Australian Museum Journal Australia as a major evolutionary centre for Amphipoda (Crustacea)

Shortform:
Barnard and Karaman, 1984, Aust. Mus. Mem. 18(4): 45–61
Author(s):
Barnard, J. Laurens; Karaman, Gordan S.
Year published:
1984
Title:
Australia as a major evolutionary centre for Amphipoda (Crustacea)
Serial title:
Australian Museum Memoir
Volume:
18
Issue:
4
Start page:
45
End page:
61
DOI:
10.3853/j.0067-1967.18.1984.371
Language:
English
Date published:
31 March 1984
Cover date:
31 December 1983
ISSN:
0067-1967
CODEN:
AUNMA5
Publisher:
The Australian Museum
Place published:
Sydney, Australia
Subjects:
CRUSTACEA: AMPHIPODA; EVOLUTION
Digitized:
09 September 2009
Reference number:
371
EndNote package:
EndNote file
Title page:
Title page (109kb PDF)
Complete work:
Complete work (1921kb PDF)

Abstract

The morphology of modern amphipods is used in place of a cogent fossil record to conclude that amphipods existed in the early Mesozoic during Pangaea. A freshwater group called crangonyctids was distributed at that time over most of the continental coagulum. Freshwater amphipods abhor tropical environments so that the modern dispersal of continents has resulted in widely dispersed relict fragments of crangonyctids. North America remains heavily populated with these animals whereas South Africa and Australia are now poorly endowed owing to climate. Eurasia is poorly endowed with crangonyctids because of the later evolution of more successful freshwater amphipods such as gammarids and niphargids, neither of which reached the southern hemisphere. South America lacks any of the mentioned groups, having a freshwater amphipod fauna of unique character except for bogidiellids shared with other world regions. Marine amphipods also are cold-adapted. This characteristic in part provides a global ecological effect best represented in Australia and known as ends-of-the-earth phenomenon. The warm-temperate region of southern Australia therefore comprises a large isolated reservoir of amphipods dominated by groups poorly represented elsewhere. Parts of certain families have exploded evolutionarily in Australia. These include Phoxocephalidae, Dexaminidae and Urohaustoriidae. Australia is seen primarily as a huge environment capable of containing a diverse assemblage of these taxa and is not necessarily the place of origin for these and other taxa. However, Australia retains the most primitive living phoxocephalid (Pontharpinia). A new classification of amphipods based on fleshy telson is promulgated and criticised. Two new families and two new genera are also created to fill obvious gaps in Australian taxonomy. A prospectus treats new research needed, especially that which requires morphofunctional investigation.