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Quantification of intra-regional propagule movements in the Antarctic

Published online by Cambridge University Press:  03 March 2011

Jennifer E. Lee*
Affiliation:
Centre for Invasion Biology, Department of Botany and Zoology, Stellenbosch University, Private Bag X1, Matieland 7602, South Africa
Steven L. Chown
Affiliation:
Centre for Invasion Biology, Department of Botany and Zoology, Stellenbosch University, Private Bag X1, Matieland 7602, South Africa

Abstract

Management of non-native species introductions is a conservation priority in the Antarctic region. However, despite the recognised importance of intra-regional propagule transfer, the majority of studies have focused on inter-regional pathways (i.e. from outside of the Antarctic region). Here we quantify the number of seeds carried by expeditioners who have visited sub-Antarctic Marion Island. We recorded 420 seeds from 225 items of clothing, with seeds found on 52% of the items and soil on 45% of them. The median number of seeds for field-based and station-based personnel was 20.5 and 3 per person, respectively. Waterproof trousers and socks, particularly those of field workers, carry the greatest number of propagules (for field workers, medians of 5 and 6.5, respectively) and therefore should be the focus of intra-regional management interventions. Amongst the seeds found entrained within clothing several were from species which are widespread aliens in the Antarctic region including Agrostis stolonifera, Poa annua and Sagina procumbens, and indigenous zoochorous species (Acaena magellanica, Uncinia compacta) were also well represented. The present data provide quantitative evidence in support of previous, largely hypothetical concerns about the risks of intra-regional propagule transfer in the Antarctic.

