477–492.
Courtillot, V., Jaupart, C., Manighetti, I., Tapponnier, P., and Besse, J. (1999), On causal links between flood basalts and continental breakup, Earth Planet. Sci. Lett. 166, 177–199.
Cox, K.G. (1980), A model for flood basalt volcanism, J. Petrol. 21, 629–650.
Cox, K.G. (1989), The role of mantle plumes in the development of continental drainage patterns. Nature 342, 873–877.
Cox, K.G. (1993), Continental magmatic underplating. Royal society of London Philosophical Transactions, ser. A. 342, 155–166.
Daly, E., Keir, D., Ebinger, C. J., Stuart, G. W., Bastow, I. D., and Ayele, A. (2008), Crustal tomographic imaging of a transitional continental rift: the Ethiopian rift, Geophysical Journal International 172, 1033–1048.
Dorman, L.M., and Lewis, B.T.R. (1970), Experimental isostasy, 1, theory of the determination of the earth’s isostatic response to a concentrated load, J. Geophys. Res. 75, 3357–3375.
Dugda, M.T., Nyblade, A.A., Julia, J., Langston, C.A., Ammon, C.J., and Simiyu, S. (2005), Crustal structure in Ethiopia and Kenya from receiver function analysis: implications for rift development in eastern Africa, J. Geophys. Res. 110, B01303. doi:10.1029/2004JB003065.
Dugda, M.T., and Nyblade, A. A. (2006), New constraints on crustal structure in eastern Afar from the analysis of receiver functions and surface wave dispersion in Djibouti, Geological Society, London, Special Publications, 259, 239–251. doi: 10.1144/GSL.SP.2006.259.01.19.
Ebinger, C.J., Bechtel, T.D., Forsyth, D.W., and Bowin, C.O. (1989), Effective plate thickness beneath the East African and Afar plateaus and dynamic compensation of the uplifts, Journal of Geophysical Research 94, 2883–2901.
Ebinger, C.J., and Casey, M. (2001), Continental breakup in magmatic provinces: An Ethiopian Example, Geology 29, 527–530.
Farnetani, C.G., Richards, M.A., and Ghiorso, M.S. (1996), Petrological models of magma evolution and deep crustal structure beneath hotspots and flood basalts, Earth and Planetary Science Letters 143, p. 81–94.
Ferguson, D.J., Barnie, T.D., Pyle, D.M., Oppenheimer, C., Yirgu, G., Lewi, E., Kidane, T., Carn, S., and Hamling, I. (2010), Recent rift-related volcanism in Afar, Ethiopia, Earth Planet. Sci. Lett. doi:10.1016/j.epsl.2010.02.010.
Forsyth, D.W. (1985), Subsurface loading and estimates of the flexural rigidity of continental Lithosphere, Journal of Geophysical Research 90, 12623–12632.
Gashawbeza, E.M., Klemperer, S.L., Nyblade, A.A., Walker, K.T., and Keranen, K.M. (2004), Shear wave splitting in Ethiopia: Precambrian mantle anisotropy locally modified by Neogene rifting. Geophysical Research Letters, 31, L18602, doi:10.1029/2004GL020471.
Grandin, R., Socquet, A., Binet, R., Klinger, Y., Jacques, E., de Chabalier, J.B., King, G.C.P., Lasserre, C., Tait, S., Tapponier, P., Delorme, A., and Pinzuti, P. (2009), September 2005 Manda Hararo–Dabbahu rifting event, Afar Ethiopia: constraints provided by geodetic data. J. Geophys. Res. 114, B08404.
Hamling, I.J., Ayele, A., Bennati, L., Calais, E., Ebinger, E.J., Keir, D., Lewi, E., Wright, T., and Yirgu, G. (2009), Geodetic observations of the ongoing Dabbahu rifting episode: new dyke intrusions in 2006 and 2007, Geophys. J. Int. 178, 989–1003.
Hammond, J. O. S., Kendall, J.M., Stuart, G. W., Keir, D., Ebinger, C., Ayele, A., and Belachew, M. (2011), The nature of the crust beneath the Afar triple junction: evidence from receiver functions, Geochem. Geophys. Geosyst., doi:10.1029/2011GC003738,
Hayward, N.J., and Ebinger, C.J. (1996), Variations in the along-axis segmentation of the Afar Rift system, Tectonics 15, 244–257.
