Garcia-Diaz, P and Kerezsy, A and Unmack, PJ and Lintermans, M and Beatty, SJ and Butler, GL and Freeman, R and Hammer, MP and Hardie, S and Kennard, MJ and Morgan, DL and Pusey, BJ and Raadik, TA and Thiem, JD and Whiterod, NS and Cassey, P and Duncan, RP, Transport pathways shape the biogeography of alien freshwater fishes in Australia, Diversity and Distributions, 24, (10) pp. 1405-1415. ISSN 1366-9516 (2018) [Refereed Article]
Copyright 2018 John Wiley & Sons Ltd
Aim: Changing preferences regarding which species humans have transported to new regions can have major consequences for the potential distribution of alien taxa, but the mechanisms shaping these patterns are poorly understood. We assessed the extent to which changes in human preferences for transporting and introducing alien freshwater fishes have altered their biogeography.
Methods: We compiled an up‐to‐date database of alien freshwater fishes established in drainages in Australia before and after the number of established alien fish species doubled (pre‐1970 and post‐1970, respectively). Using metacommunity models, we analysed the influence of species traits and drainage features on the distribution of alien fishes that established pre‐ and post‐1970.
Results: Alien fishes in Australia were introduced via four main transport pathways: acclimatization, aquaculture, biocontrol and ornamental trade. The relative importance of each pathway changed substantially between the two periods, accompanied by changes in the distribution of alien fishes and the variables predicting their distribution. Pre‐1970, most species (64%) were introduced by acclimatization societies for purposes such as angling and biocontrol, and these fish have established in inland drainages more heavily impacted by human activities. In contrast, most of the post‐1970 introductions (69%) were ornamental fishes, with most species established in small, north‐eastern, tropical and subtropical coastal drainages.
Main conclusions: Substantial changes in introduction preferences and transport pathways over time have altered both the patterns and underlying processes shaping the biogeography of alien fishes in Australia. Our findings highlight the need for caution when using historical data to infer potential future distributions of alien species. The continuing spread of alien species means traditional biogeographical units may no longer be identifiable in the foreseeable future.
|Item Type:||Refereed Article|
|Keywords:||acclimatization, Australia, community alteration, human-induced environmental change, ornamental trade, species turnover|
|Research Division:||Environmental Sciences|
|Research Group:||Ecological applications|
|Research Field:||Biosecurity science and invasive species ecology|
|Objective Division:||Environmental Management|
|Objective Group:||Fresh, ground and surface water systems and management|
|Objective Field:||Fresh, ground and surface water biodiversity|
|UTAS Author:||Hardie, S (Dr Scott Hardie)|
|Web of Science® Times Cited:||9|
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