"Predicting Invasiveness of Species in Trade: Climate Match, Trophic Guild and Fecundity Influence Establishment and Impact of Non-Native Freshwater Fishes" by Jennifer G. Howeth

Article

Predicting Invasiveness of Species in Trade: Climate Match, Trophic Guild and Fecundity Influence Establishment and Impact of Non-Native Freshwater Fishes

Diversity and Distributions

Jennifer G. Howeth
Crysta A. Gantz
Paul L. Angermeier
Emmanuel A. Frimpong
Michael H. Hoff
Reuben P. Keller
Nicholas E. Mandrak
Michael Marchetti, Saint Mary's College of California
Julian D. Olden
Christina M. Romagosa
David M. Lodge

Link

SMC Author

Michael Marchetti

Status

Faculty

School

School of Science

Department

Biology

Document Type

Article

Publication Date

1-1-2016

Description/Abstract

Aim

Impacts of non-native species have motivated development of risk assessment tools for identifying introduced species likely to become invasive. Here, we develop trait-based models for the establishment and impact stages of freshwater fish invasion, and use them to screen non-native species common in international trade. We also determine which species in the aquarium, biological supply, live bait, live food and water garden trades are likely to become invasive. Results are compared to historical patterns of non-native fish establishment to assess the relative importance over time of pathways in causing invasions.

Location

Laurentian Great Lakes region.

Methods

Trait-based classification trees for the establishment and impact stages of invasion were developed from data on freshwater fish species that established or failed to establish in the Great Lakes. Fishes in trade were determined from import data from Canadian and United States regulatory agencies, assigned to specific trades and screened through the developed models.

Results

Climate match between a species’ native range and the Great Lakes region predicted establishment success with 75–81% accuracy. Trophic guild and fecundity predicted potential harmful impacts of established non-native fishes with 75–83% accuracy. Screening outcomes suggest the water garden trade poses the greatest risk of introducing new invasive species, followed by the live food and aquarium trades. Analysis of historical patterns of introduction pathways demonstrates the increasing importance of these trades relative to other pathways. Comparisons among trades reveal that model predictions parallel historical patterns; all fishes previously introduced from the water garden trade have established. The live bait, biological supply, aquarium and live food trades have also contributed established non-native fishes.

Main conclusions

Our models predict invasion risk of potential fish invaders to the Great Lakes region and could help managers prioritize efforts among species and pathways to minimize such risk. Similar approaches could be applied to other taxonomic groups and geographic regions.

Keywords

Aquarium,
biological invasions,
classification tree,
ecological impact,
establishment success,
exotic species,
Laurentian Great Lakes,
live food,
risk assessment,
water garden

Scholarly

Yes

DOI

10.1111/ddi.12391

Disciplines

Biodiversity and
Biology

Rights

Open access

Original Citation

Howeth J.G., C. A. Gantz, P.l L. Angermeier, E. l A. Frimpong, M. Hoff, R. P. Keller, N. E. Mandrak, M. P. Marchetti, J. D. Olden, C. M. Romagosa, and D. M. Lodge, January 2016. Predicting invasiveness of species in trade: climate match, trophic guild and fecundity influence establishment and impact of non‐native freshwater fishes. Diversity & Distributions 22(2), pp.148-160. doi:10.1111/ddi.12391

Citation Information

Jennifer G. Howeth, Crysta A. Gantz, Paul L. Angermeier, Emmanuel A. Frimpong, et al.. "Predicting Invasiveness of Species in Trade: Climate Match, Trophic Guild and Fecundity Influence Establishment and Impact of Non-Native Freshwater Fishes" Diversity and Distributions Vol. 22 Iss. 2 (2016) p. 148 - 160
Available at: http://works.bepress.com/reuben-keller/41/