Type
Biological Sciences
Copyright
Copyright © Antarctic Science Ltd 2011

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References

Anonymous. 1996. Prince Edward Islands Management Plan. Pretoria, South Africa: Department of Environmental Affairs and Tourism.Google Scholar
Barnes, D.K.A. 2002. Invasions by marine life on plastic debris. Nature, 416, 808809.CrossRefGoogle ScholarPubMed
Barnes, D.K.A.Fraser, K.P.P. 2003. Rafting by five phyla on man-made flotsam in the Southern Ocean. Marine Ecology Progress Series, 262, 289291.CrossRefGoogle Scholar
Bergstrom, D.M.Smith, V.R. 1990. Alien vascular flora of Marion and Prince Edward Islands: new species, present distribution and status. Antarctic Science, 2, 301308.CrossRefGoogle Scholar
Chwedorzewska, K.J. 2008. Poa annua L. in Antarctic: searching for the source of introduction. Polar Biology, 31, 263268.CrossRefGoogle Scholar
De Villiers, M.S.Cooper, J. 2008. Conservation and management. In Chown, S.L. & Froneman, P.W., eds. The Prince Edward Islands: land-sea interactions in a changing ecosystem. Stellenbosch: African SunMedia, 301330.CrossRefGoogle Scholar
De Villiers, M.S., Cooper, J., Carmichael, N., Glass, J.P., Liddle, G.M., Mcivor, E., Micol, T.Roberts, A. 2006. Conservation management at Southern Ocean Islands: towards the development of best practice guidelines. Polarforschung, 75, 113131.Google Scholar
Duncan, R.P., Blackburn, T.M.Sol, D. 2003. The ecology of bird introductions. Annual Review of Ecology, Evolution and Systematics, 34, 7198.CrossRefGoogle Scholar
Fanciulli, P.P., Summa, D., Dallai, R.Frati, F. 2001. High levels of genetic variability and population differentiation in Gressittacantha terranova (Collembola, Hexapoda) from Victoria Land, Antarctica. Antarctic Science, 13, 246254.CrossRefGoogle Scholar
Frenot, Y., Gloaguen, J.C., Masse, L.Lebouvier, M. 2001. Human activities, ecosystem disturbance and plant invasions in sub-Antarctic Crozet, Kerguelen and Amsterdam Islands. Biological Conservation, 101, 3350.CrossRefGoogle Scholar
Frenot, Y., Chown, S.L., Whinam, J., Selkirk, P.M., Convey, P., Skotnicki, M.Bergstrom, D.M. 2005. Biological invasions in the Antarctic: extent, impacts and implications. Biological Reviews, 80, 4572.CrossRefGoogle ScholarPubMed
Gremmen, N.J.M. 1975. The distribution of alien vascular plants on Marion and Prince Edward islands. South African Journal of Antarctic Research, 5, 2530.Google Scholar
Gremmen, N.J.M.Smith, V.R. 1999. New records of alien vascular plants from Marion and Prince Edward Islands, sub-Antarctic. Polar Biology, 21, 401409.CrossRefGoogle Scholar
Gremmen, N.J.M.Smith, V.R. 2008. Terrestrial vegetation and dynamics. In Chown, S.L. & Froneman, P.W.,eds. The Prince Edward Islands: land-sea interactions in a changing ecosystem. Stellenbosch: African SunMedia, 215244.CrossRefGoogle Scholar
Gremmen, N.J.M., Chown, S.L.Marshall, D.J. 1998. Impact of the introduced grass Agrostis stolonifera on vegetation and soil fauna communities at Marion Island, sub-Antarctic. Biological Conservation, 85, 223231.CrossRefGoogle Scholar
Hughes, K.A.Convey, P. 2010. The protection of Antarctic terrestrial ecosystems from inter- and intra-continental transfer of non-indigenous species by human activities: a review of current systems and practices. Global Environmental Change, 20, 92112.CrossRefGoogle Scholar
Hughes, K.A., Convey, P., Maslen, N.R.Smith, R.I.L. 2010. Accidental transfer of non-native soil organisms into Antarctica on construction vehicles. Biological Invasions, 12, 875891.CrossRefGoogle Scholar
Johnson, J.B.Omland, K.S. 2004. Model selection in ecology and evolution. Trends in Ecology and Evolution, 19, 101108.CrossRefGoogle ScholarPubMed
Jones, A.G., Chown, S.L., Ryan, P.G., Gremmen, N.J.M.Gaston, K.J. 2003. A review of conservation threats on Gough Island: a case study for terrestrial conservation in the Southern Oceans. Biological Conservation, 113, 7587.CrossRefGoogle Scholar
Kliber, A.Eckert, C.G. 2005. Interaction between founder effect and selection during biological invasion in an aquatic plant. Evolution, 59, 19001913.Google Scholar
Lee, J.E.Chown, S.L. 2007. Mytilus on the move: transport of an invasive bivalve to the Antarctic. Marine Ecology Progress Series, 339, 307310.CrossRefGoogle Scholar
Lee, J.E.Chown, S.L. 2009a. Breaching the dispersal barrier to invasion: quantification and management. Ecological Applications, 19, 19441959.CrossRefGoogle ScholarPubMed