Hoffman, C., Courtillot, V., Fe′raud, G., Rochette, P., Yirgu, G., Ketefo, E., and Pik, R. (1997), Timing of the Ethiopian flood basalts event and implications for plume birth and global Change, Nature 389, 838–841.
Jacobsen, B.H. (1987), A case for upward continuation as a standard separation filter for potential-field maps, Geophysics 52(8), 1138–1148.
Kebede, F., and Kulhanek, O. (1991), Recent seismicity of the East African Rift system and its Implications, Physics of Earth Planetary Interiors 68, 259–273.
Kebede, F., Vuan, A., Mammo, T., Costa, G., and Panza, G.F. (1996), Shear wave velocity structure of Northern and North-eastern Ethiopia, Acta Geodaetica et Geophysica 31, 145–159.
Keir, D., Kendall, J. M., Ebinger, C. J. and Stuart, G. W. (2005), Variations in late syn-rift melt alignment inferred from shear-wave splitting in crustal earthquakes beneath the Ethiopian rift. Geophys. Res. Lett. 32, L23308.
Keir, D., Ebinger, C.J., Stuart, G.W., Daly, E. and Ayele, A. (2006), Strain accommodation by magmatism and faulting as rifting proceeds to breakup: seismicity of the northern Ethiopian rift, Journal of Geophysical Research. 111(B5). B05314, doi: 10.1029/2005JB003748.
Keir, D., Hamling, I., Ayele, A., Calais, E., Ebinger, C., Wright, T.J., Jacques, E., Mohammed, K., Hammond, J.O.S., Belachew, M., Baker, E., Rowland, J.V., Lewi, E., and Bennati, L. (2009), Evidence for focused magmatic accretion at segment centers from lateral dike Injections captured beneath the Red Sea rift in Afar, Geology 37, 59–62.
Keir, D., Belachew, M., Ebinger, C., Kendall, J.M., Hammond, J.O.S., Stuart, G., Ayele, A. and Rowland, J. (2011). Mapping the evolving strain field during continental breakup from crustal anisotropy in the Afar depression. Nature Communications, doi: 10.1038/ncomms1287.
Kendall, J.M., Stuart, G.W., Ebinger, C.J., Bastow, I.D., and Keir, D. (2005), Magma assisted rifting in Ethiopia, Nature 433, 146–148.
Kendall, J.M., Pilidou, S., Keir, D., Bastow, I.D., Stuart, G.W., and Ayele, A., (2006), Mantle upwellings, melt migration, and the rifting of Africa: insights from seismic anisotropy, In The Afar Volcanic Province within the East African Rift System. (eds. Yirgu G., Ebinger C.J., and Maguire P.K.H.) Geological Society Special Publication 259, 55–72.
Kennan, P. S., Mitchell, J. G., and Mohr, P. (1990), The Sagatu ridge dyke swarm, Ethiopian rift margin: Revised age and new Sr-isotopic data, J. Afr. Earth Sci. 11, 39–42.
Keranen, K., Klemperer, S. L., and Gloaguen, R. (2004), Three-dimensional seismic imaging of a protoridge axis in the Main Ethiopian Rift, Geological Society of America 32(11), 949–952.
Keranen, K., and Klemperer, S. L. (2008), Discontinuous and diachronous evolution of the Main Ethiopian Rift: Implications for development of continental rifts, Earth and Planetary Science Letters 265, 96–111.
Kimbell, G. S., Gatliff, R. W., Ritchie, J. D., Walker, A.S.D., and Williamson, J. P. (2004). Regional three-dimensional gravity modelling of the NE Atlantic margin. Basin Research 16, 259–278.
Lewis, B.T.R. and Dorman, L.M. (1970), Experimental isostasy. 2. An isostatic model for the U.S.A. derived from gravity and topographic data, J. Geophys. Res. 75, 3367–3386.
Li, Y., and Oldenburg, D. W. (1998), 3-D inversion of gravity data, Geophysics 63, 109–119.
Lyngsie, S.B., Thybo, H., and Rasmussen, T.M. (2006), Regional geological and tectonic Structures of the North Sea area from potential field modeling, Tectonophysics 413, 147–170.
