Stream power controls the braiding intensity of submarine channels similarly to rivers

We use physical experiments to investigate the response of submarine braided channels driven by saline density currents to increasing inflow discharge and bed slope. We find that, similarly to braided rivers, only a fraction of submarine braided networks have active sediment transport. We then find similar response to imposed change between submarine and fluvial braided systems: (1) both the active and total braiding intensities increase with increasing discharge and slope; (2) the ratio of active braiding intensity to total braiding intensity is 0.5 in submarine braided systems regardless of discharge and slope; and (3) the active braiding intensity scales linearly with dimensionless stream power. Thus, braided submarine channels and braided rivers are similar in some important aspects of their behavior and responses to changes in stream power and bed slope. In light of the scale independence of braided channel planform organization, these results are likely to apply beyond experimental scales. Key Points Submarine braided channels on a submarine fan exhibit active channels and nonactive channels Active and total braiding intensities of experimental submarine braided channels are proportional to discharge and slope at steady state Active braiding intensity of experimental submarine braided channels scales linearly with dimensionless stream power