Effect of subducting sea-floor roughness on fore-arc kinematics, Pacific coast, Costa Rica

Donald M. Fisher, Thomas W. Gardner, Jeffrey S. Marshall, Peter B. Sak, Marino Protti

Research output: Contribution to journalArticlepeer-review

95 Scopus citations


Fault kinematics and uplift in the Costa Rican fore arc of the Middle America convergent margin are controlled to a large extent by roughness on the subducting Cocos plate. Along the northwest flank of the incoming Cocos Ridge, seafloor is characterized by short wavelength roughness related to northeast-trending seamount chains. Onland projection of the rough subducting crust coincides with a system of active faults oriented at high angles to the margin that segment the fore-arc thrust belt and separate blocks with contrasting uplift rates. Trunk segments of Pacific slope fluvial systems typically follow these margin-perpendicular faults. Regionally developed marine and fluvial terraces are correlated between drainages and across faults along the Costa Rican Pacific coast. Terrace separations across block-bounding faults reveal a pattern of fore-arc uplift that coincides roughly with the distribution of incoming seamounts. Magnitude and distribution of Quaternary uplift along the Costa Rican Pacific coast suggests that, despite a thin incoming sediment pile, the inner fore arc shows an accumulation of mass - a characteristic that may be due to underplating of seamounts beneath the fore-arc high.

Original languageEnglish (US)
Pages (from-to)467-470
Number of pages4
Issue number5
StatePublished - May 1998

All Science Journal Classification (ASJC) codes

  • Geology


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