Mackenzie, G.D., Thybo, H., and Maguire, P.K.H. (2005), Crustal velocity structure across the Main Ethiopian Rift: results from two-dimensional wide-angle seismic modeling, Geophysical Journal of International Research 162, 994–1006.
Maclennan, J., and Lovell, B. (2002), Control of regional sea level by surface uplift and subsidence caused by magmatic underplating of Earth’s crust. Geology 30, 675–678.
Maguire, P.K.H., Keller, G.R., Klemperer, S.L., Mackenzie, G.D., Keranen, K., Harder, S., O’Reilly, B., Thybo, H., Asfaw, L., Khan, M.A., Amha, M., 2006. Crustal structure of the Northern Main Ethiopian Rift from the EAGLE controlled source survey: a snapshot of incipient lithospheric break-up. In The Afar volcanic province within the east African rift system, (eds. Yirgu G., Ebinger C.J., and Maguire P.K.H.) (Geological Society Special Publication 259, 2006) pp. 269–291.
Mahatsente, R., Jentzsch, G., and Jahr, T. (1999), Crustal structure of the Main Ethiopian rift from gravity data: 3-dimensional modeling, Tectonophysics 313, 363–382.
Makris, J., Menzel, H., Zimmermann, J., and Gouin, P. (1975), Gravity field and crustal structure of north Ethiopia, In Afar between continental and oceanic rifting (eds. Pilger. A., and Rosler. A.) (Stuttgart, Schweizerbart 1975) pp. 135–144.
Makris, J., and Ginzburg, A. (1987), The Afar depression: transition between continental rifting and sea-floor spreading, Tectonophysics 141, 199–214.
Makris, J., Henke, C.H., Egloff, F., and Akamaluk, T. (1991), The gravity field of the Red Sea and East Africa, Tectonophysics 198, 369–381.
Mammo, T. (2004). Mapping the crust-mantle boundary beneath Afar depression, Gondwana Research 7, 855–861.
Mammo, T. (2010). Delineation of sub-basalt sedimentary basins in hydrocarbon exploration in North Ethiopia. Marine and Petroleum Geology 27, 895–908.
Manighetti, I., Tapponnier, P., Gillot, P., Jacques, E., Courtillot, V., Armijo, R., Ruegg, J.C., and King, G.C.P. (1998), Propagation of rifting along the Arabia-Somalia plate boundary: into Afar, J. Geophys. Res. 103, 4947–4974.
Mariita, N. and Keller, R. (2007), An integrated geophysical study of the northern Kenya rift. J. African Earth Sciences 48, 80–94.
Marty B., Pik R., and Gezahegn Y. (1996), Helium isotopic variations in Ethiopian plume lavas: Nature of magmatic sources and limit on lower mantle contribution. Earth Planet, Sci. Lett. 144, 223–237.
McKenzie, D., and Bowin, C. (1976), The relationship between bathymetry and gravity in the Atlantic Ocean, J. Geophys. Res. 81, 1903–1915.
McNutt, M. K., and Parker, R. L. (1978), Isostasy in Australia and the evolution of the Compensation mechanism, Science 199, 773–775.
Meg’e, D, and Korme T. (2004). Dyke swarm emplacement in the Ethiopian Large Igneous Province: not only a matter of stress, Journal of Volcanology and Geothermal Research 132, 283–310.
Merla, G., Abbate, E., Canuti, P., Sagri, M., and Tacconi, P. (1979), Geological map of Ethiopia and Somalia and comment. Cons. Naz. Delle Ric. Ital.
Mickus, K., Tadesse, K., Keller, G.R., and Oluma, B. (2007), Gravity analysis of the Main Ethiopian Rift, Journal of African Earth Sciences 48, 59–69.
Mohr, P. (1967), The Ethiopian Rift System. Bulletin of the Geophysical Observatory of Addis Ababa 11, 1–65.
Mohr, P. (1980), Geochemical aspects of the Sagatu ridge dike swarm, Ethiopian rift margin, In Geodynamic Evolution of the Afro-Arabian Rift System, Acad. Nat. lincei, Atti Convegni Lincei 47, 384–067.
