They are perhaps the best studied group of microalgae, largely due to one distinctive feature: their cells are enclosed within a rigid box of silica, termed a frustule. In the centric diatoms, this takes the shape (roughly) of a rounded hatbox, whereas in the pennate diatoms–the other major subdivision–it takes the form of a more elongate shoebox. Both types can be viewed on this website.
The diatom frustule has proven extremely useful for taxonomists, because it can be cleaned and preserved, and markings on the silica provide very detailed characters that can be used to classify species. These attributes are unusual among microalgae, which frequently cannot be archived in herbaria without losing most of the useful taxonomic features from the specimens, of which there may have been few to begin with!
Diatom taxonomy consequently has a rich history, with specialist journals, professional and amateur practitioners, and numerous specimen collections that remain as effective today as when they were first accessioned. Important applications of the discipline include the reconstruction of past environments from sediment cores, exploiting the persistence in sediments of frustules from ancient times and the fact that environmental tolerances of species are relatively well understood; another is the study of biogeography, or the spatial distribution of species. The painstaking examination of many historical and new collections has resulted in a view of Australasia as a centre of diatom endemism.
This website aims to make available images and associated information on the species of diatoms from brackish and freshwater habitats that were first described from New Zealand material.
In this section
We gratefully acknowledge funding from TFBIS, the Terrestrial and Freshwater Biodiversity Information System, administered by the New Zealand Department of Conservation. The TFBIS Programme is funded by the New Zealand Government to help to achieve the goals of the New Zealand Biodiversity Strategy. Specifically, TFBIS has been funded to improve the conservation of New Zealand’s indigenous biodiversity by increasing awareness of, and access to, fundamental data and information about biota and biodiversity.
Novis P 2015. New Zealand Freshwater and Brackish Diatom Types
Accessed: 21 October 2020