The Waiareka-Deborah volcanic field is a group of sub-alkaline basalt to basaltic andesite composition volcanics, most of which erupted about 34 million years ago. There is a range of determined ages by various methods and sites although most have very similar timings. At Bridge Point one deposit has an age of 39.5 ñ 1.8 and another 34.3 ñ 0.5 million years ago. They are found near Oamaru, South Island New Zealand, and are small Surtseyan volcanoes that erupted originally on a submerged continental shelf.
The former term, the Waiareka-Deborah volcanic group should not be used as any alkali basalt volcanoes in this group and all of those in the former Waiareka volcanic field are now assigned to the Dunedin volcanic group and its monogenetic volcanic field.
They extend on the present Otago coast south from just north of Oamaru, but well south of the Waitaki River, to the Moeraki Peninsula. The field has an area on land of about . There are probably Southern Pacific Ocean subsurface components from sonar studies but these have not yet been characterised by core sampling. Accordingly, a further area of up to could yet be assigned to these volcanics. The furtherest inland deposit is at Basalt Hill just beyond the Maerewhenua River. There are Dunedin volcanic group eruptives between this and the coast and indeed most of the field is coastal.
Deposits without an age may need reclassification due to complexity. The presence of six overlapping Surtseyan volcanoes at one site, Cape Wanbrow, is an example of this complexity. At least two examples of more recent alkaline Dunedin volcanic group eruptives through Waiareka-Deborah volcanic field crystalline rock have been characterised to date.
The first geological description of volcanics associated with the group was made in 1850 by Dr. Gidon Algernon Mantell in the Quarterly Journal of the Geological Society. This is acknowledged in the first comprehensive geology review of Oamaru district that uses extensively the term "Deborah limestone" with respect to sedimentary strata in relationship to the volcanics.