Mohr, P.A., and Potter, E. C. (1976), The Sagatu Ridge dike swarms, Ethiopian rift margin, J. Volcanol. Geotherm. Res. 1, 55–71.
Mohr, P. (1983), Ethiopian flood basalt province, Nature 303, 577–584.
Mohr, P., Zanettin, B. (1988), The Ethiopian food basalt province, In Continental flood basalts (Ed. Macdougall, J.D.), Kluwer Academic Publishers, 63–110.
Nyblade, A.A., and Sleep, N.H. (2003), Long lasting epeirogenic uplift from mantle plumes and the origin of the southern African Plateau, Geochemistry Geophysics Geosystems 4, 1105.
Parker, R.L. (1973), The rapid calculation of potential anomalies, Geophys.J. R. astr. Soc. 31, 447–455.
Pik, R., Deniel, C., Coulon, C., Yirgu, G., Hofmann, C., and Ayelew, D. (1998), The Northwestern Ethiopian Plateau flood basalts. Classification and spatial distribution of Magma types, Journal of Volcanology and Geothermal Research 81, 91–111.
Pik, R., Deniel, C., Coulon, C., Yirgu, G., and Marty, B. (1999), Isotopic and trace element signatures of Ethiopian flood basalts: evidence for plume-lithosphere interactions, Geochimica et Cosmochimica Acta 63, 2263–2279.
Pik, R., Marty, B., Carignan, J., and Lav′e, J. (2003), Stability of the upper Nile drainage network (Ethiopia) deduced from (U-Th)/He thermochronometry: implications for uplift and erosion of the Afar plume dome, Earth Planet. Sci. Lett. 215, 73–88.
Rapolla, A., Cella, F., and Dorre, A. S. (1995), Moho and lithosphere-asthenosphere boundaries In east Africa from regional gravity data, Boll. di Geofisica Teorica ed Applicata 37, 277–301.
Richards, M.A., Duncan, R.A., and Courtillot, V.E. (1989), Flood basalts and hotspot tracks: Plume heads and tails, Science 246, 103–107.
Rochette, P., Tamrat, E., Feraud, G., Pik, R., Courtillot, V., Ketefo, E., Coulon, C., Hofmann, C.,Vandamme, D., and Yirgu, G. (1998), Magnetostratigraphy and timing of the Oligocene Ethiopian traps, Earth Planet. Sci. Lett. 164, 497–510.
Rooney, T., Furman, T., Bastow, I., Ayalew, D., and Yirgu, G. (2007), Lithospheric modification during crustal extension in the Main Ethiopian Rift, Journal of Geophysical Research 112, B10201. doi:10.1029/2006JB004916.
Ruegg, J.C., 1975. Main results about the crustal and upper mantle structure of the Djibouti region (T.F.A.I), In Afar between continental and oceanic rifting (eds. Pilger. A., and Rosler. A.) (Stuttgart, Schweizerbart 1975) pp. 120–134.
Rychert, C. A., Hammond, J. O. S., Harmon, N., Kendall, J. M., Keir, D., Ebinger, C., Bastow, I. D., Ayele, A., Belachew, M., and Stuart, G. (2012), Volcanism in the Afar Rift sustained by decompression melting with minimal plume influence. Nature geosciences, 1–4. doi:10.1038/NGEO1455.
Schilling, J-G. (1973), Afar mantle plume: Rare earth evidence, Nature 242, 2–5.
Schultz, R. A., Me’ge, D., and Diot, H. (2008), Emplacement conditions of igneous dykes in Ethiopia Traps, Journal of Volcanology and Geothermal Research 178, 683–692.
Searle, R. C. (1975), The dispersion of surface waves across southern Afar, In Afar between continental and oceanic rifting (eds. Pilger. A., and Rosler. A.) (Stuttgart, Schweizerbart 1975) pp. 89–107.
Sheth, H.C. (2007), Large Igneous Provinces (LIPs): Definition, recommended terminology, and a hierarchical classification, Earth-Science Reviews 85, 117–124.
Simiyu, S. M., and Keller, R. (2001), An integrated geophysical analysis of the upper crust of the southern Kenya rift. Geophys. J. Int. 147, 543–561.
