Development of a passive transform margin: Côte d’Ivoire–Ghana transform margin – ODP Leg 159 preliminary results Jean MasclePat LohmannODP 159 Scientific Party Pages: 4 - 11
Synthesis of the crustal structure of the transform continental margin off Ghana, northern Gulf of Guinea R. A. EdwardsR. B. WhitmarshR. A. Scrutton Pages: 12 - 20
An integrated thermomechanical model for transform continental margin evolution S. A. GaddR. A. Scrutton Pages: 21 - 30
Structure of oceanic crust adjacent to a transform margin segment: the Côte d’Ivoire–Ghana transform margin F. SageB. PontoiseC. Basile Pages: 31 - 39
Crustal structure and ocean–continent transition at marginal ridge: the Côte d’Ivoire–Ghana marginal ridge F. SageB. PontoiseL. Arnould Pages: 40 - 48
Submersible observations of Cretaceous deformations along the Côte d’Ivoire–Ghana transform margin J. BenkhelilJ. MascleEquanaute Scientific Team Pages: 49 - 54
Fission track study: heating and denudation of marginal ridge of the Ivory Coast–Ghana transform margin J.-P. BouillinG. PoupeauL. Riou Pages: 55 - 61
The Côte d’Ivoire–Ghana transform margin: sedimentary and tectonic structure from multichannel seismic data G. LamarcheC. BasileFranc¸oise Sage Pages: 62 - 69
Synrift to syntransform deformation along the Côte d’Ivoire–Ghana transform margin: evidence from deep-sea dives M. GuiraudJ. BenkhelilM. Cousin Pages: 70 - 78
Early Cretaceous deltaic sedimentary environment of the Côte d’Ivoire–Ghana transform margin as deduced from deep dive data M. GuiraudJ. MascleM. Durand Pages: 79 - 86
Lithospheric structure along the Queen Charlotte margin in western Canada: constraints from flexural modeling J. PrimsK. P. FurlongR. Govers Pages: 94 - 99
Uplift at thermo-mechanically coupled ocean–continent transforms: Modeled at the Senja Fracture Zone, southwestern Barents Sea E. Va˚gnes Pages: 100 - 109
Flexure across a continent–ocean fracture zone: the northern Falkland/Malvinas Plateau, South Atlantic J. M. LorenzoP. Wessel Pages: 110 - 118