Lee, J.E.Chown, S.L. 2009b. Quantifying the propagule load associated with the construction of an Antarctic research station. Antarctic Science, 21, 471475.CrossRefGoogle Scholar
Lee, J.E.Chown, S.L. 2009c. Temporal development of hull-fouling assemblages associated with an Antarctic supply vessel. Marine Ecology Progress Series, 386, 97105.CrossRefGoogle Scholar
Lee, J.E., Janion, C., Marais, E., van Vuuren, B.J.Chown, S.L. 2009. Physiological tolerances account for range limits and abundance structure in an invasive slug. Proceedings of the Royal Society of London, B276, 14591468.Google Scholar
Lewis, P.N., Bergstrom, D.M.Whinam, J. 2006. Barging in: a temperate marine community travels to the sub-Antarctic. Biological Invasions, 8, 787795.CrossRefGoogle Scholar
Lewis, P.N., Hewitt, C.L., Riddle, M.McMinn, A. 2003. Marine introductions in the Southern Ocean: an unrecognised hazard to biodiversity. Marine Pollution Bulletin, 46, 213223.CrossRefGoogle ScholarPubMed
Mansfield, B.Gilbert, N. 2008. Availability and applicability of legal tools for managing non-native species. In Rogan-Finnemore, M., ed. Non-native species in the Antarctic. Gateway Antarctica Special Publication, Christchurch, New Zealand, 131164.Google Scholar
McGaughran, A., Torricelli, G., Carapelli, A., Frati, F., Stevens, M.I., Convey, P.Hogg, I.D. 2010. Contrasting phylogeographical patterns for springtails reflect different evolutionary histories between the Antarctic Peninsula and continental Antarctica. Journal of Biogeography, 37, 103119.CrossRefGoogle Scholar
Mortimer, E., Jansen van Vuuren, B., Lee, J.E., Marshall, D.J., Convey, P.Chown, S.L. 2011. Mite dispersal among the Southern Ocean Islands and Antarctica before the last glacial maximum. Proceedings of the Royal Society of London, 10.1098/rspb.2010.1799.Google ScholarPubMed
Myburgh, M., Chown, S.L., Daniels, S.R.van Vuuren, B.J. 2007. Population structure, propagule pressure, and conservation biogeography in the sub-Antarctic: lessons from indigenous and invasive springtails. Diversity and Distributions, 13, 143154.CrossRefGoogle Scholar
Pheloung, P.C., Williams, P.A.Halloy, S.R. 1999. A weed risk assessment model for use as a biosecurity tool evaluating plant distributions. Journal of Environmental Management, 57, 239251.CrossRefGoogle Scholar
Pyšek, P. 1998. Is there a taxonomic pattern to plant invasions? Oikos, 82, 282294.CrossRefGoogle Scholar
R Development Core Team. 2010. R: a language and environment for statistical computing. Vienna: R Foundation for Statistical Computing, http://www.R-project.org.Google Scholar
Richardson, D.M.Pyšek, P. 2006. Plant invasions: merging the concepts of species invasiveness and community invisibility. Progress in Physical Geography, 30, 409431.CrossRefGoogle Scholar
Rogan-Finnemore, M. 2008. Non-native species in the Antarctic. Christchurch, New Zealand: Gateway Antarctica Special Publication, 285 pp.Google Scholar
Ryan, P.G., Smith, V.R.Gremmen, N.J.M. 2003. The distribution and spread of alien vascular plants on Prince Edward Island. African Journal of Marine Science, 25, 555562.CrossRefGoogle Scholar
Smith, R.I.L.Richardson, M. 2011. Fuegian plants in Antarctica: natural or anthropogenically assisted immigrants? Biological Invasions, 13, 15.CrossRefGoogle Scholar
Stevens, M.I.Hogg, I.D. 2003. Long-term isolation and recent range expansion from glacial refugia revealed for the endemic springtail Gomphiocephalus hodgsoni from Victoria Land, Antarctica. Molecular Ecology, 12, 23572369.CrossRefGoogle Scholar
Torricelli, G., Carapelli, A., Convey, P., Nardi, F., Boore, J.L.Frati, F. 2010. High divergence across the whole mitochondrial genome in the pan-Antarctic springtail Friesea grisea: evidence for cryptic species? Gene, 449, 3040.CrossRefGoogle ScholarPubMed
Van De Wouw, M., van Dijk, P.Huiskes, A.H.L. 2008. Regional genetic diversity patterns in Antarctic hairgrass (Deschampsia antarctica Desv.). Journal of Biogeography, 35, 365376.CrossRefGoogle Scholar
Vogel, V., Pedersen, J.S., Giraud, T., Krieger, M.J.B.Keller, L. 2010. The worldwide expansion of the Argentine ant. Diversity and Distributions, 16, 170186.CrossRefGoogle Scholar
Whinam, J., Chilcott, N.Bergstrom, D.M. 2005. Subantarctic hitchhikers: expeditioners as vectors for the introduction of alien organisms. Biological Conservation, 121, 207219.CrossRefGoogle Scholar