Simpson, R.W., Jachens, R.C., Blakely, Richard J., and Saltus, R.W. (1986), A new isostatic Residual gravity map of the conterminous United States with a discussion on the significance of isostatic residual anomalies, Journal of Geophysical Research 91, 8348–8372.
Singh, A. P., and Meissner, R. (1995), Crustal configuration of the Narmada-Tapti region (India) from gravity studies. Journal of geodynamics 20, 111–127.
Stuart G.W., Bastow I.D., Ebinger C.J., (2006), Crustal structure of the northern Main Ethiopian Rift from receiver function studies, In The Afar Volcanic Province within the East African Rift System. (eds. Yirgu G., Ebinger C.J., and Maguire P.K.H.) Geological Society Special Publication 259, 253–267.
Tessema, A., and Antoine, L.A.G. (2004), Processing and interpretation of the gravity field of The East African Rift: implication for crustal extension, Tectonophysics 394, 87–110.
Tiberi, C., Ebinger, C., Ballu, V., Stuart, G., and Oluma, B. (2005), Inverse models of gravity Data from the Red Sea-Aden-East African rifts triple junction zone, Geophysical Journal International 163, 775–787.
Varet, J., Geological map of central and southern Afar (Ethiopia and Djibouti Republic) (ed. CNRS, Paris 1975).
Watts, A. (1978), An analysis of isostasy in the world’s oceans 1. Hawaiian–Emperor Seamount Chain, J. Geophys. Res. 83, 5989–6004.
Watts, A. (2001), Isostasy and Flexure of the Lithosphere. Cambridge University Press, Cambridge.
White, R., and McKenzie, D. (1989), Magmatism at rift zones: The generation of volcanic continental margins and flood basalts, J. Geophys. Res. 94, 7685–7729.
White, R. S., Spence, G. D., Fowler, S. R., McKenzie, D. P., Westbrook, G. K., and Bowen, A. N. (1987), Magmatism at rifted continental margins, Nature 330, 439–444.
White, R.S., and McKenzie, D. P. (1989a). Magmatism at rift zones: The generation of volcanic continental margins and flood basalts, Journal of Geophysical Research 94, 7685–7729.
White R. S., and McKenzie, D. P.(1989b), Volcanism at rifts. Scient. Am. July, 44–55.
Woldetinsae, G., and Gotze, H. –J. (2005), Gravity field and isostatic state of Ethiopia and Adjacent areas, J. Afr. Earth Sciences 41, 103–117.
Wolfenden, E., Ebinger, C., Yirgu, G., Deino, A., and Ayalew, D. (2004), Evolution of the Northern Main Ethiopian rift: birth of a triple junction, Earth and Planetary Science Letters 224, 213–228.
Wolfenden, E., Ebinger, C., Yirgu, G., Renne, P., and Kelley, S. P. (2005), Evolution of a volcanic rifted margin: Southern Red Sea, Ethiopia, Geological Society of America Bulletin 117, 846–864.
Wright, T.J., Ebinger, C., Biggs, J., Ayele, A., Yirgu, G., Keir, D., and Stork, A. (2006), Magma maintained rift segmentation at continental rupture in the 2005 Afar dyking episode, Nature 442, 291–294.
Yamasaki, T., and Gernigon, L. (2009), Styles of lithospheric extension controlled by underplated mafic Bodies, Tectonophysics 468, 169–184.
Yamasaki, T., and Gernigon, L. (2010). Redistribution of the lithosphere deformation by the emplacement of underplated mafic bodies: implications for microcontinent formation, Journal of the Geological Society, London 167, 1–11.
Yirgu, G., Ayele, A., and Ayalew, D. (2006), Recent seismovolcanic crisis in Northern Afar, Ethiopia, Eos, Trans. AGU 87, 325–326.
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I thank the two anonymous reviewers for their helpful comments and suggestions. The discussion with Dr. Dereje Ayalew on the petrology of the region is appreciated.
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Mammo, T. Crustal Structure of the Flood Basalt Province of Ethiopia from Constrained 3-D Gravity Inversion. Pure Appl. Geophys. 170, 2185–2206 (2013). https://doi.org/10.1007/s00024-013-0663-0
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DOI: https://doi.org/10.1007/s00024-013-0663-0