High sedimentation rates in Pleistocene active margin basins can provide a very detailed record of tectonic and climatic controls on sediment preservation. A 500 m thick, Pleistocene rock section exposed in northeastern North Island of New Zealand (Kidnappers Group), provides the opportunity to discuss these controls. The section is composed of conglomerate, sandstones, siltstones and minor shales, interbedded with tephra layers. The sediments were deposited in alluvial to shallow marine environments and preserved in stacks of depositional units decimetres to hundreds of metres thick as a result of base-level changes through time. The correlation of base-level changes in the section with the deep sea oxygen isotope stratigraphy shows that the sequences at 10m and 80m scales can correlate, respectively, to the 20 and 100 kyr changes in eustatic sea-level, but that the 80-m-thick sequences correlate also to changes in tectonic uplift rates. A major change in the stratigraphical architecture occurs at the Mid-Pleistocene Transition (MPT) when the 40 kyr ice volume variations shifted to a dominant 100 kyr variation. This change includes an increase in the amplitude of the shifts in depositional environments and an overall simplification of the stacking pattern of the depositional units through the MPT. This study illustrates that active margin basins can record orbitally forced sedimentary cycles and points to a possible leading influence of eustasy on the pattern of sediment preservation in tectonically active areas. © 2004 John Wiley and Sons, Ltd.

Active margin basin Eustasy Tectonics Orbital forcing Pleistocene

New Zealand Pleistocene active margin Australasia orbital forcing eustacy sedimentary sequence sedimentation rate Fraxinus