The Holocene 14,2 (2004) pp. 218–232 Techniques for estimation of tidal elevation and connement (~salinity) histories of sheltered harbours and estuaries using benthic foraminifera: examples from New Zealand Bruce W. Hayward, 1 * George H. Scott, 2 Hugh R. Grenfell, 1 Rowan Carter 1,3 and Jere H. Lipps 4 ( 1 Department of Geology, University of Auckland, Private Bag 92 019, Auckland, New Zealand; 2 Institute of Geological and Nuclear Sciences Ltd, PO Box 30 368, Lower Hutt, New Zealand; 3 North Shore City Council, Takapuna, Auckland, New Zealand; 4 Museum of Paleontology, University of California, Berkeley, California, USA) Received 6 August 2002; revised manuscript accepted 2 January 2003 Abstract: Techniques for estimating tidal elevation and connement (proxy for salinity) using modern benthic foraminiferal census data from New Zealand harbours and lower-salinity estuaries are described and assessed for their utility for reconstructing the depositional settings of late-Holocene sequences. We describe a simple modern analogue technique for estimating tidal or subtidal elevation of Holocene fossil faunas, utilizing the modern data set most applicable to the Holocene setting (sheltered tidal harbours and inlets, or lower-salinity estuaries). Canonical correspondence analysis was used to extract a synthetic connement gradient from for- aminiferal census data in transects down ve New Zealand estuaries. This gradient was used to develop a New Zealand Connement Index that can be computed for New Zealand modern and Holocene estuarine and harbour samples based on their foraminiferal composition. The value of the method for estimating Holocene elevational and connement (palaeosalinity) histories was assessed for a tidal inlet and the middle reaches of an estuary. Two earthquake-related vertical displacements are recognized in a 1.1 m core from Ahuriri Inlet, Hawkes Bay: (1) a 1–2 m subsidence (c. 500 BP) from low tidal to subtidal; (2) a 1.5–2.5 m uplift (1931 Napier Earthquake) from subtidal to high tidal, followed by progressively increasing connement in a much smaller inlet. A substan- tial connement increase (probable salinity decrease) is recognized in a 0.8 m core from Rangitopuni Estuary, Auckland, accompanying the widespread disappearance of cockle beds. Palynology shows that this event is associated with forest clearance in the watershed following earliest signicant human settlement (c. 600–800 BP). Taphonomic dissolution of calcareous tests was a signicant factor in the lesser accuracy of elevational estimates in our estuarine study core, although dissolution appears to correspond with increased freshwater runoff. Taphonomic disaggregation and loss of agglutinated foraminifera did not appear to be signicant in these short cores. Key words: New Zealand, Ahuriri Inlet, Rangitopuni Estuary, modern analogue technique, benthic foraminifera, tidal elevation, connement, salinity, palaeosalinity, taphonomy, late Holocene. Introduction A powerful method of determining natural and human-induced environmental change in late-Holocene coastal marine environ- *Author for correspondence (e-mail: b.hayward@geomarine.org.nz) Ó Arnold 2004 10.1191/0959683604hl678rp ments is through the analysis of the fossilized record of biotic change in young sedimentary sequences. The record of macro- scopic fossils is usually patchy and not easily recovered in its entirety from a single sedimentary sequence or core, whereas microscopic fossils are usually more abundant and their history